Manual VDF Siemens
Manual VDF Siemens
Manual VDF Siemens
10 2003/2004
vector
control
SIMOVERT MASTERDRIVES VC
Single-Motor and
Multi-Motor Drives
0.55 kW to 2300 kW
slewing gear,
spindle drives,
thrust crank.
SIMOVERT
MASTERDRIVES
Vector Control
0.55 kW to 2300 kW
Overview
1
System Description
Catalog DA 65.10
2003/2004
Supersedes:
Catalog DA 65.10 2001
6SE70 Compact PLUS Units
6SE70 Compact and Chassis Units
3
6SE71 Cabinet Units
4
Documentation and Training
5
The products and
systems described in
this catalog are manufactured under application of a quality
management system
certified by DQS in
accordance with
DIN EN ISO 9001 and
DIN EN ISO 14001.
The DQS Certificate is
recognized in all EQ Net
countries.
Engineering Information
6
Dimension Drawings
Appendix Index
Note!
The technical data is intended for general information.
Please observe the operating instructions and the references indicated on the products for installation, operation and
maintenance.
SIMADYN, SIMATIC, SIMATIC HMI, SIMODRIVE, SIMOLINK, SIMOREG, SIMOVERT, SITOR, STEP, STRUC and USS are
Siemens registered trademarks.
All other products and system names in this catalog are (registered) trademarks of their respective owners and must be
treated accordingly.
The technical data, selection and ordering data (Order Nos.), accessories and availability are subject to alteration.
Siemens AG 2003
Vector Control
Overview
1/2
Application
1/4
1/6
List of contents
Unit and system components
Electronic and software options
1/8
1/8
1/1
Overview
Overview
Applications
Top solutions with
engineered drives
The SIMOVERT MASTERDRIVES Vector Control
frequency converters are
voltage-source DC link
converters with fully digital
technology and IGBT inverters which, in conjunction
with Siemens three phase
AC motors, provide highperformance, economical
drives for all industrial sectors and applications.
SIMOVERT MASTERDRIVES
system-based drive
technology
A uniform, modular series
of standard units
The SIMOVERT MASTERDRIVES Vector Control
series of converters is both
uniform and modular in design.
The power output of the
standard units ranges from
0.55 kW to 2300 kW.
All internationally standard
supply voltages from 380 V
to 690 V are covered.
SIMOVERT MASTERDRIVES
The tailored solution
All SIMOVERT MASTERDRIVES share a consistently
uniform design. Throughout
the whole power range, the
units (converters, inverters)
and system components
(rectifier units, braking units)
have a uniform design and a
uniform connection system.
Customer-specific solutions
Cabinets and system
configurations for power
output ranges from 0.55 kW
to 6000 kW can be created
to match specific customer
requirements, with either aircooling or water-cooling in
our application workshop.
Examples of such applications are
multi-motor drives (steelworks and rolling mills,
the paper and plastic-film
industries) and
single drives
in adapted design
(e.g. marine drives)
for test stands (e.g. with
Active Front End for low
supply stressing).
New!
The Compact PLUS series
The youngest member of
the SIMOVERT MASTERDRIVES Vector Control family with power outputs of
0.55 kW to 18.5 kW rounds
off the product range in the
lower power output range.
The Compact PLUS series is
ideal for applications in machines where only limited
space is available.
SIMOVERT MASTERDRIVES
electromagnetically
compatible in any environment
The SIMOVERT MASTERDRIVES frequency converters comply with the relevant EMC standard for power electronics.
EMC compliant installation
enables them to be used in
industry and residential
buildings.
Applications
Designed for world-wide
use
Engineering technology
with maximum benefit to
the customer
The advantages to the
customer are apparent:
solutions, optimized with
regard to price and performance
high quality,
maximum reliability
and as a result
flexible production and
optimized processes.
1/2
1/3
Overview
Overview
Applications
Top solutions with
engineered drives
The SIMOVERT MASTERDRIVES Vector Control
frequency converters are
voltage-source DC link
converters with fully digital
technology and IGBT inverters which, in conjunction
with Siemens three phase
AC motors, provide highperformance, economical
drives for all industrial sectors and applications.
SIMOVERT MASTERDRIVES
system-based drive
technology
A uniform, modular series
of standard units
The SIMOVERT MASTERDRIVES Vector Control
series of converters is both
uniform and modular in design.
The power output of the
standard units ranges from
0.55 kW to 2300 kW.
All internationally standard
supply voltages from 380 V
to 690 V are covered.
SIMOVERT MASTERDRIVES
The tailored solution
All SIMOVERT MASTERDRIVES share a consistently
uniform design. Throughout
the whole power range, the
units (converters, inverters)
and system components
(rectifier units, braking units)
have a uniform design and a
uniform connection system.
Customer-specific solutions
Cabinets and system
configurations for power
output ranges from 0.55 kW
to 6000 kW can be created
to match specific customer
requirements, with either aircooling or water-cooling in
our application workshop.
Examples of such applications are
multi-motor drives (steelworks and rolling mills,
the paper and plastic-film
industries) and
single drives
in adapted design
(e.g. marine drives)
for test stands (e.g. with
Active Front End for low
supply stressing).
New!
The Compact PLUS series
The youngest member of
the SIMOVERT MASTERDRIVES Vector Control family with power outputs of
0.55 kW to 18.5 kW rounds
off the product range in the
lower power output range.
The Compact PLUS series is
ideal for applications in machines where only limited
space is available.
SIMOVERT MASTERDRIVES
electromagnetically
compatible in any environment
The SIMOVERT MASTERDRIVES frequency converters comply with the relevant EMC standard for power electronics.
EMC compliant installation
enables them to be used in
industry and residential
buildings.
Applications
Designed for world-wide
use
Engineering technology
with maximum benefit to
the customer
The advantages to the
customer are apparent:
solutions, optimized with
regard to price and performance
high quality,
maximum reliability
and as a result
flexible production and
optimized processes.
1/2
1/3
Overview
Applications
List
of contents
Overview
ListApplications
of contents
1/2
1/4
Technical
characteristics
Page
Selection and
ordering data
Page
Engineering
information
Page
Dimension
drawings
Page
3/4
3/8
3/18
4/4
3/6
3/10
3/20
4/6
6/2
6/2
6/4
6/2
7/2
7/3
7/3
7/23
Rectifier units
Self-commutating, pulsed
rectifier/regenerative units
Active Front End AFE
Rectifier units
Rectifier/regenerative units
3/24
3/28
3/28
3/26
3/30
3/32
6/23
6/14
6/17
7/3
7/2
7/6
3/38
3/40
6/49
7/9
3/42
3/42
3/42
3/47
3/47
3/73
6/47
6/47
6/47
7/11
7/13
Line fuses
Line commutating reactors
Autotransformers
Radio-interference
suppression filters
3/42
3/47
6/47
7/15
3/36
3/43
3/43
3/43
3/37
3/46
3/56
3/57
6/21
6/48
6/48
6/48
7/8
7/18
DC link components
3/43
3/43
3/57
3/57
6/48
6/48
Load-side components
Output reactors
Output sine filters
Voltage limitation filters
Motor connecting cables
3/43
3/43
3/43
3/44
3/50
3/50
3/51
3/80
6/50
6/52
6/51
6/50
7/19
7/21
7/21
1/3
1/5
Overview
Applications
List
of contents
Overview
ListApplications
of contents
1/2
1/4
Technical
characteristics
Page
Selection and
ordering data
Page
Engineering
information
Page
Dimension
drawings
Page
3/4
3/8
3/18
4/4
3/6
3/10
3/20
4/6
6/2
6/2
6/4
6/2
7/2
7/3
7/3
7/23
Rectifier units
Self-commutating, pulsed
rectifier/regenerative units
Active Front End AFE
Rectifier units
Rectifier/regenerative units
3/24
3/28
3/28
3/26
3/30
3/32
6/23
6/14
6/17
7/3
7/2
7/6
3/38
3/40
6/49
7/9
3/42
3/42
3/42
3/47
3/47
3/73
6/47
6/47
6/47
7/11
7/13
Line fuses
Line commutating reactors
Autotransformers
Radio-interference
suppression filters
3/42
3/47
6/47
7/15
3/36
3/43
3/43
3/43
3/37
3/46
3/56
3/57
6/21
6/48
6/48
6/48
7/8
7/18
DC link components
3/43
3/43
3/57
3/57
6/48
6/48
Load-side components
Output reactors
Output sine filters
Voltage limitation filters
Motor connecting cables
3/43
3/43
3/43
3/44
3/50
3/50
3/51
3/80
6/50
6/52
6/51
6/50
7/19
7/21
7/21
1/3
1/5
Overview
Applications
List
of contents
Overview
ListApplications
of contents
1/2
1/6
Technical
characteristics
Page
Selection and
ordering data
Page
Engineering
information
Page
2/13
2/13
3/92
3/91
6/56
2/10
2/6
2/7
2/8
3/92
3/90
3/90
Control
2/9
2/9
2/3
2/3
2/3
6/15
6/35
6/28
6/32
6/33
6/33
2/4
2/4
6/54
6/54
Communication
Communication
Serial interfaces of the basic units
CBP/CBP2 communication board for
Motion Control with PROFIBUS DP
CBC communication board for CAN
SLB communication board for SIMOLINKr
2/5
2/5
2/5
3/85
3/85
3/85
6/57
6/59
6/61
3/89
3/89
3/89
3/89
3/86
3/89
3/86
3/86
3/89
3/89
3/89
3/89
3/86
3/89
3/86
3/86
6/80
6/80
6/82
6/85
6/67
6/63
6/65
Technology boards
3/87
3/87
3/89
3/87
3/88
3/89
6/69
6/72
6/79
6/84
3/87
3/87
6/53
3/87
3/87
6/53
6/55
6/54
6/54
1/3
1/7
Overview
Applications
List
of contents
Overview
ListApplications
of contents
1/2
1/6
Technical
characteristics
Page
Selection and
ordering data
Page
Engineering
information
Page
2/13
2/13
3/92
3/91
6/56
2/10
2/6
2/7
2/8
3/92
3/90
3/90
Control
2/9
2/9
2/3
2/3
2/3
6/15
6/35
6/28
6/32
6/33
6/33
2/4
2/4
6/54
6/54
Communication
Communication
Serial interfaces of the basic units
CBP/CBP2 communication board for
Motion Control with PROFIBUS DP
CBC communication board for CAN
SLB communication board for SIMOLINKr
2/5
2/5
2/5
3/85
3/85
3/85
6/57
6/59
6/61
3/89
3/89
3/89
3/89
3/86
3/89
3/86
3/86
3/89
3/89
3/89
3/89
3/86
3/89
3/86
3/86
6/80
6/80
6/82
6/85
6/67
6/63
6/65
Technology boards
3/87
3/87
3/89
3/87
3/88
3/89
6/69
6/72
6/79
6/84
3/87
3/87
6/53
3/87
3/87
6/53
6/55
6/54
6/54
1/3
1/7
Overview
e.g.
6SE 7 0 3 1 0EE 6 0 Z
Example:
Multiplier = 10
First two positions of output current: 10
Output current rounded off = 100 A
3 AC 380 V 480 V
Function release
Supplementary order codes for options
Cabinet units
e.g.
6S E 7 1 3 1 6 FD 6 1 3BA 0 Z
Example:
Multiplier = 10
First two positions of output current: 16
Output current rounded off = 160 A
3 AC 500 V 600 V
Function release
Supplementary order codes for options
1/8
Vector Control
System
Description
2
2/3
2/3
System layout
Converters and inverters
Rectifier units and rectifier/regenerative units
Self-commutating, pulsed rectifier/
regenerative units Active Front End AFE
System components
Overcurrent protector units (OCP)
2/3
2/3
2/3
Control functions
Control types
Software functions
Free function blocks
2/2
2/2
2/3
2/4
2/5
2/5
2/7
2/8
2/9
2/9
2/10
2/11
2/12
2/13
2/14
2/1
System Description
System layout
SIMOVERT MASTERDRIVES converters
Designs available:
Single-quadrant operation,
6/12 pulse, line-commutated
Four-quadrant operation,
6-pulse, line-commutated
Four-quadrant operation,
self-commutated with
Active Front End.
tion 4). The converter cabinet units are ready-to-connect cabinets for single and
group drives with options
available for every possible
application.
DA65-5282c
55 kW
37 kW
1700 kW
45 kW
37 kW
2,2
18.5 kW
10
Fig. 2/1
Output power range of SIMOVERT MASTERDRIVES Vector Control
2/2
1000
2300
System Description
The rectifier/regenerative
unit consists of two antiparallel 6-pulse thyristor
bridges and enables the
flow of energy in both
directions, i.e. energy can
be fed back into the power
system (4-quadrant operation). The regenerating
bridge is connected via an
autotransformer (option).
12-pulse operation
Converters for 12-pulse
operation are supplied by
two parallel-connected rectifier or rectifier/regenerative
units with the same output
rating.
They are connected to the
supply via a three-winding
transformer with two secondary windings electrically
displaced by 30 . In this way,
system perturbations are
considerably reduced. The
relevant harmonic currents
of the fifth and seventh order
are almost eliminated when
compared to 6-pulse operation.
Optimum power infeed is ensured by the self-commutating, pulsed rectifier/regener-
System layout
System components
In addition to the converter,
inverter and rectifier basic
units, the system components enable tailor-made
solutions to meet the drive
requirements.
The system components can
be broken down as follows:
Single-quadrant operation,
four-quadrant operation
Units for single-quadrant
operation can only work in
motoring mode. For regenerative mode, a braking unit/
Control functions
Control types
The SIMOVERT MASTERDRIVES Vector Control standard software contains two
principal control types:
Frequency control by
means of the V/f-characteristic curve
with or without speed
feedback and for textile
applications. Frequency
control is suitable for simple applications and for high
level synchronism within
group drives.
Vector control (fieldoriented control)
for dynamic applications in
the form of frequency
control (without encoder)
or speed/torque control
(with encoder). The vector
control method achieves a
dynamic performance
which is comparable to that
of a DC drive. This is based
on precise modeling of the
Software functions
The basic software contains
a wide range of standard
functions. These functions
provide maximum userfriendliness regarding operator control and the highest
degree of flexibility (setpoint
selection, changeover between data sets, etc.). They
also ensure universal operating conditions and a high
level of operational safety
(automatic restart, flying
restart, DC injection braking,
synchronization between
converters, wobble generator, motor brake control,
etc.).
These functions are
described in Section 6.
Control blocks
Computing blocks
Logic blocks
Signalling blocks
Timers.
2/3
System Description
2
MASTERDRIVES
Communication via
serial interfaces
DC
24 V
Basic unit
X9
Basic version:
Two serial interfaces,
COM1 and COM2, as standard on the basic unit
Options:
Communication and interface boards for different
transmission protocols or
bus systems.
V supply
DPRAM
Options
2)
COM1
CBP2
COM2
PROFIBUS DP
2)
CBC
USS protocol
1)
T400
T300
CAN
peer-to-peer
T100
SCB2
USS
protocol
2)
SLB
Fig. 2/2
Overview of interfaces
2/4
SIMOLINK
1)
USS protocol
The USS protocol is a
Siemens-specific transmission protocol for drive technology and is implemented
as a standard protocol on all
interfaces of the basic units.
The USS protocol enables
bus operation of up to a
maximum of 32 nodes on
the basis of the RS485 transmission system.
System Description
Options:
Communication and
interface boards
The PROFIBUS DP and CAN
serial fieldbus systems can
be linked up by means of the
communication boards,
CBP (Communication Board
PROFIBUS DP) or CBC
(Communication Board CAN).
Fast data exchange between
the MASTERDRIVES units is
possible by means of the
SLB (SIMOLINK Board) communication board.
In addition to this, the SCB1
and SCB2 interface boards
(Serial Communication
Board) are available for the
USS protocol and peer-topeer protocol.
The SCB1 and SCB2 are only
available for compact and
chassis units (not available
for Compact PLUS units).
The communication and
interface boards can be
integrated as options into
the electronics box. How the
option boards may be installed and combined in the
electronics box is described
in Section 6 Integrating the
options in the electronics
box.
SIMOLINK
SIMOLINK (Siemens Motion
Link) is a company-specific
development for Siemens
drive technology.
SIMOLINK is mainly used for
extremely fast and strictly
cyclical exchange of process
data (control information,
setpoints, actual values and
additional information) between individual MASTERDRIVES units or between
MASTERDRIVES units and a
higher-level control system
with synchronization of all
connected nodes to a
common system clock pulse.
Transmission protocols
and fieldbus systems
PROFIBUS DP
For Siemens drive technology, PROFIBUS DP is the
standard bus system for all
field applications.
The PROFIBUS DP is specified in the European standard, EN 50 170, and enables
cyclical data exchange between the MASTERDRIVES
units and higher-level systems such as the SIMATIC
S7.
In addition to process control
data, PROFIBUS DP also
carries information for parameterization and diagnosis
of the drives.
The extended functionality
of Motion Control with
PROFIBUS DP (e.g.
slave-to-slave communication between drives) is supported by the CBP2 board.
CAN according to CiA
The CAN protocol (Controller
Area Network) is specified in
the international proposal
ISO DIS 11898 where, however, only the electrical parts
of the physical layer and the
data link layer (Layers 1 and 2
in the ISO/OSI layers reference model) are specified.
In their recommendation
DS 102-1, the CiA (CAN in
Automation, an international
association of users and
manufacturers) defined the
bus interface and the bus
medium for use as an industrial fieldbus.
The specifications in ISO-DIS
11898 and in DS 102-1 are
complied with by the CBC
communication board.
The CBC communication
board only supports CAN
Layers 1 and 2. Higher-level
additional communication
specifications of the different user organizations such
as CAN open of the CiA are
not supported.
2/5
System Description
or a PC with Drive ES or
DriveMonitor, see Fig. 2/3.
Externally via
PMU
OP1S
SIMOVERT
Vector Control
PC
Motion Control
SIMOVERT
Vector Control
Motion Control
Communication
boards
and/or
technology boards
Fig. 2/4
External operator control and
visualization
2/6
System Description
Start-up of converter,
inverter, rectifier unit
Operator control:
ON/OFF (not for Compact
PLUS units);
raise/lower setpoint;
clockwise/counter-clockwise rotation (not for Compact PLUS units)
DA65-6062
P
Da65-5290a
$ ON key
% OFF key
& SUB D socket (X300) as RS485/RS232 interfaces (COM1)
( Reversing key
) Raise key
* Key to toggle between control levels and fault acknowledgement
+ Lower key
Pin
1
2
3
4
5
6
7
8
9
Function, information
Not assigned
Receive line RS232 (V24)
Transmit and receive line, RS485 standard,
two-wire, positive differential input/output
Boot (control signal for software update)
Reference potential supply voltage (M5)
Supply voltage, 5 V (P5)
Transmit line RS232 (V24)
Transmit and receive line RS485 standard,
two-wire, negative differential input/output
Reference potential for RS232 or RS485 interface
(with reactor)
Fig. 2/6
PMU operator control and parameterization unit for compact and chassis units
4
9
3
8
2
7
1
6
DA65-5366
Fig. 2/7
Pin assignment of the SUB D socket X300 or X103
2/7
System Description
8.2 A
9-pin SUB D
connector on
rear of unit
Fault
Run
LED red
LED green
Reversing key
ON key
Raise key
OFF key
Jog
Jog key
Lower key
Key for toggling
between control
levels
+/-
Reset
0 to 9:
numerical keys
Reset key
Sign key
Fig. 2/8
View of the OP1S
Pin
1
2
3
4
5
6
7
8
9
Designation
Description
RS485 P
M5
P5
Ground
5 V voltage supply
PS485 N
X300
9
8
7
6
5
4
3
2
1
Fig. 2/9
OP1S point-to-point connection up to a cable length of 5 m
5
4
3
2
1
9
8
7
6
Unit side:
9-pin SUB D connector
DA65-5289
Connecting cable
OP 1S
OP1S side:
9-pin SUB D socket
2/8
LC display
(4 lines x
16 characters)
Run
25 V
50.000 Hz
50.000 Hz
DA65-5288a
OP1S user-friendly
operator control panel
The OP1S operator control
panel is an optional input/
output device which can be
used for parameterizing the
units. Parameterization is
menu-guided and is performed by selecting the
parameter number and then
entering the parameter
value. Plain-text displays
greatly facilitate parameterization.
System Description
Connecting cable
for 5 m < I 50 m
2
9
8
7
6
9
8
7
6
DA65-5295a
5 V DC
+5%
-
Vsupply
P5V
Vsupply
>
OP1S side
9-pin SUB D socket
Fig. 2/10
OP1S in a point-to-point link with up to 50 m of cable
External 24 V voltage
supply and main-contactor
control
The electronics boards
obtain their power supply
from the power section
(DC link) via a switch-mode
power supply of the
SIMOVERT MASTERDRIVES. If the DC link is discharged, power can no longer be supplied in this way. If
the electronics boards are to
be active even when the
power section has been
switched off, they must be
supplied with 24 V DC via the
X9 control terminal strip (see
page 6/45).
SIMOVERT MASTERDRIVES
have a parameterizable binary
output. This output is pre-assigned to control an external
main contactor via the ON
command of the SIMOVERT
MASTERDRIVES. In conjunction with the main contactor,
the electronics boards must
be supplied with 24 V DC via
the X9 control terminal strip.
2/9
System Description
Fig. 2/11
Trace Function with DriveMonitor
Parameterization of the
T100, T300 and T400 technology boards
PC configuration
(hardware and software
equipment)
Operating systems
Windows 98/ME or
Windows NT/2000/
XP Professional
Screen resolution
800 x 600 or higher
DriveMonitor performance
characteristics
2/10
Recommended system
requirements
Pentium II/500 MHz or
higher
Main memory of
256 MB RAM
Windows 98/ME/NT/
2000/XP Professional
CD-ROM drive (24 x)
Screen resolution
800 x 600 or higher
Free hard-disk memory
of 500 MB
System Description
SIMOVERT MASTERDRIVES
in the world of automation
Automation
system
Field bus:
PROFIBUS DP
CAN
USS protocol
Process control
DriveMonitor
engineering
tool
or
Drive ES Basic
SIMOVERT
MASTER
DRIVES
PLC
PC
Control system
PC
PG
DA65-5292a
SIMOVERT MASTERDRIVES
can easily be linked up to any
automation system, such as
a PLC or an industrial PC (Fig.
2/12). The automation system controls the drives according to the requirements
of the process. To do this,
control data and setpoints
are cyclically transmitted to
the drives. The latter transmit
status data and actual values
back to the automation system. Even process-related
parameter adaption of the
drives is possible (e.g. in the
case of a change in recipe).
USS protocol
Drive-related parameterization
e.g. service and diagnosis
Fig. 2/12
Link between SIMOVERT MASTERDRIVES and a higher-level automation system
2/11
System Description
Software requirements
STEP 5 version 6.x and
higher (DVA_S5).
Detailed documentation on
every software component
is included in the scope of
supply.
Communication control
Communication tracking
PKW attempt counter
Parameter error
Intermediate memory for current PKW task
PKW area
transmit mailbox
PZD area
PKW area
receive mailbox
PZD area
Software functions
One or more data blocks
form the user interface (see
overview above) for the
transfer of user data between the SIMATIC program
and the drives.
Two function blocks are
available for transmitting and
receiving these user data.
A further function block
supports generation and
presetting of the data blocks
necessary for communication.
2/12
System Description
SIMOVERT MASTERDRIVES
in the world of automation
2
Engineering
of drive and automation
with
STEP 7 V 5.0
Automation
system
SIMATIC S7
PC
PG
PROFIBUS DP
Drive-related
parameter assignment,
service and diagnostics
SIMOVERT
MASTER
DRIVES
DA65-5481
Fig. 2/13
Integration of SIMOVERT MASTERDRIVES in the SIMATIC S7 automation system
2/13
System Description
Drive ES
SIMATIC
Drive ES Graphic is the software for the graphical online and offline configuring
of BICO function blocks.
Requirements are an installed Drive ES Basic and
an installed SIMATIC CFC
V 5.1(graphic programming tool, see Catalog
ST 70, Industrial software).
2/14
Drive ES
Basic
Drive ES
Graphic
Configuration
Requirement:
Drive ES Basic
Engineering
Tool CFC V 5.1
Fig. 2/14
Product structure Drive ES
A DA65-5886a
SIMATIC S7
CPUs
STEP 7
CFC
Drive ES SIMATIC
Drive ES Basic
Drive ES PCS7
Commissioning, diagnosis
and parameterization of all
Siemens drives
Standard blocks
for drives
Drive ES Graphic
Graphic configuration of
drive functions and the
PLC functions integrated
in the drives for SIMOVERT
MASTERDRIVES and
SIMOREG DC MASTER
Siemens Drives
Fig. 2/15
Distribution of tasks for the Drive ES range
System Description
Drive ES Basic
Communication via
PROFIBUS DP or USS with
the drive.
Functions
Installation without
STEP 7
Drive ES Basic can also be
installed without STEP 7, by
providing its own drive manager (based on the
SIMATIC manager).
Drive ES Graphic
Offline functionality.
Test mode (online functionality) with Change connection, Change value, Activate
block.
Fig. 2/16
Graphic programming with Drive ES
Graphic and CFC
Drive ES SIMATIC
Features
Block functions
Fig. 2/17
Integrating drives
into the STEP 7
manager
Drive ES PCS7
Block functions
2/15
System Description
Notes
2/16
Vector Control
Compact PLUS,
Compact and Chassis Units
3/3
3/8
3/10
3/18
3/20
Water-cooled converters
Technical characteristics, technical data
Selection and ordering data
3/24
3/26
3/28
3/30
3/36
3/37
3/38
3/40
3/4
3/6
3/46
3/50
3/56
3/62
3/66
3/70
3/78
3/78
3/79
3/80
System components
Technical characteristics
Selection and ordering data, recommended
system components for :
Converters
Converters and inverters
Inverters
Active Front End (AFE)
Rectifier units
Rectifier/regenerative units
Braking units and braking resistors
Capacitor module, DC link module
Mechanical system components
Motor connection cables
3/85
3/86
3/86
3/87
3/87
3/89
3/89
3/89
3/89
3/89
Electronic options
Communication boards CBP2, CBC, SLB
Expansion Boards EB1 and EB2
SBP incremental encoder board
LBA bus adapter, ADA adapter board
T100 and T300 technology boards
SCB1 and SCB2 interface boards
TSY synchronizing board
SCI1 and SCI2 interface boards
DTI digital tachometer interface
VSB voltage sensing board
3/90
3/90
3/91
3/92
3/92
3/93
3/94
3/94
3/94
Other options
Options with code and description
Isolation amplifier boards
Rectifier units for DC 24 V power supply
Coupling relay
3/42
3/1
Fig. 3/1
Compact PLUS units
Fig. 3/2
Compact units
Fig. 3/3
Chassis units
3/2
Converters, inverters, AFE inverters, rectifier units, rectifier/regenerative units and braking units
Cooling type
Air-cooled
Permissible ambient and cooling-medium
temperature during operation
0 C to +40 C (reduction curves for +40 C < T < +50 C, see page 6/3)
Water-cooled
+5 C to +38 C
Cooling water inlet temperature
Permissible ambient temperature during operation 0 C to +40 C
Permissible ambient temperature
during storage and transport
25 C to +70 C
Installation altitude
Humidity rating
Climatic category
Environmental class
Insulation
Overvoltage category
Degree of protection
Protection class
Class I to EN 61 140
Shock protection
Radio-interference suppression
Standard
Options
Additional information
Paint finish
Mechanical specifications
during operation
To EN 60 068-2-6
10 Hz to 58 Hz constant deflection 0.075 mm
58 Hz to 500 Hz constant acceleration 9.8 m/s2 (1 g)
5 Hz to 9 Hz constant deflection 3.5 mm
9 Hz to 500 Hz constant acceleration 9.8 m/s2 (1 g)
during transport
UL File No.
E 145 153
E 145 153
E 145 153
E 233 422
E 145 153
E 145 153
E 103 902
E 167 357
LR 21927
3/3
U2
V2
W2
W1
X9
24 V DC
Supply
1
2
X100
24 V DC
Output
P24V
33
34
M24
Voltage adaptation
Control electronics
ADA65-5975a
Fig. 3/4
Converter
C
U2
V2
W2
X533
Option
K80
Optional devices
P15
1
2
4
3
X100
24 V DC
Supply
33
34
3/4
M
3~
Switchedmode
power supply
Braking resistor
H (external)
V1
U1
P24
K1
Safety relay
ASIC with
trigger
logic
P24V
M24
Voltage adaptation
Control electronics
A DA65-5976a
Fig. 3/5
Inverter with Safe Stopoption
Note:
Rectifier units and inverters
are suitable for operation
connected to an earth-free
power supply. The control
electronics are always
earthed (PELV circuit).
M
3~
= constant
Pulse frequency
Minimum pulse frequency
Factory setting
Maximum setting
Load class II
to EN 60 146-1-1
Base load current
Short-time current
Cycle time
Power factor
fundamental
overall
Efficiency
3 AC
to
DC
to
380 V 15 %
480 V +10 %
510 V 15 %
650 V +10 %
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
50/60 Hz ( 6 %)
0 Hz to 200 Hz
(500 Hz for textile)
8 Hz to 300 Hz
1.7 kHz
2.5 kHz
16 kHz
See also Section 6, Engineering Information
0.91 x rated output current
1.36 x rated output current for 60 s
or
1.60 x rated output current for 30 s
300 s
0.98
0.93 to 0.96
0.96 to 0.98
100
Reduction curves
ADA65-6066
75
50
0
1.7
7.5
12
15 16 kHz 18
Pulse frequency
Safe Stop
L20
M08
Coated boards
Converter
Inverter
in preparation
in preparation
Standard
Option possible
3/5
kW
IN
A
Base
load
current
Shorttime
current1)
Supply
current2)
Singlemotor
drive
Line
current3)
Multimotor
drive
IG
A
Power loss at
2.5 kHz singlemotor drive
(multi-motor
drive)
Order No.
kW
kW
kW
0.55
1.5
1.4
2.4
1.7
2.6
6SE70115EP60
0.05 (0.05)
80
7.5
1.1
3.0
2.7
4.8
3.3
5.3
6SE70130EP60
0.07 (0.08)
80
7.5
1.5
5.0
4.6
8.0
5.5
8.8
6SE70150EP60
0.10 (0.11)
80
8.0
7.3
12.8
8.8
14
6SE70180EP60
0.14 (0.16)
40
10
15
10.0
9.1
16.0
11.0
18
6SE70210EP60
0.15 (0.17)
40
10
15
5.5
14.0
12.7
22.4
15.4
25
6SE70214EP60
0.17 (0.20)
20
20
30
7.5
20.5
18.7
32.8
22.6
36
6SE70221EP60
0.22 (0.26)
20
20
30
11
27.0
24.6
43.2
29.7
48
6SE70227EP60
0.29 (0.34)
11
36
54
15
34.0
30.9
54.4
37.4
60
6SE70234EP60
0.39 (0.46)
11
36
54
7.5
kW
IN
A
Base
load
current
Shorttime
current1)
Rated
DC link
current
IG
A
Power loss at
2.5 kHz
Order No.
kW
2.0
1.8
3.2
2.4
6SE70120TP60
0.05
1.5
4.0
3.6
6.4
4.8
6SE70140TP60
0.06
2.2
6.1
5.6
9.8
7.3
6SE70160TP60
0.07
10.2
9.3
16.3
12.1
6SE70210TP60
0.09
5.5
13.2
12.0
21.1
15.7
6SE70213TP60
0.14
7.5
17.5
15.9
28.0
20.8
6SE70218TP60
0.17
11
25.5
23.2
40.8
30.3
6SE70226TP60
0.22
15
34.0
30.9
54.4
40.5
6SE70234TP60
0.30
18.5
37.5
34.1
60.0
44.6
6SE70238TP60
0.35
3/6
2) Rated supply current for converter without additional inverter. If the converter feeds additional
inverters, the rated supply current is 1.76 x IN.
See also Engineering Information, Section 6.
Dimensions
WxHxD
For
dimension
drawing,
see
Section 7
Weight,
approx.
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
Terminals for
supply line
Motor
finely stranded/
finely stranded/
multi-stranded
multi-stranded
Auxiliary current
requirement 24 V DC
Max. version
(max. at 20 V)
mm
No.
kg
m3/s
dB
mm2
mm2
45 x 360 x 260
3.4
0.002
18
4/ 4
4/ 4
1.3
3.9
0.009
40
4/ 4
4/ 4
1.3
4.1
0.009
40
4/ 4
4/ 4
1.3
90 x 360 x 260
4.5
0.018
37
4/ 4
4/ 4
1.3
90 x 360 x 260
4.5
0.018
37
4/ 4
4/ 4
1.3
10.8
0.041
48
10 / 16
10 / 16
1.5
10.9
0.041
48
10 / 16
10 / 16
1.5
14.7
0.061
59
25 / 35
16 / 25
1.9
14.9
0.061
59
25 / 35
16 / 25
1.9
Dimensions
WxHxD
For
dimension
drawing,
see
Section 7
Weight,
approx.
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
DC bus
Terminals for motor
finely stranded/
multi-stranded
mm
No.
kg
m3/s
dB
DIN 46 433
mm2
Auxiliary current
requirement 24 V DC
Max. version
(max. at 20 V)
A
45 x 360 x 260
3.0
0.002
18
E-Cu 3 x 10
4/ 4
1.3
3.4
0.009
40
E-Cu 3 x 10
4/ 4
1.3
3.4
0.009
40
E-Cu 3 x 10
4/ 4
1.3
90 x 360 x 260
3.8
0.018
37
E-Cu 3 x 10
4/ 4
1.3
8.8
0.041
48
E-Cu 3 x 10
10 / 16
1.5
8.9
0.041
48
E-Cu 3 x 10
10 / 16
1.5
9.0
0.041
48
E-Cu 3 x 10
10 / 16
1.5
12.7
0.061
59
E-Cu 3 x 10
16 / 25
1.7
12.9
0.061
59
E-Cu 3 x 10
16 / 25
1.7
3/7
D C
U1
V1
W1
M
3~
U2
V2
W2
M
3~
Switchedmode
power supply
X9
24 V DC
Supply
2
1
P24V
M24
Voltage adaptation
Control electronics
ADA65-6063
Fig. 3/6
Converters
Switchedmode
power supply
X9
24 V DC
Supply
2
1
P24V
M24
Voltage adaptation
Control electronics
ADA65-6064a
Fig. 3/7
Inverters
3/8
U2
V2
W2
= constant
Pulse frequency
Minimum pulse frequency
Factory setting
Maximum setting
Load class II
to EN 60 146-1-1
Base load current
Short-time current
Cycle time
Power factor
fundamental
overall
Efficiency
3 AC
to
DC
to
380 V 15 %
480 V +10 %
510 V 15 %
650 V +10 %
3 AC
to
DC
to
500 V 15 %
600 V +10 %
675 V 15 %
810 V +10 %
3 AC
to
DC
to
660 V 15 %
690 V +15 %
890 V 15 %
930 V +15 %
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
0 Hz to 200 Hz
max. 500 Hz for textile
depending on output rating
8 Hz to 300 Hz
depending on output rating
0 Hz to 200 Hz
max. 500 Hz for textile
depending on output rating
8 Hz to 300 Hz
depending on output rating
0 Hz to 200 Hz
max. 300 Hz for textile
depending on output rating
8 Hz to 300 Hz
depending on output rating
1.7 kHz
1.7 kHz
2.5 kHz
2.5 kHz
depending on output rating, up to 16 kHz depending on output rating, up to 16 kHz
See also Section 6. Engineering Information
1.7 kHz
2.5 kHz
depending on output rating, up to 7.5 kHz
Reduction curves
ADA65-5385a
16 kHz
9 kHz
7.5 kHz
6 kHz
2.5 kHz
75
50
0
1.7 3
2.5
7.5
12
15 16 kHz 18
Pulse frequency
Inverter
size
AD
EG
J, K
K80
Safe Stop
L03
L30
Basic interference
suppression
Operation with an
IT supply
Integrated DC link fuses
L33
M08
Coated boards
2)
M20
IP20 panels
2)
L20
not possible
For the selection and ordering data of the units with optional electronic boards, see
page 3/85 and the following
as well as Section 6.
Converter
size
AD
EG
1)
Separate DC connection
for dv/dt filter
For a description of options, see page 3/93.
M65
3/9
kW
Base
load
current
Shorttime
current
1)
IUN
IG
Imax.
Rated
DC link
current
Supply Converter
current
(only for
converters)
Inverter
Power loss
at 2.5 kHz
Dimensions
WxHxD
For
Weight
dimen- approx.
sion
drawing,
see
Section 7
mm
No.
Order No.
Order No.
kW
kW
kg
2.2
6.1
5.6
8.3
7.3
6.7
6SE70161EA61
6SE70161TA61
0.11
0.09
90 x 425 x 350
8.5
7.3
10.9
9.5
8.8
6SE70180EA61
6SE70180TA61
0.12
0.10
90 x 425 x 350
8.5
10.2
9.3
13.9
12.1
11.2
6SE70210EA61
6SE70210TA61
0.16
0.12
90 x 425 x 350
8.5
5.5
13.2
12
18.0
15.7
14.5
6SE70213EB61
6SE70213TB61
0.16
0.13
12.5
7.5
17.5
15.9
23.9
20.8
19.3
6SE70218EB61
6SE70218TB61
0.21
0.16
12.5
11
25.5
23.2
34.8
30.4
28.1
6SE70226EC61
6SE70226TC61
0.34
0.27
21
15
34
30.9
46.4
40.5
37.4
6SE70234EC61
6SE70234TC61
0.47
0.37
21
18.5
37.5
34.1
51.2
44.6
41.3
6SE70238ED61
6SE70238TD61
0.60
0.50
32
22
47
42.8
64.2
55.9
51.7
6SE70247ED61
6SE70247TD61
0.71
0.58
32
30
59
53.7
80.5
70.2
64.9
6SE70260ED61
6SE70260TD61
0.85
0.69
32
37
72
65.5
98.3
85.7
79.2
6SE70272ED61
6SE70272TD61
1.06
0.85
32
45
92
84
126
110
101
6SE70310EE60
6SE70310TE60
1.18
1.05
65
55
124
113
169
148
136
6SE70312EF60
6SE70312TF60
1.67
1.35
75
75
146
133
199
174
160
6SE70315EF60
6SE70315TF60
1.95
1.56
75
90
186
169
254
221
205
6SE70318EF60
6SE70318TF60
2.17
1.70
75
110
210
191
287
250
231
6SE70321EG60
6SE70321TG60
2.68
2.18
160
132
260
237
355
309
286
6SE70326EG60
6SE70326TG60
3.40
2.75
160
160
315
287
430
375
346
6SE70332EG60
6SE70332TG60
4.30
3.47
180
200
370
337
503
440
407
6SE70337EG60
6SE70337TG60
5.05
4.05
180
250
510
464
694
607
6SE70351TJ60
5.8
10
350
250
510
464
694
607
561
6SE70351EK60
7.1
12
400
315
590
537
802
702
6.6
10
350
315
590
537
802
702
649
8.2
12
400
400
690
628
938
821
350
400
690
628
938
821
759
500
860
782
1170
1023
630
1100
1000
1496
710
1300
1183
1768
6SE70360TJ60
6SE70360EK60
6SE70370TJ60
8.8
10
6SE70370EK60
10.2
12
400
6SE70386TK60
11.9
10
520
1310
6SE70411TK60
13.4
10
520
1547
6SE70413TL60
14.5
11
625
For units with larger nominal power rating (parallel switched units),
see page 3/16.
3/10
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
Terminals for sizes A to D
Lugs for sizes E to Q
Location: at top for AC/DC, at bottom for motor
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
max. at 20 V 2)
mm2
Retaining bolt
24 V DC
Max. version
max. at 20 V 2)
50 Hz
m3/s
dB
mm2
0.009
60
2.5 to 10
0.009
60
2.5 to 10
0.009
60
0.022
60 Hz
2.5 to 16
1.5
2.5
none
none
2.5 to 16
1.5
2.5
none
none
2.5 to 10
2.5 to 16
1.5
2.5
none
none
60
2.5 to 10
2.5 to 16
1.5
2.5
none
none
0.022
60
2.5 to 10
2.5 to 16
1.5
2.5
none
none
0.028
60
2.5 to 16
10 to 25
1.5
2.5
none
none
0.028
60
2.5 to 16
10 to 25
1.5
2.5
none
none
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.10
69
max. 2 x 70
M 10
1.7
2.7
0.35
0.44
0.14
69
max. 2 x 70
M 10
2.1
3.2
0.43
0.60
0.14
69
max. 2 x 70
M 10
2.1
3.2
0.43
0.60
0.14
69
max. 2 x 70
M 10
2.1
3.2
0.43
0.60
0.31
80
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
0.31
80
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.60
80
max. 4 x 300
M 12/M 16
3.1
4.3
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.88
82
max. 4 x 300
M 12/M 16
3.0
4.2
12.8
22.0
0.92
89
max. 6 x 300
M 12/M 16
3.0
4.2
12.8
22.0
3/11
kW
IUN
IG
Imax.
Supply Converter
current
(only for
converters)
Inverter
Power loss
at 2.5 kHz
Dimensions
Unit measurements
WxHxD
Dimen- Weight
sion
approx.
drawing,
see
Sect. 7
mm
No.
Order No.
Order No.
kW
kW
kg
2.2
4.5
4.1
6.1
5.4
5.0
6SE70145FB61
6SE70145UB61
0.10
0.08
12.5
6.2
5.6
8.5
7.4
6.8
6SE70162FB61
6SE70162UB61
0.11
0.09
12.5
7.8
7.1
10.6
9.3
8.6
6SE70178FB61
6SE70178UB61
0.12
0.10
12.5
13.1
12.1
6SE70211FB61
6SE70211UB61
0.16
0.13
12.5
11
5.5
10
15
15.1
13.7
20.6
18
16.6
6SE70215FB61
6SE70215UB61
0.21
0.17
12.5
11
22
20
30
26.2
24.2
6SE70222FC61
6SE70222UC61
0.32
0.26
21
18.5
29
26.4
39.6
34.5
31.9
6SE70230FD61
6SE70230UD61
0.59
0.51
32
22
34
30.9
46.4
40.2
37.4
6SE70234FD61
6SE70234UD61
0.69
0.59
32
30
46.5
42.3
63.5
55.4
51.2
6SE70247FD61
6SE70247UD61
0.87
0.74
32
37
61
55
83
73
67
6SE70261FE60
6SE70261UE60
0.91
0.75
65
45
66
60
90
79
73
6SE70266FE60
6SE70266UE60
1.02
0.84
65
55
79
72
108
94
87
6SE70280FF60
6SE70280UF60
1.26
1.04
75
75
108
98
147
129
119
6SE70311FF60
6SE70311UF60
1.80
1.50
75
7.5
90
128
117
174
152
141
6SE70313FG60
6SE70313UG60
2.13
1.80
160
110
156
142
213
186
172
6SE70316FG60
6SE70316UG60
2.58
2.18
160
132
192
174
262
228
211
6SE70320FG60
6SE70320UG60
3.40
2.82
180
160
225
205
307
268
248
6SE70323FG60
6SE70323UG60
4.05
3.40
180
200
297
270
404
353
6SE70330UJ60
5.00
10
350
200
297
270
404
353
327
6SE70330FK60
5.80
12
400
250
354
322
481
421
6SE70335UJ60
5.60
10
350
250
354
322
481
421
389
6SE70335FK60
6.80
12
400
315
452
411
615
538
6SE70345UJ60
7.00
10
350
315
452
411
615
538
497
6SE70345FK60
8.30
12
400
400
570
519
775
678
6SE70357UK60
8.90
10
520
450
650
592
884
774
6SE70365UK60
10.00
10
520
630
860
783
1170
1023
6SE70386UK60
11.60
10
520
800
1080
983
1469
1285
6SE70411UL60
11
625
900
1230
1119
1673
1464
6SE70412UL60
11
625
For units with larger nominal power rating (parallel switched units),
see page 3/16.
3/12
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
Terminals for sizes A to D
Lugs for sizes E to Q
Location: at top for AC/DC, at bottom for motor
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
max. at 20 V2)
mm2
Retaining bolt
24 V DC
Max. version
max. at 20 V2)
50 Hz
m3/s
dB (A)
mm2
0.022
60
2.5 to 10
0.022
60
2.5 to 10
0.022
60
0.022
60 Hz
2.5 to 16
1.5
2.5
none
none
2.5 to 16
1.5
2.5
none
none
2.5 to 10
2.5 to 16
1.5
2.5
none
none
60
2.5 to 10
2.5 to 16
1.5
2.5
none
none
0.022
60
2.5 to 10
2.5 to 16
1.5
2.5
none
none
0.028
60
2.5 to 16
10 to 25
1.5
2.5
none
none
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.054
65
2.5 to 35
10 to 50
1.5
2.5
0.35
0.44
0.10
69
max. 2 x 70
M 10
1.7
2.7
0.35
0.44
0.10
69
max. 2 x 70
M 10
1.7
2.7
0.35
0.44
0.14
69
max. 2 x 70
M 10
2.1
3.2
0.43
0.60
0.14
80
max. 2 x 70
M 10
2.1
3.2
0.43
0.60
0.31
80
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
0.31
80
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.88
82
max. 4 x 300
M 12/M 16
3.0
4.2
12.8
22.0
0.92
89
max. 6 x 300
M 12/M 16
3.0
4.2
12.8
22.0
0.92
89
max. 6 x 300
M 12/M 16
3.0
4.2
12.8
22.0
3/13
kW
IUN
IG
Imax.
Supply Converter
current
(only for
converters)
Inverter
Power loss
at 2.5 kHz
Dimensions
Unit measurements
WxHxD
Dimen- Weight
sion
approx.
drawing,
see
Sect. 7
mm
No.
Order No.
Order No.
kW
kW
kg
55
60
55
82
71
66
6SE70260HF60
6SE70260WF60
1.05
0.90
75
75
82
75
112
98
90
6SE70282HF60
6SE70282WF60
1.47
1.24
75
160
90
97
88
132
115
107
6SE70310HG60
6SE70310WG60
1.93
1.68
110
118
107
161
140
130
6SE70312HG60
6SE70312WG60
2.33
2.03
160
132
145
132
198
173
160
6SE70315HG60
6SE70315WG60
2.83
2.43
180
160
171
156
233
204
188
6SE70317HG60
6SE70317WG60
3.50
3.05
180
200
208
189
284
248
229
6SE70321HG60
6SE70321WG60
4.30
3.70
180
350
250
297
270
404
353
250
297
270
404
353
327
315
354
322
481
421
315
354
322
481
421
389
400
452
411
615
538
400
452
411
615
538
497
500
570
519
775
678
6SE70330WJ60
5.80
10
6SE70330HK60
6.60
12
400
6SE70335WJ60
6.30
10
350
6SE70335HK60
7.40
12
400
6SE70345WJ60
7.80
10
350
6SE70345HK60
9.10
12
400
6SE70357WK60
9.40
10
520
520
630
650
592
884
774
6SE70365WK60
11.00
10
800
860
783
1170
1023
6SE70386WK60
13.90
10
520
1000
1080
983
1469
1285
6SE70411WL60
11
625
1200
1230
1119
1673
1464
6SE70412WL60
11
625
For units with larger nominal power rating (parallel switched units),
see page 3/16.
3/14
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
Terminals for sizes A to D
Lugs for sizes E to Q
Location: at top for AC/DC, at bottom for motor
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
max. at 20 V1)
mm2
mm2
Retaining bolt
24 V DC
Max. version
max. at 20 V1)
50 Hz
m3/s
dB
0.14
69
max. 2 x 70
0.14
69
max. 2 x 70
0.31
80
0.31
60 Hz
M 10
2.1
3.2
0.43
0.60
M 10
2.1
3.2
0.43
0.60
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
80
max. 2 x 150
M 12
2.3
3.5
0.76
1.1
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.41
82
max. 2 x 150
M 12
2.3
3.5
0.95
1.4
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.46
77
max. 2 x 300
M 12/M 16
3.0
4.2
2.2
3.4
0.46
77
max. 2 x 300
M 12/M 16
3.1
4.3
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.60
80
max. 4 x 300
M 12/M 16
3.0
4.2
4.5
6.9
0.88
82
max. 4 x 300
M 12/M 16
3.0
4.2
12.8
22.0
0.92
89
max. 6 x 300
M 12/M 16
3.0
4.2
12.8
22.0
0.92
89
max. 6 x 300
M 12/M 16
3.0
4.2
12.8
22.0
3/15
kW
Base
load
current
ShortRated Inverter
time
DC link complete
current1) current
IUN
IG
Imax.
Type2)
Inverter/interphase
transformer chassis
Total
Dimensions
power
Unit measurements
loss at
WxHxD
2.5 kHz
Parallel
switching
device
Dimen- Weight
sion
approx.
drawing,
see
Section 7
Order No.
kW
mm
No.
kg
22.6
10 (2x)
1040
900
1630
1483
2217
1940
900
1630
1483
2217
1940
1300
2470
2248
3359
2940
6SE7041-6TQ603)
without interphase
transformer chassis
6SE7041-6TM604)
with interphase
transformer chassis
6SE7042-5TN603)
without interphase
transformer chassis
Master 6SE7038-6TK86-3AE0
Slave 6SE7038-6TK86-4AE0
1400
11 (2x)
1350
10 (2x)
1150
1500
1150
1400
1274
1904
1666
1000
1400
1274
1904
1666
1100
1580
1438
2149
1880
1100
1580
1438
2149
1880
1500
2050
1866
2788
2440
1700
2340
2129
3182
2785
6SE7041-4UQ603)
without interphase
transformer chassis
6SE7041-4UM604)
with interphase
transformer chassis
6SE7041-6UQ603)
without interphase
transformer chassis
6SE7041-6UM604)
with interphase
transformer chassis
6SE7042-1UN603)
without interphase
transformer chassis
6SE7042-3UN603)
without interphase
transformer chassis
10 (2x)
1500
11 (2x)
1350
11 (2x)
1350
10 (2x)
1150
1500
1150
Master 6SE7041-2UL86-3AE0
Slave 6SE7041-2UL86-4AE0
31.7
1400
1274
1904
1666
1300
1400
1274
1904
1666
1500
1580
1438
2149
1880
1500
1580
1438
2149
1880
1900
2050
1866
2788
2440
2300
2340
2129
3182
2785
3/16
6SE7041-4WQ603)
without interphase
transformer chassis
6SE7041-4WM604)
with interphase
transformer chassis
6SE7041-6WQ603)
without interphase
transformer chassis
6SE7041-6WM604)
with interphase
transformer chassis
6SE7042-1WN603)
without interphase
transformer chassis
6SE7042-3WN603)
without interphase
transformer chassis
10 (2x)
1500
11 (2x)
1350
11 (2x)
1350
4) Delivery in three transport units. DC busbar system and signal cabling to be installed on-site.
Interphase transformer chassis connection
package (for connecting to inverters) included in
scope of delivery.
Cooling air
requirement
Sound
pressure
level
LpA
(1 m)
Power connections
Terminals for sizes A to D
Lugs for sizes E to Q
Location: at top for AC/DC, at bottom for motor
Finely
Single- and
Retaining bolt
stranded
multi-stranded
Auxiliary current
requirement
24 V DC
Standard version
max. at 20 V1)
24 V DC
Max. version
max. at 20 V1)
50 Hz
m3/s
mm2
mm2
dB
1.70
87
max. 2 x 4 x 300
1.70
87
1.84
60 Hz
M 12/M 16
5.2
6.6
13.8
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
13.8
91
max. 2 x 6 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.84
91
max. 2 x 6 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.84
91
max. 2 x 6 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.80
87
max. 2 x 4 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.84
91
max. 2 x 6 x 300
M 12/M 16
5.2
6.6
25.6
44.0
1.84
91
max. 2 x 6 x 300
M 12/M 16
5.2
6.6
25.6
44.0
3/17
Water-cooled converters
Technical characteristics
These frequency converters
bring together the whole
experience gained with
air-cooled SIMOVERT
MASTERDRIVES with a water-cooling system. When
built into the appropriate
cabinets, high degrees of
protection can be achieved,
e.g. IP65.
injection moulding
machines
wire drawing machines
glass drawing machines
main propulsion drives for
ships
cement mills
recycling industry
and the
textile industry.
Unit design
These units have the same
design as the air-cooled
MASTERDRIVES. In the heat
sink area an air/water cooler
is installed through which
water from an external supply flows. The fan used in the
air-cooled units is retained in
order to ensure internal cooling of the boards, electronics
box, capacitors and busbars.
The performance data of the
comparable air-cooled
MASTERDRIVES have been
retained. The unit has a supplementary cooling capacity
under certain conditions (see
technical data), i.e. the cooling circuit, in conjunction
with the converter fan, is
dimensioned so that it can
remove more heat from the
surrounding environment
than the converter can produce.
Compact units
2.2 kW to 37 kW
The degree of protection for
the units is IP20.
The cooling water lines may
be connected from either
above or below. The connections for cooling-water lines
are on the side of the compact unit.The clearance required to an adjacent unit is
approx. 65 mm.
3/18
Chassis units
37 kW to 200 kW
The degree of protection for
the unit is IP00 (IP20 available as an option).
The cooling water lines can
optionally be connected at
the top or bottom.
Chassis units
250 kW to 400 kW
The degree of protection for
the unit is IP00. Higher
degrees of protection can
be achieved by installing the
units in system cabinets.
The cooling water lines can
be connected at the bottom
only.
These units can only release
their own heat losses to the
cooling-water circuit. In
relation to a comparable
air-cooled unit, the fan for the
internal cooling of the unit
has a lower output and is
therefore quieter.
Water-cooled converters
Technical data
Rated voltage
Supply voltage Vsupply
DC link voltage VD
Output voltage
Converter
Inverter
Rated frequency
Supply frequency
Output frequency
V/f = constant
V = constant
Pulse frequency
Minimum pulse frequency
Factory setting
Maximum setting
Load class II
to EN 60 146-1-1
Base load current
Short-time current
Cycle time
Power factor
fundamental
overall
Efficiency
Water cooling
Cooling-water inlet temperature
(temperature of incoming water)
Temperature increase of cooling
water during rated operation
Max. grain size of particles
in water
pH level of cooling water
Conductivity (proportion of
water in the cooling water)
Chloride
Sulphate
Total hardness
Operating pressure
Sizes B to G
Size K
3 AC 380 V 15 %
to 480 V +10 %
510 V DC 15 %
to 650 V DC +10 %
3 AC 500 V 15 %
to 600 V +10 %
675 V DC 15 %
to 810 V DC +10 %
3 AC 660 V 15 %
to 690 V +15 %
890 V DC 15 %
to 930 V DC +15 %
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
3 AC 0 V to Vsupply
3 AC 0 V to 0.75 x VD
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
0 Hz to 200 Hz
8 Hz to 300 Hz
depending on output rating
0 Hz to 200 Hz
8 Hz to 300 Hz
depending on output rating
1.7 kHz
1.7 kHz
1.7 kHz
2.5 kHz
2.5 kHz
2.5 kHz
depending on output rating, up to 16 kHz depending on output rating, up to 16 kHz depending on output rating, up to 7.5 kHz
See also Section 6, Engineering Information
0.91 x rated output current
1.36 x rated output current for 60 s
or
1.60 x rated output current for 30 s for units up to size G and
a supply voltage of max. 600 V.
300 s
0.98
0.93 to 0.96
0.96 to 0.98
ca. 5 K
< 0.1 mm
6.0 to 8.0
< 500 mS/cm
< 40 ppm
< 50 ppm
< 170 ppm
max. 1 bar
max. 2.5 bar
Reduction curves
100
+5 C to +38 C
ADA65-5385b
75
9 kHz
50
0
1.7 3
2.5
7.5
12
7.5 kHz
6 kHz
2.5 kHz
15 16 kHz 18
Pulse frequency
3/19
Water-cooled converters
Selection and ordering data
Nominal Rated
power output
rating
current
kW
Base
load
current
Shorttime
current
1)
IUN
IG
Imax.
Rated
DC link
current
Supply
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Unit measurements
WxHxD
Pressure
drop
at VN
Order No.
kW
mm
No.
bar
kg
l/min
5.5
13.2
12
18
15.7
14.5
6SE70213EB611AA13)
0.16
6; 7
12
1.00
0.20
7.5
17.5
15.9
23.9
20.8
19.3
6SE70218EB611AA13)
0.21
6; 7
12
1.20
0.20
11
25.5
23.2
34.8
30.4
28.1
6SE70226EC611AA13)
0.34
6; 7
24
2.10
0.20
15
34
30.9
46.4
40.5
37.4
6SE70234EC611AA13)
0.47
6; 7
24
2.60
0.20
18.5
37.5
34.1
51.2
44.6
41.3
6SE70238ED611AA13)
0.60
6; 7
35
4.25
0.20
22
47
42.8
64.2
55.9
51.7
6SE70247ED611AA13)
0.71
6; 7
35
4.80
0.20
30
59
53.7
80.5
70.2
64.9
6SE70260ED611AA13)
0.85
6; 7
35
5.25
0.20
37
72
65.5
98.3
85.7
79.2
6SE70272ED611AA13)
1.06
6; 7
35
6.00
0.20
45
92
84
126
110
101
6SE70310EE601AA13)
1.18
8; 9
55
7.25
0.20
55
124
113
169
148
136
6SE70312EF601AA13)
1.67
8; 9
65
9.20
0.20
75
146
133
199
174
160
6SE70315EF601AA13)
1.95
8; 9
65
10.20
0.20
90
186
169
254
221
205
6SE70318EF601AA13)
2.17
8; 9
65
11.10
0.20
110
210
191
287
250
231
6SE70321EG601AA14)
2.68
8; 9
155
16.10
0.20
132
260
237
355
309
286
6SE70326EG601AA14)
3.40
8; 9
155
18.90
0.20
160
315
287
430
375
346
6SE70332EG601AA14)
4.30
8; 9
165
22.40
0.20
200
370
337
503
440
407
6SE70337EG601AA14)
5.05
8; 9
180
25.30
0.20
250
510
464
694
607
561
6SE70351EK601AA0
6.9
12
400
27
0.11
315
590
537
802
702
649
6SE70360EK601AA0
8.0
12
400
28
0.11
400
690
628
938
821
759
6SE70370EK601AA0
9.3
12
460
30
0.13
3/20
Maximum
permissible
operating
pressure
Maximum
additional
cooling
capacity1)
Sound
pressure
level with
standard
protection
degree
IP20/IP002)
LpA
(1 m)
Water-cooled converters
Power connections
Terminals for sizes A to D
Lugs for sizes E to K
Location: at top for AC/DC, at bottom for motor
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
max. at 20 V3)
24 V DC
Max. version
max. at 20 V3)
mm2
Retaining bolt
50 Hz
bar
kW
dB
mm2
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.2
60
2.5 to 16
10 to 25
1.5
2.5
1.0
0.2
60
2.5 to 16
10 to 25
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.7
69
max. 2 x 70
M 10
1.7
2.7
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 4 x 300
M 12/M 16
3.1
4.3
3/21
Water-cooled converters
Selection and ordering data
Nominal Rated
power output
current
rating
kW
Base
load
current
Shorttime
current
1)
IUN
IG
Imax.
Rated
DC link
current
Supply
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Unit measurements
WxHxD
Pressure
drop
at VN
Order No.
kW
mm
No.
l/min
bar
kg
2.2
4.5
4.1
6.1
5.4
5.0
6SE70145FB611AA13)
0.10
6; 7
12
0.80
0.2
6.2
5.6
8.5
7.4
6.8
6SE70162FB611AA13)
0.11
6; 7
12
0.85
0.2
7.8
7.1
10.6
9.3
8.6
6SE70178FB611AA13)
0.12
6; 7
12
0.90
0.2
5.5
11
10
15
13.1
12.1
6SE70211FB611AA13)
0.16
6; 7
12
1.00
0.2
7.5
15.1
13.7
20.6
18
16.6
6SE70215FB611AA13)
0.21
6; 7
12
1.20
0.2
11
22
20
30
26.2
24.2
6SE70222FC611AA13)
0.32
6; 7
24
2.00
0.2
18.5
29
26.4
39.6
34.5
31.9
6; 7
35
3.10
0.2
22
34
30.9
46.4
40.2
37.4
6SE70230FD611AA13) 0.59
6SE70234FD611AA13) 0.69
6; 7
35
3.45
0.2
30
46.5
42.3
63.5
55.4
51.2
6; 7
35
4.15
0.2
37
61
55
83
73
67
6SE70247FD611AA13) 0.87
6SE70261FE601AA13) 0.91
8; 9
55
6.20
0.2
45
66
60
90
79
73
6SE70266FE601AA13)
1.02
8; 9
55
6.85
0.2
55
79
72
108
94
87
6SE70280FF601AA13)
1.26
8; 9
65
7.55
0.2
75
108
98
147
129
119
6SE70311FF601AA13)
1.80
8; 9
65
9.65
0.2
90
128
117
174
152
141
8; 9
155
14.00
0.2
110
156
142
213
186
172
6SE70313FG601AA14) 2.13
6SE70316FG601AA14) 2.58
8; 9
155
15.70
0.2
132
192
174
262
228
211
8; 9
180
18.90
0.2
160
225
205
307
268
248
6SE70320FG601AA14) 3.40
6SE70323FG601AA14) 4.05
8; 9
180
21.40
0.2
200
297
270
404
353
327
6SE70330FK601AA0
5.70
12
400
20
0.06
250
354
322
481
421
389
6SE70335FK601AA0
6.60
12
400
23
0.08
315
452
411
615
538
497
6SE70345FK601AA0
8.05
12
400
28
0.11
6SE70260HF601AA13) 1.05
6SE70282HF601AA13) 1.47
6SE70310HG601AA14) 1.93
8; 9
65
6.75
0.2
8; 9
155
8.40
0.2
8; 9
155
12.45
0.2
6SE70312HG601AA14) 2.33
6SE70315HG601AA14) 2.83
8; 9
155
14.75
0.2
8; 9
180
16.70
0.2
8; 9
180
19.25
0.2
8; 9
250
22.35
0.2
60
55
82
71
66
75
82
75
112
98
90
90
97
88
132
115
107
110
118
107
161
140
130
132
145
132
198
173
160
160
171
156
233
204
188
200
208
189
284
248
229
6SE70317HG601AA14) 3.50
6SE70321HG601AA14) 4.30
250
297
270
404
353
327
6SE70330HK601AA0
6.40
12
400
21
0.06
315
354
322
481
421
389
6SE70335HK601AA0
7.20
12
400
24
0.08
400
452
411
515
538
497
6SE70345HK601AA0
8.80
12
400
30
0.13
3/22
Maximum
permissible
operating
pressure
Maximum
additional
cooling
capacity1)
Sound
pressure
level with
standard
protection
degree
IP20/IP002)
LpA
(1 m)
Water-cooled converters
Power connections
Terminals for sizes A to D
Lugs for sizes E to K
Location: at top for AC/DC, at bottom for motor
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
max. at 20 V3)
24 V DC
Max. version
max. at 20 V3)
Retaining bolt
50 Hz
bar
kW
dB
mm2
mm2
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.1
60
2.5 to 10
2.5 to 16
1.5
2.5
1.0
0.2
60
2.5 to 16
10 to 25
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.5
65
2.5 to 35
10 to 50
1.5
2.5
1.0
0.7
69
max. 2 x 70
M 10
1.7
2.7
1.0
0.7
69
max. 2 x 70
M 10
1.7
2.7
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
1.5
80
max. 2 x 70
M 10
2.1
3.2
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
0.7
69
max. 2 x 70
M 10
2.1
3.2
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
80
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
1.0
1.5
82
max. 2 x 150
M 12
2.3
3.5
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
2.5
76
max. 2 x 300
M 12/M 16
3.1
4.3
3/23
Technical characteristics
The design of the power
section of AFE inverters is
identical to that of the
standard inverters of the
SIMOVERT MASTERDRIVES series. It is therefore
not necessary to keep
special spare parts for AFE
inverters.
The CUSA control board
makes a standard inverter
into an AFE inverter.
N.B.!
system components:
VSB voltage sensing
board
Precharger
Main contactor
AFE reactor.
3
Compact units
Chassis units
In order to facilitate handling
when chassis units are used,
all the necessary system
components together with
some supply components,
Supply
3 AC
Supply
3 AC
Main switch
in the form of a
switch disconnector
fuse switch disconnector
switch disconnector with fuse-base
Semiconductor-protection fuses
Option:
Radio interference suppression filter
without supplementary order code,
only with order number
Option:
Radio interference suppression
filter for the supply connecting
module obtainable with the supplementary order code L00
EMC
EMC
230 V AC
24 V DC
Main contactor
Main contactor
Option:
Clean Power Filter
without supplementary order code,
only with order number
AFE reactor
VSB
Supply voltage detection
Voltage Sensing Board
VSB
AFE inverter
C
U
S
A
C
U
S
A
Vdc
Fig. 3/8
AFE compact units
Siemens DA 65.10 2003/2004
ADA65-5855b
ADA65-5854b
3/24
Vdc
Fig. 3/9
AFE chassis units
AFE inverter
with CUSA control board and
DC fuses
Rated frequency
Supply frequency
Load class II
to EN 60 146-1-1
Base load current
Short-time-current
Cycle time
Supply power factor
fundamental
overall
Efficiency
3 AC 380 V 20 %
to
460 V + 5 %
Factory setting
600 V DC for compact units
632 V DC for chassis and
cabinet units
Minimum
1.5x rms value of the
supply voltage
Maximum
740 V DC
3 AC 500 V 20 %
to
575 V + 5 %
Factory setting
790 V DC for chassis and
cabinet units
3 AC 660 V 20 %
to
690 V + 5 %
Factory setting
1042 V DC for chassis and
cabinet units
Minimum
1.5x rms value of the
supply voltage
Maximum
920 V DC
Minimum
1.5x rms value of the
supply voltage
Maximum
1100 V DC
50/60 Hz ( 10 %)
see also Engineering Information,
Section 6
50/60 Hz ( 10 %)
50/60 Hz ( 10 %)
1 (Factory setting)
> 0.99
> 0.98
100
Reduction curves
For reduction factors due to different
installation conditions (installation
altitude, ambient temperature),
see Section 6.
ADA65-6065
75
50
0
1.7
7.5
12
15 16 kHz 18
Pulse frequency
6 kHz
3 kHz
3/25
Short-time
rectifier/
regenerative
output
at cos j = 1
and 400 V
supply voltage
Pmax.
Rated
input
current
3 AC
from/to
line
Base load
input
current
3 AC
from/to
line
Short-time
input
current
3 AC
from/to
line
IUN
IG
Imax.
kW
kW
AFE
inverter
with CUSA
control unit
6SE70900XX840BJ0
Order No.
Power
loss
Dimensions
Unit measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Pv
Spare
parts
as for VC
inverter
with nominal
power
rating
Ptype
kW
kW
mm
No.
kg
6.8
11
10.2
9.2
16.3
6SE70210EA81
0.14
14
13.2
11.9
21.1
6SE70213EB81
0.18
5.5
12
19
17.5
15.8
28.0
6SE70218EB81
0.24
17
27
25.5
23.0
40.8
6SE70226EC81
0.34
7.5
11
90 x 425 x 350
12
12
24
23
37
34
31
54
6SE70234EC81
0.46
15
24
32
51
47
42
75
6SE70247ED81
0.63
22
35
40
63
59
53
94
6SE70260ED81
0.79
30
35
49
78
72
65
115
6SE70272ED81
0.98
37
35
63
100
92
83
147
6SE70310EE80
1.06
45
55
85
135
124
112
198
6SE70312EF80
1.44
55
65
100
159
146
131
234
6SE70315EF80
1.69
75
65
125
200
186
167
298
6SE70318EF80
2.00
90
65
143
228
210
189
336
6SE70321EG80
2.42
110
155
177
282
260
234
416
6SE70326EG80
3.00
132
155
214
342
315
284
504
6SE70332EG80
3.64
160
155
250
400
370
333
592
6SE70337EG80
4.25
200
155
81
61
55
98
6SE70261FE80
0.86
37
55
56
90
66
59
106
6SE70266FE80
0.95
45
55
67
107
79
71
126
6SE70280FF80
1.14
55
65
92
147
108
97
173
6SE70311FF80
1.47
75
65
109
174
128
115
205
6SE70313FG80
1.85
90
155
132
212
156
140
250
6SE70316FG80
2.25
110
155
164
262
192
173
307
6SE70320FG80
2.78
132
155
192
307
225
203
360
6SE70323FG80
3.26
160
155
65
96
60
54
82
6SE70260HF80
1.19
55
96
131
82
74
112
6SE70282HF80
1.63
75
65
114
155
97
87
132
6SE70310HG80
1.83
90
155
138
188
118
106
160
6SE70312HG80
2.35
110
155
170
231
145
131
197
6SE70315HG80
2.89
132
155
200
272
171
154
233
6SE70317HG80
3.40
160
155
245
333
208
187
283
6SE70321HG80
4.16
200
155
3/26
Cooling air
requirement
Sound
pressure
level with
standard
protection
degree
IP20/IP00
LpA
(1 m)
50 Hz
Power connections
Terminals for sizes A to D
Lugs for sizes E to G
Location: at bottom for AFE reactor,
at top for DC link connection
Finely
stranded
Single- and
multi-stranded
24 V DC
Standard version
mm2
m3/s
dB
mm2
0.009
60
2.5 to 10
0.022
60
2.5 to 10
0.022
60
0.028
0.028
Retaining bolt
24 V DC
Max. version
1-ph. 230 V
fan for AFE inverter units
50 Hz
60 Hz
2.5 to 16
none
none
2.5 to 16
none
none
2.5 to 10
2.5 to 16
none
none
60
2.5 to 16
10 to 25
none
none
60
2.5 to 16
10 to 25
none
none
0.054
65
2.5 to 35
10 to 50
0.35
0.44
0.054
65
2.5 to 35
10 to 50
0.35
0.44
0.054
65
2.5 to 35
10 to 50
0.35
0.44
0.11
69
max. 2 x 70
M 10
0.15
70
max. 2 x 70
M 10
0.15
70
max. 2 x 70
M 10
0.15
70
max. 2 x 70
M 10
0.33
81
max. 2 x 150
M 12
0.33
81
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
0.11
70
max. 2 x 70
M 10
0.11
70
max. 2 x 70
M 10
0.15
70
max. 2 x 70
M 10
0.15
81
max. 2 x 70
M 10
0.33
81
max. 2 x 150
M 12
0.33
81
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
0.15
70
max. 2 x 70
M 10
0.15
70
max. 2 x 70
M 10
0.32
81
max. 2 x 150
M 12
0.32
81
max. 2 x 150
M 12
0.44
81
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
0.44
83
max. 2 x 150
M 12
The AFE chassis units are offered with the line connecting module
(see system components) as standard.
The auxiliary power supply 24 V DC and 230 V AC and the fusing are
incorporated in the matching line connecting module.
The AFE chassis units are offered with the line connecting module
(see system components) as standard.
The auxiliary power supply 24 V DC and 230 V AC and the fusing are
incorporated in the matching line connecting module.
The AFE chassis units are offered with the line connecting module
(see system components) as standard.
The auxiliary power supply 24 V DC and 230 V AC and the fusing are
incorporated in the matching line connecting module.
3/27
Technical characteristics
Rectifier units supply the DC
bus for inverters with motoring energy and enable operation of a multi-motor system.
The Compact PLUS rectifier
units have an integrated
braking chopper. For regenerative mode, these rectifier
units require only an external
braking resistor.
Rectifier/regenerative units
supply the DC bus for
inverters with motoring
energy from a three-phase
system and return regenerative energy from the DC bus
to the power system. This is
achieved using two independent thyristor bridges.
The regenerating bridge is
connected via an
autotransformer.
The advantages of using an
autotransformer are as follows:
3/28
Technical data
Rated voltage
Supply voltage,
motoring
Supply voltage,
generating
Output voltage
DC link voltage
3 AC 380 V 15 %
to
480 V +10 %
3 AC 455 V 15 %
to
576 V +10 %
510 V DC 15 %
to 650 V DC +10 %
3 AC 500 V 15 %
to
600 V +10 %
3 AC 600 V 15 %
to
720 V +10 %
675 V DC 15 %
to 810 V DC +10 %
3 AC 660 V 15 %
to
690 V +15 %
3 AC 790 V 15 %
to
830 V +15 %
890 V DC 15 %
to 930 V DC +15 %
Rated frequency
Supply frequency
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
Load class II
to EN 60 146-1-1
Base load current
Short-time current
Cycle time
Overload duration
Power factor, motoring
supply fundamental
overall
Efficiency
0.98
0.93 to 0.96
0.99 to 0.995
K91
M20
IP20 panels
Rectifier unit
Size
Compact
PLUS
B, C
Standard
Option possible
not possible
Rectifier/regenerative unit
Size
E
H, K
H, K
3/29
Rectifier units
Selection and ordering data
Nominal
power
rating1)
Rated
DC link
current
DC link
base load
current
DC link
Supply
short-time current2)
current
Rectifier unit
Max.
power
loss
kW
Order No.
kW
19
kW
kW
20
30
15
41
664)
36
6SE70241EP850AA0
0.13
50
120
1924)
108
6SE70312EP850AA0
0.27
6.5
60
90
100
230
3684)
207
6SE70323EP850AA0
0.60
3.4
116
174
41
37
56
36
6SE70241EB850AA0
0.12
37
86
78
117
75
6SE70286EC850AA0
0.26
75
173
157
235
149
6SE70317EE850AA0
0.62
110
270
246
367
233
6SE70327EE850AA0
0.86
160
375
341
510
326
6SE70338EE850AA0
1.07
200
463
421
630
403
6SE70346EE850AA0
1.32
250
605
551
823
526
6SE70361EE850AA0
1.67
400
821
747
1117
710
6SE70382EH850AA03)
3.29
500
1023
931
1391
888
6SE70410EH850AA03)
3.70
630
1333
1213
1813
1156
6SE70413EK850AA03)
4.85
800
1780
1620
2421
1542
6SE70418EK850AA03)
6.24
41
37
56
36
6SE70241FB850AA0
0.21
37
72
66
98
63
6SE70272FC850AA0
0.22
55
94
86
128
81
6SE70288FC850AA0
0.28
75
142
129
193
123
6SE70314FE850AA0
0.65
132
235
214
320
203
6SE70324FE850AA0
0.97
200
354
322
481
307
6SE70335FE850AA0
1.25
250
420
382
571
366
6SE70342FE850AA0
1.27
315
536
488
729
465
6SE70354FE850AA0
1.74
400
774
704
1053
671
6SE70377FH850AA03)
3.30
630
1023
931
1391
888
6SE70410FH850AA03)
4.03
800
1285
1169
1748
1119
6SE70413FK850AA03)
5.40
900
1464
1332
1991
1269
6SE70415FK850AA03)
5.87
1100
1880
1711
2557
1633
6SE70418FK850AA03)
6.65
222
202
302
194
6SE70322HE850AA0
1.08
250
354
322
481
308
6SE70335HE850AA0
1.33
315
420
382
571
366
6SE70342HE850AA0
1.58
400
536
488
729
465
6SE70354HE850AA0
2.02
630
774
704
1053
671
6SE70377HH850AA03)
3.70
800
1023
931
1391
888
6SE70410HH850AA03)
4.15
1000
1285
1169
1748
1119
6SE70413HK850AA03)
5.54
1100
1464
1332
1991
1269
6SE70415HK850AA03)
6.00
1500
1880
1711
2557
1633
6SE70418HK850AA03)
7.62
3/30
Vsupply
3 IVsupply
Dimensions
WxHxD
Dimension
drawing,
see Section 7
Weight Cooling
approx. air
requirement
Sound
pressure
level with
standard
protection
degree
IP20/IP00
LpA
(1 m)
Rectifier units
Power connections
Terminals for sizes B, C and P
Lugs for sizes E, H and K
Location: at bottom for AC, at top for DC
Finely
stranded
Single- and
multistranded
24 V DC
Standard
version max.
at 20 V1)
mm2
Retaining bolt
1-ph. or
24 V DC
Max. version 2-ph. 230 V
max. at 20 V1) fan
50 Hz
mm
No.
kg
m3/s
dB
mm2
50 Hz
60 Hz
90 x 360 x 260
13.3
0.018
60
10
10
0.5
6.0
0.041
68
50
50
0.7
2.7
0.053
65
95
95
0.7
12
0.022
60
2.5 to 10
0.5
none
none
18
0.028
60
2.5 to 35
0.5
none
none
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 16
0.3
0.6
0.75
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
17
260
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
17
300
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
12
0.022
60
2.5 to 10
2.5 to 16
0.5
none
none
18
0.028
60
2.5 to 35
10 to 50
0.5
none
none
18
0.028
60
2.5 to 35
10 to 50
0.5
none
none
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 16
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 16
0.3
0.6
0.75
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
17
260
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
17
300
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
17
300
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 12
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 16
0.3
0.6
0.75
14
45
0.2
75
2 x 300
M 16
0.3
0.6
0.75
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
15
130
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
17
260
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
17
300
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
17
300
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
2.5 to 16
10
to 50
3/31
Rectifier/regenerative units
Selection and ordering data
Nominal
power
rating1)
Rated
DC link
output
current4)
Base
load
DC link
current4)
Shorttime
DC link
current4)
Input
current2)
Rectifier/
regenerative unit3)
Max.
power
loss
Dimensions
WxHxD
Dimension
drawing,
see
Section 7
Weight
approx.
kW
Order No.
kW
mm
No.
kg
21
19
29
18
6SE70221EC851AA0
0.15
23
15
41
37
56
35
6SE70241EC851AA0
0.20
23
37
86
78
117
74
6SE70286EC851AA0
0.31
23
75
173
157
235
149
6SE70317EE851AA0
0.69
14
45
90
222
202
302
192
6SE70322EE851AA0
0.97
14
45
132
310
282
422
269
6SE70331EE851AA0
1.07
14
45
7.5
160
375
341
510
326
6SE70338EE851AA0
1.16
14
52
200
463
421
630
403
6SE70346EE851AA0
1.43
14
52
250
605
551
823
526
6SE70361EE851AA0
1.77
14
65
400
821
747
1117
710
6SE70382EH851AA0
3.29
16
175
175
500
1023
931
1391
888
6SE70410EH851AA0
3.70
16
630
1333
1213
1813
1156
6SE70413EK851AA0
4.85
18
450
800
1780
1620
2421
1542
6SE70418EK851AA0
6.24
18
470
27
25
37
23
6SE70227FC851AA0
0.19
23
22
41
37
56
35
6SE70241FC851AA0
0.21
23
37
72
66
98
62
6SE70272FC851AA0
0.30
23
55
94
86
128
81
6SE70288FC851AA0
0.35
23
90
151
137
205
130
6SE70315FE851AA0
0.76
14
45
132
235
214
320
202
6SE70324FE851AA0
1.14
14
45
160
270
246
367
232
6SE70327FE851AA0
1.11
14
45
200
354
322
481
307
6SE70335FE851AA0
1.36
14
55
250
420
382
571
366
6SE70342FE851AA0
1.38
14
55
315
536
488
729
465
6SE70354FE851AA0
2.00
14
68
450
774
704
1053
671
6SE70377FH851AA0
3.30
16
175
630
1023
931
1391
888
6SE70410FH851AA0
4.03
16
175
800
1285
1169
1748
1119
6SE70413FK851AA0
5.40
18
450
900
1464
1332
1991
1269
6SE70415FK851AA0
5.87
18
450
1100
1880
1711
2557
1633
6SE70418FK851AA0
7.65
18
470
140
127
190
120
6SE70314HE851AA0
0.82
14
65
160
222
202
302
191
6SE70322HE851AA0
1.26
14
65
200
270
246
367
232
6SE70327HE851AA0
1.15
14
55
315
420
382
571
366
6SE70342HE851AA0
1.68
14
55
400
536
488
729
465
6SE70353HE851AA0
1.81
14
70
630
774
704
1053
671
6SE70377HH851AA0
3.70
16
175
800
1023
931
1391
888
6SE70410HH851AA0
4.15
16
175
1000
1285
1169
1748
1119
6SE70413HK851AA0
5.54
18
450
1100
1464
1332
1991
1269
6SE70415HK851AA0
6.00
18
450
1500
1880
1711
2557
1633
6SE70418HK851AA0
7.62
18
470
3/32
Cooling air
requirement
Sound
pressure
level with
standard
protection
degree
IP20/IP00
LpA
(1 m)
Rectifier/regenerative units
Power connections
Terminals for size C
Lugs for sizes E, H, K
Location: AC motoring at top for sizes C, H, K;
at bottom for size E
DC at top for sizes C, E, H, K
AC generating at bottom for sizes C, E, H, K
Finely
Single- and
Retaining bolt
stranded
multi-stranded
24 V DC
Standard version
max. at 20 V1)
24 V DC
Max. version
max. at 20 V1)
50 Hz
50 Hz
60 Hz
m3/s
dB
mm2
mm2
0.028
60
2.5 to 35
10 to 50
0.9
2.0
none
none
0.028
60
2.5 to 35
10 to 50
0.9
2.0
none
none
0.028
60
2.5 to 35
10 to 50
0.9
2.0
none
none
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 16
0.7
2.0
0.60
0.75
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
0.028
60
2.5 to 35
10 to 50
0.7
2.0
none
none
0.028
60
2.5 to 35
10 to 50
0.7
2.0
none
none
0.028
60
2.5 to 35
10 to 50
0.7
2.0
none
none
0.028
60
2.5 to 35
10 to 50
0.7
2.0
none
none
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 12
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 16
0.7
2.0
0.60
0.75
0.2
75
2 x 300
M 16
0.7
2.0
0.60
0.75
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
0.70
80
4 x 300
M 12
1.0
2.3
2.8
3.5
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
0.2
75
2 x 300
M 12
0.2
75
2 x 300
0.2
75
2 x 300
0.2
75
2 x 300
M 16
0.2
75
2 x 300
0.70
80
0.70
1.00
0.7
2.0
0.60
0.75
0.7
2.0
0.60
0.75
0.7
2.0
0.60
0.75
0.7
2.0
0.60
0.75
M 16
0.7
2.0
0.60
0.75
4 x 300
M 12
1.0
2.3
2.8
3.5
80
4 x 300
M 12
1.0
2.3
2.8
3.5
86
4 x 300
M 12
1.0
2.3
5.6
7.0
1.00
86
4 x 300
M 12
1.0
2.3
5.6
7.0
1.00
86
3/33
Rated
DC link
output
current
2)3)
Base
load
DC link
current3)
Short- Input
time
current
DC link
current3)
Rectifier unit
Rectifier/
regenerative unit
Max.
power
loss
Dimensions
WxHxD
Dimen- Weight
sion
approx.
drawing,
see
Section
7
kW
Order No.
Order No.
kW
mm
No.
kg
630
1333
1213
1813
1146
6SE70413EK850AD0
4.85
17
260
630
1333
1213
1813
1146
6SE70413EK851AD0
4.85
18
450
800
1780
1620
2421
1531
6SE70418EK850AD0
6.24
17
300
800
1780
1620
2421
1531
6SE70418EK851AD0
6.24
18
470
1285
1169
1748
1105
6SE70413FK850AD0
5.40
17
260
800
1285
1169
1748
1105
6SE70413FK851AD0
5.40
18
450
900
1464
1332
1991
1259
6SE70415FK850AD0
5.87
17
300
900
1464
1332
1991
1259
6SE70415FK851AD0
5.87
18
450
1100
1880
1711
2557
1617
6SE70418FK850AD0
6.65
17
300
1100
1880
1711
2557
1617
6SE70418FK851AD0
6.65
18
470
1285
1169
1748
1105
6SE70413HK850AD0
5.54
17
260
1000
1285
1169
1748
1105
6SE70413HK851AD0
5.54
18
450
1100
1464
1332
1991
1259
6SE70415HK850AD0
6.00
17
300
1100
1464
1332
1991
1259
6SE70415HK851AD0
6.00
18
450
1500
1880
1711
2557
1617
6SE70418HK850AD0
7.62
17
300
1500
1880
1711
2557
1617
6SE70418HK851AD0
7.62
18
470
3/34
1 n 3.
3) Engineering Information:
In generating mode only 92 % of the indicated
current value is permissible .
Power connections
Auxiliary current requirement
Lugs for size K
Location: Rectifier units:
at bottom for AC, at top for DC
Regenerative unit: at top for AC motoring
at bottom for AC generating
at top for DC
Cable
cross-section
Retaining bolt
24 V DC
Standard version
max. at 20 V1)
24 V DC
Max. version
max. at 20 V1)
50 Hz
60 Hz
50 Hz
m3/s
dB
mm2
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
1.0
86
4 x 300
M 12
0.5
5.6
7.0
3/35
Technical characteristics
The OCP (overcurrent protector unit) is an autonomous
module of the SIMOVERT
MASTERDRIVES series. It
can also be easily retrofitted
to already existing equipment that includes rectifier/
regenerative units from the
SIMOVERT MASTERDRIVES
range.
An AFE
prevents or eliminates
inverter stalling (the OCP
minimizes the negative
effects of switch-off)
Rectifier/regenerative unit
Inverter
ADA65-6053
Fig. 3/10
Technical data
Cooling-medium temperature
Permissible ambient temperature
during storage and transport
Cooling air requirement
Climatic category
Pollution degree
Overvoltage category
(power section)
Overvoltage strength
(with connected inverter)
Degree of protection
Immunity
Mechanical specifications
Sound pressure level LpA (1 m)
50 Hz
60 Hz
0 C to +40 C
25 C to +70 C
0.55 m3/s
3K3 to DIN IEC 721-3-3/04.90
Pollution degree 2
to DIN VDE 0110 Part 1/01.89,
Moisture condensation not
permissible
Category III to
DIN VDE 0110 Part 2/01.89
Class 1 to DIN VDE 0160/04.91
IP00 to EN 60 529
(DIN VDE 0470 Part 1/11.92)
IEC 801-2, IEC 801-4
To DIN IEC 60 068-2-6/06.90
Rectifying mode
136%
Load class II
Load class I
100%
91%
A DA65-6054a
Regenerating mode
60 s
240 s
80 dB
83 dB
Fig. 3/11
Base load and overload to load class II to EN 60 146-1-1
3/36
Infeed
current
A
Regenerative
current
A
Base
DC link short-time
load
current
duration
Infeed
current
s
Regenerative
current
A
Dimensions
WxHxD
Dimen- Weight
sion
approx.
drawing,
see
Section
7
No.
mm
No.
kW
kW
Order No.
kg
75
75
945
930
860
240
1390
1280
3/11
1.1
2.3
1780
1640
1620
1500
240
2430
2030
3/11
1.6
75
945
930
860
240
1390
1280
3/11
1.1
2.4
1880
1730
1711
1580
240
2566
2350
3/11
1.7
4.6
75
Rectifier/regenerative unit
Type
Type
Type
Type
Type
Type
6SE70382EH85
1AA0
6SE70410EH85
1AA0
6SE70418TS85
5JA0
6SE70413EK85
1AA01)
6SE70418EK85
1AA01)
6SE70410FH85
1AA0
6SE70415FK85
1AA01)
6SE70377HH85 6SE70410HH85
1AA0
1AA0
6SE70418FK85
1AA01)
6SE70413HK85 6SE70415HK85
1AA01)
1AA01)
Rectifying mode
100
Permissible rated current
Reduction curves
6SE70418HK85
1AA01)
Regenerating mode
%
90
85
80
75
70
ADA65-6055
60
10
20
30
40
50
Cooling-medium temperature
3/37
Technical characteristics
Braking units
5 kW to 20 kW
Degree of protection IP20
Braking units
50 kW to 200 kW
Degree of protection IP20
Braking units of 50 kW to
200 kW require an external
load resistor which has to be
connected to the braking
unit.
Braking resistor
Degree of protection IP20
More information
regarding dimensioning of
the braking units and braking
resistors can be found in section 6, Engineering Information.
Fig. 3/12
Braking unit and braking resistor for compact and chassis units
Fig. 3/13
Braking resistor for Compact PLUS units
3/38
Technical data
Rated voltage
DC link voltage
510 V DC 15 %
to 650 V DC +10 %
675 V DC 15 %
to 810 V DC +10 %
890 V DC 15 %
to 930 V DC +15 %
Thresholds
Upper threshold 1
Lower threshold 2
774 V
673 V
967 V
841 V
1158 V
1070 V
Load class II
to EN 60 146-1-1
Rated power P20
Continuous power PDB
Short-time power P3
Cycle time
Overload duration
P20 power at the upper threshold: The duration is a function of the internal or external resistor
Continuous power at the upper threshold: The value is dependent on the internal and external resistor
1.5 x P20 power at the upper threshold: The duration is a function of the internal and external resistor
90 s
20 s (22 % of the cycle time)
3/39
Braking resistor
Dimensions
P20
P3
PDB
Resistance
Cycle time T
kW
kW
kW
Order No.
mm
23)
0.15
200
3200
6SE70132ES872DC0
44 x 250 x 120
21
1.4
43)
0.34)
100
6400
6SE70163ES872DC0
44 x 250 x 120
21
1.9
WxHxD
DimenWeight
sion
drawing,
see
Section 7
No.
kg
10
7.5
15
1.25
80
90
6SE70180ES872DC0
22
2.5
40
90
6SE70216ES872DC0
22
12
123)
18
0.95)
33.3
20
30
20
50
75
100
150
6400
6SE70220ES872DC0
23
90
6SE70232ES872DC0
24
6.8
17
12.5
90
6SE70280ES872DC0
24
27
25
90
6SE70316ES872DC0
25
47
Dimensions
Weight
BxHxT
Dimension
drawing,
see
Section 7
mm
No.
kg
Braking units and braking resistors for compact and chassis units
Braking power1)
Braking unit
P20
P3
kW
kW
PDB
PDB
external internal
kW
kW
Order No.
Weight
Resistance2)
WxHxD
mm
kg
Order No.
7.5
1.25
0.16
6SE70180ES872DA0
45 x 425 x 350
6SE70180ES872DC0
80
20; 22
2.5
0.32
6SE70216ES872DA0
45 x 425 x 350
6SE70216ES872DC0
40
20; 22
11.5
30
0.63
6SE70232EA872DA0
90 x 425 x 350
11
6SE70232ES872DC0
20
20; 24
17
75
12.5
6SE70280EA872DA0
90 x 425 x 350
11
6SE70280ES872DC0
20; 24
27
150
25
6SE70316EB872DA0
18
6SE70316ES872DC0
20; 25
47
255
42.5
6SE70327EB872DA0
18
6SE70327ES872DC0
2.35
20; 26
103
10
15
20
50
100
170
1.25
0.16
6SE70164FS872DA0
45 x 425 x 350
6SE70164FS872DC0
124
20; 22
15
7.5
2.5
0.32
6SE70213FS872DA0
45 x 425 x 350
6SE70213FS872DC0
62
20; 22
11.5
50
75
12.5
6SE70264FA872DA0
90 x 425 x 350
11
6SE70264FS872DC0
12.4
20; 24
27
100
150
25
6SE70313FB872DA0
18
6SE70313FS872DC0
6.2
20; 25
43
200
300
50
6SE70325FB872DA0
18
6SE70325FS872DC0
3.1
20; 26
95
75
200
300
12.5
6SE70253HA872DA0
90 x 425 x 350
11
6SE70253HS872DC0
17.8
20; 24
28
50
6SE70321HB872DA0
18
6SE70321HS872DC0
4.45
20; 26
101
3/40
3) Braking resistor in type Compact PLUS for occasionally incurring braking energy, e. g.
emergency stop.
4) CSA rating 240 W.
5) CSA rating 720 W.
6SE70214EP60; 6SE70221EP60
6SE70214EP60; 6SE70221EP60; 6SE70227EP60; 6SE70234EP60
6SE70241EP850AA0
6SE70312EP850AA0
6SE70323EP850AA0
DC voltage:
Top
External resistor:
Bottom
Connectable cable cross-section
DC voltage:
External resistor:
Cable cross-section
Top
Bottom
Retaining bolt
Finely stranded
mm2
mm2
mm2
1.5 to 4
1.5 to 4
1.5 to 4
1.5 to 4
2.5 to 10
2.5 to 16
2.5 to 10
2.5 to 16
max. 1 x 95
M8
max. 1 x 95
M8
1.5 to 4
1.5 to 4
1.5 to 4
1.5 to 4
2.5 to 10
2.5 to 16
max. 1 x 95
M8
max. 1 x 95
M8
2.5 to 10
2.5 to 16
max. 1 x 95
M8
3/41
System components
Technical characteristics of line-side components
Line fuses
The 3NE1 SITORr fuse protects both cables and semiconductors in one fuse. This
results in considerable cost
savings and shorter installation times.
For Order No. and equipment
assignments, see page 3/46
onwards.
A 2 % line commutating
reactor should be used for
converters and rectifier
units.
A 4 % line commutating
reactor is recommended for
rectifier/regenerative units.
Radio-interference
suppression filters (line
filters)
3/42
Information
For installation of SIMOVERT
MASTERDRIVES according
to EMC guidelines, see page
6/46.
System components
Components for
connecting inverters and
braking units
The inverters and braking
units can be connected to
the DC bus in three ways:
1. Direct connection
As standard, the necessary fuses are integrated
in the inverters, except for
inverters sizes E to G (integrated fuses for these
units available with option
code L30), see page 3/93.
2. Electromechanical connection
The electromechanical
connection consists of a
fuse switch disconnector,
with fuses or disconnector
lugs.
Note:
This connection must not
be activated with a live
system.
Free-wheeling diode
3. Electrical connection
Output reactors
Output reactors compensate
capacitive charging/discharging currents when long motor cables are connected and
limit the dv/dt at the motor
terminals.
For the maximum cable
lengths which can be
connected with and without
reactors, see page 6/50.
Sine filters
The use of sine filters
ensures that the motors are
supplied with a practically
sinusoidal voltage and
current waveform. The
distortion factor for a motor
voltage frequency of 50 Hz
with a sine filter is approximately 5 %. The stress on
the motors which are supplied via sine filters is below
the level according to DIN
VDE 0530.
Engineering Information
On the load-side components, see Section 6.
For selection and ordering
data, see page 3/46 and
onwards.
3/43
System components
Technical characteristics of the 6FX MOTION CONNECT power and signal cables
Motor cables
The 6FX5 and 6FX8 cables
are suitable for use with the
most varied of production
and processing machines.
The cables can be used
universally. They are:
mechanically and chemically robust,
CFC and silicone free,
EMC-tested,
with UL certification.
Encoder cables
With the prefabricated 6FX5
and 6FX7 cables, connection
of an incremental encoder to
the CUVC control board (or
T300 technology board or
the SBP option board) is significantly simplified. The connector for the incremental
encoder is already attached.
This saves time and avoids
wiring errors.
Certifications
Power/signal cables
VDE1)
c/UL or UL/CSA
UL/CSA File No.2)
Electrical data acc. to DIN VDE 0472
Rated voltage
power cable V0/V
supply cores
signal cores
signal cable
Test voltage
power cable
supply cores
signal cores
signal cable
Operating temperature
on the surface
rated voltage
fixed cable
moving cable
Mechanical data
Max. tensile stress per conductor cross-section
fixed cable
moving cable
Smallest permissible bending radius
fixed cable (power cable)
fixed cable (signal cable)
moving cable (power cable)
moving cable (signal cable)
Torsional stress
Power cable bends
1.5 to 6 mm2 + signal
10 to 50 mm2
Signal cable bends
Traverse rate (power cables)
1.5 to 6 mm2 + signal
10 to 50 mm2
Traverse rate (signal cables)
Acceleration (power cables)
Acceleration (signal cables)
Chemical data
Insulation material
Oil resistance
Outer sheath
power cable
signal cable
Flame resistant3)
yes
758/C22.2N.210.2M9C
yes
yes
758/C22.2N.210.2M9C
yes
600/1000 V
24 V (VDE) 1000 V (UL)
30 V
600/1000 V
24 V (VDE) 1000 V (UL/CSA)
30 V
4 kVrms
2 kVrms
500 Vrms
4 kVrms
2 kVrms
500 Vrms
20 C to +80 C
0 C to +60 C
50 C to +80 C
20 C to +60 C
50 N/mm2
50 N/mm2
20 N/mm2
5 x Dmax
see catalog NC Z
see catalog NC Z
see catalog NC Z
30 /m absolute
6 x Dmax
see catalog NC Z
see catalog NC Z
see catalog NC Z
30 /m absolute
100 x 103
100 x 103
2 x 106
10 x 106
3 x 106
10 x 106
30 m/min.
30 m/min.
180 m/min. (5 m); 100 m/min. (15 m)
2 m/s2
5 m/s2
180 m/min.
100 m/min.
180 m/min.
5 m/s2 (5 m); 10 m/s2 (2.5 m)
5 m/s2 (5 m); 10 m/s2 (2.5 m)
CFC free
DIN VDE 0472, part 803, type of test B
hydraulic oil only
PUR DIN VDE 0282, part 10, color DESINA: orange RAL 2003
PUR DIN VDE 0282, part 10, color DESINA: green RAL 6018
IEC 60 332.3
3/44
System components
Technical characteristics of PROTOFLEX control cables and PROTODUR motor connecting cable
Technical data
PROTOFLEX-EMV-CY,
PROTOFLEX-EMV-3PLUS
and 4-PLUS-UV
Control cables for power
wiring, e.g. for compliance
with EN 55 011, Class B
Rated voltage
Cables
Insulating covering
Core identification
Outer sheath
Shield
Bending radius
Free moving
Fixed
Tensile load
Flexible applications
Fixed
Temperature limits
Operation
Short-circuit 5 s
Storage and transport
Technical data
PROTODUR power cable
Motor connecting cable with
concentric CEANDER conductors, e.g. for compliance
with EN 55 011, Class A
NYCWY-0.6/1 kV to
DIN VDE 0271, IEC 502
Rated voltage
Cables
RE
RM
SM
Insulating covering
Core identification
Outer sheath
Shield
Bending radius
Tensile load
Fixed
Temperature limits
Operation
Short-circuit 5 s
Storage and transport
max. +70 C
+160 C
40 C to +70 C
3/45
Switch disconnector2)
Switch disconnector
with fuse holders2)
Rated
current
kW
Order No.
Order No.
Order No.
Fuse switch
disconnectors1)2)
Rated Max.
current fuse
size
A
Order No.
Circuit-breakers for
system and motor protection
to IEC 947-43)4)
Rated Max.
current fuse
size
A
Order No.
Rated
current
range
A
63
3KL50 301EB01
63
00
000
3RV10211CA10
1.8
2.5
63
3KL50 301EB01
63
00
000
3RV10211FA10
3.5
5.0
63
3KL50 301EB01
63
00
000
3RV10211HA10
5.5
8.0
63
3KL50 301EB01
63
00
000
3RV10211KA10
9.0 12.5
63
3KL50 301EB01
63
00
000
3RV10211KA10
63
3KL50 301EB01
63
00
000
3RV10214AA10
11 16
63
3KL50 301EB01
63
00
000
3RV10214BA10
14 20
11
63
3KL50 301EB01
63
00
000
3RV10314EA10
22 32
15
63
3KL50 301EB01
63
00
000
3RV10314FA10
28 40
63
3KL50 301EB01
63
00
000
3RV10211HA10
5.5
63
3KL50 301EB01
63
00
000
3RV10211KA10
9 12.5
63
3KL50 301EB01
63
00
000
3RV10211KA10
63
3KL50 301EB01
63
00
000
3RV10214AA10
11 16
63
3KL50 301EB01
63
00
000
3RV10214BA10
14 20
63
3KL50 301EB01
63
00
000
3RV10314EA10
22 32
63
3KL50 301EB01
63
00
000
3RV10314FA10
28 40
63
3KL50 301EB01
63
00
000
3RV10314HA10
40 50
63
3KL50 301EB01
63
00
000
3RV10414JA10
45 63
80
00
000
3RV10414KA10
57 75
80
00
000
3RV10414LA10
00
00
3VF32111BU410AA0
100 125
0; 1; 2
0; 1
3VF33111BX410AA0
160 200
0; 1; 2
0; 1
3VF33111BX410AA0
160 200
0; 1; 2
0; 1
0; 1; 2
0; 1
3VF52111BK410AA0
250 315
1; 2
1; 2
3VF52111BK410AA0
250 315
1; 2
1; 2
1; 2
1; 2
3VF62111BK440AA0
3KL61 301AB0
630
2; 3
315
3KL61 301AB0
630
2; 3
3VF71111BK600AA0
630
400
6SE70370EK60 3KE45
3VF71111BK600AA0
800
1.5
3
4
5.5
7.5
9.0 12.5
1000
3/46
Vsupply
3 IV supply
9 12.5
70 90
400 500
4) Caution:
Observe rated short-circuit breaking capacity ICN
and, if necessary, use the specified fuses.
5) The recommended system components are for
a converter that acts as a single drive. If the converter supplies a multi-motor system, the supply
current is larger than the current for a single drive by a factor of up to 1.6 (rated supply current =
1.76 x rated output current IR).
In this case, system components with a corresponding current-carrying capacity are to be
selected.
Cable-protection fuses
Duty class gL1)3)
Semiconductor-protection
fuses
Duty class gR3)
incl. cable protection
Rated Size
Rated Size
current
current
Order No. A
Order No.
Radio-interference
suppression filter
Commutating reactor
vD = 2 %
Main contactor/
AC contactor4)
AC 1 duty
at 40C
Rated
current
Order No.
Class2)
Pv
type
W
Order No.
Order No.
Pv
50/60 Hz
Rated
current
3NA3 803
10
00
3NE1 8130
16
000
6SE70120EP870FB16)
B1
3RT10 15
18
400/480 V, 50/60 Hz
4EP32004US00
8/ 10
1.5
3NA3 803
10
00
3NE1 8130
16
000
6SE70160EP870FB16)
B1 13
3RT10 15
18
4EP32005US00
12/ 18
3.0
3NA3 803
10
00
3NE1 8130
16
000
6SE70160EP870FB16)
B1 13
3RT10 15
18
4EP32002US00
23/ 35
5.0
3NA3 805
16
00
3NE1 8130
16
000
6SE70212EP870FB16)
B1 23
3RT10 15
18
4EP34002US00
35/ 38
9.1
3NA3 805
16
00
3NE1 8130
16
000
6SE70212EP870FB16)
B1 23
3RT10 15
18
4EP34001US00
35/ 38
11.2
3NA3 810
25
00
3NE1 8140
20
000
6SE70218EP870FB16)
B1 26
3RT10 16
22
4EP35000US00
45/ 48
16
3NA3 810
25
00
3NE1 8150
25
000
B1 30
3RT10 16
22
4EP36004US00
52/ 57
18
3NA3 814
35
00
3NE1 8030
35
000
B1 30
3RT10 25
40
4EP36005US00
52/ 57
28
3NA3 817
40
00
3NE1 8020
40
000
6SE70234ES870FB1
6SE70238EP870FB17)
6SE70234ES870FB1
6SE70238EP870FB17)
6SE70234ES870FB1
6SE70238EP870FB17)
B1 30
3RT10 34
50
4EP37002US00
57/ 60
35.5
3NA3 803
10
00
6SE70210ES870FB15)
B1 15
3RT1015
18
400/480 V, 50/60 Hz
4EP32001US00
23/ 35
6.3
3NA3 805
16
00
3NE1 8130
16
000
6SE70210ES870FB15)
B1 15
3RT1015
18
4EP34002US00
35/ 38
9.1
3NA3 805
16
00
3NE1 8130
16
000
6SE70210ES870FB15)
B1 15
3RT1015
18
4EP34001US00
35/ 38
11.2
3NA3 810
25
00
3NE1 8140
20
000
6SE70218ES870FB15)
B1 20
3RT1016
22
4EP35000US00
45/ 48
16
3NA3 810
25
00
3NE1 8150
25
000
6SE70218ES870FB15)
B1 20
3RT1016
22
4EP36004US00
52/ 57
18
3NA3 814
35
00
3NE1 8030
35
000
6SE70234ES870FB15)
B1 30
3RT1025
40
4EP36005US00
52/ 57
28
3NA3 817
40
00
3NE1 8020
40
000
6SE70234ES870FB15)
B1 30
3RT1034
50
4EP37002US00
57/ 60
35.5
3NA3 820
50
00
3NE1 8170
50
000
6SE70272ES870FB15)
B1 40
3RT1034
50
4EP37005US00
57/ 60
40
3NA3 822
63
00
3NE1 8180
63
000
6SE70272ES870FB15)
B1 40
3RT1035
60
4EP38002US00
67/ 71
50
3NA3 824
80
00
3NE1 8200
80
000
6SE70272ES870FB15)
B1 40
3RT1044
100
4EP38007US00
67/ 71
63
00
00
6SE70272ES870FB15)
B1 40
3RT1044
100
4EP39002US00
82/ 87
80
00
6SE70312ES870FA15)
A1 50
3RT1045
120
4EP40002US00
96/103
100
6SE70318ES870FA15)
A1 70
3RT1446
140
4EP40006US00
96/103
125
6SE70318ES870FA15)
A1 70
3RT1055
185
4EU24522UA000AA0 154/163
160
6SE70318ES870FA15)
A1 70
3RT1056
215
4EU25524UA000AA0 187/201
200
6SE70332ES870FA15)
A1 100
3RT1456
275
4EU25528UA000AA0 187/201
224
6SE70332ES870FA15)
A1 100
3RT1065
330
4EU27520UB000AA0 253/275
280
6SE70332ES870FA15)
A1 100
3RT1065
330
4EU27527UA000AA0 253/275
315
6SE70360ES870FA15)
A1 120
3RT1075
430
4EU27528UA000AA0 253/275
400
6SE70360ES870FA15)
A1 120
3RT1076
610
4EU30525UA000AA0 334/367
560
6SE70360ES870FA15)
A1 120
2 x 3RT1075 774
4EU30526UA001BA0 334/367
630
6SE70410ES870FA15)
A1 200
3 x 3RT1075 774
4EU36528UA001BA0 450/495
720
3/47
Switch disconnector2)
Switch disconnector
with fuse holders2)
Rated
current
kW
Order No.
Order No.
Order No.
Fuse switch
disconnectors1)2)
Rated Max.
current fuse
size
A
Order No.
Circuit-breakers for
system and motor protection
to IEC 947-43)4)
Rated Max.
current fuse
size
A
Order No.
Rated
current
range
A
5.5
7.5
11
18.5
22
30
37
45
55
75
90
110
132
160
200
250
315
63
3KL50 301EB01
63
00
000
3RV10211GA10
4.5 6.3
63
3KL50 301EB01
63
00
000
3RV10211HA10
5.5 8
63
3KL50 301EB01
63
00
000
3RV10211JA10
7 10
63
3KL50 301EB01
63
00
000
3RV10211KA10
63
3KL50 301EB01
63
00
000
3RV10214BA10
14 20
63
3KL50 301EB01
63
00
000
3RV10314EA10
22 32
63
3KL50 301EB01
63
00
000
3RV10314FA10
28 40
63
3KL50 301EB01
63
00
000
3RV10314FA10
28 40
63
3KL50 301EB01
63
00
000
3RV10414JA10
45 63
80
00
000
3VF31111BN410AA0
50 63
00
000
3VF31111BQ410AA0
63 80
00
00
3VF32111BU410AA0
100 125
00
00
3VF33111BX410AA0
160 200
0; 1; 2
0; 1
3VF33111BX410AA0
160 200
0; 1; 2
0; 1
3VF33111BX410AA0
160 200
0; 1; 2
0; 1
0; 1; 2
0; 1
3VF52111BK410AA0
1; 2
1; 2
1; 2
1; 2
3VF62111BK440AA0
3KL61 301AB0
2; 3
630
9 12.5
250 315
400 500
00
000
3VF31111BQ410AA0
63 80
80
00
000
3VF32111BU410AA0
100 125
00
00
0; 1; 2
0; 1
0; 1; 2
0; 1
3VF33111BX410AA0
0; 1; 2
0; 1
0; 1; 2
0; 1
3VF52111BK410AA0
1; 2
1; 2
315
3KL61 301AB0
630
2; 3
3VF62111BK440AA0
400 500
400
3KL61 301AB0
630
2; 3
3VF62111BM40AA0
500 630
55
75
90
110
132
160
200
250
3/48
Vsupply
3 IV supply
160 200
250 315
4) Caution:
Observe rated short-circuit breaking capacity ICN
and, if necessary, use the specified fuses.
Cable-protection fuses
Duty class gL1)3)
Order No.
Radio-interference
suppression filter2)
Rated Size
current
Semiconductor-protection
fuses
Duty class gR3)
incl. cable protection
Rated Size
current
Order No.
Order No.
Main contactor/
AC contactor4)
Commutating reactor
vD = 2 %
AC 1 duty Rated
Pv
at 40 C
current
type
W
Order No. A
Order No.
Rated
Pv
50/60 current
Hz
W
A
to 500 V to 600 V
3NA3 803 3NA3 8036
10
000
3NE1 8130
16
000
B84143A25R215)
25
3RT10 15
18
500 V, 50 Hz
4EP32002US00
23
10
000
3NE1 8130
16
000
B84143A25R215)
25
3RT10 15
18
4EP33000US00
31
6.3
20
000
3NE1 8140
20
000
B84143A25R215)
25
3RT10 15
18
4EP34003US00
35
20
000
3NE1 8140
20
000
B84143A25R215)
25
3RT10 15
18
4EP36008US00
52
12.5
20
000
3NE1 8140
20
000
B84143A25R215)
25
3RT10 16
22
4EP36002US00
52
16
35
000
3NE1 8030
35
000
B84143A25R215)
25
3RT10 25
40
4EP36003US00
52
22.4
40
40
000
B84143A36R215)
30
3RT10 25
40
4EP37006US00
57
31.5
50
40
000
B84143A36R215)
30
3RT10 25
40
4EP37001US00
57
35.5
63
63
000
B84143A50R215)
35
3RT10 35
60
4EP38001US00
67
50
80
63
000
B84143A80R215)
40
3RT10 44 100
4EP39001US00
82
63
80
80
000
B84143A80R215)
40
3RT10 44 100
4EP40007US00
96
71
100
00
B84143A80R215)
40
3RT10 44 100
4EP40001US00
96
80
160
00
B84143A120R215)
50
3RT10 45 120
4EP40008US00
96
112
160
B84143A150R215)
60
3RT10 54 160
4EU24521UA000AA0 154
140
200
B84143A180R215)
70
3RT10 55 185
4EU25522UA000AA0 187
160
250
B84143B250S@@
90
3RT10 56 215
4EU25526UA000AA0 187
200
315
B84143B250S@@
90
3RT14 56 275
4EU27522UA000AA0 253
250
400
B84143B320S@@ 100
3RT10 65 330
4EU27523UA000AA0 253
315
500
B84143B600S@@ 120
3RT10 75 430
4EU27524UA000AA0 253
400
500
B84143B600S@@ 120
3RT10 75 610
4EU30522UA000AA0 334
450
3NA3 8246
80
00
3NE1 8180
000
B84143A80R215)
40
3RT10 44 100
690 V, 50 Hz
4EP40003US00
96
63
3NA3 8306
100
00
00
B84143A120R215)
50
3RT10 44 100
4EU24523UA000AA0 154
91
3NA3 1366
160
00
B84143A120R215)
50
3RT10 45 120
4EU25527UA000AA0 187
100
3NA3 1366
160
B84143A120R215)
50
3RT14 46 140
4EU25523UA000AA0 187
125
3NA3 1366
160
B84143A150R215)
60
3RT10 54 160
4EU25520UB000AA0 187
160
3NA3 1406
200
B84143A180R215)
70
3RT10 56 215
4EU27525UA000AA0 253
180
3NA3 2446
250
B84143B250S@@
90
3RT14 56 275
4EU27526UA000AA0 253
224
3NA3 3606
400
B84143B320S@@ 100
3RT10 65 330
4EU30523UA000AA0 334
315
3NA3 3606
400
B84143B600S@@ 120
3RT14 66 400
4EU30524UA000AA0 334
400
3NA3 3656
500
B84143B600S@@ 120
3RT10 76 610
4EU36525UA000AA0 334
500
63
B84143B . . . S@@
ss
20
21
24
3/49
Converter
kW
Order No.
Inverter
fmax.
Order No.
Order No.
Hz
Pv
max.
W
Output reactor1)
Iron-core reactor
fmax. = 300 Hz
Order No.
Pv
max.
W
fpulse 3 kHz
0.55
6SE70115EP60
6SE70130ES871FE0
1.1
6SE70130EP60
6SE70130ES871FE0
50
1.5
6SE70150EP60
6SE70161EA871FC0
400
150
6SE70150ES871FE0
60
400 V
50
6SE70180EP60
6SE70210EB871FC0
400
200
6SE70210ES871FE0
80
6SE70210EP60
6SE70210EB871FC0
400
200
6SE70210ES871FE0
80
5.5
6SE70214EP60
6SE70218EB871FC0
400
250
6SE70218ES871FE0
95
7.5
6SE70221EP60
6SE70226EC871FC0
400
300
6SE70226ES871FE0
110
11
6SE70227EP60
6SE70226EC871FC0
400
300
6SE70226ES871FE0
110
15
6SE70234EP60
6SE70234EC871FC0
400
400
6SE70234ES871FE0
130
400 V
0.75
6SE70120TP60
1.5
6SE70140TP60
2.2
6SE70160TP60
6SE70161EA871FC0
400
150
6SE70210TP60
6SE70210EB871FC0
400
200
5.5
6SE70213TP60
6SE70218EB871FC0
400
250
7.5
6SE70218TP60
6SE70218EB871FC0
400
250
11
6SE70226TP60
6SE70226EC871FC0
400
300
15
6SE70234TP60
6SE70234EC871FC0
400
400
18.5
6SE70238TP60
6SE70247ED871FC0
400
500
3/50
fpulse 3 kHz
6SE70130ES871FE0
6SE70150ES871FE0
6SE70161ES871FE0
6SE70210ES871FE0
6SE70218ES871FE0
6SE70218ES871FE0
6SE70226ES871FE0
6SE70234ES871FE0
6SE70247ES871FE0
50
60
80
80
95
95
110
130
190
fmax.
Order No.
Hz
Pv
max.
W
fpulse 6 kHz
fpulse 3 kHz
Pv
max.
W
6SE70161ES871FF1
600
96
6SE70162FB871FD0
100
6SE70210ES871FF1
600
96
6SE70215FB871FD0
150
6SE70210ES871FF1
600
96
6SE70215FB871FD0
150
6SE70218ES871FF1
600
96
6SE70215FB871FD0
150
6SE70226ES871FF0
600
100
6SE70222FC871FD0
170
6SE70226ES871FF0
600
100
6SE70222FC871FD0
170
6SE70234ES871FF0
600
115
6SE70234FC871FD0
170
fpulse 6 kHz
fpulse 3 kHz
6SE70161ES871FF1
600
96
6SE70162FB871FD0
100
6SE70210ES871FF1
600
96
6SE70215FB871FD0
150
6SE70218ES871FF1
600
96
6SE70215FB871FD0
150
6SE70218ES871FF1
600
96
6SE70215FB871FD0
150
6SE70226ES871FF0
600
100
6SE70222FC871FD0
170
6SE70234ES871FF0
600
115
6SE70234FC871FD0
170
6SE70247ES871FF0
600
170
6SE70247FC871FD0
200
3/51
Converter
kW
Order No.
Inverter
Hz
Pv
max.
W
Output reactor1)
Iron-core reactor
fmax. = 300 Hz
Order No.
fmax.
Order No.
Order No.
Pv
max.
W
fpulse 3 kHz
fpulse = 6 kHz
400 V
2.2
6SE70161EA61
6SE70161TA61
6SE70161EA871FC0
400
150
6SE70161ES871FE0
80
6SE70180EA61
6SE70180TA61
6SE70210EB871FC0
400
200
6SE70210ES871FE0
80
6SE70210EA61
6SE70210TA61
6SE70210EB871FC0
400
200
6SE70210ES871FE0
80
5.5
6SE70213EB61
6SE70213TB61
6SE70218EB871FC0
400
250
6SE70218ES871FE0
95
7.5
6SE70218EB61
6SE70218TB61
6SE70218EB871FC0
400
250
6SE70218ES871FE0
95
11
6SE70226EC61
6SE70226TC61
6SE70226EC871FC0
400
300
6SE70226ES871FE0
110
15
6SE70234EC61
6SE70234TC61
6SE70234EC871FC0
400
400
6SE70234ES871FE0
130
18.5
6SE70238ED61
6SE70238TD61
6SE70247ED871FC0
400
500
6SE70247ES871FE0
190
22
6SE70247ED61
6SE70247TD61
6SE70247ED871FC0
400
500
6SE70247ES871FE0
190
30
6SE70260ED61
6SE70260TD61
6SE70272ED871FC0
400
600
6SE70272ES871FE0
130
37
6SE70272ED61
6SE70272TD61
6SE70272ED871FC0
400
600
6SE70272ES871FE0
130
45
6SE70310EE60
6SE70310TE60
6SE70310EE871FH0
200
450
6SE70310ES871FE0
190
55
6SE70312EF60
6SE70312TF60
6SE70315EF871FH0
200
600
6SE70315ES871FE0
220
75
6SE70315EF60
6SE70315TF60
(6SE70315EF871FH08))
200
600
6SE70315ES871FE0
220
90
6SE70318EF60
6SE70318TF60
6SE70315EF871FH02)
200
600
6SE70318ES871FE0
300
110
6SE70321EG60
6SE70321TG60
6SE70318EF871FH03)
200
750
6SE70326ES871FE0
300
132
6SE70326EG60
6SE70326TG60
6SE70318EF871FH04)
200
750
6SE70326ES871FE0
300
160
6SE70332EG60
6SE70332TG60
6SE70326EG871FH05)
200
900
6SE70332ES871FE0
370
200
6SE70337EG60
6SE70337TG60
6SE70326EG871FH06)
200
900
6SE70337ES871FE0
380
250
6SE70351EK60
6SE70351TJ60
6SE70351ES871FE0
460
315
6SE70360EK60
6SE70360TJ60
6SE70370ES871FE0
620
400
6SE70370EK60
6SE70370TJ60
6SE70370ES871FE0
620
500
6SE70386TK60
6SE70386ES871FE0
740
630
6SE70411TK60
6SE70411ES871FE0
860
710
6SE70413TL60
7)
6SE70386ES871FE0 (2x)
740 (2x)
6SE70386ES871FE0 (2x)
740 (2x)
7)
without interphase
transformer chassis
900
6SE70416TQ60
with interphase
transformer chassis
900
6SE70416TM60
without interphase
transformer chassis
1300
6SE70425TN60
Attention!
Please observe foot notes 2 to 6.
3/52
fmax.
Order No.
Hz
Pv
max.
W
6SE70161ES871FF1
600
96
6SE70162FB871FD0
100
6SE70210ES871FF1
600
96
6SE70215FB871FD0
150
6SE70210ES871FF1
600
96
6SE70215FB871FD0
150
6SE70218ES871FF1
600
96
6SE70215FB871FD0
150
6SE70218ES871FF1
600
96
6SE70215FB871FD0
150
6SE70226ES871FF0
600
100
6SE70222FC871FD0
170
6SE70234ES871FF0
600
115
6SE70234FC871FD0
170
6SE70247ES871FF0
600
170
6SE70247FC871FD0
200
6SE70247ES871FF0
600
170
6SE70247FC871FD0
200
6SE70272ES871FF0
600
135
6SE70260HE871FD0
230
6SE70272ES871FF0
600
135
6SE70282HE871FD0
300
6SE70310ES871FF0
500
170
6SE70312HS871FD0
390
6SE70315ES871FF0
500
300
6SE70317HS871FD0
480
6SE70315ES871FF0
500
300
6SE70317HS871FD0
480
6SE70318ES871FF0
500
300
6SE70323HS871FD0
500
6SE70326ES871FF0
500
350
6SE70330HS871FD0
700
6SE70326ES871FF0
500
350
6SE70330HS871FD0
700
6SE70332ES871FF0
500
350
6SE70335HS871FD0
800
6SE70337ES871FF0
500
350
6SE70345HS871FD0
950
6SE70351ES871FF0
500
400
6SE70357HS871FD0
1300
6SE70370ES871FF0
500
480
6SE70365HS871FD0
1500
6SE70370ES871FF0
500
480
6SE70386HS871FD0
1800
6SE70386ES871FF0
500
530
6SE70386HS871FD0
1800
fpulse 6 kHz
Pv
max.
W
fpulse 3 kHz
6SE70386HS871FD0 (2x)
1800 (2x)
3/53
Inverter
kW
Order No.
Order No.
fmax.
Order No.
Hz
Pv
max.
W
Output reactor1)
Iron-core reactor
fmax. = 300 Hz
Order No.
Pv
max.
W
Pv
max.
W
500 V
fpulse 3 kHz
fpulse 3 kHz
2.2
6SE70145FB61
6SE70145UB61
6SE70162FB871FH0
200
200
6SE70162FS871FE0
130
6SE70162FB871FD0
100
6SE70162FB61
6SE70162UB61
6SE70162FB871FH0
200
200
6SE70162FS871FE0
130
6SE70162FB871FD0
100
6SE70178FB61
6SE70178UB61
6SE70215FC871FH0
200
300
6SE70215FS871FE0
190
6SE70215FB871FD0
150
5.5
6SE70211FB61
6SE70211UB61
6SE70215FC871FH0
200
300
6SE70215FS871FE0
190
6SE70215FB871FD0
150
7.5
6SE70215FB61
6SE70215UB61
6SE70215FC871FH0
200
300
6SE70215FS871FE0
190
6SE70215FB871FD0
150
11
6SE70222FC61
6SE70222UC61
6SE70222FD871FH0
200
400
6SE70222FS871FE0
220
6SE70222FC871FD0
170
18.5
6SE70230FD61
6SE70230UD61
6SE70234FD871FH0
200
500
6SE70234FS871FE0
190
6SE70234FC871FD0
170
22
6SE70234FD61
6SE70234UD61
6SE70234FD871FH0
200
500
6SE70234FS871FE0
190
6SE70234FC871FD0
170
30
6SE70247FD61
6SE70247UD61
6SE70247FE871FH0
200
600
6SE70247FS871FE0
220
6SE70247FC871FD0
200
37
6SE70261FE60
6SE70261UE60
6SE70261FF871FH0
100
450
6SE70260HS871FE0
300
6SE70260HE871FD0
230
45
6SE70266FE60
6SE70266UE60
6SE70280FF871FH0
100
600
6SE70282HS871FE0
370
6SE70282HE871FD0
300
55
6SE70280FF60
6SE70280UF60
6SE70280FF871FH0
100
600
6SE70282HS871FE0
370
6SE70282HE871FD0
300
75
6SE70311FF60
6SE70311UF60
6SE70313FG871FH0
100
750
6SE70312HS871FE0
500
6SE70312HS871FD0
390
90
6SE70313FG60
6SE70313UG60
6SE70313FG871FH0
100
750
6SE70312HS871FE0
500
6SE70312HS871FD0
390
110
6SE70316FG60
6SE70316UG60
6SE70316FG871FH0
100
900
6SE70317HS871FE0
620
6SE70317HS871FD0
480
132
6SE70320FG60
6SE70320UG60
6SE70323HS871FE0
620
6SE70323HS871FD0
500
160
6SE70323FG60
6SE70323UG60
6SE70323HS871FE0
620
6SE70323HS871FD0
500
200
6SE70330FK60
6SE70330UJ60
6SE70330GS871FE0
870
6SE70330HS871FD0
700
250
6SE70335FK60
6SE70335UJ60
6SE70335GS871FE0
1050
6SE70335HS871FD0
800
315
6SE70345FK60
6SE70345UJ60
6SE70345GS871FE0
1270
6SE70345HS871FD0
950
400
6SE70357UK60
6SE70357GS871FE0
1840
6SE70357HS871FD0 1300
450
6SE70365UK60
6SE70365GS871FE0
1980
6SE70365HS871FD0 1500
630
6SE70386UK60
6SE70386GS871FE0
2350
6SE70386HS871FD0 1800
800
6SE70411UL60
6SE70412GS871FE0
on request2)
900
6SE70412UL60
6SE70412GS871FE0
on request2)
1000
6SE70414UQ60
1100
6SE70416UQ60
6SE70386GS871FE0
(2x)
6SE70386GS871FE0
(2x)
without interphase
transformer chassis
2350
(2x)
2350
(2x)
6SE70386HS871FD0
(2x)
6SE70386HS871FD0
(2x)
with interphase
transformer chassis
1000
6SE70414UM60
1100
6SE70416UM60
6SE70412GS871FE0
(2x)
2350
(2x)
on request
6SE70412GS871FE0
(2x)
2350
(2x)
on request
without interphase
transformer chassis
1500
6SE70421UN60
without interphase
transformer chassis
1700
6SE70423UN60
3/54
1800
(2x)
1800
(2x)
Nominal Converter
power
rating
Inverter
kW
Order No.
Order No.
Output reactor1)
Iron-core reactor
fmax. = 300 Hz
Order No.
Pv
max.
W
Pv
max.
W
690 V
fpulse 3 kHz
55
6SE70260HF60
6SE70260WF60
6SE70260HS871FE0
300
6SE70260HE871FD0
230
75
6SE70282HF60
6SE70282WF60
6SE70282HS871FE0
370
6SE70282HE871FD0
300
90
6SE70310HG60
6SE70310WG60
6SE70312HS871FE0
500
6SE70312HS871FD0
390
110
6SE70312HG60
6SE70312WG60
6SE70312HS871FE0
500
6SE70312HS871FD0
390
132
6SE70315HG60
6SE70315WG60
6SE70317HS871FE0
620
6SE70317HS871FD0
480
160
6SE70317HG60
6SE70317WG60
6SE70317HS871FE0
620
6SE70317HS871FD0
480
200
6SE70321HG60
6SE70321WG60
6SE70323HS871FE0
620
6SE70323HS871FD0
500
250
6SE70330HK60
6SE70330WJ60
6SE70330GS871FE0
870
6SE70330HS871FD0
700
1050
6SE70335HS871FD0
800
315
6SE70335HK60
6SE70335WJ60
6SE70335GS871FE0
400
6SE70345HK60
6SE70345WJ60
6SE70345GS871FE0
1270
6SE70345HS871FD0
950
500
6SE70357WK60
6SE70357GS871FE0
1840
6SE70357HS871FD0
1300
630
6SE70365WK60
6SE70365GS871FE0
1980
6SE70365HS871FD0
1500
800
6SE70386WK60
6SE70386GS871FE0
2350
6SE70386HS871FD0
1800
1000
6SE70411WL60
6SE70412GS871FE0
on request2)
1200
6SE70412WL60
6SE70412GS871FE0
on request2)
without interphase
transformer chassis
1300
6SE70414WQ60
6SE70386GS871FE0 (2x)
2350 (2x)
6SE70386HS871FD0 (2x)
1800 (2x)
1500
6SE70416WQ60
6SE70386GS871FE0 (2x)
2350 (2x)
6SE70386HS871FD0 (2x)
1800 (2x)
with interphase
transformer chassis
1300
6SE70414WM60
1500
6SE70416WM60
6SE70412GS871FE0 (2x)
6SE70412GS871FE0 (2x)
without interphase
transformer chassis
1900
6SE70421WN60
without interphase
transformer chassis
2300
6SE70423WN60
3/55
Inverter fuse
Duty class gR 2)
IS
kW
Order No.
Order No.
Max.
fuse
size
Inverter fuse
Duty class aR 2)
IS
Order No.
Size
IS
Order No.
Size
2.2
6SE70161TA613)
3NP40 100CH01
100
000
2 x 3NE1 81404)
20
000
2 x 3NE8 0154)
25
00
6SE70180TA613)
3NP40 100CH01
100
000
2 x 3NE1 81504)
25
000
2 x 3NE8 0154)
25
00
6SE70210TA613)
3NP40 100CH01
100
000
2 x 3NE1 81504)
25
000
2 x 3NE8 0154)
25
00
5.5
6SE70213TB613)
3NP40 100CH01
100
000
2 x 3NE1 80304)
35
000
2 x 3NE8 0174)
50
00
7.5
6SE70218TB613)
3NP40 100CH01
100
000
2 x 3NE1 81704)
50
000
2 x 3NE8 0174)
50
00
11
6SE70226TC613)
3NP40 100CH01
100
000
2 x 3NE1 81804)
63
000
2 x 3NE8 0204)
80
00
15
6SE70234TC613)
3NP40 100CH01
100
000
2 x 3NE1 82004)
80
000
2 x 3NE8 0204)
80
00
18.5
6SE70238TD613)
3NP40 700CA01
160
00
2 x 3NE1 02104)
100
00
2 x 3NE8 0224)
125
00
22
6SE70247TD613)
3NP40 700CA01
160
00
2 x 3NE1 02204)
125
00
2 x 3NE8 0224)
125
00
30
6SE70260TD613)
3NP42 700CA01
250
0; 1
2 x 3NE1 22404)
160
2 x 3NE8 0244)
160
00
37
6SE70272TD613)
3NP42 700CA01
250
0; 1
2 x 3NE1 22404)
160
2 x 3NE8 0244)
160
00
45
6SE70310TE60
3NP42 700CA01
250
0; 1
2 x 3NE3 224
160
55
6SE70312TF60
3NP42 700CA01
250
0; 1
2 x 3NE3 227
250
75
6SE70315TF60
3NP42 700CA01
250
0; 1
2 x 3NE3 227
250
90
6SE70318TF60
3NP43 700CA01
400
1; 2
2 x 3NE3 2300B
315
110
6SE70321TG60
3NP44 700CA01
630
2; 3
2 x 3NE3 233
450
132
6SE70326TG60
3NP44 700CA01
630
2; 3
2 x 3NE3 233
450
160
6SE70332TG60
3NP44 700CA01
630
2; 3
2 x 3NE3 3340B
500
200
6SE70337TG60
3NP44 700CA01
630
2; 3
2 x 3NE3 336
630
250
6SE70351TJ60
2 x 3NP43 700CA01
400
1; 2
2 x 2 x 3NE3 2333)
450
315
6SE70360TJ60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3353)
560
400
6SE70370TJ60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3353)
560
500
6SE70386TK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 33783)
710
630
6SE70411TK60
2 x 2 x 3NH3 330
700
2; 3
2 x 2 x 3NE3 33883)
800
710
6SE70413TL60
2 x 2 x 3NE3 340-83)
900
without interphase
transformer chassis
900
6SE70416TQ60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 33783)
710
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 33783)
710
4 x 2 x 3NE3 34083)
900
with interphase
transformer chassis
900
6SE70416TM60
without interphase
transformer chassis
1300
6SE70425TN60
3/56
Precharging resistors
Dimension Quantity
drawing,
per inverter
see
Section 7
No.
IS
Order No.
Free-wheeling diode
on the DC bus
Order No.
RS
Diode
Clamp-on cover
Order No.
Order No.
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 36
2 x 50
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 44
2 x 81
6SX70100AC07
46
27
3RT13 44
2 x 81
6SX70100AC07
46
27
3RT13 44
2 x 81
6SX70100AC08
46
15
3RT13 46
2 x 108
6SX70100AC08
46
15
3TK10
2 x 162
6SX70100AC08
46
15
3TK10
2 x 162
6SX70100AC10
46
10
3TK10
2 x 162
6SX70100AC10
46
10
3TK11
2 x 207
6SX70100AC10
46
10
3TK12
2 x 243
6SX70100AC10
46
10
3TK13
2 x 279
6SX70100AC10
46
10
3TK14
2 x 423
6SX70100AC10
46
10
D348S163)
V5014.45M3)
V7226.120M3)
3TK14
2 x 423
6SX70100AC11
46
5.6
D689S203)
3TK15
2 x 585
6SX70100AC11
46
5.6
D689S203)
V7226.120M3)
3TK17
2 x 765
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
2 x V7226.120M3)
2 x 3TK15
4 x 488
6SX70100AC11
46
5.6
2 x D689S203)
2 x 3TK15
4 x 488
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
2 x 3TK17
4 x 638
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
2 x 3TK17
4 x 638
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
4 x 3TK15
4 x 488
6SX70100AC13
47
2.7
4 x D689S203)
4 x V7226.120M3)
3/57
Inverter
Inverter fuse
Duty class aR
IS
kW
Order No.
Order No.
Max.
fuse
size
IS
Order No.
Size
2.2
6SE70145UB613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1014)
32
6SE70162UB613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1014)
32
6SE70178UB613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1014)
32
5.5
6SE70211UB613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1014)
32
7.5
6SE70215UB613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1014)
32
11
6SE70222UC613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1174)
50
18.5
6SE70230UD613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1204)
80
22
6SE70234UD613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1204)
80
30
6SE70247UD613)
3NP42 700CA01
250
0; 1
2 x 3NE4 1214)
100
37
6SE70261UE60
3NP42 700CA01
250
0; 1
2 x 3NE3 222
125
45
6SE70266UE60
3NP42 700CA01
250
0; 1
2 x 3NE3 224
160
55
6SE70280UF60
3NP42 700CA01
250
0; 1
2 x 3NE3 224
160
75
6SE70311UF60
3NP42 700CA01
250
0; 1
2 x 3NE3 225
200
90
6SE70313UG60
3NP42 700CA01
250
0; 1
2 x 3NE3 225
200
110
6SE70316UG60
3NP42 700CA01
250
0; 1
2 x 3NE3 227
250
132
6SE70320UG60
3NP43 700CA01
400
1; 2
2 x 3NE3 2320B
400
160
6SE70323UG60
3NP43 700CA01
400
1; 2
2 x 3NE3 2320B
400
200
6SE70330UJ60
3NP43 700CA01
400
1; 2
2 x 3NE3 3340B3)
500
250
6SE70335UJ60
3NP44 700CA01
630
2; 3
2 x 3NE3 3363)
630
315
6SE70345UJ60
3NP44 700CA01
630
2; 3
2 x 3NE3 33783)
710
400
6SE70357UK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3333)
450
2
2
450
6SE70365UK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3340B3)
500
630
6SE70386UK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3363)
630
800
6SE70411UL60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 33883)
800
900
6SE70412UL60
2 x 2 x 3NE3 34083)
900
without interphase
transformer chassis
1000
6SE70414UQ60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
1100
6SE70416UQ60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
with interphase
transformer chassis
1000
6SE70414UM60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
1100
6SE70416UM60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 33883)
800
4 x 2 x 3NE3 34083)
900
without interphase
transformer chassis
1500
6SE70421UN60
without interphase
transformer chassis
1700
6SE70423UN60
3/58
Precharging resistors
Dimension
drawing,
see
Section 7
No.
IS
Order No.
Free-wheeling diode
on the DC bus
Order No.
Quantity
per inverter
RS
Diode
Clamp-on cover
Order No.
Order No.
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
1 x 30
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 3 F 20/122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 25
2 x 27
6SX70100AC06
46
27
SKR 60 F 122)
3RT13 36
2 x 50
6SX70100AC07
46
27
SKR 60 F 122)
3RT13 44
2 x 81
6SX70100AC07
46
27
SKR 60 F 122)
3RT13 44
2 x 81
6SX70100AC08
46
15
SKR 60 F 122)
3RT13 44
2 x 81
6SX70100AC08
46
15
SKR 60 F 122)
3RT13 44
2 x 81
6SX70100AC08
46
15
3RT13 46
2 x 108
6SX70100AC08
46
15
3TK10
2 x 162
6SX70100AC10
46
10
3TK10
2 x 162
6SX70100AC10
46
10
3TK10
2 x 162
6SX70100AC10
46
10
3TK11
2 x 207
6SX70100AC11
46
5.6
D348S163)
V5014.45M3)
3TK13
2 x 279
6SX70100AC11
46
5.6
D348S163)
V5014.45M3)
3TK14
2 x 423
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
3TK14
2 x 423
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
3TK15
2 x 585
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
3TK17
2 x 765
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
2 x V7226.120M3)
2 x 3TK15
4 x 488
6SX70100AC13
47
2.7
2 x D689S203)
2 x 3TK15
4 x 488
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
2 x 3TK15
2 x 3TK17
4 x 488
4 x 638
6SX70100AC13
6SX70100AC13
47
47
4
4
2.7
2.7
2 x D689S203)
2 x D689S203)
2 x V7226.120M3)
2 x V7226.120M3)
2 x 3TK15
2 x 3TK17
4 x 488
4 x 638
6SX70100AC13
6SX70100AC13
47
47
4
4
2.7
2.7
2 x D689S203)
2 x D689S203)
2 x V7226.120M3)
2 x V7226.120M3)
4 x 3TK15
4 x 488
6SX70100AC13
47
2.7
4 x D689S203)
4 x V7226.120M3)
4 x 3TK15
4 x 488
6SX70100AC13
47
2.7
4 x D689S203)
4 x V7226.120M3)
3/59
Inverter
Inverter fuse
Duty class aR
IS
kW
Order No.
Order No.
Max.
fuse
size
IS
Order No.
Size
55
6SE70260WF60
3NP42 700CA01
250
0; 1
2 x 3NE3 222
125
75
6SE70282WF60
3NP42 700CA01
250
0; 1
2 x 3NE3 224
160
90
6SE70310WG60
3NP42 700CA01
250
0; 1
2 x 3NE3 225
200
110
6SE70312WG60
3NP42 700CA01
250
0; 1
2 x 3NE3 225
200
132
6SE70315WG60
3NP43 700CA01
400
1; 2
2 x 3NE3 2300B
315
160
6SE70317WG60
3NP43 700CA01
400
1; 2
2 x 3NE3 2300B
315
200
6SE70321WG60
3NP43 700CA01
400
1; 2
2 x 3NE3 2320B
400
250
6SE70330WJ60
3NP43 700CA01
400
1; 2
2 x 3NE3 2340B3)
500
315
6SE70335WJ60
3NP44 700CA01
630
2; 3
2 x 3NE3 3363)
630
400
6SE70345WJ60
3NP44 700CA01
630
2; 3
2 x 3NE3 33783)
710
500
6SE70357WK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3333)
450
2
2
630
6SE70365WK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3340B3)
500
800
6SE70386WK60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 3363)
630
1000
6SE70411WL60
2 x 3NP44 700CA01
630
2; 3
2 x 2 x 3NE3 33883)
800
1200
6SE70412WL60
2 x 2 x 3NE3 34083)
900
without interphase
transformer chassis
1300
6SE70414WQ60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
1500
6SE70416WQ60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
with interphase
transformer chassis
1300
6SE70414WM60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
1500
6SE70416WM60
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 3363)
630
4 x 3NP44 700CA01
630
2; 3
4 x 2 x 3NE3 33883)
800
4 x 2 x 3NE3 34083)
900
without interphase
transformer chassis
1900
6SE70421WN60
without interphase
transformer chassis
2300
6SE70423WN60
3/60
Precharging resistors
Dimension
drawing,
see
Section 7
No.
IS
Order No.
Free-wheeling diode
on the DC bus
Order No.
Quantity
per inverter
RS
Diode
Clamp-on cover
Order No.
Order No.
2 x 3RT13 25
4 x 22
6SX70100AC07
46
27
2 x 3RT13 36
4 x 41
6SX70100AC08
46
15
2 x 3RT13 36
4 x 41
6SX70100AC08
46
15
2 x 3RT13 36
4 x 71
6SX70100AC08
46
15
2 x 3RT13 44
4 x 73
6SX70100AC10
46
10
2 x 3RT13 44
4 x 73
6SX70100AC10
46
10
10
2 x 3RT13 44
4 x 73
6SX70100AC10
46
2 x 3TK10
3 x 162
6SX70100AC11
46
5.6
D348S163)
V50 14.45M3)
2 x 3TK10
4 x 146
6SX70100AC11
46
5.6
D348S163)
V50 14.45M3)
V7226.120M3)
2 x 3TK11
4 x 183
6SX70100AC13
47
2.7
D689S203)
2 x 3TK12
4 x 219
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
2 x 3TK12
4 x 219
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
2 x 3TK14
4 x 402
6SX70100AC13
47
2.7
D689S203)
V7226.120M3)
2 x 3TK15
4 x 488
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
2 x 3TK15
4 x 488
6SX70100AC13
47
2.7
2 x D689S203)
2 x V7226.120M3)
2 x 3TK15
2 x 3TK17
4 x 488
4 x 638
6SX70100AC13
6SX70100AC13
47
47
4
4
2.7
2.7
2 x D689S203)
2 x D689S203)
2 x V7226.120M3)
2 x V7226.120M3)
2 x 3TK15
2 x 3TK17
4 x 488
4 x 638
6SX70100AC13
6SX70100AC13
47
47
4
4
2.7
2.7
2 x D689S203)
2 x D689S203)
2 x V7226.120M3)
2 x V7226.120M3)
4 x 3TK15
4 x 488
6SX70100AC13
47
2.7
4 x D689S203)
4 x V7226.120M3)
4 x 3TK15
4 x 488
6SX70100AC13
47
2.7
4 x D689S203)
4 x V7226.120M3)
3/61
AFE inverter
with CUSA
control board
6SE70900XX840BJ0
kW
Order No.
Power
loss
Weight
approx.
Order No.
Pv
W
kg
Dimensions
line connecting
module
WxHxD
mm
Dimensions
AFE reactor
is supplied loose
WxHxD
mm
6.8
6SE70210EA81
6SE70 213ES871FG0
13
17
6SE70213EB81
6SE70 213ES871FG0
13
23
12
6SE70218EB81
6SE70 226ES871FG0
26
30
12
17
6SE70226EC81
6SE70 226ES871FG0
26
43
12
23
6SE70234EC81
6SE70 247ES871FG0
47
58
20
32
6SE70247ED81
6SE70 247ES871FG0
47
80
20
40
6SE70260ED81
6SE70 272ES871FG0
72
100
32
49
6SE70272ED81
6SE70 272ES871FG0
72
123
32
63
6SE70310EE80
6SE71 310EE832NA0
92
500
110
85
6SE70312EF80
6SE71 312EF832NA0
124
630
160
100
6SE70315EF80
6SE71 315EF832NA0
146
710
165
125
6SE70318EF80
6SE71 318EF832NA0
186
860
170
143
6SE70321EG80
6SE71 321EG832NA0
210
1100
235
177
6SE70326EG80
6SE71 326EG832NA0
260
1300
240
214
6SE70332EG80
6SE71 332EG832NA0
315
1500
295
250
6SE70337EG80
6SE71 337EG832NA0
370
1820
305
6SE70261FE80
6SE71 261FE832NA0
61
410
100
56
6SE70266FE80
6SE71 266FE832NA0
66
440
115
67
6SE70280FF80
6SE71 280FF832NA0
79
560
150
92
6SE70311FF80
6SE71 311FF832NA0
108
710
170
109
6SE70313FG80
6SE71 313FG832NA0
128
830
208
132
6SE70316FG80
6SE71 316FG832NA0
156
930
235
164
6SE70320FG80
6SE71 320FG832NA0
192
1390
245
192
6SE70323FG80
6SE71 323FG832NA0
225
1570
290
6SE70260HF80
6SE71 260HF832NA0
60
600
145
96
6SE70282HF80
6SE71 282HF832NA0
82
710
170
114
6SE70310HG80
6SE71 310HG832NA0
97
790
214
138
6SE70312HG80
6SE71 312HG832NA0
118
1060
235
170
6SE70315HG80
6SE71 315HG832NA0
145
1240
240
200
6SE70317HG80
6SE71 317HG832NA0
171
1370
290
245
6SE70321HG80
6SE71 321HG832NA0
208
1610
300
3/62
Switch disconnector2)
Switch disconnector
with fuse holders2)
Fuse switch
disconnectors1)2)
Semiconductor-protection fuses
Duty class gR2)
incl. cable protection
Rated current
Rated current
max. fuse size
Rated current
max. fuse size
Rated current
max. fuse size
Order No.
Order No.
3KA50 301EE01
63
3KL50 301EB01
3KA50 301EE01
63
3KL50 301EB01
3KA50 301EE01
63
3KA50 301EE01
Size
Order No.
Size
Order No.
Size
63
00
3NP40 100CH01
100
00
3NE1 8130
16
00
63
00
3NP40 100CH01
100
00
3NE1 8140
20
00
3KL50 301EB01
63
00
3NP40 100CH01
100
00
3NE1 8150
25
00
63
3KL50 301EB01
63
00
3NP40 100CH01
100
00
3NE1 8030
35
00
3KA50 301EE01
63
3KL50 301EB01
63
00
3NP40 100CH01
100
00
3NE1 8020
40
00
3KA50 301EE01
63
3KL50 301EB01
63
00
3NP40 100CH01
100
00
3NE1 8180
63
00
3KA51 301EE01
80
3KL52 301EB01
125
00
3NP40 100CH01
100
00
3NE1 8200
80
00
3KA51 301EE01
80
3KL52 301EB01
125
00
3NP40 100CH01
100
00
3NE1 8200
80
00
3/63
AFE inverter
with CUSA
control board
6SE70900XX840BJ0
kW
Order No.
Main contactor/
AC contactor
230 V
Precharging
Precharging
contactor
230 V
(with compact
AFE 24 V control
voltage)
Rated current
Order No.
Order No.
6.8
6SE70210EA81
6SE70 213ES871FG0
6SE70 210ES870FB1
A1
3RT10 15
16
6SE70213EB81
6SE70 213ES871FG0
6SE70 218ES870FB1
A1
3RT10 16
20
12
6SE70218EB81
6SE70 226ES871FG0
6SE70 218ES870FB1
A1
3RT10 16
20
17
6SE70226EC81
6SE70 226ES871FG0
6SE70 234ES870FB1
A1
3RT10 25
35
23
6SE70234EC81
6SE70 247ES871FG0
6SE70 234ES870FB1
A1
3RT10 34
45
32
6SE70247ED81
6SE70 247ES871FG0
6SE70 272ES870FB1
A1
3RT10 35
55
40
6SE70260ED81
6SE70 272ES871FG0
6SE70 272ES870FB1
A1
3RT10 44
90
49
6SE70272ED81
6SE70 272ES871FG0
6SE70 272ES870FB1
A1
3RT10 44
90
63
6SE70310EE80
6SE71 310EE832NA0
A1
85
6SE70312EF80
6SE71 312EF832NA0
A1
100
6SE70315EF80
6SE71 315EF832NA0
A1
125
6SE70318EF80
6SE71 318EF832NA0
A1
143
6SE70321EG80
6SE71 321EG832NA0
A1
177
6SE70326EG80
6SE71 326EG832NA0
A1
214
6SE70332EG80
6SE71 332EG832NA0
A1
250
6SE70337EG80
6SE71 337EG832NA0
A1
6SE70261FE80
6SE71 261FE832NA0
A1
56
6SE70266FE80
6SE71 266FE832NA0
A1
67
6SE70280FF80
6SE71 280FF832NA0
A1
92
6SE70311FF80
6SE71 311FF832NA0
A1
109
6SE70313FG80
6SE71 313FG832NA0
A1
132
6SE70316FG80
6SE71 316FG832NA0
A1
164
6SE70320FG80
6SE71 320FG832NA0
A1
192
6SE70323FG80
6SE71 323FG832NA0
A1
6SE70260HF80
6SE71 260HF832NA0
A1
96
6SE70282HF80
6SE71 282HF832NA0
A1
114
6SE70310HG80
6SE71 310HG832NA0
A1
138
6SE70312HG80
6SE71 312HG832NA0
A1
170
6SE70315HG80
6SE71 315HG832NA0
A1
200
6SE70317HG80
6SE71 317HG832NA0
A1
245
6SE70321HG80
6SE71 321HG832NA0
A1
3/64
Precharging
Resistor
Rated value
1 unit required
per phase
Order No.
Order No.
6SX70 100AC81
22
6SX70 100AC81
22
6SX70 100AC81
Power loss
W
Basic interference
suppression
Order No.
6SE70 210EB871FC0
200
6SX70 100FB10
6SX70 100EJ00
6SE70 218EB871FC0
250
6SX70 100FB10
6SX70 100EJ00
22
6SE70 218EB871FC0
250
6SX70 100FB10
6SX70 100EJ00
6SX70 100AC80
10
6SE70 226EC871FC0
300
6SX70 100FB10
6SX70 100EJ00
6SX70 100AC80
10
6SE70 234EC871FC0
400
6SX70 100FB10
6SX70 100EJ00
6SX70 100AC80
10
6SE70 247ED871FC0
500
6SX70 100FB10
6SX70 100EJ00
6SX70 100AC80
10
6SE70 272ED871FC0
600
6SX70 100FB10
6SX70 100EJ00
6SX70 100AC80
10
6SE70 272ED871FC0
600
6SX70 100FB10
6SX70 100EJ00
3/65
Switch disconnector2)
Rectifier unit
Rated
current
kW
Order No.
Order No.
Switch disconnector
with fuse holders1)2)
Rated
current
Order No.
Max.
fuse
size
Rated
current
Order No.
Max.
fuse
size
15
6SE70241EP850AA0
3KA50 301EE01
63
3KL50 301EB01
63
00; 000
3NP40 100CH01
100
000
50
6SE70312EP850AA0
3KA53 301EE01
160
3KL53 301EB01
160
00; 000
3NP42 700CA01
250
0; 1
100
6SE70323EP850AA0
3KA55 301EE01
250
3KL55 301EB01
250
1; 2
3NP42 700CA01
250
0; 1
6SE70241EB850AA0
3KA50 301EE01
63
3KL50 301EB01
63
00
3NP40 100CH01
100
000
37
6SE70286EC850AA0
3KA51 301EE01
80
3KL52 301EB01
125
00
3NP40 100CH01
100
000
75
6SE70317EE850AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
110
6SE70327EE850AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
160
6SE70338EE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
200
6SE70346EE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
250
6SE70361EE850AA0
3KA58 301EE01
630
3KL61 301AB0
630
3NP54 600CA00
630
2; 3
400
6SE70382EH850AA0
3KE45 300AA
1000
500
6SE70410EH850AA0
3KE45 300AA
1000
630
6SE70413EK850A@0
1250
800
6SE70418EK850A@0
1600
6SE70241FB850AA0
3KA50 301EE01
63
3KL50 301EB01
63
00
3NP40 100CH01
100
000
37
6SE70272FC850AA0
3KA50 301EE01
63
3KL50 301EB01
63
00
3NP40 100CH01
100
000
55
6SE70288FC850AA0
3KA51 301EE01
80
3KL52 301EB01
125
00
3NP40 700CA01
160
00
75
6SE70314FE850AA0
3KA53 301EE01
160
3KL52 301EB01
125
00
3NP40 700CA01
160
00
132
6SE70324FE850AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
200
6SE70335FE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
250
6SE70342FE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
315
6SE70354FE850AA0
3KA58 301EE01
630
3KL61 301AB0
630
3NP54 600CA00
630
2; 3
450
6SE70377FH850AA0
3KE45 300AA
1000
630
6SE70410FH850AA0
3KE45 300AA
1000
800
6SE70413FK850A@0
1250
900
6SE70415FK850A@0
1600
1100
6SE70418FK850A@0
2000
6SE70322HE850AA0
3KA57 301EE01
400
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
250
6SE70335HE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
315
6SE70342HE850AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
400
6SE70354HE850AA0
3KA58 301EE01
630
3KL61 301AB0
630
3NP54 600CA00
630
2; 3
630
6SE70377HH850AA0
3KE45 300AA
1000
800
6SE70410HH850AA0
3KE45 300AA
1000
1000
6SE70413HK850A@0
1250
1100
6SE70415HK850A@0
1600
1500
6SE70418HK850A@0
2000
Rectifier unit
Rectifier unit with power section3)
A
D
1) Switch disconnectors:
Note size of cable-protection and semiconductor-protection fuses!
3/66
2) Can be optionally used depending on requirements. For further information see catalog
Low-voltage switchgear.
Rated
current
Order No.
Size
Semiconductor-protection
fuses
Duty class gR2)
(incl. cable protection)
Rated
Size
current
Fuse bases
to IEC/DIN5)
Order No.
Circuit-breaker4)
Rated
current
Main contactor/
AC contactor4)
Order No.
Rated
current/
size
A
Order No.
AC 1
duty
55 C
Order No.
Rated
current
A
3NA3 817
40
000
3NE1 8020
40
000
3RT10 34
50
3NA3 032
125
3NE1 0220
125
00
3RT10 54
160
3NA3 142
224
3NE1 2270
250
3RT10 64
275
3
3NA3 820
50
00
3NE1 8020
40
000
3RT10 34
3NA3 830
100
00
3NE1 8200
80
000
3RT10 44
3NA3 140
200
3NE1 2240
160
3TK50
190
3NA3 252
315
3NE1 2270
250
3TK52
315
3NA3 260
400
3NE1 3310
350
3TK54
380
3NA3 365
500
3NE1 3320
400
3TK56
500
3NA3 372
630
3NE1 4350
560
2 x 3TK52
567
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN61
3 x 3TK52
788
3NA3 6823)6)
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
1250
4a
2 x 3NA3 4753)6)
800
2 x 3NA3 4803)6)
1000
800
45
90
3NH7 520
1250/4a
3WN62
1000
3 x 3TK54
950
3NH3 530
1000/4
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
to 500 V
3NA3 820
to 600 V
3NA3 8206
50
00
3NE1 8020
40
000
3RT10 34
45
3NA3 824
3NA3 8246
80
00
3NE1 8180
63
000
3RT10 44
90
3NA3 830
3NA3 8306
100
00
3NE1 0210
100
00
3RT10 44
90
3NA3 136
3NA3 1366
160
3NE1 0220
125
00
3RT14 46
135
3NA3 144
3NA3 1446
250
3NE1 2270
250
3TK52
315
3NA3 260
3NA3 2606
400
3NE1 2310
350
3TK52
315
3NA3 365
3NA3 3656
500
3NE1 3320
400
3TK54
380
630
3NE1 3340
500
3TK56
500
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN61
2 x 3TK54
788
3NA3 6823)6)
1250
4a
800
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
2 x 3NA3 4753)6)
800
2 x 3NA3 4803)6)
1000
3NA3 1446
250
3NE1 2250
200
3NA3 2606
400
3NE1 2300
315
3NA3 3656
500
3NE1 2250
3NE1 4360
630
3NE1 3340
3NA3 372
2 x 3NA3 4753)6)
800
3NH7 520
1250/4a
3WN62
1000
3 x 3TK54
950
3NH3 530
1000/4
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN64
1600
3 x 3TK14
1410
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
3TK50
190
3TK52
315
400
3TK54
380
500
3TK56
500
3WN61
800
2 x 3TK54
788
3WN62
1000
3 x 3TK54
950
3WN63
1250
3 x 3TK56
1250
3WN64
1600
3 x 3TK14
1410
3WN65
2000
3 x 3TK15
1950
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
3/67
kW
Rectifier unit
Radio-interference
suppression filter
Order No.
Commutating reactor1)
vD = 2 %
Order No.
Order No.
Pv
50/60 Hz
W
Rated
current
A
15
6SE70241EP850AA0
6SE70234ES870FB12)
400/480 V, 50/60 Hz
4EP37 002US00
50
6SE70312EP850AA0
6SE70318ES870FA12)
4EU24 522UA000AA0
154/163
160
100
6SE70323EP850AA0
6SE70332ES870FA12)
4EU25 525UA000AA0
187/201
250
57/ 60
35.5
6SE70241EB850AA0
6SE70234ES870FB12)
400/480 V, 50/60 Hz
4EP37 002US00
57/ 60
37
6SE70286EC850AA0
6SE70272ES870FB12)
4EP39 002US00
82/ 87
80
75
6SE70317EE850AA0
6SE70318ES870FA12)
4EU24 522UA000AA0
154/163
160
110
6SE70327EE850AA0
6SE70332ES870FA12)
4EU25 525UA000AA0
187/201
250
160
6SE70338EE850AA0
6SE70332ES870FA12)
4EU27 527UA000AA0
253/275
315
200
6SE70346EE850AA0
6SE70360ES870FA12)
4EU27 528UA000AA0
253/275
400
250
6SE70361EE850AA0
6SE70360ES870FA12)
4EU30 525UA000AA0
334/367
560
400
6SE70382EH850AA0
6SE70410ES870FA12)
4EU36 528UA001BA0
450/495
720
500
6SE70410EH850AA0
6SE70410ES870FA12)
4EU36 520UB001BA0
450/495
910
630
6SE70413EK850A@0
6SE70416ES870FA12)
4EU36 527UC001BA0
450/495
1120
800
6SE70418EK850A@0
6SE70416ES870FA12)
4EU39 510UC000A
570/627
1600
35.5
6SE70241FB850AA0
B84143A50R212)3)
500 V, 50 Hz
4EP37 001US00
57
35.5
37
6SE70272FC850AA0
B84143A80R212)3)
4EP39 001US00
82
63
55
6SE70288FC850AA0
B84143A80R212)3)
4EP40 001US00
96
80
75
6SE70314FE850AA0
B84143A120R212)3)
4EU24 521UA000AA0
154
140
132
6SE70324FE850AA0
B84143B 250S@@3)
4EU25 526UA000AA0
187
200
200
6SE70335FE850AA0
B84143B 320S@@3)
4EU27 523UA000AA0
253
315
250
6SE70342FE850AA0
B84143B 600S@@3)
4EU27 524UA000AA0
253
400
315
6SE70354FE850AA0
B84143B 600S@@3)
4EU30 522UA000AA0
334
450
450
6SE70377FH850AA0
B84143B1000S@@3)
4EU36 523UA000AA0
450
710
630
6SE70410FH850AA0
B84143B1000S@@3)
4EU36 524UA001BA0
450
910
800
6SE70413FK850A@0
B84143B1600S@@3)
4EU39 515UB000A
570
1120
900
6SE70415FK850A@0
B84143B1600S@@3)
4EU39 517UB000A
570
1250
6SE70418FK850A@0
B84143B1600S@@3)
4EU43 512UB000A
750
1600
1100
6SE70322HE850AA0
B84143B 250S@@3)
690 V, 50 Hz
4EU27 526UA000AA0
253
224
250
6SE70335HE850AA0
B84143B 320S@@3)
4EU30 523UA000AA0
334
315
315
6SE70342HE850AA0
B84143B 600S@@3)
4EU30 524UA000AA0
334
400
400
6SE70354HE850AA0
B84143B 600S@@3)
4EU36 525UA000AA0
450
500
630
6SE70377HH850AA0
B84143B1000S@@3)
4EU36 527UA001BA0
450
710
800
6SE70410HH850AA0
B84143B1000S@@3)
4EU39 510UA000A
570
910
1000
6SE70413HK850A@0
B84143B1600S@@3)
4EU39 516UB000A
570
1120
1100
6SE70415HK850A@0
B84143B1600S@@3)
4EU43 510UB000A
750
1250
1500
6SE70418HK850A@0
B84143B1600S@@3)
4EU45 514UA00
840
1600
Rectifier unit
A
Rectifier unit for parallel connection
D
for 500 V TT and TN systems (earthed system)
for 690 V TT and TN systems (earthed system)
for 380 V to 690 V IT systems (non-earthed and insulated system)
ss
2 0
2 1
2 4
3/68
Commutating reactor1)
vD = 4 %
Order No.
400/480 V, 50/60 Hz
4EP39 005US00
Pv
50/60 Hz
W
82/ 87
Rated
current
A
35.5
4EU27 521UB000AA0
253/275
160
4EU30 527UA000AA0
334/367
280
3
400/480 V, 50/60 Hz
4EP39 005US00
82/ 87
35.5
4EU24 524UA000AA0
154/163
80
4EU27 521UB000AA0
253/275
160
4EU30 527UA000AA0
334/367
280
4EU30 528UA000AA0
334/367
355
4EU36 523UB000AA0
450/495
400
4EU36 524UB000AA0
450/495
560
4EU39 516UA000A
570/627
710
4EU39 511UB000A
570/627
910
4EU43 513UB000A
750/830
1120
4EU43 515UB000A
750/830
1600
500 V, 50 Hz
4EP40 010US00
96
35.5
4EU24 525UA000AA0
154
63
4EU25 521UB000AA0
187
80
4EU27 523UB000AA0
253
140
4EU30 520UB000AA0
334
200
4EU36 525UB000AA0
450
315
4EU36 526UB000AA0
450
400
4EU36 527UB001BA0
450
500
4EU39 517UA000A
570
710
4EU43 515UA000A
570
910
4EU45 515UA000A
840
1120
4EU45 516UA000A
840
1250
4EU47 513UA000A
965
1600
690 V, 50 Hz
4EU36 528UB000AA0
450
224
4EU36 520UC000AA0
450
315
4EU39 518UA000A
570
400
4EU39 510UB000A
570
500
4EU43 516UA000A
750
710
4EU45 513UA00
840
910
4EU47 512UA00
965
1120
4EU50 511UA00
1180
1250
4EU52 511UA00
1350
1600
3/69
Switch disconnector2)
Rectifier/
regenerative unit
Rated
current
kW
Order No.
Order No.
Switch disconnector
with fuse holders1)2)
Rated
current
Order No.
Max.
fuse
size
Rated
current
Order No.
Max.
fuse
size
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
15
6SE70241EC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
37
6SE70286EC851AA0
3KA51 301EE01
80
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
75
6SE70317EE851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
90
6SE70322EE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
132
6SE70331EE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
160
6SE70338EE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
200
6SE70346EE851AA0
3KA57 301EE01
400
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
250
6SE70361EE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
400
6SE70382EH851AA0
3KE45 300AA
1000
500
6SE70410EH851AA0
3KE45 300AA
1000
630
6SE70413EK851A@0
1250
800
6SE70418EK851A@0
1600
7.5
6SE70227FC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
22
6SE70241FC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
37
6SE70272FC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
55
6SE70288FC851AA0
3KA51 301EE01
80
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
90
6SE70315FE851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
132
6SE70324FE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
160
6SE70327FE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
200
6SE70335FE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
250
6SE70342FE851AA0
3KA57 301EE01
400
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
315
6SE70354FE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
450
6SE70377FH851AA0
3KE45 300AA
1000
630
6SE70410FH851AA0
3KE45 300AA
1000
800
6SE70413FK851A@0
1250
900
6SE70415FK851A@0
1600
1100
6SE70418FK851A@0
2000
6SE70314HE851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
160
6SE70322HE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP53 600CA00
400
1; 2
200
6SE70327HE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP53 600CA00
400
1; 2
315
6SE70342HE851AA0
3KA57 301EE01
400
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
400
6SE70353HE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
630
6SE70377HH851AA0
3KE45 300AA
1000
800
6SE70410HH851AA0
3KE45 300AA
1000
1000
6SE70413HK851A@0
1250
1100
6SE70415HK851A@0
1600
1500
6SE70418HK851A@0
2000
Rectifier/regenerative unit
Rectifier/regenerative unit
for parallel connection
A
D
1) Switch disconnectors:
Note size of cable-protection and semiconductor-protection fuses!
3/70
2) Can be optionally used depending on requirements. For further information see catalog
Low-voltage switchgear.
Rated
current
Order No.
Semiconductor-protection fuses
Duty class aR2)
(incl. cable protection)
Size
Rated
current
Order No.
Size
Order No.
Rated
current/
Size
A
Order No.
Main contactor/
AC contactor4)
Rated
current
A
AC 1
duty
55 C
Order No.
Rated
current
A
3NA3 810
25
00
3NE4 101
32
3RT10 25
3NA3 820
50
00
3NE4 118
63
3RT10 34
45
3NA3 830
100
00
3NE4 122
125
3RT10 44
90
3NA3 140
200
3NE3 227
250
3TK50
190
3NA3 144
250
3TK52
315
3NA3 252
315
3NE3 233
450
3TK52
315
3NA3 260
400
3NE3 333
450
3TK54
380
3NA3 365
500
3NE3 335
560
3TK56
500
3NA3 372
630
3NE3 3388
800
2 x 3TK52
567
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN61
800
3 x 3TK52
788
3NA3 6823)6)
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
1250
4a
2 x 3NA3 4753)6)
800
2 x 3NA3 4803)6)
1000
35
3NH7 520
1250/4a
3WN62
1000
3 x 3TK54
950
3NH3 530
1000/4
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
35
up to 500 V
3NA3 814
up to 600 V
3NA3 8146
35
00
3NE4 102
40
3RT10 25
3NA3 820
3NA3 8206
50
00
3NE4 118
63
3RT10 34
45
3NA3 824
3NA3 8246
80
00
3NE4 121
100
3RT10 44
90
3NA3 830
3NA3 8306
100
00
3NE3 222
125
3RT10 44
3NA3 136
3NA3 1366
160
3NE3 224
160
3TK50
190
3NA3 144
3NA3 1446
250
3TK52
315
3NA3 252
3NA3 2526
315
3NE3 231
350
3TK52
315
3NA3 260
3NA3 2606
400
3NE3 333
450
3TK52
315
3NA3 365
3NA3 3656
500
3TK54
380
3NA3 372
3NE1 4360
630
3NE3 336
3TK56
500
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN61
2 x 3TK54
684
3NA3 6823)6)
1250
4a
800
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
2 x 3NA3 4753)6)
800
2 x 3NA3 4803)6)
1000
3NA3 1366
160
3NE3 224
160
3NA3 1446
250
3NA3 2526
315
3NE3 231
3NA3 3656
500
3NE1 4360
630
2 x 3NA3 4753)6)
630
800
90
3NH7 520
1250/4a
3WN62
1000
3 x 3TK54
950
3NH3 530
1000/4
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN64
1600
3 x 3TK56
1250
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
3RT14 46
135
3TK50
190
350
3TK52
315
3NE3 335
560
3TK54
380
3NE3 336
630
3TK56
500
3WN61
800
2 x 3TK54
684
3WN62
1000
3 x 3TK54
950
3WN63
1250
3 x 3TK56
1250
3WN64
1600
3 x 3TK56
1250
3WN65
2000
3 x 3TK15
1950
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
3/71
Radio-interference
suppression filter
kW
Order No.
Order No.
Commutating reactor1)
vD = 2 %
Order No.
Commutating reactor1)
vD = 4 %
Pv
50/60
Hz
W
Rated
current
A
Order No.
Pv
50/60
Hz
W
Rated
current
A
6SE70234ES870FB12)
400/480 V, 50/60 Hz
4EP36 004US00
52/ 57
18
400/480 V, 50/60 Hz
4EP37 007US00
57/ 60
18
15
6SE70241EC851AA0
6SE70234ES870FB12)
4EP37 002US00
57/ 60
35.5
4EP39 005US00
82/ 87
35.5
37
6SE70286EC851AA0
6SE70272ES870FB12)
4EP39 002US00
82/ 87
80
4EU24 524UA000AA0
154/163
80
75
6SE70317EE851AA0
6SE70318ES870FA12)
4EU24 522UA000AA0
154/163
160
4EU27 521UB000AA0
253/275
160
7.5
90
6SE70322EE851AA0
6SE70318ES870FA12)
4EU25 524UA000AA0
187/201
200
4EU27 522UB000AA0
253/275
200
132
6SE70331EE851AA0
6SE70332ES870FA12)
4EU27 520UB000AA0
253/275
280
4EU30 527UA000AA0
334/367
280
160
6SE70338EE851AA0
6SE70332ES870FA12)
4EU27 527UA000AA0
253/275
315
4EU30 528UA000AA0
334/367
355
200
6SE70346EE851AA0
6SE70360ES870FA12)
4EU27 528UA000AA0
253/275
400
4EU36 523UB000AA0
450/495
400
250
6SE70361EE851AA0
6SE70360ES870FA12)
4EU30 525UA000AA0
334/367
560
4EU36 524UB000AA0
450/495
560
400
6SE70382EH851AA0
6SE70410ES870FA12)
4EU36 528UA001BA0
450/495
720
4EU39 516UA000A
570/627
710
500
6SE70410EH851AA0
6SE70410ES870FA12)
4EU36 520UB001BA0
450/495
910
4EU39 511UB000A
570/627
910
630
6SE70413EK851A@0
6SE70416ES870FA12)
4EU36 527UC001BA0
450/495 1120
4EU43 513UB000A
750/830
1120
800
6SE70418EK851A@0
6SE70416ES870FA12)
4EU39 510UC000A
570/627 1600
4EU43 515UB000A
750/830
1600
6SE70227FC851AA0
B84143A25R212)3)
500 V, 50 Hz
4EP36 003US00
52
22.4
500 V, 50 Hz
4EP38 008US00
67
22.4
22
6SE70241FC851AA0
B84143A36R212)3)
4EP37 001US00
57
35.5
4EP40 010US00
96
35.5
37
6SE70272FC851AA0
B84143A80R212)3)
4EP39 001US00
82
63
4EU24 525UA000AA0
154
55
6SE70288FC851AA0
B84143A80R212)3)
4EP40 001US00
96
80
4EU25 521UB000AA0
187
80
90
6SE70315FE851AA0
B84143A150R212)3)
4EU24 521UA000AA0
154
140
4EU27 523UB000AA0
253
140
132
6SE70324FE851AA0
B84143B 250S@@3)
4EU25 526UA000AA0
187
200
4EU30 520UB000AA0
334
200
160
6SE70327FE851AA0
B84143B 250S@@3)
4EU27 522UA000AA0
253
250
4EU30 521UB000AA0
334
250
200
6SE70335FE851AA0
B84143B 320S@@3)
4EU27 523UA000AA0
253
315
4EU36 525UB000AA0
450
315
250
6SE70342FE851AA0
B84143B 600S@@3)
4EU27 524UA000AA0
253
400
4EU36 526UB000AA0
450
400
315
6SE70354FE851AA0
B84143B 600S@@3)
4EU30 522UA000AA0
334
450
4EU36 527UB001BA0
450
500
450
6SE70377FH851AA0
B84143B1000S@@3)
4EU36 523UA000AA0
450
710
4EU39 517UA000A
570
710
630
6SE70410FH851AA0
B84143B1000S@@3)
4EU36 524UA001BA0
450
910
4EU43 515UA000A
750
910
800
6SE70413FK851A@0
B84143B1600S@@3)
4EU39 525UB000A
570
1120
4EU45 515UA00
840
1120
900
6SE70415FK851A@0
B84143B1600S@@3)
4EU39 517UB000A
570
1250
4EU45 516UA00
840
1250
1100
6SE70418FK851A@0
B84143B1600S@@3)
4EU43 512UB000A
750
1600
4EU47 513UA00
965
1600
63
6SE70314HE851AA0
B84143B 250S@@3)
690 V, 50 Hz
4EU25 523UA000AA0
187
125
690 V, 50 Hz
4EU27 524UB000AA0
253
125
160
6SE70322HE851AA0
B84143B 250S@@3)
4EU27 526UA000AA0
253
224
4EU36 528UB000AA0
450
224
200
6SE70327HE851AA0
B84143B 320S@@3)
4EU27 526UA000AA0
253
224
4EU36 528UB000AA0
450
224
315
6SE70342HE851AA0
B84143B 600S@@3)
4EU30 524UA000AA0
334
400
4EU39 518UA000A
570
400
400
6SE70353HE851AA0
B84143B 600S@@3)
4EU36 525UA000AA0
450
500
4EU39 510UB000A
570
500
630
6SE70377HH851AA0
B84143B1000S@@3)
4EU36 527UA001BA0
450
710
4EU43 516UA000A
750
710
800
6SE70410HH851AA0
B84143B1000S@@3)
4EU39 510UA000A
570
910
4EU45 513UA00
840
910
1000
6SE70413HK851A@0
B84143B1600S@@3)
4EU39 516UB000A
570
1120
4EU47 512UA00
965
1120
1100
6SE70415HK851A@0
B84143B1600S@@3)
4EU43 510UB000A
750
1250
4EU50 511UA00
1180
1250
1500
6SE70418HK851A@0
B84143B1600S@@3)
4EU45 514UA00
840
1600
4EU52 511UA00
1350
1600
Rectifier/regenerative unit
A
Rectifier/regenerative unit
D
for parallel connection
for 500 V TT and TN systems (earthed system)
for 690 V TT and TN systems (earthed system)
for 380 V to 690 V IT systems (non-earthed
and insulated system)
3/72
ss
2 0
2 1
2 4
Regenerative autotransformer1)
25 % power-on
duration
Pv
50/60 Hz
25 % power-on
duration
Pv
50/60 Hz
Order No.
kW
Order No.
kW
0.35
440 V to 480 V, 60 Hz
4AP25 950UA218AN2
0.35
4AP27 950UA018AN2
0.45
4AP27 950UA518AN2
0.45
4AP30 950UA018AN2
0.65
4AP30 950UA718AN2
0.65
4AU39 950UA518AN2
2.20
4AU36 950UA218AN2
1.70
4AU39 950UA618AN2
2.20
4AU39 950UB018AN2
2.20
4BU43 950UA418A
2.70
4BU43 950UA518A
2.70
4BU45 950UA618A
2.80
4BU45 950UA718A
2.80
4BU47 950UA618A
3.00
4BU47 950UA718A
3.00
4BU51 950UA318A
6.00
4BU51 950UA418A
6.00
4BU53 950UA618A
6.20
4BU52 950UA418A
6.20
4BU54 950UA218A
7.30
4BU54 950UA318A
7.30
4BU56 950UA418A
8.00
4BU55 950UA318A
7.50
4BU56 950UA518A
8.00
4BU58 950UA518A
14.8
500 V, 50/60 Hz
4AP27 950UA618AN2
0.45
600 V, 60 Hz
4AP25 950UA018AN2
0.35
4AP27 950UA718AN2
0.45
4AP27 950UA318AN2
0.45
4AP30 950UA818AN2
0.65
4AP30 950UA618AN2
0.65
4AU36 950UA318AN2
1.70
4AP30 950UA618AN2
0.65
4AU39 950UB118AN2
2.20
4AU39 950UA418AN2
2.20
4BU43 950UA618A
2.70
4BU43 950UA118A
2.70
4BU45 950UA818A
2.80
4BU43 950UA218A
2.70
4BU45 950UB018A
2.80
4BU45 950UA418A
2.80
4BU47 950UA818A
3.00
4BU47 950UA418A
3.00
4BU51 950UA518A
6.00
4BU51 950UA218A
6.00
4BU54 950UA418A
7.30
4BU53 950UA418A
6.20
4BU55 950UA418A
7.50
4BU55 950UA218A
7.50
4BU56 950UA618A
8.00
4BU56 950UA218A
8.00
4BU58 950UA618A
8.00
on request
4BU59 950UA218A
15.5
on request
690 V, 50/60 Hz
4BU43 950UA318A
2.70
4BU45 950UA518A
2.80
4BU47 950UA518A
3.00
4BU52 950UA318A
6.00
4BU53 950UA518A
6.20
4BU56 950UA318A
8.00
4BU58 950UA418A
14.8
4BU59 950UA118A
15.5
4BU60 950UA318A
16.3
4BU62 950UA418A
20.2
3/73
Switch disconnector2)
Rectifier/
regenerative unit
Rated
current
kW
Order No.
Order No.
Switch disconnector
with fuse holders1)2)
Rated
current
Order No.
Max.
fuse
size
Rated
current
Order No.
Max.
fuse
size
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
15
6SE70241EC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
37
6SE70286EC851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
75
6SE70317EE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
90
6SE70322EE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
132
6SE70331EE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
160
6SE70338EE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
200
6SE70346EE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
250
6SE70361EE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
400
6SE70382EH851AA0
3KE45 300AA
1000
500
6SE70410EH851AA0
1250
630
6SE70413EK851A@0
1250
800
6SE70418EK851A@0
1600
7.5
6SE70227FC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
22
6SE70241FC851AA0
3KA50 301EE01
63
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
37
6SE70272FC851AA0
3KA51 301EE01
80
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
55
6SE70288FC851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
90
6SE70315FE851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
132
6SE70324FE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
160
6SE70327FE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
200
6SE70335FE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
250
6SE70342FE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
315
6SE70354FE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
450
6SE70377FH851AA0
3KE45 300AA
1000
630
6SE70410FH851AA0
1250
800
6SE70413FK851A@0
1600
900
6SE70415FK851A@0
1600
1100
6SE70418FK851A@0
2000
6SE70314HE851AA0
3KA53 301EE01
160
3KL55 301EB01
250
0; 1; 2
3NP42 700CA01
250
0; 1
160
6SE70322HE851AA0
3KA55 301EE01
250
3KL55 301EB01
250
0; 1; 2
3NP53 600CA00
400
1; 2
200
6SE70327HE851AA0
3KA57 301EE01
400
3KL57 301EB01
400
1; 2
3NP53 600CA00
400
1; 2
315
6SE70342HE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
400
6SE70353HE851AA0
3KA58 301EE01
630
3KL61 301AB0
630
2; 3
3NP54 600CA00
630
2; 3
630
6SE70377HH851AA0
3KE45 300AA
1000
800
6SE70410HH851AA0
1250
1000
6SE70413HK851A@0
1600
1100
6SE70415HK851A@0
1600
1500
6SE70418HK851A@0
2000
Rectifier/regenerative unit
Rectifier/regenerative unit
for parallel connection
A
D
1) Switch disconnectors:
Note size of cable-protection and semiconductor-protection fuses!
3/74
2) Can be optionally used depending on requirements. For further information see catalog
Low-voltage switchgear.
Rated
current
Order No.
Size
Semiconductor-protection
fuses
Duty class aR2)
(incl. cable protection)
Rated
Size
current
Order No.
Rated
current
Main contactor/
AC contactor4)
Order No.
Rated
current/
Size
A
Order No. A
AC 1
duty
55 C
Order No.
Rated
current
A
3NA3 810
25
00
3NE4 101
32
3RT10 25
35
3NA3 820
50
00
3NE4 118
63
3RT10 34
45
3NA3 830
100
00
3NE4 122
125
3RT10 44
3NA3 140
200
3NE3 227
250
3TK50
190
3NA3 144
250
3NE3 2300B
315
3TK52
315
3NA3 252
315
3NE3 233
450
3TK54
380
3NA3 260
400
3NE3 333
450
3TK56
500
3NA3 365
500
3NE3 335
560
3TK56
500
3NA3 372
630
3NE3 3388
800
2 x 3TK54
684
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN62
1000
3 x 3TK52
788
3NA3 6823)6)
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
3NH7 520
1250/4a
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN64
1600
3 x 3TK56
1250
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
1250
4a
2 x 3NA3 4753)6)
800
2 x 3NA3 4803)6)
1000
90
up to 500 V
3NA3 814
up to 600 V
3NA3 8146
35
00
3NE4 102
40
3RT10 25
35
3NA3 820
3NA3 8206
50
00
3NE4 118
63
3RT10 34
45
3NA3 824
3NA3 8246
80
00
3NE4 121
100
3RT10 44
90
3NA3 830
3NA3 8306
100
00
3NE3 222
125
3RT10 44
3NA3 136
3NA3 1366
160
3NE3 224
160
3TK50
190
3NA3 144
3NA3 1446
250
3NE3 2300B
315
3TK52
315
3NA3 252
3NA3 2526
315
3NE3 231
350
3TK52
315
3NA3 260
3NA3 2606
400
3NE3 333
450
3TK54
380
3NA3 365
3NA3 3656
500
3NE3 3340B
500
3TK56
500
3NA3 372
3NE1 4360
630
3NE3 336
630
2 x 3TK54
684
3NA3 4803)6)
1000
3NH3 530
1000/4
3WN61
800
2 x 3TK56
900
3NA3 6823)6)
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
3NH7 520
1250/4a
3WN63
1250
3 x 3TK56
1250
3NH3 530
1000/4
3WN64
1600
3 x 3TK56
1250
90
1250
4a
2 x 3NA3 4753)6)
800
2 x 3NA3 4753)6)
800
3NH3 530
1000/4
3WN64
1600
3 x 3TK14
1410
2 x 3NA3 4803)6)
1000
3NH3 530
1000/4
3WN65
2000
3 x 3TK15
1950
3NA3 1366
160
3NE3 224
160
3TK50
190
3NA3 1446
250
3NE3 2300B
315
3TK52
315
3NA3 2526
315
3NE3 231
350
3TK52
315
3NA3 3656
500
3NE3 335
560
3TK56
500
3NE1 4366
630
3NE3 336
630
2 x 3TK54
684
3WN61
800
2 x 3TK56
900
3WN63
1250
3 x 3TK56
1250
3WN64
1600
3 x 3TK56
1250
3WN64
1600
3 x 3TK14
1410
3WN65
2000
3 x 3TK15
1950
Semiconductor protection
fuses aR (without cable
protection) already integrated
in the standard unit
3/75
Radio-interference
suppression filter
kW
Order No.
Order No.
Commutating reactor1)
vD = 2 %
Order No.
Commutating reactor1)
vD = 4 %
Pv
50/60
Hz
W
Rated
current
A
Order No.
Pv
50/60
Hz
W
Rated
current
A
6SE70234ES870FB12)
400/480 V, 50/60 Hz
4EP36 010US00
52/ 57
22.5
400/480 V, 50/60 Hz
4EP38 010US00
67/ 71
15
6SE70241EC851AA0
6SE70272ES870FB12)
4EP38 011US00
67/ 71
45
4EP40 011US00
96/103
45
37
6SE70286EC851AA0
6SE70312ES870FA12)
4EP40 013US00
96/103
91
4EU25 522UB000AA0
187/201
91
75
6SE70317EE851AA0
6SE70318ES870FA12)
4EU25 524UA000AA0
187/201
200
4EU27 522UB000AA0
253/275
200
90
6SE70322EE851AA0
6SE70332ES870FA12)
4EU25 528UA000AA0
187/201
224
4EU27 525UB000AA0
253/275
224
132
6SE70331EE851AA0
6SE70332ES870FA12)
4EU27 527UA000AA0
253/275
315
4EU30 523UB000AA0
334/367
315
160
6SE70338EE851AA0
6SE70360ES870FA12)
4EU27 528UA000AA0
253/275
400
4EU30 528UA000AA0
334/367
355
200
6SE70346EE851AA0
6SE70360ES870FA12)
4EU30 524UB000AA0
334/367
500
4EU36 525UC000AA0
450/495
500
250
6SE70361EE851AA0
6SE70410ES870FA12)
4EU30 526UA001BA0
334/367
630
4EU36 526UC001BA0
450/495
630
400
6SE70382EH851AA0
6SE70410ES870FA12)
4EU36 520UB001BA0
450/495
910
4EU39 511UB000A
570/627
910
500
6SE70410EH851AA0
6SE70410ES870FA12)
4EU36 527UC001BA0
450/495 1120
4EU43 513UB000A
750/830
1120
630
6SE70413EK851A@0
6SE70416ES870FA12)
4EU39 518UB000A
570/627 1400
4EU43 514UB000A
750/830
1500
800
6SE70418EK851A@0
6SE70416ES870FA12)
on request
7.5
1800
on request
22.5
1800
6SE70227FC851AA0
B84143A36R212)3)
500 V, 50 Hz
4EP37 007US00
57
31.5
500 V, 50 Hz
4EP40 010US00
96
22
6SE70241FC851AA0
B84143A50R212)3)
4EP38 012US00
67
45
4EP40 012US00
96
45
37
6SE70272FC851AA0
B84143A80R212)3)
4EP40 001US00
96
80
4EU25 521UB000AA0
187
80
55
6SE70288FC851AA0
B84143A120R212)3)
4EP40 002US00
96
100
4EU25 523UB000AA0
187
100
90
6SE70315FE851AA0
B84143A150R212)3)
4EU25 522UA000AA0
187
160
4EU27 526UB000AA0
253
160
132
6SE70324FE851AA0
B84143B 250S@@3)
4EU27 522UA000AA0
253
250
4EU30 521UB000AA0
334
250
160
6SE70327FE851AA0
B84143B 320S@@3)
4EU27 523UA000AA0
253
315
4EU36 525UB000AA0
450
315
200
6SE70335FE851AA0
B84143B 320S@@3)
4EU27 524UA000AA0
253
400
4EU36 526UB000AA0
450
400
250
6SE70342FE851AA0
B84143B 600S@@3)
4EU30 522UA000AA0
334
450
4EU36 527UB001BA0
450
500
315
6SE70354FE851AA0
B84143B 600S@@3)
4EU30 525UB000AA0
334
560
4EU39 514UB000A
570
560
450
6SE70377FH851AA0
B84143B1000S@@3)
on request
800
on request
630
6SE70410FH851AA0
B84143B1000S@@3)
4EU39 515UB000A
570
1120
4EU45 515UA00
840
1120
800
6SE70413FK851A@0
B84143B1600S@@3)
4EU39 517UB000A
570
1250
4EU45 516UA00
840
1250
900
6SE70415FK851A@0
B84143B1600S@@3)
4EU43 512UB000A
750
1600
4EU47 513UA00
965
1600
1100
6SE70418FK851A@0
B84143B2500S@@3)
on request
2000
on request
35.5
800
2000
6SE70314HE851AA0
B84143B 250S@@3)
690 V, 50 Hz
4EU25 520UB000AA0
187
160
690 V, 50 Hz
4EU30 522UB000AA0
334
180
160
6SE70322HE851AA0
B84143B 250S@@3)
4EU27 526UA000AA0
253
224
4EU36 528UB000AA0
450
224
200
6SE70327HE851AA0
B84143B 320S@@3)
4EU27 526UA000AA0
253
224
4EU36 528UB000AA0
450
224
315
6SE70342HE851AA0
B84143B 600S@@3)
4EU30 524UA000AA0
334
400
4EU39 518UA000A
570
400
400
6SE70353HE851AA0
B84143B 600S@@3)
4EU36 524UC000AA0
450
560
4EU39 514UB000A
570
560
630
6SE70377HH851AA0
B84143B1000S@@3)
on request
800
6SE70410HH851AA0
B84143B1000S@@3)
4EU39 516UB000A
570
1120
4EU47 512UA00
965
1120
1000
6SE70413HK851A@0
B84143B1600S@@3)
4EU43 510UB000A
750
1250
4EU50 511UA00
1180
1250
1100
6SE70415HK851A@0
B84143B1600S@@3)
4EU45 514UA00
840
1600
4EU52 511UA00
1350
1600
1500
6SE70418HK851A@0
B84143B1600S@@3)
on request
2000
on request
Rectifier unit
A
Rectifier unit for parallel
D
connection
for 500 V TT and TN systems (earthed system)
for 690 V TT and TN systems (earthed system)
for 380 V to 690 V IT systems (non-earthed
and insulated system)
3/76
ss
800
on request
800
2000
2 0
2 1
2 4
Regenerative autotransformer
100 % power-on
duration
Pv
50/60 Hz
100 % power-on
duration
Pv
50/60 Hz
Order No.
kW
Order No.
kW
0.15
440 V to 480 V, 60 Hz
4AP27 950UA218AN2
0.15
4AP30 950UA118AN2
0.20
4AP30 950UA218AN2
0.20
4AU39 950UA018AN2
0.60
4AU39 950UA118AN2
0.60
4BU45 950UA018A
0.90
4BU43 950UA018A
0.80
4BU45 950UA118A
0.90
4BU45 950UA218A
0.90
4BU47 950UA018A
1.00
4BU47 950UA118A
1.00
4BU52 950UA018A
1.70
4BU51 950UA018A
1.60
4BU53 950UA018A
1.80
4BU53 950UA118A
1.80
4BU54 950UA118A
2.10
4BU54 950UA018A
2.10
4BU56 950UA018A
2.30
4BU56 950UA118A
2.30
4BU58 950UA018A
4.10
4BU58 950UA118A
4.10
4BU60 950UA018A
4.60
4BU59 950UA018A
4.40
4BU62 950UA018A
5.70
on request
500 V, 50/60 Hz
4AP30 950UA318AN2
0.20
600 V, 60 Hz
4AP30 950UA518AN2
0.20
4AU36 950UA418AN2
0.48
4AU36 950UA018AN2
0.48
4AU39 950UA218AN2
0.60
4AU36 950UA118AN2
0.48
4AU39 950UA318A
0.60
on request
4BU45 950UA318A
0.90
on request
4BU47 950UA218A
1.00
on request
4BU51 950UA118A
1.60
on request
4BU52 950UA118A
1.70
on request
4BU53 950UA218A
1.80
on request
4BU55 950UA018A
2.20
on request
4BU58 950UA218A
4.10
on request
4BU60 950UA118A
4.60
on request
4BU62 950UA118A
5.70
on request
4BU62 950UA218A
5.70
on request
4BU64 950UA018A
6.40
on request
690 V, 50/60 Hz
4BU47 950UA318A
1.00
4BU52 950UA218A
1.70
4BU53 950UA318A
1.80
4BU55 950UA118A
2.20
4BU58 950UA318A
4.10
4BU60 950UA218A
4.60
4BU62 950UA318A
5.70
4BU63 950UA018A
6.00
4BU64 950UA118A
6.40
4BU65 950UA018A
6.80
3/77
Components for
braking units1)
kW
Order No.
Rated
current
Order No.
Max.
fuse
size
Rated
current
Order No.
Size
6SE70180ES872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 101
32
10
6SE70216ES872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 101
32
20
6SE70232EA872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 102
40
50
6SE70280EA872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 121
100
100
6SE70316EB872DA0
3NP42 700CA01
250
0; 1
2 x 3NE3 225
200
170
6SE70327EB872DA0
3NP53 600CA00
400
0; 1
2 x 3NE3 2300B
315
6SE70164FS872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 101
32
10
6SE70213FS872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 101
32
50
6SE70264FA872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 120
80
100
6SE70313FB872DA0
3NP42 700CA01
250
0; 1
2 x 3NE3 224
160
200
6SE70325FB872DA0
3NP 53 600CA00
400
1; 2
2 x 3NE3 2300B
315
6SE70253HA872DA0
3NP42 700CA01
250
0; 1
2 x 3NE4 118
63
200
6SE70321HB872DA0
3NP42 700CA01
250
0; 1
2 x 3NE3 227
250
System components
Capacitor module and DC link module
Capacitor module for Compact PLUS units
The capacitor module enables short-time energy buffering.
Capacitance
mF
5.1
Order No.
6SE70250TP872DD0
Dimensions
WxHxD
Weight
mm
90 x 360 x 260
kg
6
Voltage range
Order No.
6SE70900XP873CR0
3/78
Dimensions
WxHxD
mm
90 x 360 x 260
Weight
kg
2.7
Description
Size
Order No.
Dimensions
WxHxD
mm
Weight
kg
E
F
G
6SE70900XE873AC0
6SE70900XF873AC0
6SE70900XG873AC0
15
17
25
6SE70900XE850TC0
15
6SE70900XE851TC0
15
Length
Order No.
2m
12 01 002
Wieland, Bamberg
2m
98.190.0000.0
5x2m
05 1440
10 x 1 m
05 1441
Length
Order No.
Siemens AG (I-Center)
0.5 m
8GR4 926
Siemens AG (I-Center)
1 m
8GR4 928
Supplier
Supplier
Supplier
Length
Order No.
Copper busbar E-Cu 3 x 10 tinned and rounded to DIN 46 4332), rated current 120 A
Siemens
1m
Phoenix Contact
Size
8WA2 842
NLSCu 3/10
Order No.
Connecting adapter for cable shields incl. shield clamp for power lines
A
6SE70900XA873CA1
6SE70900XB873CA1
6SE70900XC873CA1
6SE70900XD873CA1
Designation
Order No.
Shield clamps
Shield clamps, quantity = 15
Designation
6SY70000AD60
Order No.
Plug set
Plug set Compact PLUS
1) The retrofit kit contains all the mechanical components and cables. The PMU of the base unit is
to be integrated into the front door.
6SY70000AE51
2) DIN 46 433 has been replaced by EN 13 601. Busbar designation according to the new standard:
e.g. bar EN 13 601 CW004A D 3 x 10 RD
tinned.
Siemens DA 65.10 2003/2004
3/79
6FX@ 0022AH00@@@0
X103
(CUVC)
X104
(Compact
PLUS)
150 m
150 m
6FX5 0022CA12@@@0
X400/
X401
(SBP)
Incremental encoder
HTL
in motor type
1PH7, 1PH4, 1PL6
Incremental encoder
HTL
1XP8001 built on
motor type 1LA
External
incremental encoder
TTL/HTL
6FX2 001...
U2, V2,
W2
or
6SX7 0020AL00@@@0
6FX@ 008@@@@@@@@0
Permissible cable lengths,
see Engineering Information
from page 6/50 onwards
1.0
10.4
9.6
11.7
11.5
1.5
13.5
12.2
15.2
16.1
2.5
18.3
16.5
21
22
4
25
23
28
30
6
32
29
36
37
10
44
40
50
52
16
60
53
66
70
25
77
67
84
88
35
97
83
104
114
50
123
123
70
155
155
95
192
192
120
221
221
Electronics (pairs)
0.2
4.0
4.0
0.3
5.0
5.0
0.5
7.1
7.1
0.75
9.1
9.1
Correction factors
Incremental encoder
HTL
in motor type
1PH7, 1PH4, 1PL6
1PH7, 1PH4,
1PL6, 1LA
Correction factor
1.15
1.08
1.00
0.91
0.82
0.71
0.58
Note: The correction factors are taken from IEC 60 364-5-523, Table 52-D1.
Please note the maximum permissible cable lengths. Longer cables can
interfere with the correct functioning of the unit. The order number supplement @ for the cable type 6FX@ ... and the length code in general (@@@0) as
well as preferred lengths can be found on page 3/81.
3/80
Power cables for connecting 1PH7, 1PH4, 1PL6 and 1LA type motors
6FX@ 0081BB . .
without brake cable with total shield
6FX@ 0081BA . .
with brake cable with total shield
Weight1)
mm2
4 x 1.5
Order No.
6FX@ 0081BB11@@A0
6FX8 6FX5
kg/m kg/m
0.16
Smallest
permissible
bending
radius
6FX8 6FX5
mm mm
100
4 x 2.5
6FX@ 0081BB21@@A0
0.24
120
Order No.
mm2
4 x 1.5 + 2 x 1.5 6FX@ 0081BA11@@A0
4 x 2.5 + 2 x 1.5 6FX@ 0081BA21@@A0
4x4
6FX@ 0081BB31@@A0
0.31
130
4 x 4 + 2 x 1.5
6FX@ 0081BA31@@A0
4x6
6FX@ 0081BB41@@A0
0.43
170
4 x 6 + 2 x 1.5
4 x 10
6FX@ 0081BB51@@A0
0.63
210
4 x 16
6FX@ 0081BB61@@A0
0.95
260
4 x 25
6FX 5 0081BB25@@A0
4 x 35
6FX 5 0081BB35@@A0
4 x 502)
6FX 5 0081BB50@@A0
4 x 702)
6FX 5 0081BB70@@A0
4 x 952)
6FX 5 0081BB05@@A0
4 x 1202)
6FX 5 0081BB12@@A0
4 x 1502)
6FX 5 0081BB15@@A0
4 x 1852)
6FX 5 0081BB18@@A0
Weight1)
6FX8 6FX5
kg/m kg/m
0.25
Smallest
permissible
bending
radius
6FX8 6FX5
mm mm
125
0.31
140
0.40
150
6FX@ 0081BA41@@A0
0.53
195
4 x 10 + 2 x 1.5
6FX@ 0081BA51@@A0
0.74
230
4 x 16 + 2 x 1.5
4 x 25 + 2 x 1.5
4 x 35 + 2 x 1.5
4 x 50 + 2 x 1.5
6FX@ 0081BA61@@A0
6FX@ 0081BA25@@A0
6FX@ 0081BA35@@A0
6FX@ 0081BA50@@A0
1.10
1.46
2.10
2.75
275
325
380
420
ss
ss
MOTION CONNECT 8
800
MOTION CONNECT 5
500
MOTION CONNECT 8
800
MOTION CONNECT 5
500
1B
1F
2A
3A
6A
1B
1F
2A
3A
6A
Supplied form
Supplied form
50 m (1FA0)
100 m (2AA0)
1BA25
Disposable drum
Disposable drum
1BA35
Disposable drum
Disposable drum
1BA50
Disposable drum
Disposable drum
1BA51 / 1BB51
Disposable drum
1BA61 / 1BB61
Disposable drum
The cross-sections 25, 35 and 50 mm2 can also be ordered and supplied by the
meter from 10 to 49 m according to the length code of the prefabricated
cables and in 10 m rings.
3/81
PROTOFLEX-EMV
Shielded cables with copper braiding
for power cabling of frequency converters in order to comply with EMC
regulations.
Available from Pirelli Kabel und
Systeme GmbH & Co. KG,
Gertenfelder Str. 28, 13599 Berlin,
Germany.
External diameter
approx.
mm
Weight
Order No.
kg/km
4x
1.5
10.4
5DE6 950
154
2YSLCYJ
4x
2.5
12.3
5DE6 951
229
2YSLCYJ
4x
14.5
5DE6 952
339
2YSLCYJ
4x
16.8
5DE6 953
451
2YSLCYJ
4 x 10
19.7
5DE6 954
667
2YSLCYJ
4 x 16
22.0
5DE6 955
892
2YSLCYJ
4 x 25
27.0
5DE6 956
1 440
2YSLCYJ
4 x 35
30.3
5DE6 957
1 861
2YSLCYJ
4 x 50
35.0
5DE6 958
2 547
2YSLCYJ
4 x 70
39.4
5DE6 960
3 404
2YSLCYJ
4 x 95
46.0
5DE6 961
4 545
2YSLCYJ
4 x 120
51.4
5DE6 962
5 703
2YSLCYJ
4 x 150
58.8
5DE6 963
7 040
2YSLCYJ
4 x 185
61.1
5DE6 964
8 380
4x
1.5
10.4
5DE6 450
154
2YSLCYKJ
4x
2.5
12.3
5DE6 451
229
2YSLCYKJ
4x
14.5
5DE6 452
339
2YSLCYKJ
4x
16.8
5DE6 453
451
2YSLCYKJ
4 x 10
19.7
5DE6 454
667
2YSLCYKJ
4 x 16
22.0
5DE6 455
892
2YSLCYKJ
4 x 25
27.0
5DE6 456
1 440
2YSLCYKJ
4 x 35
30.3
5DE6 457
1 861
2YSLCYKJ
4 x 50
35.0
5DE6 458
2 547
2YSLCYKJ
4 x 70
39.4
5DE6 460
3 404
2YSLCYKJ
4 x 95
46.0
5DE6 461
4 545
2YSLCYKJ
4 x 120
51.4
5DE6 462
5 703
2YSLCYKJ
4 x 150
58.8
5DE6 463
7 040
2YSLCYKJ
4 x 185
61.1
5DE6 464
8 380
PROTODUR-power cable
Motor connection cable with concentric CEANDER conductors.
3/82
2YSLCYJ
3 x 25 + 3 x 4
26.2
5DE6 982
1 402
2YSLCYJ
3 x 35 + 3 x 6
29.0
5DE6 983
1 718
2YSLCYJ
3 x 50 + 3 x 10
34.6
5DE6 984
2 340
2YSLCYJ
3 x 70 + 3 x 10
38.3
5DE6 985
3 173
2YSLCYJ
3 x 95 + 3 x 16
44.0
5DE6 986
4 162
2YSLCYJ
3 x 120 + 3 x 16
50.8
5DE6 987
5 253
2YSLCYJ
3 x 150 + 3 x 25
55.2
5DE6 988
6 430
2YSLCYJ
3 x 185 + 3 x 35
62.0
5DE6 990
12 250
2YSLCYJ
3 x 240 + 3 x 40
67.0
5DE6 991
14 945
3 x 10 RE/10
20.0
5BC1734
NYCWY
3 x 16 RE/16
22.0
5BC1735
NYCWY
3 x 25 RE/25
28.0
5BC1736
NYCWY
3 x 35 SM/35
27.0
5BC2550
NYCWY
3 x 50 SM/50
31.0
5BC2551
NYCWY
3 x 70 SM/70
34.0
5BC2552
NYCWY
3 x 95 SM/95
39.0
5BC2553
NYCWY
3 x 120 SM/120
43.0
5BC2554
NYCWY
3 x 150 SM/150
47.0
5BC2555
NYCWY
3 x 35 SM/16
26.0
5BC2560
NYCWY
3 x 50 SM/25
30.0
5BC2561
NYCWY
3 x 70 SM/35
34.0
5BC2562
NYCWY
3 x 95 SM/50
39.0
5BC2563
NYCWY
3 x 120 SM/70
41.0
5BC2564
NYCWY
3 x 150 SM/70
46.0
5BC2565
NYCWY
3 x 185 SM/95
50.0
5BC2566
NYCWY
3 x 240 SM/120
56.0
5BC2567
Encoder cables for connecting to motors with HTL incremental encoder (cable length 150 m without transmission of
the inverted signals and cable lengths 150 to 300 m with transmission of the inverted signals and use of the DTI or SBP
module)
Signal name
Converter side
X103 terminal strip on CUVC
Pin No.
ca. 54 mm
SIEMENS
DA65-5157
DA65-5909
KTY 84+
KTY 84
+15 V
0V
Track A
CTRL TACHO
Track B
Zero track
Track B
KTY 84+
KTY 84
+15 V
0V
Track A
CTRL TACHO
Track B
Zero track
Track B
Track A
brown
Track A
4
9
Zero track
free
violet
Zero track
yellow
free
Outer shield on connector housing
2
11
12
10
5
7
8
3
1
max. 26 mm
8
7
9
12
1
10
30
29
28
23
24
27
25
26
only with DTI,
X402
only with DTI,
X402
11
5
4
DA65-5161
Order No.
Cable
sss
0m
A 0m
A 0m
2 100 m
B 10 m
C 20 m
D 30 m
B 1m
C 2m
D 3m
E 40 m
F 50 m
G 60 m
E 4m
F 5m
G 6m
H 70 m
J 80 m
K 90 m
H 7m
J 8m
K 9m
Length code
Example:
1 m: . . .
8 m: . . .
17 m: . . .
59 m: . . .
111 m: . . .
1
1
1
1
2
A
A
B
F
B
B
J
H
K
B
50
6FX@0081BD211FA0
100
6FX@0081BD212AA0
200
6FX@0081BD213AA0
500
6FX@0081BD216AA0
s
8
5
Designation
Order No.
Packaging unit
quantity
6FX20030CE12
6FX20031CF12
Accessories
Signal connector with union nut and
female contact for encoder-cable
connection to the motor, 12-pin.
Signal connector with external
winding and pin contacts for
extending cables, 12-pin.
0
0
0
0
0
3/83
Encoder cables for connecting 1LA type motors with 1XP80011 incremental encoder
Signal name
Converter side
X103 terminal strip on CUVC
Signal name
Pin No.
DA65-6095
A
B
C
D
E
F
G
DA65-6093
DA65-6092
H
K
L
M
M
G
Tacho P15
Zero pulse
28
26
Ua0
Ua1
Track A
24
Ua1
Ua5
Ua2
0V
0V
Up = +10 ... 30 V
B
L
Ua2
Up = +10 ... 30 V
Ua0
C
D
Order No.
sss
1
0m
2 100 m
A 0m
B 10 m
A 0m
B 1m
C 20 m
D 30 m
E 40 m
C 2m
D 3m
E 4m
F 50 m
G 60 m
H 70 m
F 5m
G 6m
H 7m
J 80 m
K 90 m
J 8m
K 9m
Length code
Example:
3/84
1 m: . . .
8 m: . . .
17 m: . . .
59 m: . . .
111 m: . . .
1
1
1
1
2
A
A
B
F
B
B
J
H
K
B
0
0
0
0
0
Control
27
Track B
25
Tacho M
23
Electronics options
messages
slave-to-slave communication
between drives
operation of SIMATIC OP as
Factory
mounted,
plugged
into slot
Supplementary
order
code
Retrofit kit
(supplied loose)
Order No.
CBP 2
G91
G93
G95
G97
G91
G92
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840FF5
Note
Catalog ST 70 describes the
functions and components such
as Profibus connectors (e.g.
6SE79720BA400XA0, Profibus
cable (e.g. 6XV18 300AH10), optical
bus terminals or optical link modules
(for connection to the optical
PROFIBUS DP).
Factory
mounted,
plugged
into slot
Supplementary
order
code
Retrofit kit
(supplied loose)
Order No.
CBC
G21
G23
G25
G27
G21
G22
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840FG0
Factory
mounted,
plugged
into slot
Supplementary
order
code1)
Note
SLB
Retrofit kit
(supplied loose)
Order No.
6SX70100FJ001)
A
G41
G43
G44
G45
G46
G47
G41
G42
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840FJ0
6SX70100FJ50
consisting of
2 fiber optic cable
1 plug X470
5 m plastic fiber optic cable
fine and coarse emery paper
6SY70000AD15
3/85
Electronics options
EB1 terminal expansion board
The EB1 expansion board (Expansion
Board 1) enables the number of digital and analog inputs and outputs to
be expanded as follows:
3 digital inputs
4 bidirectional digital inputs/out-
puts
24 V voltage supply for the digital
outputs
amplifier input
2 analog inputs
Board,
plugged
into slot
Supplementary
order
code
EB1
Expansion board 1
2 analog outputs.
For a more detailed description, diagram and circuit diagram, see Engineering Information, Section 6.
6SX70100KB00
For integration of the EB1 in the electronics box, see Engineering Information, Section 6.
G61
G63
G64
G65
G66
G67
G61
G62
Retrofit kit
(supplied loose)
Order No.
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840KB0
inputs
1 relay output with changeover
contacts
3 relay outputs with NO contact
amplifier inputs
1 analog output.
Board,
plugged
into slot
Supplementary
order
code
Retrofit kit
(supplied loose)
Order No.
EB2
Expansion board 2
6SX70100KC00
G71
G73
G74
G75
G76
G77
G71
G72
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840KC0
3/86
Factory
mounting,
plugged
into slot
Supplementary
order
code
Retrofit kit
for retrofitting
(supplied loose)
Order No.
SBP
C11
C13
C14
C15
C16
C17
C11
C12
Spare part
(board without
connectors and
instruction manual)
Order No.
6SE70900XX840FA0
Electronics options
Bus adapter1)
Bus adapter for the electronics
box LBA
The electronics box can easily be
retrofitted with the backplane bus
adapter LBA (Local Bus Adapter).
Two supplementary boards or the
optional boards plugged onto the
ADB (Adapter Board) can be combined with the CUVC (CUR, CUSA)
control board.
DA65-5437
Electronics box
Fig. 3/14
Adapter
LBA
Backplane adapter
Supplied loose
Order No.
6SE70900XX844HA0
Integrated into the
electronics box
K11
Board,
plugged
into slot
ADB
Backplane adapter
6SX70900XX840KA0
2 (Slot D and E)
K01
3 (Slot F and G)
K02
Board
T100
with smoothing
comfort motorized potentiometer
wobble generator
drive-related control.
Order No.
Technology board
Supplied loose, including hardware instruction
manual, without software module2)
6SE70900XX870BB0
6SE70800CX870BB0
6SE70980XX840BB0
The manual for the MS100 software module Universal Drive is available in the following languages:
German (G)
6SE70800CX840BB1
English (E)
6SE70876CX840BB1
French (F)
6SE70877CX840BB1
Italian (I)
6SE70872CX840BB1
Spanish (S)
6SE70878CX840BB1
control
1) Attention!
Only for compact and chassis units.
winders
hoisting drives
coilers
control
3/87
enta
lem
upp for a
s
h
Compact and chassis units
d
Electronics options
c
whi neede
ies
ecif nts are
s
i
p
s
n
e
e
o
tabl ompon
ncti in the
T300 technology board Components
ion
e fu
lect gical c
driv e listed .
e
r
s
o
t
o
r
l
o
ed
a
The chno sk.
quir
Ordering information
Components required for the
Components
lti-m hich
ry te cific ta he mu ucts w n are re
standard software package
required for
spe mple: T ll prod colum
self-generated
Exa ired. A r drive
u
application
o
t
req lti-mo
software, using
mu
Product description
Comment
Order No.
Multi- Axial
Angular syn- PosiSTRUC STRUC
motor winder chronous
tioning L
G
drive
control
control
German/English
German
English
6SE70900XX874AH0
6SE70900XX840AH2
6SE70900XX844HA0
6SE70876CX840AH1
6SE70877CX840AH1
6SE70986XX840AH0
6SE70800CX846AH1
6SE70876CX846AH1
6SW17986XX840AH0
6SW17982XX840AH0
German
English
French
6SE70982XX840AH0
6SE70800CX842AH1
6SE70876CX842AH1
6SE70984XX840AH0
6SE70800CX844AH1
6SE70876CX844AH1
6SE70877CX844AH1
6SW17984XX840AH0
6SW17988XX840AH0
6SE70988XX840AH0
6SE70800CX848AH1
6SE70876CX848AH1
MS300
or
MS301
The same for STRUC L PT
and G PT
6SE70980XX840AH0
6SE70980XX840AH1
6DD16720AD0
Self-assembly according to
the T300 instruction manual
Self-assembly according to
the T300 instruction manual
3/88
6DD18011DA2
Electronics options
Board/
Conductor
SCB1
Supplied loose
Order No.
Interface board
incl. 10 m fiber optic cable
LWL
6SE70900XX840BC0
6SY70000AD15
Board
SCB2
Supplied loose
Order No.
Interface board
6SE70900XX840BD1
Board
TSY
Supplied loose
Order No.
Synchronizing board
6SE70900XX840BA0
In addition, the fiber-optic cables safely disconnect the drive units in accordance with VDE 0100 and 0160
(PELV function, e.g. for NAMUR).
For a more detailed description of the
SCI1 and SCI2 boards, see Engineering Information, Section 6.
Board/
Conductor
SCI1
Supplied loose
Order No.
Interface board
incl. 10 m fiber-optic cable
SCI2
Interface board
incl. 10 m fiber-optic cable
LWL
6SE70900XX843EA0
6SE70900XX843EF0
6SY70000AD15
TTL encoders
outputs
Board
Supplied loose
Order No.
DTI
Board
VSB
Supplied loose
Order No.
1) Attention!
Only for compact and chassis units.
Siemens DA 65.10 2003/2004
3/89
Designation
Order No.
APMU adapter
for mounting in cabinet door,
incl. 2 m cable
6SX70100AA10
Note
The OP1S operator control panel can
also be plugged onto the APMU.
Designation
Order No.
6SE70900XX842FK0
6SX70100AA00
Connecting cable
PMU-OP1S 3 m
3m
6SX70100AB03
Connecting cable
PMU-OP1S 5 m
5m
6SX70100AB05
DA65-5294
186
179,5
+0,5
Door cut-out
DA65-5293a
84
78,5
+1
Fig. 3/15
AOP1S/APMU adapter and door cut-out
3/90
Scope of supply
Order No.
Supplied as
Documentation
Software packages Drive ES Installation as integrated option for STEP 7 from version V 5.0
Drive ES Basic V 5.01) Single licence
6SW17000JA000AA0
CD-ROM, 1 piece
6SW17000JB000AA0
CD-ROM, 1 piece
6SW17000JC000AA0
CD-ROM, 1 piece
Software packages Drive ES Installation as integrated option for STEP 7 from version V 5.1
Drive ES Basic V 5.11) Single licence
6SW17005JA001AA0
CD-ROM, 1 piece
6SW17005JA001AA1
CD-ROM, 1 piece
6SW17005JB001AA0
CD-ROM, 1 piece
6SW17005JC001AA0
CD-ROM, 1 piece
6SW17005JD001AA0
CD-ROM, 1 piece
Software packages Drive ES Installation as integrated option for STEP 7 from version V 5.2
Drive ES Basic V 5.21) Single licence
6SW17005JA002AA0
CD-ROM, 1 piece
6SW17005JA002AA4
CD-ROM, 1 piece
6SW17005JA002AA1
6SW17005JB002AA0
6SW17005JB002AA4
CD-ROM, 1 piece
6SW17005JC003AA0
CD-ROM, 1 piece
6SW17005JC003AA4
CD-ROM, 1 piece
6SW17005JC001AC0
6SW17005JD002AA0
Product document
only (w/o software
and documentation)
CD-ROM, 1 piece
6SW17005JD002AA4
CD-ROM, 1 piece
6SW17005JD001AC0
Product document
only (w/o software
and documentation)
Contents of the Drive ES PCS7 package (the PCS7 package can be used with the PCS7 versions V 5.0 and V 5.1)
Block library for SIMATIC PCS7
Image and control blocks for SIMOVERT MASTERDRIVES VC and MC as well as MICRO-/MIDIMASTER
3rd and 4th generation
STEP 7-Slave object manager
for convenient configuration of drives as well as for acyclic PROFIBUS DP communication with the drives
SETUP program for software installation in the PCS7 environment
3/91
Scope of supply
Order No.
6SW17000JA000AB2
Drive ES Graphic
6SW17000JB000AB2
Drive ES SIMATIC
6SW17000JC000AB2
Drive ES PCS7
6SW17000JD000AB2
writing that the update service will automatically be extended by another year if it is
not cancelled on the part of
the customer.
Scope of supply
Order No.
Supplied as
Documentation
6DD18000SW0
German/English
Designation
Order No.
Supplied as
6SX70100FA10
CD-ROM
6SX70050AA00
9AK10121AA00
3/92
Interface converter
SU1 RS 232 C RS 485,
incl. mounting accessories;
Power supply: 1 AC 115/230 V
Combination cable for the firmware boot function
and communication with the PC
Pre-assembled signal cables with a boot switch integrated
in the cable connector case for booting firmware. The cable
connects the MASTERDRIVES units with the RS 232 C
interface of the PC via the X300 or X103 connector.
Length 3 m.
Other options
SuppleDescription of option
mentary
order code
Rectifier unit
AD
P
EG
AD
P
EG
J, K, L,
M, Q
B, C
P
AFE
Rectifier/
regenerative unit
C
E
H, K
H, K
Documentation
D77
D78
D72
D90
D992)
Documentation
in French/English
Documentation
in Spanish/English
Documentation
in Italian/English
Documentation
in Japanese/English
Supplied without operating
instructions and without
DriveMonitor
L03
Basic-interference suppression
together with radio-interference
suppression filters and TT and TN
systems
L33
Compact inverters without fuses
K91
DC link current measurement
L20
Operation with an IT system
K80
Safe Stop
L30
Inverter fuses installed, fuse type for
DIN/IEC approval and U
M08
Coated boards
D78
Documentation in
Spanish/English
Operating instructions are supplied in
Spanish/English.
D72
Documentation in
Italian/English
M201)
IP20 panels
D90
Documentation in
Japanese/English
Operating instructions are supplied in
Japanese/English additionally.
D992)
Supplied without operating
instructions and without
DriveMonitor
M65
Separate DC connection
for dv/dt filter
With the help of the M65 option,
available for unit sizes J, K, M and Q,
the dv/dt filters can be connected (on
the motor side) to a DC-link-voltage
terminal lug (with size L; already integrated as standard).
D77
Documentation in
French/English
Operating instructions are supplied in
French/English.
3/93
Other options
Isolation amplifier boards for DIN rail mounting
Knick isolation amplifier boards in a modular housing are recommended
(www.knick.de).
Order No.
24 V DC rectifier units, single-phase 230 V AC and 400 V AC, can be used with +6 % and 10 % line-voltage tolerance1)
1 (230 V)
4AV21 022EB000A
1 (400 V)
4AV21 062EB000A
3.5 (230 V)
4AV23 022EB000A
2.5 (230/400 V)
4AV20 002EB000A
5 (230/400 V)
4AV22 002EB000A
10 (230/400 V)
4AV24 002EB000A
15 (230/400 V)
4AV26 002EB000A
24 V DC rectifier units, for 3-ph. 400 V AC, can be used with +6 % and 10 % line-voltage tolerance1)
10
4AV30 002EB000A
15
4AV31 002EB000A
20
4AV32 002EB000A
30
4AV33 002EB000A
40
4AV34 002FB000A
50
4AV35 002FB000A
6EP1 3321SH41
5 (230 V)
6EP1 3333BA00
10 (230 V)
6EP1 3343BA00
20 (400 V)
6EP1 3363BA00
Switching capacity,
output
60 V DC / 1.5 A
Order No.
Supplier
3TX7 0023AB01
Siemens
< 20 mA
48 V 264 V AC / 1.8 A
3TX7 0023AB00
Siemens
9 mA
250 V AC / 6 A
PLCRSC24DC/21
9 mA
250 V AC / 6 A
PLCRSP24DC/21
3/94
Vector Control
6SE71 Converter
Cabinet Units
4/3
4/4
4/5
4/6
Converters 37 kW to 1500 kW
for single-quadrant operation
with 6-pulse system
Technical characteristics
Technical data
Selection and ordering data
4/10
4/11
4/12
4/14
4/15
4/16
Converters 37 kW to 1500 kW
for four-quadrant operation
with 6-pulse system
Technical characteristics
Technical data
Selection and ordering data
4/20
4/21
4/22
Converters 37 kW to 1200 kW
with AFE self-commutated,
pulsed rectifier/regenerative unit
Technical characteristics
Technical data
Selection and ordering data
4/26
4/37
4/45
4/1
Fig. 4/1
6SE71 . . cabinet unit
4/2
Cabinet units
Cabinet units
Cooling type
0 C to +40 C
25 C to +70 C
25 C to +70 C
Installation altitude
Relative humidity 85 %
Moisture condensation not permissible
Climatic category
Environmental class
Insulation
Overvoltage class
Overvoltage strength
Degree of protection
standard
options
Class of protection
Shock protection
Radio-interference suppression
standard
options
to EN 61 800-3
No radio-interference suppression
Radio-interference suppression filter for Class A1
Paint finish/color
Mechanical specifications
For stationary applications:
of deflection
of acceleration
During transport:
of deflection
of acceleration
4/3
Cabinet units
Technical characteristics
The ready-to-connect
converter cabinets can be
connected to three-phase
AC systems 380 V to 690 V,
50/60 Hz.
Due to their modular design,
the base version of the units
can be expanded to include
additional functions.
System cabinet
Examples of options:
Main contactor
Supply connecting
panel
Base version
Main switch1)
Option
Fuses1)
Main contactor1)
Line commutating
reactor VD = 2 %
Rectifier
DA65-5396
PMU
parameterizing unit
OP1S user-friendly
operator control panel
Inverter
Fig. 4/2
Block diagram
1) The functions of main switch, fuses and main
contactor are implemented as standard with a
circuit breaker 3WN6 and additional control
voltage switch for:
4/4
Cabinet units
Technical data
Rated voltage
Supply voltage
Output voltage
Converter
Rated frequency
Supply frequency
Output frequency
SIMOVERT Vector Control
V/f = constant
V = constant
3 AC 380 V 15 %
to
480 V +10 %
3 AC 500 V 15 %
to
600 V +10 %
3 AC 660 V 15 %
to
690 V +15 %
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
Load class II
to EN 60 146-1-1
Base load current
Short-time current
0 Hz to 200 Hz
8 Hz to 300 Hz
Cycle time
Overload duration
Power factor
fundamental
overall
Efficiency
0.98
0.93 to 0.96
0.97 to 0.98
100
Reduction
curves
4
ADA65-5385b
9 kHz
75
50
0
1.7 3
2.5
7.5
12
7.5 kHz
6 kHz
2.5 kHz
15 16 kHz 18
Pulse frequency
4/5
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Input
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Frame measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
No.
m3/s
dB
kg
45
92
84
126
101
6SE71310EB613BA0
1.3
60
250
0.1
70
55
124
113
169
136
6SE71312EC613BA0
1.9
61
300
0.14
70
75
146
133
199
160
6SE71315EC613BA0
2.1
61
310
0.14
70
90
186
169
254
205
6SE71318EC613BA0
2.4
61
320
0.14
70
110
210
191
287
231
6SE71321ED613BA0
62
420
0.31
80
132
260
237
355
286
6SE71326ED613BA0
3.6
62
430
0.31
80
160
315
287
430
346
6SE71332ED613BA0
4.5
62
450
0.41
80
200
370
337
503
407
6SE71337ED613BA0
5.2
62
500
0.41
80
250
510
464
694
561
6SE71351EE623BA0
7.4
63
750
0.46
80
315
590
537
802
649
6SE71360EE623BA0
8.6
63
750
0.46
80
400
690
628
938
759
6SE71370EE623BA0
10.7
63
800
1.3
85
500
860
782
1170
946
6SE71386EG623BA0
16
64
1420
1.3
85
630
1100
1000
1496
1190
6SE71411EH623BA0
18.7
65
1550
1.9
85
710
1300
1183
1768
1430
6SE71413EJ623BA0
20.3
66
1800
1.9
85
61
55
83
67
6SE71261FB613BA0
60
250
0.1
70
45
66
60
90
73
6SE71266FB613BA0
1.2
60
250
0.1
70
55
79
72
108
87
6SE71280FC613BA0
1.4
61
310
0.14
70
75
108
98
147
119
6SE71311FC613BA0
1.9
61
310
0.14
70
90
128
117
174
141
6SE71313FD613BA0
2.4
62
420
0.31
80
110
156
142
213
172
6SE71316FD613BA0
2.8
62
450
0.31
80
132
192
174
262
211
6SE71320FD613BA0
3.6
62
450
0.41
80
160
225
205
307
248
6SE71323FD613BA0
4.3
62
500
0.41
80
200
297
270
404
327
6SE71330FE623BA0
63
750
0.46
80
250
354
322
481
400
6SE71335FE623BA0
63
750
0.46
80
315
452
411
615
497
6SE71345FE623BA0
8.6
63
750
0.46
80
400
570
519
775
627
6SE71357FG623BA0
12.5
64
1420
1.3
85
450
650
592
884
715
6SE71365FG623BA0
13.7
64
1420
1.3
85
630
860
783
1170
946
6SE71386FG623BA0
16.1
64
1420
1.45
85
800
1080
983
1469
1188
6SE71411FJ623BA0
20.1
66
1800
1.9
85
900
1230
1119
1673
1353
6SE71412FJ623BA0
23.1
66
1800
1.9
85
25.7
67
2300
2.7
88
1000
1400
1274
1904
1540
without interphase
transformer chassis
6SE71414FL623BA0
1100
1580
1438
2149
1738
6SE71416FL623BA0
29.4
67
2300
2.7
88
26.7
68
2500
2.7
88
30.4
68
2500
2.7
88
1000
1400
1274
1904
1540
with interphase
transformer chassis
6SE71414FN623BA0
1100
1580
1438
2149
1738
6SE71416FN623BA0
4/6
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
gL NH
DIN VDE
Standard
Type
mm2
Terminal screws
Recommended
supplycable fuses
Standard
Option
mm2
AWG/
MCM
Standard
Option
Option
mm2
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 70
2 x 240
M 10
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 10
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 150
2 x (400)
2 x 240
4 x 240
M 12
2 x 150
2 x (400)
4 x 240
M 12/16
2 x 185
2 x (500)
2 x 240
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
25
70
2 x 240
M 6
M 12
25
2 x 70
2 x 240
M 10
M 12
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
70
2 x 240
M 6
M 12
50
(00)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
2 x 4 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
2 x 4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
8 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
4/7
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Input
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Frame measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
No.
m3/s
dB
kg
55
60
55
82
66
6SE71260HC613BA0
1.2
61
300
0.14
70
75
82
75
112
90
6SE71282HC613BA0
1.6
61
310
0.14
70
80
90
97
88
132
107
6SE71310HD613BA0
2.1
62
420
0.31
110
118
107
161
130
6SE71312HD613BA0
2.5
62
420
0.31
80
132
145
132
198
160
6SE71315HD613BA0
62
430
0.41
80
160
171
156
233
188
6SE71317HD613BA0
3.8
62
450
0.41
80
200
208
189
284
229
6SE71321HD613BA0
4.5
62
500
0.41
80
250
297
270
404
327
6SE71330HE623BA0
6.9
63
750
0.46
80
315
354
322
481
400
6SE71335HE623BA0
7.7
63
750
0.46
80
400
452
411
615
497
6SE71345HE623BA0
9.3
63
750
0.46
80
500
570
519
775
627
6SE71357HG623BA0
12.7
64
1420
1.35
85
630
650
592
884
715
6SE71365HG623BA0
15.1
64
1420
1.35
85
800
860
783
1170
946
6SE71386HG623BA0
18.6
64
1420
1.45
85
1000
1080
983
1469
1188
6SE71411HJ623BA0
23.3
66
1800
1.9
85
1200
1230
1119
1673
1353
6SE71412HJ623BA0
29.6
66
1800
1.9
85
29.9
67
2300
2.7
88
1300
1400
1274
1904
1540
without interphase
transformer chassis
6SE71414HL623BA0
1500
1580
1438
2149
1738
6SE71416HL623BA0
33.9
67
2300
2.7
88
1300
1400
1274
1904
1540
with interphase
transformer chassis
6SE71414HN623BA0
30.9
68
2500
2.7
88
1500
1580
1438
2149
1738
6SE71416HN623BA0
34.9
68
2500
2.7
88
4/8
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
gL NH
DIN VDE
Standard
Type
mm2
Terminal screws
Recommended
supplycable fuses
Standard
Option
mm2
AWG/
MCM
Standard
Option
Option
mm2
25
70
2 x 240
M 6
M 12
25
2 x 70
2 x 240
M 10
M 12
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
70
2 x 240
M 6
M 12
50
(00)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
2 x 4 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
2 x 4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
8 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
4/9
Cabinet units
Technical characteristics
The ready-to-connect
converter cabinets can be
connected to three-phase
AC systems in the voltage
ranges from 3 AC 380 V to
690 V, 50/60 Hz.
Due to their modular design,
the base version of the units
can be expanded to include
additional functions.
System cabinet
Examples of options:
Main contactor
Supply connecting
panel
Base version
Main switch
Option
Fuses
Main contactor
Line commutating
reactor VD = 2 %
Rectifier
OP1S user-friendly
operator control panel
DA65-5397
PMU
parameterizing unit
Inverter
Fig. 4/3
Block diagram
4/10
Cabinet units
Technical data
Rated voltage
Supply voltage
Output voltage
Converter
Rated frequency
Supply frequency
Output frequency
SIMOVERT Vector Control
V/f = constant
V = constant
2 x 3 AC 380 V 15 %
to
480 V +10 %
2 x 3 AC 500 V 15 %
to
600 V +10 %
2 x 3 AC 660 V 15 %
to
690 V +15 %
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
0 Hz to 200 Hz
0 Hz to 200 Hz
8 Hz to 300 Hz
8 Hz to 300 Hz
See also Engineering Information, Section 6
Load class II
to EN 60 146-1-1
Base load current
Short-time current
Cycle time
Overload duration
Power factor
fundamental
overall
Efficiency
0 Hz to 200 Hz
8 Hz to 300 Hz
4
Reduction
curves
Permissible rated current
100
ADA65-5401b
75
2.5 kHz
50
0
1.7 3
2.5
7.5
12
15 16 kHz 18
Pulse frequency
4/11
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Input
current1)
Converter
Power
loss
at
2.5 kHz
Dimensions
Frame measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
No.
kg
m3/s
dB
80
510
464
694
281
6SE71351KJ623BA0
7.8
69
1100
0.86
400
690
628
938
380
6SE71370KJ623BA1
11.4
69
1150
80
500
860
782
1170
473
6SE71386KJ623BA0
15.9
70
1440
1.15
80
630
1100
1000
1496
595
6SE71411KL623BA0
19.3
71
2190
85
710
1300
1183
1768
715
6SE71413KM623BA0 21.1
72
2400
85
200
297
270
404
164
6SE71331LJ623BA0
6.8
69
1100
0.86
80
250
354
322
481
200
6SE71335LJ623BA0
7.8
69
1100
0.86
80
315
452
411
615
249
6SE71345LJ623BA0
9.4
69
1290
0.86
80
400
570
519
775
314
6SE71357LJ623BA0
70
1290
1.15
80
12
450
650
592
884
358
6SE71365LJ623BA0
13.7
70
1290
1.15
80
630
860
783
1170
473
6SE71386LJ623BA0
16.1
70
1410
1.3
82
800
1080
983
1469
594
6SE71411LM623BA0
20.8
72
2400
85
900
1230
1119
1673
677
6SE71412LM623BA0
24.1
72
2400
85
868
without interphase
transformer chassis
6SE71416LP623BA0
29.9
73
2890
2.8
86
868
with interphase
transformer chassis
6SE71416LR623BA0
30.9
74
3140
2.8
86
1100
1100
1580
1580
1438
1438
2149
2149
297
270
404
164
6SE71330NJ623BA0
7.8
69
1100
0.86
80
315
354
322
481
200
6SE71335NJ623BA0
8.9
69
1100
0.86
80
400
452
411
615
249
6SE71345NJ623BA0
10.5
69
1290
0.86
80
500
570
519
775
314
6SE71357NJ623BA0
12.6
70
1290
1.2
80
630
650
592
884
358
6SE71365NJ623BA0
14.8
70
1290
1.2
80
800
860
783
1170
473
6SE71386NJ623BA0
18.7
70
1410
1.3
82
1000
1080
983
1469
594
6SE71411NM623BA0 23.3
72
2400
85
1200
1230
1119
1673
677
6SE71412NM623BA0 30.7
72
2400
85
34.3
73
2890
2.8
86
35.3
74
3140
2.8
86
1500
1580
1438
2149
868
without interphase
transformer chassis
6SE71416NP623BA0
1500
1580
1438
2149
868
with interphase
transformer chassis
6SE71416NR623BA0
4/12
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
Recommended
supplycable fuses
Standard Option
gL NH
DIN VDE
Type
mm2
mm2
AWG/
MCM
Standard
Standard
mm2
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 150
2 x (400)
4 x 240
2 x 2 x 95
2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 240
2 x 600
4 x 240
M 12/16
2 x 2 x 150
2 x (400)
2 x 2 x 240
2 x 4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
4 x 185
4 x (500)
4 x 300
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
2 x 120
2 x (300)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 240
2 x 600
4 x 240
M 12/16
2 x 2 x 120
2 x 2 x (300)
2 x 2 x 240
2 x 4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
4 x 185
4 x (500)
6 x 300
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
2 x 3 x 185
3 x (500)
2 x 4 x 240
M 12
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
2 x 3 x 185
3 x (500)
2 x 4 x 240
M 12
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 2 x 95
2 x 2 x (4/0)
2 x 2 x 150
2 x 2 x 240
M 10
M 12
2 x 240
2 x 600
4 x 240
M 12/16
2 x 2 x 120
2 x 2 x (300)
2 x 2 x 240
2 x 4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
4 x 185
4 x (500)
6 x 300
M 12/16
2 x 2 x 240
2 x 2 x 600
2 x 4 x 240
M 12
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
2 x 3 x 185
2 x 3 x (500)
2 x 4 x 240
M 12
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
2 x 3 x 185
2 x 3 x (500)
2 x 4 x 240
M 12
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
M 12/16
4/13
Cabinet units
Technical characteristics
The ready to connect
converter cabinets can be
connected to three-phase
AC systems 380 V to 690 V,
50/60 Hz.
Due to a modular design, the
base version of the units can
be considerably expanded to
include additional functions.
System cabinet
Rectifier/regenerative units
with inverter
Supply connecting
panel
Autotransformer
Base equipment
Main switch1)
Option
Fuses1)
Main contactor1)
Line commutating
reactor VD = 4 %
Autotransformer
Rectifier
Regenerative unit
DA65-5398
PMU
parameterizing unit
OP1S user-friendly
operator control panel
Inverter
Fig. 4/4
Block diagram
4/14
Cabinet units
Technical data
Rated voltage
Supply voltage
Output voltage
Converter
Rated frequency
Supply frequency
Output frequency
SIMOVERT Vector Control
V/f = constant
V = constant
3 AC 380 V 15 %
to
480 V +10 %
3 AC 500 V 15 %
to
600 V +10 %
3 AC 660 V 15 %
to
690 V +15 %
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
3 AC 0 V up to supply voltage
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
50/60 Hz ( 6 %)
Load class II
to EN 60 146-1-1
Base load current
Short-time current
0 Hz to 200 Hz
8 Hz to 300 Hz
Cycle time
Overload duration
Power factor1)
fundamental
overall
Efficiency
0.98
0.93 to 0.96
0.97 to 0.98
100
Reduction
curves
4
ADA65-5385b
9 kHz
75
50
0
1.7 3
2.5
7.5
12
7.5 kHz
6 kHz
2.5 kHz
15 16 kHz 18
Pulse frequency
4/15
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Input
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Frame measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
No.
m3/s
dB
kg
45
92
84
126
101
6SE71310EC614BA0
1.6
75
250
0.3
70
55
124
113
169
136
6SE71312ED614BA0
2.2
76
300
0.34
70
75
146
133
199
160
6SE71315ED614BA0
2.6
76
310
0.34
70
90
186
169
254
205
6SE71318ED614BA0
2.9
76
320
0.34
70
110
210
191
287
231
6SE7 1321EE614BA0
3.3
77
420
0.51
80
132
260
237
355
286
6SE71326EE614BA0
4.1
77
430
0.51
80
160
315
287
430
346
6SE71332EE614BA0
77
450
0.51
80
200
370
337
503
407
6SE71337EE614BA0
5.9
77
500
0.51
80
250
510
464
694
561
6SE71351EF624BA0
79
750
0.66
80
315
590
537
802
649
6SE71360EG624BA0
9.7
80
750
0.66
85
400
690
628
938
759
6SE71370EG624BA1
12.1
80
1280
1.15
85
500
860
782
1170
946
6SE71386EG624BA0
16.3
81
1420
1.3
85
630
1100
1000
1496
1190
6SE71411EH624BA0
19
82
1650
1.9
85
710
1300
1183
1768
1430
6SE71413EJ624BA0
21.3
83
1850
1.9
85
61
55
83
67
6SE71261FC614BA0
1.2
75
250
0.3
70
45
66
60
90
73
6SE71266FC614BA0
1.3
75
250
0.3
70
55
79
72
108
87
6SE71280FD614BA0
1.5
76
310
0.34
70
75
108
98
147
119
6SE71311FD614BA0
2.4
76
310
0.34
70
90
128
117
174
141
6SE71313FE614BA0
2.7
77
420
0.51
80
110
156
142
213
172
6SE71316FE614BA0
3.4
77
450
0.51
80
132
192
174
262
211
6SE71320FE614BA0
4.2
77
450
0.51
80
160
225
205
307
248
6SE71323FE614BA0
4.9
77
500
0.51
80
200
297
270
404
327
6SE71330FF624BA0
6.7
78
750
0.66
80
250
354
322
481
400
6SE71335FF624BA0
7.4
78
750
0.66
80
315
452
411
615
497
6SE71345FF624BA0
9.5
79
750
0.66
80
400
570
519
775
627
6SE71357FG624BA0
12.6
81
1420
1.3
85
450
650
592
884
715
6SE71365FG624BA0
13.9
81
1420
1.3
85
630
860
783
1170
946
6SE71386FG624BA0
16.3
81
1420
1.45
85
800
1080
983
1469
1188
6SE71411FJ624BA0
20.4
83
1900
1.9
85
900
1230
1119
1673
1353
6SE71412FJ624BA0
23.4
83
1900
1.9
85
26.8
84
2400
2.7
88
1000
1400
1274
1904
1540
without interphase
transformer chassis
6SE71414FL624BA0
1100
1580
1438
2149
1738
6SE71416FL624BA0
30.6
84
2400
2.7
88
27.8
85
2600
2.7
88
31.6
85
2600
2.7
88
1000
1400
1274
1904
1540
with interphase
transformer chassis
6SE71414FN624BA0
1100
1580
1438
2149
1738
6SE71416FN624BA0
1) Dimensions for optional cabinet with autotransformer (25 % power-on duration): width 600 mm.
4/16
2) Dimensions for optional cabinet with autotransformer (25 % power-on duration): width 900 mm.
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
gL NH
DIN VDE
Standard
Type
mm2
Terminal screws
Recommended
supplycable fuses
Standard
Option
mm2
AWG/
MCM
Standard
Option
Option
mm2
35
150
2 x 240
M 10
M 12
35
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 70
2 x 240
M 10
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 10
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 150
2 x (400)
2 x 240
4 x 240
M 12
2 x 150
2 x (400)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
25
150
2 x 240
M 10
M 12
25
2 x 70
2 x 240
M 10
M 12
35
150
2 x 240
M 10
M 12
35
2 x 70
2 x 240
M 10
M 12
35
150
2 x 240
M 10
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
150
2 x 240
M 10
M 12
50
(00)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
2 x 4 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
2 x 4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
8 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
8 x 300
M 12/16
4/17
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Input
current
Converter
Power
loss
at
2.5 kHz
Dimensions
Frame measurements
WxHxD
DimenWeight
sion
approx.
drawing,
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
No.
m3/s
dB
kg
55
60
55
82
66
6SE71260HD614BA0
1.4
76
300
0.34
70
75
82
75
112
90
6SE71282HD614BA0
76
310
0.34
70
90
97
88
132
107
6SE71310HE614BA0
2.5
77
420
0.51
80
110
118
107
161
130
6SE71312HE614BA0
3.1
77
420
0.51
80
132
145
132
198
160
6SE71315HE614BA0
3.8
77
430
0.51
80
160
171
156
233
188
6SE71317HE614BA0
4.7
77
450
0.51
80
200
208
189
284
229
6SE71321HE614BA0
5.3
77
500
0.51
80
250
297
270
404
327
6SE71330HF624BA0
7.5
79
750
0.66
80
315
354
322
481
400
6SE71335HF624BA0
8.4
79
750
0.66
80
400
452
411
615
497
6SE71345HF624BA0
10.3
79
750
0.66
80
500
570
519
775
627
6SE71357HG624BA0
12.8
81
1420
1.45
85
630
650
592
884
715
6SE71365HG624BA0
15.3
81
1420
1.45
85
800
860
783
1170
946
6SE71385HG624BA0
18.9
81
1420
1.45
85
1000
1080
983
1469
1188
6SE71411HJ624BA0
23.7
83
1900
1.9
85
1200
1230
1119
1673
1353
6SE71412HJ624BA0
30
83
1900
1.9
85
30.3
84
2400
3.1
88
1300
1400
1274
1904
1540
without interphase
transformer chassis
6SE71414HL624BA0
1500
1580
1438
2149
1738
6SE71416HL624BA0
34.4
84
2400
3.1
88
1300
1400
1274
1904
1540
with interphase
transformer chassis
6SE71414HN624BA0
31.3
85
2600
3.1
88
1500
1580
1438
2149
1738
6SE71416HN624BA0
35.4
85
2600
3.1
88
1) Dimensions for optional cabinet with autotransformer (25 % power-on duration): width 900 mm.
4/18
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
gL NH
DIN VDE
Option
Standard
Option
Type
mm2
Terminal screws
Recommended
supplycable fuses
Standard
Option
mm2
AWG/
MCM
Standard
mm2
25
150
2 x 240
M 10
M 12
25
2 x 70
2 x 240
M 10
M 12
35
150
2 x 240
M 10
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
150
2 x 240
M 10
M 12
50
(00)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
10 x 300
M 12
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
10 x 300
M 12
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
2 x 4 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
4 x 300
4 x 800
2 x 4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
4 x 240
4 x 600
8 x 300
M 12/16
4 x 300
4 x 800
8 x 300
M 16
4 x 300
4 x 800
8 x 300
M 12/16
Protective
circuit-breaker
Protective
circuit-breaker
4/19
Cabinet units
Technical characteristics
Main contactor
Precharge circuit
Examples of options:
Supply-side inverter
Motor-side inverter
System cabinet
Supply connecting
panel
Base equipment
Main switch1)
Option
Fuses1)
Main contactor1)
Precharge circuit
Precharging contactor
Clean Power Filter
Supply-side AFE-inverter
DA65-5399b
PMU
parameterizing unit
OP1S user-friendly
operator control panel
Inverter
Motor connecting panel
Fig. 4/5
Block diagram
1) The functions of main switch, fuses and main
contactor are implemented as standard with a
circuit breaker 3WN6 and additional control
voltage switch for:
4/20
Cabinet units
Technical data
Rated voltage
Supply voltage1)
Output voltage
Rated frequency
Supply frequency
Output frequency
SIMOVERT Vector Control
V/f = constant
V = constant
3 AC 380 V 15 %
to
460 V +5 %
3 AC 0 V up to supply voltage
3 AC 480 V 15 %
to
575 V +5 %
3 AC 0 V up to supply voltage
3 AC 660 V 15 %
to
690 V +5 %
3 AC 0 V up to supply voltage
50/60 Hz ( 10 %)
50/60 Hz ( 10 %)
50/60 Hz ( 10 %)
Load class II
to EN 60 146-1-1
Base load current
Short-time current
0 Hz to 200 Hz
8 Hz to 300 Hz
Cycle time
Overload duration
Power factor
fundamental
overall
Efficiency
100
Reduction
curves
for the
motor-side
inverter
4
ADA65-5385b
9 kHz
75
50
0
1.7 3
2.5
7.5
12
7.5 kHz
6 kHz
2.5 kHz
15 16 kHz 18
Pulse frequency
4/21
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Rated
input
current
Converter
with AFE
Power
loss
at
3 kHz
Dimensions
Dimension Weight
Frame measurements drawing
approx.
WxHxD
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
m3/s
dB
kg
45
92
84
126
92
6SE71310EC615BA0
2.8
86
400
0.3
73
55
124
113
169
124
6SE71312EE615BA0
3.5
87
600
0.51
73
75
146
133
199
146
6SE71315EE615BA0
4.1
87
600
0.51
73
90
186
169
254
186
6SE71318EE615BA0
4.4
87
620
0.51
73
110
210
191
287
210
6SE7 1321EF615BA0
5.7
88
900
0.66
83
132
260
237
355
260
6SE71326EF615BA0
7.1
88
920
0.66
83
160
315
287
430
315
6SE71332EF615BA0
8.7
88
940
0.82
83
200
370
337
503
370
6SE71337EF615BA0
10.3
88
950
0.82
83
250
510
464
694
510
6SE71351EH625BA0
14.3
89
1500
1.15
83
315
590
537
802
560
6SE71360EK625BA0
16
90
1600
1.3
88
400
690
628
938
655
6SE71370EK625BA0
20
90
1700
1.45
88
500
860
782
1170
817
6SE71386EK625BA0
28.4
92
2300
1.9
88
630
1100
1000
1496
1045
6SE71411EL625BA0
31.7
91
2400
2.7
88
710
1300
1183
1768
1235
6SE71413EM625BA0
34.5
93
3300
2.7
88
61
55
83
61
6SE71261FC615BA0
1.9
86
380
0.3
73
45
66
60
90
66
6SE71266FC615BA0
2.2
86
390
0.34
73
55
79
72
108
79
6SE71280FE615BA0
2.6
87
580
0.51
73
75
108
98
147
108
6SE71311FE615BA0
3.7
87
590
0.51
73
90
128
117
174
128
6SE71313FF615BA0
4.4
88
900
0.66
83
110
156
142
213
156
6SE71316FF615BA0
5.4
88
910
0.66
83
132
192
174
262
192
6SE71320FF615BA0
6.8
88
910
0.66
83
160
225
205
307
225
6SE71323FF615BA0
8.2
88
920
0.82
83
200
297
270
404
297
6SE71330FH625BA0
11.9
89
1300
1.15
83
250
354
322
481
354
6SE71335FK625BA0
13.3
90
1450
1.15
83
315
452
411
615
429
6SE71345FK625BA0
16.5
90
1500
1.3
83
400
570
519
775
541
6SE71357FK625BA0
21
92
2150
1.45
88
450
650
592
884
617
6SE71365FK625BA0
23.6
92
2200
1.9
88
630
860
783
1170
817
6SE71386FK625BA0
27.5
92
2300
1.9
88
800
1080
983
1469
1026
6SE71411FM625BA0
33.3
93
3300
2.7
88
900
1230
1119
1673
1168
6SE71412FM625BA0
39.1
93
3350
2.7
88
4/22
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Terminal screws
gL NH
DIN VDE
Standard
Type
mm2
Terminal screws
Recommended
supplycable fuses
Standard
Option
mm2
AWG/
MCM
Standard
Option
Option
mm2
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 70
2 x 240
M 10
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 70
2 x 240
M 10
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 10
M 12
2 x 70
2 x (000)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 12
2 x 150
2 x (400)
2 x 240
4 x 240
M 12
2 x 150
2 x (400)
4 x 240
M 12/16
2 x 185
2 x (500)
2 x 240
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
4 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
25
70
2 x 240
M 6
M 12
25
2 x 70
2 x 240
M 10
M 12
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
70
2 x 240
M 6
M 12
50
(00)
2 x 70
2 x 240
M 10
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4/23
Cabinet units
kW
Base
load
current
Shorttime
current
IUN
IG
Imax.
Rated
input
current
Converter
with AFE
Power
loss
at
3 kHz
Dimensions
Dimension Weight
Frame measurements drawing
approx.
WxHxD
see
Section 7
Coolingair
requirement
Sound
pressure
level
LpA
(1 m)
Order No.
kW
mm
m3/s
dB
73
kg
55
60
55
82
60
6SE71260HE615BA0
2.3
87
380
0.34
75
82
75
112
82
6SE71282HE615BA0
3.1
87
380
0.51
73
90
97
88
132
97
6SE71310HF615BA0
4.1
88
800
0.66
83
110
118
107
161
118
6SE71312HF615BA0
4.9
88
810
0.66
83
132
145
132
198
145
6SE71315HF615BA0
5.9
88
880
0.66
83
160
171
156
233
171
6SE71317HF615BA0
7.3
88
900
0.82
83
200
208
189
284
208
6SE71321HF615BA0
8.9
88
1200
0.82
83
250
297
270
404
267
6SE71330HH625BA0
14.1
89
1250
1.15
83
315
354
322
481
319
6SE71335HK625BA0
15.3
90
1450
1.3
83
400
452
411
615
407
6SE71345HK625BA0
18.8
90
1600
1.45
83
500
570
519
775
513
6SE71357HK625BA0
22.9
92
2300
1.9
88
630
650
592
884
585
6SE71365HK625BA0
26.4
92
2400
1.9
88
800
860
783
1170
774
6SE71386HK625BA0
32.8
92
2450
2.7
88
1000
1080
983
1469
972
6SE71411HM625BA0
40.4
93
3400
2.7
88
1200
1230
1119
1673
1107
6SE71412HM625BA0
52.5
93
3450
2.7
88
4/24
Cabinet units
DIN VDE
AWG/
MCM
mm2
Standard
Option
Standard
Option
mm2
Terminal screws
gL NH
DIN VDE
Option
Standard
Option
Type
mm2
M 12
Recommended
supplycable fuses
AWG/
MCM
Standard
mm2
25
70
2 x 240
M 6
M 12
25
2 x 70
2 x 240
M 10
35
70
2 x 240
M 6
M 12
35
2 x 70
2 x 240
M 10
M 12
50
(00)
70
2 x 240
M 6
M 12
50
(00)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
70
(000)
150
2 x 240
M 10
M 12
70
(000)
2 x 150
2 x 240
M 12
95
(4/0)
150
2 x 240
M 10
M 12
95
(4/0)
2 x 150
2 x 240
M 12
120
(300)
150
2 x 240
M 10
M 12
120
(300)
2 x 150
2 x 240
M 12
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 95
2 x (4/0)
2 x 150
2 x 240
M 10
M 12
2 x 95
2 x (4/0)
4 x 240
M 12/16
2 x 120
2 x (300)
2 x 240
4 x 240
M 12
2 x 120
2 x (300)
4 x 240
M 12/16
2 x 185
2 x (500)
4 x 240
M 12
2 x 185
2 x (500)
4 x 240
M 12/16
2 x 240
2 x 600
4 x 240
M 12
2 x 240
2 x 600
4 x 240
M 12/16
3 x 185
3 x (500)
4 x 240
M 12
3 x 185
3 x (500)
4 x 240
M 12/16
4 x 185
4 x (500)
8 x 300
M 16
4 x 185
4 x (500)
6 x 300
M 12/16
4 x 240
4 x 600
8 x 300
M 16
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
Protective
circuit-breaker
4 x 240
4 x 600
6 x 300
M 12/16
4/25
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
Restrictions
S72
K08
S76
K08
S77
K08
S78
K08
K11
K01
Adapter board
Plugged into position 2 (slots D E)
Adapter board
Plugged into position 3 (slots F G)
K11
K11
3)
K11
3)
K16
K12
K12
K12
K12
K12
K02
Technology boards
K12
K11 + K13
K16
K11 + B10
K13
K11 + K12 +
K732)
K30
3)
3)
B36
B38
4/26
Option available
On request
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
K11 + K01
K11 + K01
K11 + K02
K11 + K02
2)
2)
K11 + K01
2)
K11 + K01
2)
K11 + K02
2)
K11 + K02
2)
2)
2)
K11 + K01
2)
K11 + K01
2)
K11 + K02
2)
K11 + K02
2)
Restrictions
Expansion boards
G61
G63
G64
G65
G66
G67
G71
G73
G74
G75
G76
G77
Option available
On request
4/27
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
K11
4)
Restrictions
K21
K41
K42
K50
K51
K60
K73
K74
K11
4)
K11 + K20 +
ext. 230 V AC
or K742)
K11 + K20 +
ext. 230 V AC
or K742)
K732)
4)
4)
K11 + K12 +
K732)
L42
ext. 230 V AC
or K742)
3)
Standard
Standard
Standard
3)
Standard
Standard
Standard
4/28
Option available
On request
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
2)
2)
K11 + K01
2)
K11 + K01
2)
K11 + K01
2)
K11 + K02
2)
2)
2)
K11 + K01
2)
K11 + K01
2)
K11 + K02
2)
K11 + K02
2)
2)
2)
K11 + K01
2)
K11 + K02
2)
K11 + K01
2)
K11 + K02
2)
Restrictions
Communication boards
G21
G23
G24
G25
G26
G27
G41
G43
G44
G45
G46
G47
G91
G93
G94
G95
G96
G97
Option available
On request
4/29
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
L42 + K732)
+ M762)
E07
E16
E17
E26
E27
E46
E47
E56
E57
E66
E67
4/30
Option available
Restrictions
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
2)
Restrictions
2)
2)
L20
Standard
5)
6)
L22
3)
4)
Standard
L21
Standard
Standard
L20 +
ext. 230 V AC
or K747)
+ M767)
ext. 230 V AC
or K747)
+ M767)
8)
8)
Standard
2)
2)
2)
9)
9)
9)
2)
2)
2)
L00
L23
L24
L87
L88
L89
Not with
L20
and/or
L22
L09
L10
L15
Option available
On request
860 A
Not available
4/31
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
ext. 230 V AC
or K742)
3)
3)
Standard
4)
Standard
Standard
Standard
M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
L135) + L412)
+ M762)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
6)
M762)
M762)
Restrictions
L46
L47
L48
L49
L57
L58
L59
L60
K80
P01
X06
X07
X08
4/32
Option available
On request
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
ext. 230 V AC
ext. 230 V AC
Restrictions
L19
X33
M762)
M762)
M762)
M762)
M762)
M762)
M762)
M762)
M762)
M762)
M762)
Option available
On request
Not available
4/33
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
Restrictions
Thermistor motor protection devices, PT 100 evaluation unit and automatic restart function
L81
L82
L83
L84
L85
L86
K732) + L412)
+ M762)
Not with
L84
K732) + L412)
+ M762)
Not with
L83
L412) +
(ext. 230 V AC
or K74)2)
+ M762)
Not with
L82
L412) +
(ext. 230 V AC
or K74)2)
+ M762)
+ L13
Not with
L81
K732) + L412)
+ M762)
3)
3)
3)
3)
3)
Autotransformers for regenerative feedback (integrated in cabinet) with 100 % power-on duration
L95
L96
L97
L98
L99
3)
3)
3)
3)
3)
4/34
Option available
On request
Not available
Cabinet units
Remarks
Additional
necessary
options or
advance requirements1)
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
K732) +
(ext. 230 V AC
or K74)2)
K732) +
(ext. 230 V AC
or K74)2)
3)
6)
4)
5)
6)
3)
6)
Restrictions
M05
M06
M07
M09
M11
M12
M23 or
M43
M14
M21
M23
M25
M26
M27
M43
M70
M75
Reinforced PE busbars
M54
M59
M76
M77
M90
M91
7)
7)
7)
7)
M92
Noise damping
X54
M23 or
M43
Standard
Option available
Not with
M54 or
M59
On request
3) Standard in the case of converters for singlequadrant operation, 6-pulse and AFE;
400 kW to 710 kW, 380 V to 480 V
400 kW to 1100 kW, 500 V to 600 V
500 kW to 1500 kW, 660 V to 690 V.
4/35
Cabinet units
Remarks
Additional
necessary
options or
advance requirements
Converter
singlequadrant
operation
6-pulse
Converter
singlequadrant
operation
12-pulse
Converter
fourquadrant
operation
6-pulse
Converter with
self-commutated,
pulsed AFE rectifier/regenerative
unit
Only in combination
with F71 or F75
Restrictions
Documentation1)
D10
Circuit diagrams
D12
D72
D77
D78
Italian
T77
French
T78
Spanish
F03
F71
F75
F77
F97
Cannot be
ordered
separately
Types of packaging 2)
P20
Air freight
Standard
(without extra charge)
P21
Sea freight
M90 necessary
4/36
Option available
On request
For deliveries to China and Australia, countryspecific regulations that affect all types of
packaging must be complied with. Types of
packaging for transport to these countries must
be clearly indicated when the order is submitted
and will be invoiced separately.
Cabinet units
K11,
K01,
K02
Technology boards
K16,
K12,
K30
Expansion boards
G61 to G67
G71 to G77
Communication boards
G21 to G27
G41 to G47
G91 to G97
4/37
Cabinet units
K20
K21
K41,
K42
K50,
K51
K60
K73
K74
Isolation amplifiers
E06 to E67
4/38
Cabinet units
Radiointerference
suppression
filter
L20
Operation from
non-earthed
system
45 kW to 315 kW/
380 V to 480 V;
37 kW to 315 kW/
500 V to 600 V;
55 kW to 400 kW/
660 V to 690 V.
L21
Overvoltage
protection board
L22,
L23,
L89
Line
commutating
reactor
four-quadrant operation is
only permissible if the relative impedance voltage of
the supply system is greater
than 6 %. In the case of
12-pulse supply, at least one
line commutating reactor
with 2 % relative impedance
voltage is necessary per
system or a converter
transformer in the form of a
three-winding transformer
L87
Insulation
monitor,
non-earthed
systems
N.B.:
The insulation monitor
detects the insulation
resistance of all parts of the
system connected on the
secondary side of the converter transformer and only
needs to be used once per
branch. Depending on the
supply voltage, the insulation
monitor on the branch functions as follows:
L88
Earth-leakage
monitor,
earthed
systems
4/39
Cabinet units
Output reactors
L10
Voltage-limiting
filter (dv/dt)
L15
Sinusoidal filter
N.B.:
When ordering, units with a
correspondingly larger nominal power rating are therefore to be selected.
4/40
Cabinet units
Main contactor
45 kW to 500 kW,
380 V to 480 V;
37 kW to 630 kW,
500V to 600 V;
55 kW to 800 kW,
660 V to 690 V.
L41
L42
L45
Pushbutton for
the EMERGENCY
OFF/STOP function
L46,
L48
STOP function
class 0
Involves disconnection of
the voltage via the line
contactor (3WN6 circuitbreaker), with the electronics
being bypassed. The motor
L47,
L49
STOP function
class 1
L57,
L58
EMERGENCY
OFF
class 0
Involves disconnection by
means of the line contactor
(3WN6 circuit-breaker),
with the electronics being
bypassed by means of a contactor safety combination
L59,
L60
EMERGENCY
OFF
class 1
X06
NAMUR terminal
strip,
standard version
X07
NAMUR terminal
strip,
expanded version
K80
Safe Stop
4/41
Cabinet units
C64
to
C79
Braking units
Braking resistors
Thermistor motor
protection
devices
L85
Automatic restart
EMERGENCY STOP is
triggered. The drive thus
remains switched off.
L86
PT100
evaluation unit
controllers by means of a
centralized alarm (changeover contact) and two analog
outputs (+10 V, parameterizable), which are each
connected to terminals.
Autotransformers
for converters
with regenerative
feedback
The autotransformers for regenerative feedback for converters for four-quadrant operation, 6-pulse, are built into
the cabinet. Depending on
the power rating, an additional cabinet is necessary.
Degree of
protection IP21
M23,
M43
Degree of
protection IP23,
Degree of
protection IP43
M54
Degree of
protection IP54
(prepared)
Note:
The converter cabinet is not
delivered from the factory
with degree of protection
IP54.
4/42
Cabinet units
Degree of
protection IP54b
M70
M75
PE bus
M76,
M77
Connecting lugs
M25
M26
M27
Documentation
D10
Circuit diagrams
D12
X39
4/43
Cabinet units
F71
F75
Visual inspection
Functional test of
the converter
without connected motor
Functional test of
the converter
with test-bay
motor idling
The checks and tests are carried out with the converter isolated from the power supply.
The acceptance inspection
includes the following:
Check of components
Check of fans
Precharging test
High-voltage test
F77
Insulation test of
the converter
F97
Customerspecific converter
acceptance tests
Cable check
Check of fans
Precharging test
Measurement of insulation
resistance
must be quoted when ordering and the scope of the acceptance inspection must be
described in text.
Note:
As a standard measure, the converter chassis are subjected to a heat run in the course of testing. A test certificate for this, however, is not provided.
Types of packaging
Road freight
within Europe
P20
Air freight
Standard packaging
(no extra charge)
Features:
P21
4/44
Sea freight
Cabinets mounted on
wooden pallets that can be
lifted using fork-lift trucks
Features:
Features:
Cabinets mounted on
wooden pallets that can be
lifted using fork-lift trucks
Cabinet units
The options listed below are,
depending on size, supplied
in a supplementary cabinet.
If a combination of options
Supplementary
order code
L00
Description of option
Cabinet width
Page
1)
1)
1)
4/31
L00
L00
L08
L08
L08
600 mm
600 mm
600 mm
1)
1)
1)
2 x 600 mm
2 x 600 mm
2 x 600 mm
1)
1)
1)
600 mm
600 mm
600 mm
1)
1)
1)
600 mm
600 mm
600 mm
900 mm
900 mm
900 mm
on request
on request
1)
1)
1)
600 mm
600 mm
600 mm
900 mm
900 mm
900 mm
on request
on request
1)
1)
1)
600 mm
600 mm
600 mm
900 mm
900 mm
900 mm
on request
on request
4/31
4/31
4/31
4/31
4/31
4/45
L10
L10
Description of option
Cabinet width
Page
45 kW to 90 kW / 380 V to 480 V
37 kW to 160 kW / 500 V to 600 V
55 kW to 200 kW / 660 V to 690 V
110 kW to 315 kW / 380 V to 480 V
200 kW to 450 kW / 500 V to 600 V
250 kW to 630 kW / 660 V to 690 V
400 kW to 500 kW / 380 V to 480 V
630 kW / 500 V to 600 V
800 kW / 660 V to 690 V
630 kW to 710 kW / 380 V to 480 V
800 kW to 1100 kW / 500 V to 600 V
1000 kW to 1500 kW / 660 V to 690 V
250 kW / 380 V to 480 V
200 kW to 450 kW / 500 V to 600 V
250 kW to 630 kW / 660 V to 690 V
400 kW to 500 kW / 380 V to 480 V
630 kW / 500 V to 600 V
800 kW / 660 V to 690 V
630 kW to 710 kW / 380 V to 480 V
800 kW to 1100 kW / 500 V to 600 V
1000 kW to 1500 kW / 660 V to 690 V
45 kW to 90 kW / 380 V to 480 V
37 kW to 160 kW / 500 V to 600 V
55 kW to 200 kW / 660 V to 690 V
90 kW to 160 kW / 380 V to 480 V
90 kW to 200 kW / 500 V to 600 V
90 kW to 160 kW / 500 V to 600 V
90 kW to 200 kW / 660 V to 690 V
1)
1)
1)
4/31
L90
to
L94
L95
to
L99
4/46
Cabinet units
without
autotransformer
without
autotransformer
without
autotransformer
600 mm
600 mm
600 mm
900 mm
900 mm
900 mm
1)
1)
1)
600 mm
4/31
600 mm
600 mm
900 mm
900 mm
900 mm
1)
1)
1)
1)
4/31
1)
1)
1)
1)
converter cabinet
+ 300 mm
600 mm
600 mm
600 mm
900 mm
900 mm
900 mm
1)
1)
1)
1)
1)
1)
converter cabinet
+ 300 mm
900 mm
900 mm
900 mm
on request
on request
on request
900 mm
900 mm
900 mm
1200 mm
1200 mm
1200 mm
4/34
600 mm
4/34
Vector Control
Documentation
and Training
Documentation for Compact PLUS units/
Compact and chassis units
5/2
Overview of documentation
5/3
Operating instructions
Converter and inverter units
System components
Rectifier units
Rectifier/regenerative units
Self-commutating, pulsed rectifier/
regenerative units Active Front End (AFE)
Electronics options
5/4
5/4
5/4
5/4
5/3
5/3
5/3
5/3
5/3
5/5
5/5
5/5
5/6
Training Center
5/7
Training courses
5/8
Demonstration cases
5/8
Start-up box
5/1
Documentation overview
The documentation for the
units (converters, inverters,
rectifier units and rectifier/
regenerative units), system
components and options is
supplied in German/English
with the ordered products.
When ordering MASTERDRIVES products, operating
instructions can be ordered
as an alternative in other languages as follows:
Language
Supplementary
order code
French / English
Spanish / English
Italian / English
D77
D78
D72
5/2
This contains:
parameterization and
diagnostics program
DriveMonitor
all operating instructions
and the compendium in
the form of PDF files in all
available languages except Japanese.
Size
Order No.
Components
Size
Order No.
6SE708 JP60
Braking units
all
6SE708 CX872DA0
6SE708 KP60
all
6SE708 CX870FB0
A to D
6SE708 JD60
E to K
6SE708 JK60
Radio-interference
suppression filters
Sinusoidal filters
all
6SE708 CX871FC0
dv/dt filters
all
6SE708 CX871FD0
A to D
6SE708 KD60
E to Q
6SE708 KN60
ss
ss
German / English
7 6
German / English
7 6
Italian
7 2
Italian / English
7 2
French
7 7
French/ English
7 7
Spanish
7 8
Spanish / English
7 8
Japanese
8 0
Japanese
8 0
Electronics options
Self-commutated, pulsed rectifier/regenerative units
Active Front End AFE
Type of unit
Size
Order No.
A to D
6SE70876KD80
Electronics options
Language
Order No.
6SE708 NX840FF0
6SE708 NX840FG0
6SE708 NX840FJ0
6SE708 NX840KB0
E to G
6SE708 CX862AA0
6SE708 NX840KC0
E to L
6SE718 AX802AA0
6SE708 NX840FA0
6SE708 NX841GA0
ss
ss
German
0 0
English
7 6
German / English
7 6
Italian
7 2
Italian / English
7 2
French
7 7
French / English
7 7
Spanish
7 8
Spanish / English
7 8
Japanese
8 0
Rectifier units
Type of unit
Size
Order No.
6SE708 NP850AA0
Compact unit
B and C
6SE708 AC850AA0
Chassis unit
6SE708 AE850AA0
Chassis unit
H and K
6SE708 AK850AA0
ss
German / English
7 6
Italian
7 2
French
7 7
Spanish
7 8
Japanese
8 0
Size
Order No.
C to K
6SE708 AK851AA0
ss
Ge/En/It/Fr/Sp
6SE70800CX870BB0
German /
English
French
6SE70876CX840AH1
German
English
6SE70800CX842AH1
6SE70876CX842AH1
German
English
French
6SE70800CX844AH1
6SE70876CX844AH1
6SE70877CX844AH1
German
English
6SE70800CX846AH1
6SE70876CX846AH1
German
English
6SE70800CX848AH1
6SE70876CX848AH1
German
English
6SE70800CX840BB1
6SE70876CX840BB1
Ge/En/It/Fr/Sp
6SE70800AX871JB0
6SE70877CX840AH1
6SE708 CX840BC0
6SE708 CX840BA0
6SE708 CX843DB0
0 0
6SE708 CX840BD0
ss
English
7 6
German / English
Italian
7 2
Italian
7 6
7 2
French
7 7
French
7 7
Spanish
7 8
Spanish
7 8
Japanese
8 0
5/3
SCB/SCI/DTI/TSY/EB1/EB2
interface boards
CBP/CBP2 communication
boards (PROFIBUS DP)
Language
Order No.
6SE70876NX60
Italian / English
6SE70872NX60
French / English
6SE70877NX60
Spanish / English
6SE70878NX60
Compendium
The Compendium contains
the following:
Process data
Communication
SCOM 1/2 interfaces
USS protocol
PROFIBUS DP
CAN
SIMOLINK
System description
Configuration and connection examples
EMC guidelines
Parameterization
Parameterizing steps
Functions
Annex
Function diagrams
Binector list
Connector list
Parameter list
Faults and alarms list.
Language
Order No.
Compendium
German
6SE70800QX60
English
6SE70876QX60
Italian
6SE70872QX60
French
6SE70877QX60
Spanish
6SE70878QX60
CD-ROM
Contents see page 5/2.
Language
Order No.
CD-ROM
Ge/En/It/Fr/Sp
6SX70100FA10
The CD-ROM Safety Integratedoffers a comprehensive overview of safety technology and the widest range
of safety components, embedded at the same time in
the standard world of automation.
1) This documentation is available in French, Spanish and Italian only, i.e. not French/English,
Spanish/English, Italian/English.
5/4
Language
Order No.
Application manual
German
6ZB50000AA010BA0
English
6ZB50000AA020BA0
E20001D10M103X7400
Cabinet units
Test certificate
Dimension drawings
Layout diagrams
Operating instructions,
with details of factory settings
Terminal diagram
Additional documentation
In addition to the equipment
manual, the following documents can also be supplied
as an option. The supplementary order codes in the
following table are to be added to the respective order
number of the converter.
The order number of the converter is to be supplemented
with Z
.
Designation
Supplementary
order code
Additional documentation
Circuit diagrams
Detailed circuit diagrams of the converter including options.
Dimension drawings
The individual cabinet units including options are combined to obtain a
complete dimension drawing
Cabinet documentation, Italian/English
D10
D77
D78
D12
D72
Note
The compendium as printed version (file) must be ordered separately.
For Order No., see page 5/4.
The contents of the compendium is contained on the supplied CD-ROM.
Example
for documentation which can
be ordered separately.
Cabinet-unit version
Order No.
Supplementary
order code
6SE718 FX603BA0Z
Y00
6SE718 FX605BA0Z
Y00
ss
German / English
7 6
Italian
7 2
French
7 7
Spanish
7 8
5/5
Training
Training Center
A&D Training Centers are
located all over the world and
provide a range of training
courses for SIMOVERT
MASTERDRIVES. The contents of the courses can be
customized and the courses
can also be conducted on
the customers premises.
Contact person:
Any A&D Information &
Training Center in the regions
and regional companies:
Tel.: ++49 18 05 23 56 11
Head Office:
Siemens AG
Automation and Drives
Training Office
P. O. Box 48 48
90327 Nuremberg
Germany
E-mail:
A&D.Kursbuero
@nbgm.siemens.de
Telephone:
++49 9 11-8 95-32 00
Fax:
++49 9 11-8 95-32 75
5
Fig. 5/1
Training Center
5/6
Training
Servicing and
commissioning of
SIMOVERT MASTERDRIVES SD-MD-SI
Compact course for MC
and VC
General knowledge of
electrical engineering
Configuration of
SIMOVERT MASTERDRIVES
SD-MD-PRO
5 days
Order No: 6ZB14200BG0A0
ZP No: AD524FA012
The course is for commissioning and service personnel. Participants are taught
the technical knowledge
they require for
parameterizing, commissioning and servicing
SIMOVERT MASTERDRIVES Motion Control and
Vector Control converters.
Requirements:
Knowledge of
SIMATIC S7
Communication
SIMOVERT MASTERDRIVES
SD-MD-COM
5 days
Order No: 6ZB14200CC0A0
ZP No: AD521SA031
For plant
commissioning
engineers
Fig. 5/2
Overview of training courses
Configuration of
SIMOVERT MASTERDRIVES SD-MD-PRO
Participants are provided
with the technical knowledge they require to configure the SIMOVERT
MASTERDRIVES series of
converters with the help of
the catalog and PC tools.
Note
Parameterization is dealt
with in detail by the
SD-MD-SI course.
Communication
SIMOVERT MASTERDRIVES SD-MD-COM
The course is aimed at commissioning and service personnel and also at planning
engineers for SIMOVERT
MASTERDRIVES.
It provides participants with
the knowledge they require
for commissioning, configuring and programming the
communication interfaces.
Further information can be
found in the ITC catalog, of
October 2000, or can be
obtained under
http://www.sitrain.com.
Servicing and
commissioning of
SIMOVERT MASTERDRIVES Vector Control D64
The course is intended for
plant engineers responsible
for commissioning
SIMOVERT MASTERDRIVES Vector Control converters. The three-phase
drives with these converters
are started up. The extensive
functions are explained in
detail and applied.
The D64 course takes place
at Siemens AG,
I&S IS E&C TC in Erlangen,
Germany.
Telephone:
+49 91 31 72 92 62
E-mail:
sitrain@erl9.siemens.de
5/7
Converter with
PROFIBUS DP board and
OP1S
Brake module
Order No.:
6SX70000AC01
Accessories:
Fig. 5/3
CUVC demonstration case
Order No.:
6SX70000AE01
VC Compact PLUS demonstration case
Braking resistor
Start-up box
Dimensions of case:
HxWxD
535 x 265 x 405 mm
For connection to supply
voltage 1-ph. 230 V AC
(50/60 Hz)
Order No.:
6SX70000AC02
For connection to supply
voltage 1-ph. 115 V AC
(50/60 Hz)
Order No.:
6SX70000AC03
Fig. 5/4
VC Compact PLUS demonstration case
connection to terminal
X101 via prefabricated signal cable (1.3 m)
5/8
Vector Control
Engineering
Information
6/2
6/9
Single-motor drives
6/11
6/11
6/14
6/17
6/21
6/23
Multi-motor drives
Inverters
Rectifier units
Rectifier/regenerative units
Overcurrent protector units
Self-commutated, pulsed rectifier/
regenerative units Active Front End (AFE)
6/27
Capacitor module
6/28
6/35
6/39
6/45
6/46
6/47
System components
6/53
6/54
6/56
Communication
6/63
6/67
6/69
Technology
6/80
6/1
Engineering Information
Short-time current
136 %
Rated current
(continuous)
100 %
91 %
DA65-5298
60 s
300 s
Fig. 6/1
Definition of the rated values, the overload values and the base load values of
the converters and inverters
6/2
Rated current
(continuous)
100 %
91 %
30 s
300 s
Short-time current
160 %
DA65-5299
Fig. 6/2
Additional definition of the rated values, the overload values and the base load
values of the converters / inverters up to 200 kW 3-ph. 380 V to 480 V AC;
510 V to 650 V DC and up to 160 kW 3-ph. 500 V to 600 V AC; 675 V to 810 V DC
Permissible continuous current as
a % of the rated current
DA65-5431a
100
1,0
KT
90
0,9
80
0,8
75
0,7
70
60
10
0,6
20
30
40 C 50
Ambient temperature
Converter and inverter,
Compact PLUS rectifier units
Converter and inverter,
Compact and chassis units
Rectifier unit and rectifier/regenerative units,
Compact and chassis units
Fig. 6/3
Reduction factor kTA for installation altitudes up to 1000 m
above sea level and different ambient temperatures
Engineering Information
DA65-5434
2
KT
1,5
1,375
1,25
1,125
1
0,879
0,76
0,5
0
20
25
30
35
40
45 C 50
Ambient temperature
Fig. 6/4
Reduction factor kT for installation altitudes from 1000 m to 4000 m
above sea level
DA65-5433a
100
1,0
KI
90
0,9
80
0,8
70
0,7
60
0
500 1000
2000
3000
0,6
4000
Fig. 6/5
Reduction factor kI for installation altitudes from 1000 m to 4000 m
above sea level
DA65-5432c
100
1,0
90
0,9
80
0,8
75
0,7
70
60
0
500 1000
2000
3000
KU
0,6
4000
Example:
Unit 6SE7026-6FE60
Installation altitude: 3000 m
Max. ambient temperature:
30 C
3-ph. 500 V to 600 V AC,
45 kW, 66 A
900 kW at 400 V
(only chassis units),
Operation without
interphase transformer
If the motor to be connected
has 2 electrically isolated
winding systems which have
the same voltage and the
same phase position, the
outputs of both inverter
sections can be connected
directly to the two winding
systems of the motor. The
two magnetically coupled
windings then have the
same effect as an interphase
transformer. An additional
interphase transformer is
then no longer necessary.
1LA1 type motors for 690 V
can be supplied with 2 electrically isolated winding systems. They are to be ordered
with the voltage code 1
(11th position of the Order
No., e.g. 1LA1 503-4PM1).
6/3
Engineering Information
INV1
INV2
ADA65-5301a
ADA65-5300a
INV1
INV2
Fig. 6/7
Note
In the case of a group drive,
it is recommended that the
motors are divided up into
Dissolved substances
< 340 ppm
Overall hardness
< 170 ppm
6/4
Cooling system
requirements
Open cooling systems must
not be used. Only closed
cooling systems should be
installed, preferably with
monitoring of the water
quality of the cooling water.
The electrochemical processes occurring in the cooling
system must be minimized
by the choice of materials.
Mixed installations, i.e. a
combination of different materials such as copper, brass,
Cooling water
requirements
The cooling water must
satisfy the following requirements:
Chemically neutral, clean
water, free of solid matter.
Max. particle size of any
particles in water 0.1 mm
Important!
Operating pressures
above
1 bar/2.5 bar
depending on the
size of the unit
are not permissible!
The heatsinks are not
resistant against
sea-water (i.e. sea-water
must not be used for
cooling)!
If there is a danger of frost,
frost-protection measures
must be implemented
during operation, storage
and transport. For example,
emptying and blowing out
with air, additional heaters,
etc.
Engineering Information
Antifreeze additive
Filling
1 bar/2,5 bar
1 1/4"
System
Pump
Depending on conditions at
installation location and on
the technical aspects, the
cooling circuits described on
page 6/5 can be used.
Important!
Moisture condensation
on the converter due to
undercooling is to be
prevented. If necessary,
the temperature of the
cooling water must
be controlled.
FUn
FU1
Primary circuit
Note!
If less than 20 % antifreeze is
added the risk of corrosion is
increased. If more than 30 %
antifreeze is added the heat
flow and therefore the functioning of the unit is affected.
Care must always be taken
to ensure that the addition of
antifreeze does not alter the
kinematic viscosity of the
cooling water. It is necessary
to adapt the pump output.
Control cubicle
DA65-5302a
Filter
Thermostat
V/E flow-rate
monitor
Fig. 6/8
Water-water heat exchanger
Anti-corrosion agent
For the cooling circuit, we
recommend using a corrosion inhibitor, e.g. the anticorrosion agent NALCO
00GE056 available from
ONDEO Nalco
(www.ondeo-nalco.com).
Concentration of corrosion
inhibitor in the cooling water:
0.1 to 0.14%.
The cooling water should be
checked 3 months after the
cooling circuit has been filled
for the first time and, after
this, once a year.
If the cooling water becomes
detectably cloudy, discolored
or contaminated with
bacteria, the cooling circuit
must be flushed out and
re-filled.
An inspection window
should be fitted in the cooling circuit to facilitate inspection of the cooling water.
Water-water heat
exchangers
Cabinet-unit earthing
6/5
Engineering Information
Filling
1 bar/2,5 bar
Pump
FU1
Automatic
bleeding
valve
Air-water
heat exchanger
6/6
Filter
V/E flow-rate
monitor
Fig. 6/9
Air-water heat exchanger
System
Filling
1 bar/2,5 bar
Safety valve < 1 bar/< 2,5 bar
Pump
Exhaust
air
Heat
exchanger
FU1
Automatic
bleeding
valve
Filter
Fig. 6/10
Active cooling unit
FUn
Aircooled
condensor
Thermostat
Control cubicle
V/E flow-rate
monitor
DA65-5304a
Compressor
Cooling circuit
FUn
System
DA65-5303b
Engineering Information
100
90
80
70
DA65-5297a
Field weakening
range
M/M n
%
60
10
20
30
40
50
60
70
80
f [Hz]
Fig. 6/11
Typical curve of permissible torque in the case of self-ventilated motors
(e.g. 1LA) with a rated frequency of 50 Hz.
If a motor is to be used
whose rated current is
greater than the rated current of the converter, the following limit is to be complied
with, even if the motor is
only to be operated under
partial load:
In Motor
u
6/7
Engineering Information
Motor type
In addition to the standard
1LA type motors, compact
induction motors, type
1PH7/1PL6, can also be
used.
1PH7/1PL6 compact induction motors are to be recommended in the case of
a voltage-limiting filter
dv/dt,
a sinusoidal filter,
6/8
Bearing currents
Motor protection
Motor protection can be provided by the converter software with I2t monitoring of
the motor. Here, the current
motor speed is also taken
into account. This monitoring
function, however, is not
100 % accurate because the
motor temperature is only
calculated and not measured. In addition to this, the
ambient temperature is not
taken into account.
Precise motor protection is
possible using motor temperature sensors. In the case
of SIMOVERT MASTERDRIVES Vector Control, it is
possible to connect a KTY84
temperature sensor or a PTC
thermistor directly in the
base unit.
The main causes of damaging bearing currents are circulating currents in the motor as a result of converter
supply. They are also caused
by currents flowing through
the motor bearings due to
unfavorable earthing conditions.
In order to provide protection
against damaging bearing
currents due to circulating
currents, an insulated NDE
bearing is used for certain
motor sizes.
For 1PH7 and 1PL6 type
motors, insulated NDE bearings are available as an option for sizes 180 and above
(code L27). For size 280, the
insulated bearing is standard. For standard 1LG4 and
1LG6 series motors, insulated NDE bearings for sizes
225 to 315 are recommended for converter operation
(supplementary order code
L27). Insulated bearings are
standard for all 1LA1/PQ1/
1LA8/1LL8 and 1PQ8 type
motors (size 315 and upwards) that are marked as
suitable for converter operation.
If the machine connected to
the motor shaft is earthed
better than the motor itself,
damaging current can flow
through the motor bearings
and through the bearings of
the driven machine. In order
to avoid this kind of bearing
current, the motor housing
must be well earthed, e.g. by
using a shielded motor cable.
Operating explosion-proof
d type of protection
motors
Siemens 1MJ explosionproof enclosure EEx de IIC
motors can be both mains
and converter-fed. For operating these motors with
SIMOVERT MASTERDRIVES Vector Control, a
blanket certificate of conformance has been issued by
the Physikalisch-Technische
Bundesanstalt (German
regulatory body). Additional
testing is not necessary for
these drives. In accordance
with the test guidelines,
1MJ type motors must be
equipped with PTC thermistors.
1MJ type motors have, as
standard, terminal boxes
with increased safety EEx e
II degree of protection.
1MJ type motors can be operated connected to a converter with the rating indicated in Catalog M11 up to
output frequencies of
100 Hz. For further details,
see Catalog M11 Low-Voltage Motors
.
Engineering Information
Single drives
Single drive
Single drive
as group drive
3AC
Single drive
with braking unit
3AC
3AC
2AC
ADA65-6082
Braking resistor
M
3AC
M
3AC
M
3AC
M
3AC
M
3AC
Fig. 6/12
Single drives/single drives as group drives with compact and chassis units
6
3-ph. 380-480 V AC
3-ph. 380-480 V AC
Radio-interference
suppression filter
~
~
Converter
=
~
Braking resistor
Braking resistor
A DA65-5968b
M
3~
M
3~
=
~
A DA65-6081
M
3~
DA65-6083
Line commutating
reactor
Line commutating
reactor
Converter
Radio-interference
suppression filter
M
3~
Fig. 6/13
Single drives/single drives as group drives with Compact PLUS
Siemens DA 65.10 2003/2004
6/9
Engineering Information
Single drives
Notes on selecting the power sections (continued)
Converters for the individual
drive can be selected according to criteria, with regard to
the rated output current, as
described in sections entitled Configuring of drives.
U1/L1
V1/L2
W1/L3
PE
AC 230V
Line fuses
Main switch
Main contactor
K1
X9:2
X9:1
C/L+
D/L-
Output reactor
Sinewave filter or dv/dt filter
Output contactor
M
3 AC
Fig. 6/14
Block diagram of a converter (sizes E to K)
6/10
Braking unit
DA65-5842a
PE2
Operation of a supply-side
main contactor K1 is possible directly via the On function of the terminal strip
and the interfaces of the
SIMOVERT MASTERDRIVES
electronics (external 24 V DC
supply needed).
Engineering Information
Multi-motor drives
DA65-5296
M
3AC
M
3AC
M
3AC
M
3AC
M
3AC
Fig. 6/15
Multi-motor drive
6/11
Engineering Information
Multi-motor drives
DA65-6085
DA65-6087
6/12
Line commutating
reactor
~
Rectifier unit
Inverter
Converter
X100
X9
X100
X100
X100
Inverter
=
~
Braking
resistor
...
M
3~
~
M
3~
M
3~
A DA65-6091
M
3~
M
3~
M
3~
M
3~
A DA65-6088
Fig. 6/16
Multi-motor drives with Compact PLUS units
Fig. 6/17
Multi-motor drive with converters
and inverters
DA65-6090
DC 24 V
Braking resistor
Power supply 24 V DC
Line
commutating
reactor
DA65-6089
Radio-interference
suppression filter
Fig. 6/18
Capacitor module
Fig. 6/19
DC link module
Engineering Information
Multi-motor drives
C/L+
D/LPE
Electrical or mechanical
coupling to the DC link
PE1
If a multi-motor system
consisting of inverters and a
rectifier unit is to be supplied
as a pre-configured cabinet
unit from Siemens, this is
possible on request via our
application workshop.
C/L+
D/L- F101,F102
X9:9
X9:7
X9:2
X9:1
Inverter
PE2
DA65-5400a
Output reactor
DC bus
Fig. 6/20
Block diagram of an inverter (sizes A to D, DC voltage 510 V DC)
Note
The size H and K rectifier
units as well as the rectifier/regenerative units
determine the connected
capacitor load during initialization. If individual inverters
are disconnected from the
common DC link bus, this
must be carried out again. If
fixed combinations of inverters are disconnected, the
parameters for each combi-
6/13
Engineering Information
Multi-motor drives
Rectifier units
Rectifier units supply the DC
voltage bus for inverters with
motoring energy and enable
operation of a multi-motor
system.
If a multi-motor system consisting of inverters and rectifier unit is to be supplied
by Siemens as a cabinet
system, this is possible on
request via our application
workshop.
The supply voltage ranges
from 3-ph. 380 V to 690 V AC,
50/60 Hz.
The power output of the
rectifier units ranges from
15 kW to 1500 kW in sizes B,
C, E and P are analog units
and do not have a serial interface, e.g. they cannot be operated with PROFIBUS DP.
The sizes H and K are digital
units and as described on
page 6/55 can be extended
with the options for the electronics box.
A maximum of 3 size K units
can be connected in parallel.
The parallel circuit consists
of a master unit and up to 2
slave units (see Section 3). In
order to ensure uniform load
distribution, line commutating reactors with 2 % vk
must be provided. The rated
current must also be reduced
by 10 %.
Note
12-pulse operation with
size H and size K units takes
place in a master-slave configuration. Interface adapters
(Order No. 6SE7090-0XX851TAO) and separate cable are
necessary, see Fig. 6/21 and
also selection and ordering
data on page 3/30.
In order to operate the rectifier units, an external 24 V
DC power supply is necessary. The current required depends on the size of the unit
(see Section 3).
In order to electrically isolate
a rectifier unit from the supply system, a main switch
and/or a switch disconnector
can be connected on the
supply side.
The rectifier is powered-up
and powered-down by
means of a main contactor
which, in the event of a fault,
also protects the connected
rectifier units against overloading (for sizes B, C, E
and P).
An effective isolation from
the supply and a limitation of
system perturbations are
achieved by means of a
line commutating reactor.
6/14
CUR
Master
-A2
1
2
3
4
5
-X117
CUR
Slave
DA65-5843
-A2
1
2
3
4
5
-X117
Fig. 6/21
Connection cable type LiYCY 3 x 2 x 0.5 for communication
Note
Rectifier units can only
supply a certain number of
inverters. The total DC link
current flowing on the inverter side must not exceed
the rated output DC link
current the rectifier unit.
When selecting of the rectifier unit, this means that the
DC link currents of inverters
in regenerative mode are
subtracted from the DC link
currents of inverters in motoring mode. It must also be
noted that the rectifier unit
has to precharge the whole
effective DC link capacity of
the drive.
This results in the following
rule:
Compact PLUS
rectifier units
15 kW
I zkb ee 0.5 I zkb wr
50 kW and 100 kW
I zkb ee (0.3...1) I zkb wrb
Engineering Information
Multi-motor drives
Braking
resistor
LED green:
Rectifier unit ready for
operation
X6
D'
LED red:
Fault
C' H
X3 PE3
D
C
LED yellow:
Brake chopper active
.1
.2
X100.33
.34
.35
.36
Note
A record of faults is not kept
and they do not have to be
acknowledged. A fault is indicated as long as the fault signal is being sent (at least 1 s).
If a 100 kW rectifier unit is
used to set up a multi-motor
drive, it must be ensured
that the 120 A current carrying capacity of the copper
busbars is lower than the
rated DC link current of this
rectifier unit. The 100 kW rectifier unit must therefore be
placed in the middle of the
multi-motor drive and the inverters will then be supplied
on the right and left-hand
sides via the copper busbars.
X9
X320
off
on
A1
Control
voltage
AC 230V
A2 Q1
Main circuit-breaker
3 AC 50-60 Hz
380-480 V
Line
filter
L3
L2
L1
PE
ADA65-6084
Control functions
Fig. 6/22
Block diagram of rectifier units, Compact PLUS series
E
P
E
P
E
P
E
P
S1
S1
A
S1
A
S1
X101 B
X101 B
X101 B
X101 B
X103 C
X103 C
120 A
120 A
X103 C
=
DA65-6067
M
3~
M
3~
M
3~
DA65-6086
X103 C
M
3~
Fig. 6/23
Multi-motor drive with 100 kW rectifier unit
6/15
Engineering Information
Multi-motor drives
Rectifier units
Control functions
Rectifier units,
sizes B, C and E
U1/L1
V1/L2
W1/L3
PE
AC 230V
Line fuses
Main switch
Off
K1
PE1
6/16
PE2
DA65-5305c
Main contactor
Input filter B1 / A1
K1
C/L+
D/L-
DC bus
Fig. 6/24
Block diagram of the rectifier unit
(sizes B, C and E)
Terminal
Function
X9: 1
X9: 2
24 V DC power supply
Ground
Contact material Ag CdO
X9: 4
Operation of main contactor.
Load capability: 230 V AC: 7.5 A (cos j = 0.4),
L/R = 7 ms, 30 V DC: 5 A; DC 60 V: 1 A.
X9: 5
Minimum load: 100 mA
Contact material AgPb
X36: 1
Alarm: Overtemperature, Precharging fault.
Load capability: 48 V AC, 60 VA (cos j =1) to
X36: 2
160 VA (cos j = 0.8); 48 V DC, 24 W
Minimum load: 5 mA
X19: 1
Power supply for fans, sizes E, H, K
X19: 2
230 V 50/60 Hz
Assignment of the control terminal strip on rectifier units size
B, C, E and H, K (only X19)
Circuit identification
Automatic restart
This restarts the drive when
the power returns following a
power failure.
Note:
If a size H or K rectifier unit
supplies an inverter for which
the kinetic buffering function
for bridging power failures or
dips is activated, the automatic-restart function must
be enabled.
Engineering Information
Multi-motor drives
Rectifier/regenerative units
Rectifier/regenerative units
(line-commutated) not only
supply the DC bus for inverters with motor power from a
three-phase supply, they also
inject regenerative power1)
back into the line supply
from the DC bus. This is
done by means of two independent thyristor bridges;
the regenerative bridge is
connected via an autotransformer (for selection
and ordering data, see Section 3).
If a multi-motor system,
consisting of inverters and
rectifier/regenerative unit, is
to be supplied from Siemens
ready made as a cabinet
version, this is possible on
request via an application
workshop.
The supply voltage ranges
from 3-ph. 380 V AC to
690 V AC, 50/60 Hz.
Rectifier/regenerative units
can only be ordered as chassis units for mounting in control cubicles.
Remove 30 mm of insulation
from the end of the cable
and connect with shield clip
A23
C98043A1695
Base unit
Remove 30 mm of insulation
from the end of the cable
and connect with shield clip
A23
C98043A1685
A23
C98043A1695
X27
X27
X28
X27
ADA65-6060
Parallel unit
X28
Fig. 6/25
Base and parallel units
Rectifier units
6SE7041-3EK85-0AA0
6SE7041-8EK85-0AA0
6SE7041-3FK85-0AA0
6SE7041-5FK85-0AA0
6SE7041-8FK85-0AA0
6SE7041-3HK85-0AA0
6SE7041-5HK85-0AA0
6SE7041-8HK85-0AA0
6SE7041-3EK85-0AD0
6SE7041-8EK85-0AD0
6SE7041-3FK85-0AD0
6SE7041-5FK85-0AD0
6SE7041-8FK85-0AD0
6SE7041-3HK85-0AD0
6SE7041-5HK85-0AD0
6SE7041-8HK85-0AD0
Rectifier/regenerative units
6SE7041-3EK85-1AA0
6SE7041-8EK85-1AA0
6SE7041-3FK85-1AA0
6SE7041-5FK85-1AA0
6SE7041-8FK85-1AA0
6SE7041-3HK85-1AA0
6SE7041-5HK85-1AA0
6SE7041-8HK85-1AA0
6SE7041-3EK85-1AD0
6SE7041-8EK85-1AD0
6SE7041-3FK85-1AD0
6SE7041-5FK85-1AD0
6SE7041-8FK85-1AD0
6SE7041-3HK85-1AD0
6SE7041-5HK85-1AD0
6SE7041-8HK85-1AD0
6/17
Engineering Information
Multi-motor drives
Rectifier/regenerative units (continued)
Preconditions:
Use of identical power sections (for assignment of basic unit and parallel unit(s),
see table)
Rectifier/regenerative units
X27
X28
Line
X27
X28
Parallel unit 2
Infeed
Fig. 6/26
Parallel circuit with rectifier units
DC link
Parallel unit 1
Infeed
Base unit
Infeed
Regeneration
X27
X28
Parallel unit 1
Line
DC link
Infeed
Regeneration
X27
X28
Parallel unit 2
Infeed
Regeneration
Fig. 6/27
Arrangement of rigid power supply
Base unit
Infeed
Regeneration
X27
X28
Parallel unit 1
Line
DC link
Infeed
Regeneration
X27
X28
Parallel unit 2
Infeed
Regeneration
Fig. 6/28
Arrangement of soft power supply
6/18
ADA65-6059
Base unit
Infeed
ADA65-6057
A DA65-6058
Engineering Information
Multi-motor drives
12-pulse operation
Standard design
Note
12-pulse operation with size
H and K units takes place in a
master-slave configuration.
Interface adapters (Order No.
6SE7090-0XX85-1TA0) and
separate cables are necessary, see Fig. 6/21 and also
selection and ordering data,
page 3/32.
Note
Rectifier/regenerative units
can only supply a certain
number of inverters. The
total DC link current flowing
on the inverter side must
not exceed the rated output DC link current of the
rectifier unit. When selecting the rectifier unit, this
means that the DC link
currents of inverters in regenerative mode are subtracted from the DC link
currents of inverters in
motoring mode. It must
also be noted that the rectifier unit has to precharge
the whole effective DC link
capacity of the drive.
This results in the following
ruling regarding dimensions:
6/19
Engineering Information
Multi-motor drives
Rectifier/regenerative units (continued)
The rectifier/regenerative
units require a relative impedance voltage of at least
5 % on the supply side. This
is achieved by using a 4 %
line commutating reactor or
an appropriate converter
transformer. The rectifier/
regenerative units are decoupled from the supply and
system perturbations are
limited in accordance with
DIN VDE 0160.
U1/L1
V1/L2
W1/L3
PE
AC 230V
Line fuses
Main switch
Main contactor
Input filter B1 / A1
Line commutating reactor
PE1
X9:5
X9:4
X9:2
X9:1
Autotransformer
2%
2%
2%
DA65-5306
Supply
(transformer)
vD 3 %
3 % <vD 6 %
6 % < vD 8 %
Autotransformer
PE2
C/L+
DC bus
Fig. 6/29
Block diagram of the rectifier/regenerative unit
electronics in regenerative
mode, fuses in the unit are
triggered or thyristors shoot
through (converter communication failure). The emergency Stop circuit must be
set up so that the equipment
electronics receive the Stop
command first and thus disconnects the main contactor
from the supply. Only after a
delay is the supply for the
main contactor disconnected
by the emergency Stop circuit.
6/20
Terminal for 24 V DC
auxiliary power supply
always necessary
D/L-
terminal strip
communication via
dual-port RAM and the
SCom1 basic unit serial
interfaces.
The rectifier/regenerative
units have the same standard functions as the rectifier
units, sizes H and K; see
page 6/16.
Engineering Information
X9
K1-2
X36
K2
2 1
X9
K111
5 4 3 2 1
K1
X19
F1
4U1
4N1
F3
A23
C98043-A1685
M
1~
E1
A10
C98043-A1680
CUR
XKIPP1
K M
5 4 3 2 1
K1
24 V
Power supply
unit
+ -
XKIPP1
ADA65-6061b
K M K M + K1 M1
OCP
Fig. 6/30
Connection diagram of the controller
As a component of the
SIMOVERT MASTERDRIVES
drive system, the OCP unit is
protected by the fuses in the
rectifier/regenerative unit
and in the DC link of the inverter and does not require
extra fusing. It is self-pro-
6/21
Engineering Information
Parallel connection of
size K rectifier/regenerative units with OCP unit
6-pulse circuits:
If rectifier/regenerative
units are connected in parallel, an OCP unit must be
connected between each
rectifier/regenerative unit
and the DC link. Each of the
parallel-connected units
needs its own OCP unit in
the cable leading to the DC
link. The OCP units are to
be connected to each other
by means of control cables
between the XKIPP1 terminal strips.
12-pulse circuits:
In the case of 12-pulse circuits, it is also possible to
use one OCP unit for both
rectifier/regenerative units
provided that the total rated
current of the individual
units together does not exceed the rated current of
the OCP unit. In this case,
however, it must be noted
that redundancy no longer
exists if one rectifier/regenerative unit fails, the reason
being that the failed unit
switches off the OCP unit
via terminals K and M.
6/22
Operation with
non-Siemens rectifier/
regenerative units
The OCP unit was specially
developed for line-commutating rectifier/regenerative
units of the SIMOVERT
MASTERDRIVES drive system. A special advantage of
the software of the rectifier/regenerative unit is that
stalling of the inverter is detected at an early stage and a
switch-off signal is sent to
the OCP unit. In this way, formation of a high stalling currentcan be prevented in
nearly all cases.
In exceptions, this signal
may be too slow. The IGBT is
then switched off by means
of its own VCE monitoring
function, whereby higher
overcurrents have to be handled which affect the voltage
surge suppressors and reduces their lifetime.
It can be assumed that, in
the case of non-Siemens rectifier/regenerative units, this
special software function
does not exist and there is a
high switching load every
time the inverter stalls.
Combination with a
non-Siemens rectifier/
regenerative unit is therefore not advisable.
Engineering Information
Function
The AFE rectifier/regenerative unit's main components
are a voltage source DC link
converter with a CUSA control board. From a threephase power supply, it generates a regulated DC voltage, the so-called DC link
voltage. This DC link voltage
is kept almost constant irrespective of the supply voltage, even during regenerative operation.
On the three-phase side,
a supply-angle-oriented
high-speed vector controller
is subordinate to the DC link
voltage controller. This vector
controller impresses an
almost sinusoidal current
towards the supply and, with
the help of the Clean Power
filter, minimizes network perturbations.
The vector controller also enables the power factor cos j
and thus reactive power
compensation to be set,
whereby the drives power
requirement has priority.
The VSB board (Voltage
Sensing Board) functions as
a supply-angle encoder and
works according to a principle similar to that of an encoder.
Power spectrum
AFE compact units
Infeed rating
6.8 kW to 49 kW at 400 V
63 kW to 250 kW at 400 V
51 kW to 192 kW at 500 V
70 kW to 245 kW at 690 V
Design
Compact A to D
Chassis E to G
Caution!
Technical characteristics
SIMOVERT MASTERDRIVES
AFE are 100 % capable of
regenerative power feedback
without the need for an
auto-transformer. Even during
regenerative mode, power
losses do not occur as is the
case with a braking resistor.
The transition from motoring
to regenerative mode is stepless, with pulse-frequency
response. The exactly regulated DC link voltage ensures
optimum supply of the drive
inverter, almost independently of the supply voltage.
Minimal network perturbations thanks to AFE with
Clean Power technology
With SIMOVERT
MASTERDRIVES AFE, harmonics and commutating
dips are avoided, except for a
very small residue. Optimum
matching between the electronically controlled active
section (AFE inverter) and
the passive section (Clean
Power filter) ensures that almost sinusoidal voltages and
currents are impressed in
the direction of the supply.
Network perturbations practically no longer occur.
6/23
Engineering Information
AFE rectifier/regenerative unit (Active Front End) compact and chassis units
Uniform configuration
Because the AFE method is
free of system perturbations
and very robust when it
comes to line-voltage and
frequency fluctuations, uniform, reliable and simple
configuration is possible
with regard to the powersupply properties and
system perturbations.
A high-performance vector
controller with high-speed
encoder (VSB) enables operation from power systems
whose properties fluctuate
and are difficult to define.
6/24
AFE MASTERDRIVES in a
master-slave circuit
AFE rectifier/regenerative
units can be connected in
parallel by cascading (master-slave mode). Power outputs can thus be combined
as if they were modules, and
redundant arrangements are
possible.
The following is applicable:
The power outputs do not
have to be the same and it is
permissible to mismatch
them up to a ratio of 1:4.
Whereas only one unit can
work as the master, the number of slaves can be 1. Previously, master/slave combinations with only one slave
were used.
Functioning of the master
unit (AFE master)
PE
Optimum power
conversion
P587=0
P587=1
AFE-Master
AFE-Slave
For the slave unit, its own low-voltage isolation transformer must be
assigned.
Data:
Winding connection: Dyn5
Transmission ratio 1:1
vk = 4% to 6%
Rated apparent power of the transformer at least 1.2 times the rated
power of the AFE.
Fig. 6/31
Engineering Information
AFE rectifier/regenerative unit (Active Front End) compact and chassis units (continued)
Example:
Ordering examples
1st example
AFE rectifier/regenerative
unit with 63 kW, 400 V
(chassis unit) with operating
instructions
Item 1
AFE supply connecting
module
6SE7131-0EE83-2NA0
Item 2
AFE inverter
6SE7031-0EE80
Item 3
Operating instructions
6SE7080-0CX86-2AA0
2nd example
AFE rectifier/regenerative
unit with 6.8 kW, 400 V
(Compact unit with
minimum configuration)
with EMC filter
Item 1
AFE inverter
6SE7021-0EA81
Item 2
VSB with housing
6SX7010-0EJ00
Item 3
AFE reactor
6SE7021-3ES87-1FG0
Item 4
Precharging resistors
6SX7010-0AC81 (3 pieces)
Item 5
EMC filter
6SE7021-0ES87-0FB1
Recommendation for line
and precharging contactor:
3RT1016 with 24 V actuation.
Note
A 24 V power supply must be
provided externally.
Short-time current
136 %
Rated current
(continuous)
100 %
91 %
Base load current (with overload capability)
Converter current/power
Converter current/power
160 %
Rated current
(continuous)
100 %
91 %
30 s
DA65-5299
DA65-5298
300 s
60 s
300 s
Fig. 6/32
Definition of the rated value and also the overload and base load values
Fig. 6/33
Additional definition of the rated value and the overload and base load values
6/25
Engineering Information
AFE rectifier/regenerative unit (Active Front End) compact and chassis units (continued)
Water-cooled AFE
inverters
Cooling circuit
For explanations, see pages
6/4 to 6/6.
Notes on dimensioning of
the AFE rectifier/
regenerative power
Appropriate selection of the
AFE inverters is supported
by the PATH engineering
tool.
Due to the sinusoidal, precisely controlled voltages
and currents, SIMOVERT
MASTERDRIVES AFE can
be designed very simply and
reliably.
The following applies:
PAFE = 1.73 VSupply IAFE =
Pmech + PLosses
The power loss is determined by the efficiency of
the inverters and the motor.
The mechanical power, i.e.
the product of the motor
torque and the motor speed,
is defined by the application.
What is decisive for dimensioning, therefore, is the
power and not the torque as
is the case with drive inverters. One or several inverters
can be connected to the output. The maximum power of
the connected inverters can
be 4 times the rated power
of the AFE inverter. The sum
of the power taken from the
supply is not permitted to
continuously exceed the
rated power of the AFE inverter.
6/26
In combination with automation systems, the unit is controlled via optional interfaces
(e.g. PROFIBUS DP) or via
technology boards (T100,
T300).
Engineering Information
System components
Capacitor module
1
C (Vd12 -Vd22 )
2
C effective capacity
of the capacitor module
5.1 mF
Vd1 DC link voltage at the
start of buffering
Vd2 DC link voltage at the
end of buffering
Example:
Vd1 = 560 V; Vd2 = 420 V
W = 350 Ws
For example, a 3 kW converter under rated load can
be buffered with this energy
for approximately 100 ms.
The capacitor module has an
integrated precharging function. The integrated precharging function is used
when the module is connected to a Compact PLUS
converter and to a Compact
PLUS 15 kW rectifier unit.
A capacitor module can be
connected to a Compact
PLUS converter and 15 kW
rectifier unit.
If the capacitor module is
connected to multi-motor
drives with 50 kW and
100 kW Compact PLUS
rectifier units, the integrated
precharging function is not
used. The reason is that
these rectifier units carry out
precharging by means of
phase angle control. In this
configuration, a capacitor
module counts as an inverter
with a rated DC link current
of 110 A.
W =
C
C
=
M3
DA65-6068
C
C
...
...
D
D
DA65-6069
M3
M3
Fig. 6/34
Connection of capacitor module to Compact PLUS converters and rectifier unit 15 kW
...
...
=
DA65-6070
M3
M3
Fig. 6/35
Connection of capacitor module to 50 kW and 100 kW Compact PLUS rectifier units
6/27
Engineering Information
Converter
act
n-controller
RFG
Gating
unit
* Vd cor-
rection
+
-
Effective at
Current
limiting
controller
V/f characteristic
IR compensation
Effective at
*
Imax
Current
detection
Iact.
ADA65-5230
act
Fig. 6/36
Speed control with V/f characteristic
Converter
V/f characteristic
*
-
RFG
+
Current
limiting
controller
*
Vd correction
Gating
unit
Effective at
f > fs
Slip
compensation
IR
compensation
Current
detection
+
-
Effective at f < fs
Iact.
ADA65-5231
Fig. 6/37
V/f control without speed detection
6/28
Engineering Information
Converter
V/f characteristic
*
I x R compensation
Gating
unit
RFG
VSt
Vd correction
Current
limiting
controller
*
I .R
compensation
Current
detection
+
-
Iact.
M
A DA65-5232
Fig. 6/38
V/f control for textile applications
Im-controller
IStart*
+
*
*
*
+
+
RFG
Vector control or
field-oriented control
Converter
EMF
computer for
precontrol
MAccel.
M* M*
* Vd cor- VSt
rection
Gating
unit
Coord.
transformer
IW-controller
n-controller
f < fs
+
+
f > fs
with vector
transformation
A DA65-5228
Load
conEffective at f > fs
trol
IW act.
Motor model
Im act.
fslip
nact. calculated
M
Fig. 6/39
Frequency control: field-oriented control
without speed detection
6/29
Engineering Information
Converter
EMF
computer for
precontrol
M Accel.
Im-controller
+
*
RFG
*
*
+
+
M*
M*
Coord.
transformer
+
+
Load
control
Effective at f > fs
f
IW act.
Im act. Motor model
with vector
transformation
fslip
ADA65-5229
Fig. 6/40
Closed-loop speed control: field-oriented control
with speed detection
An incremental encoder is
also necessary for this type
of closed-loop control, preferably with 1024 pulses
per revolution or more. Due
to its accuracy a DC tachometer is not suitable.
6/30
Gating
unit
IW-controller
n-controller
Vd correction
Engineering Information
Control performance
For maximum permissible
output frequencies, see
table. The rated motor frequency must be at least
8 Hz. The following threephase motors can therefore
be used:
Supply voltages
Output
Max. inverter
frequency for
Max. inverter
frequency for
constant-flux range
V/f textile
V/f characteristic
0.55 to 200 kW
250 to 1300 kW
500 Hz
300 Hz
200 Hz
2.2
18.5
200
55
250
500 Hz
300 Hz
300 Hz
300 Hz
300 Hz
to 11 kW
to 160 kW
to 1700 kW
to 200 kW
to 2300 kW
Max. inverter
frequency for
field-weakening
range
V/f characteristic
300 Hz
or 5 fn Mot
Max. inverter
frequency for
constant-flux range
Vector control
Max. inverter
frequency for
field-weakening
range
Vector control
200 Hz
300 Hz or 5 fn Mot
250 Hz or 5 fn Mot
300 Hz or 5 fn Mot
300 Hz or 5 fn Mot
250 Hz or 5 fn Mot
300 Hz or 5 fn Mot
250 Hz or 5 fn Mot
V/f characteristic
V/f textile
0.001 Hz, 31 bits + sign
fmax/2048
0.001 Hz, 31 bits + sign
0.001 Hz
f control
n control
0.2 fslip1)
fslip1)
0.1 fslip2)
fslip
fmax/fn fslip/10
25 ms for n > 2 %
0.0005 %3)
0.001 %3)
0.001 %3)
20 ms
Torque ripple
T control
0.1 %, 15 bits + sign
0.005 %
<1%
< 2.5 % for n > 5 %
<5%
approx.
5 ms for n > 10 %
<2%
Note
Percentages relate to the
rated speed or the rated
torque of the respective
motor.
6/31
Engineering Information
Supply voltage V = 11 V to
30 V
HTL level: H 8 V; L 3 V
Input current:
approx. 3.5 mA at 15 V
Number of increments
which can be evaluated
60 10000 pulses per
revolution
Limit frequency:
fmax = 400 kHz.
Software functions
The following software
functions are provided in the
standard unit:
Technology controllers
DC current braking
Setpoint input
The sum of the main setpoints and the supplementary setpoints can be used.
The setpoints can be
entered either internally or
externally. Internally as the
fixed setpoint, motorizedpotentiometer setpoint or
inching setpoint, externally
via the analog input, the
serial interfaces or the option
boards. The internal fixed
setpoints and the motorizedpotentiometer setpoint can
be toggled or adjusted by
means of control commands
from all interfaces.
6/32
Motor identification
The open-loop and closedloop control parameters are
pre-assigned with the help of
the parameterized converter
and motor data. The subsequently executed DC and
no-load measurement
optimizes the parameter
settings using these measurement results. This function allows the drives to be
both quickly and simply optimized.
Vd max controller
This controller adjusts the
frequency when the DC link
voltage is too high, e.g. if the
set ramp-down time is too
short, the drive converter
does not go into fault condition but increases the rampdown time.
Automatic restart
This restarts the drive when
the power returns following a
power failure; there is no
time limit.
Kinetic buffering
This buffers power failures or
dips as long as the drive kinetic energy is large enough.
Restart-on-the-fly
This function allows the
SIMOVERT MASTERDRIVES
Vector Control to be connected to a rotating motor.
Converter-converter
synchronization
(not for Compact PLUS)
enables motors or motor
groups to be switched from
one converter/inverter to
another. The overlapping
changeover is via an output
reactor. The TSY board is
necessary for this function.
Evaluation of motor
temperature sensors
KTY84 for alarms and
tripping or thermistor for
alarms or tripping.
Wobble generator
with triangular wobble pattern, adjustable P steps and
a synchronizing input and
output for traversing drives in
the textile industry.
Brake operation
With this function, brakes fitted to the motor or external
brakes can be operated.
Parameterizable values are,
e.g. threshold values and
delay times for closing and
opening of the brakes.
Engineering Information
Fixed setpoints
Indicator blocks
Converter blocks
Diagnostic blocks
Adders, subtracters
Multipliers, dividers
Absolute-value generators
with filtering
Sign inverters
Limiters, limit-value monitors
Minimum, maximum
selection
Timers
Polygon curve characteristics
Storage elements
Complex blocks
Ramp-function generator,
software counter
PID controller
Wobble generator
Brake control
Note
Refer to the compendium for
a complete list and description of the blocks.
Logic blocks
AND elements
OR elements
EXCLUSIVE OR elements
Inverters
NAND elements
RS storage elements
D storage elements
Timers, pulse generator
Safe Stop
Method of functioning
D
U2
V2
W2
U1
V1
W1
M
3~
1
2
X533 1
P15
S1
4
3
P24
K1
X101
ASIC
with
trigger
logic
DE
Control board
DA65-5851a
$ Triggering amplifier
% Optocoupler or fiber-optic
cable
DE DI digital input
S1 NO contact for canceling the
Safe Stopfunction (installation side)
K1 Safety relay
Fig. 6/41
Basic circuit of the Safe Stopfunction
(terminal designation applies to chassis unit with option K80)
6/33
Engineering Information
+24V
Line
3AC
-K2
Drive 1
M
3~
Drive 2
BO3
-K2
BO2
A DA65-5883a
M
3~
BI2
ADA65-5884a
BO1
Selection
of "Safe
STOP"
S2
S1
Fig. 6/42
Direct triggering of the K2 main contactor via the checkback contact of the
safety relay
Fig. 6/43
Test of the switch-off paths via the machine control
6/34
Control
board
K2
0V
BI1
Machine
control
(e.g. SIMATIC)
Drive n
Control DI
board
P15
DO
Drive 1
Safety
relay
combination for
interlocking the
protective device
P24
P15
Checkback
contacts of the
safety
relays
Drive n
...
P24
360
Pole number of the motor
Engineering Information
Control terminal strip
Compact PLUS units
ON
P24V
UART
Out
In
Controller
P24
M24
3
Out
Out
In
In
Out
In
Out/In
Bidirectional
digital inputs
and outputs
Iout 20 mA
5V
Out
In
24V
6
4 bidirectional digital inputs/outputs
Outputs
Digital inputs
Ri = 3.4 k W
7
Inputs
Analog input 1
(non-floating)
11 bits + sign
Rin = 60 k W
Analog output 1
10 bits + sign
U: I 5 mA
24V
24V
Out
In
5V
In
5V
In
-10...+10 V
AO 1
12
BOOT
Serial interface 1
(RS232)
10
A
9 8 7 6 5 4 3 2 1
In -10...+10 V
AI 1
11
Slot A
Slot B
X102
Reference voltage
P10 V / N10 V
I 5 mA
Analog output 2
10 bits + sign
U: I 5 mA
I: 0...+20 mA
Analog input 2
(non-floating)
11 bits + sign
U: Rin = 60 k W
I: Rin = 250 k W (close S3)
Digital input
Ri = 3.4 k W
Floating switch
30 V / 0.5 A
13
14
P10
N10
S4
15
17
S3
AI 2
4 5
X104
1
AO 2
16
Track A
0...+20 mA
In -10...+10 V
A
S
I
C
Track B
Zero pulse
Control
Tacho P24
19
21
Tacho M
-10...+10 V
18
20
X103
Microcontroller
P5V
Auxiliary
power supply
60 mA
X100
X101
RS485N.
RS232 TxD
RS485N
36
PMU
RS485P
35
Serial Interface 2
(RS485)
M24
34
BOOT
RS485P.
RS232 RxD
n.c.
33
OFF
S1 Switch for
24V
HS1
HS2
5V
In
Out
A DA65-5971a
Mot.temp. BS
Mot.temp.
23
24
25
Pulse
encoder
I 190 mA
26
27
28
29
30
KTY84
motor temperature
sensor or PTC
thermistor
Fig. 6/44
Note
Analog input parameter
programmable:
10 V to +10 V
0 V to +10 V
0 mA to 20 mA
4 mA to 20 mA
20 mA to +20 mA
Analog output 2:
The display range with
impressed current
(S4: 2; 3, S4: 5; 6) 0 mA
(4 mA) to
20 mA refers to the entire
value range of the output
parameter:
e.g. motor torque 200%
MMotn to +200% MMotn
corresponds to 0 mA up to
20 mA.
6/35
Engineering Information
Control terminal strip
Compact PLUS units
Preassignment of the
terminal strip
Terminal
Control terminal strip on Compact PLUS units in accordance with the factory setting
with PMU or OP1S
X101
X102
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
Type
Preassignment
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Analog input 1
M analog 1
Analog output 1
M analog 1
P10
N10
Analog output 2
M analog 2
Analog input 2
M analog 2
Binary input 7
HS1
HS2
6/36
No.
Comment
Fault
Operation
Change-over BICO set
None
Acknowledge
Off 2
On/Off 1
Engineering Information
Control terminal strip
Compact PLUS units
Comment
X102
Preassignment
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Analog input 1
M analog 1
Analog output 1
M analog 1
P10
N10
Analog output 2
M analog 2
Analog input 2
18
19
20
21
M analog 2
Binary input 7
HS1
HS2
Fault
Operation
Warning
None
Acknowledge
Off 2
Speed setpoint
Actual speed
X102
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Analog input 1
M analog 1
Analog output 1
M analog 1
P10
N10
Analog output 2
M analog 2
Analog input 2
M analog 2
Binary input 7
HS1
HS2
Fault
Operation
FSetp bit 0
FSetp bit 1
Acknowledge
Off 2
Actual speed
6
None
On/Off 1
None
6/37
Engineering Information
Control terminal strip
Compact PLUS units
No.
Type
Preassignment
Comment
X102
6/38
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Analog input 1
M analog 1
Analog output 1
M analog 1
P10
N10
Analog output 2
M analog 2
Analog input 2
M analog 2
Binary input 7
HS1
HS2
Fault
Operation
Motor potentiometer higher
Motor potentiometer lower
Acknowledge
Off 2
Actual speed
None
None
On/Off 1
None
Engineering Information
Auxiliary
power supply
150 mA
P24V
M24
Out
In
Slot D
Slot F
Out
In
Out
In
Out
Out/In
5V
In
Slot G
PMU
Out
In
4 bidirectional digital inputs and outputs
7
24V
Digital inputs
Ri = 3.4 k
5V
In
5V
In
24V
9
In
24V
10
11
9 8 7 6 5 4 3 2 1
5V
Inputs
Serial interface 2
USS (RS485)
X300
Out
In
24V
6
Outputs
Slot C
Slot E
3
Bidirectional
digital inputs
and outputs
20 mA
out
Slot A
Microcontroller
RS485P
RS485N
UART
BOOT
BOOT
RS485P
RS232 R x D
n.c.
Controller
X101
1
RS485N
RS232 T x D
P 5V
Application: SIMOVERT
MASTERDRIVES converters
and inverters compact and
chassis units
Order No. of CUVC:
6SE7090-0XX84-0AB0
S2
+5V
Note
Analog input parameter
programmable:
10 V to +10 V
0 V to +10 V
0 mA to 20 mA
4 mA to 20 mA
20 mA to +20 mA
Analog output:
The display range with
impressed current
(S4: 2; 3, S4: 5; 6) 0 mA
(4 mA) to
20 mA refers to the entire
value range of the output
parameter:
e.g. motor torque 200 %
MMotn to +200 % MMotn
corresponds to 0 mA up to
20 mA.
Reference voltage
P 10 V/N 10 V
5 mA
13
14
P10 AUX
N10 AUX
S1
15
Analog input 1
(non-floating)
S3
16
: Rin = 250
(Close S3)
17
X103
S3
In
Track A
AI 2
18
AO 1
Analog output 1
19
20
10 bits + sign
U:
5 mA
:R
Analog output 2
Tacho M
3 4
Analog input 2
(non-floating)
+5V
Switch for USS bus termination
AI 1
1 2
11 bits + sign
U: Rin = 60 k
In
500
A
M
D
21
1
2
AO 2
22
S4
S4
6
4
5
-10...+10 V
0...+20 mA
-10...+10 V
0...+20 mA
A
S
I
C
Track B
Zero pulse
Control
Tacho P15
Mot. temp. BS
Mot. temp.
A DA65-5310d
23
Incremental
encoder
24
190 mA
25
26
27
28
29
30
KTY84
motor
temperature
sensor
or PTC
thermistor
Tacho inputs:
3.5 mA at 15 V
flim 400 kHz
6
Fig. 6/45
6/39
Engineering Information
Control terminal strip on the CUVC control board (Vector Control) (continued)
Preassignments of the
terminal strip
Terminal
Control terminal strip on the CUVC control board in accordance with the factory setting
For Compact and chassis units with PMU or OP1S
X102
X101
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
Type
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Binary input 7
RS485 P
RS485 N
RS485 M
P10
N10
Analog input 1
M analog 1
Analog input 2
M analog 2
Analog output 1
M analog 1
Analog output 2
M analog 2
Preassignment
Comment
Fault
Operation
Change-over BICO set
None
Acknowledge
Off 2
On/Off 1
Serial interface
Com2
None
None
Actual speed
None
Terminal strip on CUVC control board in accordance with the factory setting
For cabinet units without any additional external terminal strip; with PMU or OP1S
X101
X102
6/40
No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Binary input 7
RS485 P
RS485 N
RS485 M
P10
N10
Analog input 1
M analog 1
Analog input 2
M analog 2
Analog output 1
M analog 1
Analog output 2
M analog 2
Acknowledge
Change-over BICO set
Fault
None
External fault
External alarm
On/Off 1
Serial interface
Com2
None
None
Actual speed
None
Engineering Information
Control terminal strip on the CUVC control board (Vector Control) (continued)
Preassignments of the
Terminal
No.
Type
Preassignment
terminal strip (cont.)
b) Terminal assignments after quick parameterization
In the case of quick parameterization and with the following preassignments of
the terminal strip, a selection
can be made which is different to the factory setting by
means of parameter P368.
Control terminal strip on the CUVC control board after quick parameterization
P368 = 1: Analog input and terminal strip
X101
X102
Comment
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Binary input 7
RS485 P
RS485 N
RS485 M
P10
N10
Analog input 1
M analog 1
Analog input 2
18
19
20
21
22
M analog 2
Analog output 1
M analog 1
Analog output 2
M analog 2
Fault
Operation
Warning
None
Acknowledge
Off 2
On/Off 1
Serial interface
Com2
Speed setpoint
Torque setpoint with
torque control
Actual speed
None
Control terminal strip on the CUVC control board after quick parameterization
P368 = 2: Fixed setpoints and terminal strip
X101
X102
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Binary input 7
RS485 P
RS485 N
RS485 M
P10
N10
Analog input 1
M analog 1
Analog input 2
M analog 2
Analog output 1
M analog 1
Analog output 2
M analog 2
Fault
Operation
FSetp bit 0
FSetp bit 1
Acknowledge
Off 2
On/Off 1
Serial interface
Com2
6
None
None
Actual speed
None
6/41
Engineering Information
Control terminal strip on the CUVC control board (Vector Control) (continued)
Terminal
No.
Type
Preassignment
Comment
Control terminal strip on the CUVC control board after quick parameterization
P368 = 3: Motor potentiometer and terminal strip
X101
X102
6/42
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
P24
M throttled
Binary input/output
Binary input/output
Binary input/output
Binary input/output
Binary input 5
Binary input 6
Binary input 7
RS485 P
RS485 N
RS485 M
P10
N10
Analog input 1
M analog 1
Analog input 2
M analog 2
Analog output 1
M analog 1
Analog output 2
M analog 2
Fault
Operation
Motor potentiometer higher
Motor potentiometer lower
Acknowledge
Off 2
On/Off 1
Serial interface
Com2
None
None
Actual speed
None
Engineering Information
Control terminal strip on the CUR control board (rectifier unit and rectifier/regenerative unit)
X100
Reference
potential RS485
Serial
interface 1
USS
RS232
RS485
24V
10
24V
11
24V
12
24V
13
24V
X102
14
5V
9 8 7 6 5 4 3 2 1
In
5V
In
5V
In
5V
In
5V
In
AO 1
A
15
0...+10 V
AO 2
16
X104
Digital outputs:
AC:
48 V, 60 VA,
cos = 1
48 V, 16 VA,
cos = 0.4
DC:
48 V, 24 W
X300
P24
Analog outputs:
8 bits + sign
5 mA
PMU
+5V
Digital
inputs:
12 mA
Slot G
S1
X101
Slot E
B
S2
Microcontroller
RS485N
RS485P
RS232 R x D
n.c.
Serial Interface 2
USS (RS485)
Non-floating
1
RS485P
RS485N
RS232 T x D
P 5V
Application: SIMOVERT
MASTERDRIVES rectifier/
regenerative units and
rectifier units with a rated
current 774 A
Order No. of the CUR:
6SE70900XX851DA0
+5V
0...+10 V
act.
X117
X115
17
TTL
18
X116
1
2
RS485
19
4
20
Optional
P5
Serial
interface 3
for
12-pulse
operation
ADA65-5311c
Note:
With the CUR control board the communication can only
take place over one of the two interfaces Com 1 or Com 2.
Fig. 6/46
6/43
Engineering Information
X100
RS485P
RS485N
Permanently
assigned for unit
Control
Main contactor
Slot E
B
Slot G
Reference
potential RS485
Microcontroller
PMU
Serial
interface 1
USS
RS232
RS485
5
6
7
X101
RS485N
RS232 I x D
P5V
9 8 7 6 5 4 3 2 1
P24
14
15
16
12 mA
24V
17
24V
18
24V
Permanently
assigned for
unit:
Monitoring 24 V
19
24V
20
24V
5V
In
5V
In
5V
In
5V
In
5V
In
B
A
X102
Permanently assigned
for special applications
25
Permanently assigned
for unit: Voltage
detection
27
Digital output 3:
20 mA
+5V
AUX
AUX
AI 1
D
A
C
D
28
29
30
Analog output:
8 bits and sign
5 mA
33
Fig. 6/47
6/44
26
Permanently assigned
for unit: Voltage
detection
Digital output 4:
20 mA
13
Digital
inputs:
X300
RS485P
RS232 R x D
n.c.
Serial interface 2
USS (RS485)
Non-floating
31
P24
Out
AI 2
D
A
P24
32
34
Out
AO
D
A
Note:
With the CUSA control board the communication can only take place
over one of the two interfaces Com 1 or Com 2.
0... +10 V
A DA65-5312f
Engineering Information
24 V DC auxiliary power
supply (for all units)
The external auxiliary power
supply is necessary when
the SIMOVERT MASTERDRIVES has to operate its
own main contactor via the
CUVC/CUR/CUSA board.
The auxiliary power supply
must be in the form of a
PELV circuit (Protective Extra
Low Voltage).
The auxiliary power supply
also secures communication
to the automation system,
even if the supply to the
power section has been
turned off.
Voltage range 20 V to 30 V DC
If the safety relay of the
Safe STOPfunction is supplied with power via terminal
X9: 5 or X533: 4, the voltage
of the auxiliary power supply
must be in the range of 22 V
to 30 V DC.
The values specified in the
Selection and ordering data,
Section 3 under Aux. current
requirement DC 24 V, standard version at 20 Vindicate
the power requirement of
the converter necessary for
operating the electronics and
for simulating the power section. The power requirement
indicated in the column
24 V DC maximum version
for 20 Vhas to be provided
by the external power supply
under worst-case conditions
(fitting the electronics box
with the largest loads).
The table below shows the
power requirement of the
option boards and also indicates the minus requirement
of the inverter units and
when the simulation of the
power sectionfunction is
not being used.
J, K, L
M, Q
Without
simulation
200 mA 240 mA 350 mA 600 mA 850 mA 1600 mA
Inverter
100 mA
Electronic options
SCB 1
+ 50 mA
SCB 2
+150 mA
SLB
+190 mA
CBP
+190 mA
CBC
+160 mA
EB1
+135 mA
EB2
+135 mA
SBP
+250 mA
TSY without +155 mA
encoder
T100 +
(BIN + BOUT) 370 mA + 180 mA
T300 without
encoder
+695 mA
Encoder
1XP8001-1
Io/Imax: +95 mA/190 mA
Checkback signal SH
30 V DC/2 A
Minimum load 30 mA
Operation of main contactor
30 V DC/0.5 A
Minimum load 7 mA
P M
-X9
external
1 2 3 4 5 6 7 8 9
P24
electronics
internal
DA65-5856
P15
Supply of
optocouplers/
FOCs
Fig. 6/48
Control terminal strip X9 for compact inverters (sizes A to D) with the
Safe STOPfunction
Operation of
main contactor
P M
Operation of main
contactor (for all units)
-X9
DA65-5314a
external
1 2 3 4 5 6 7 8 9
P24
electronics
internal
Load capability
230 V AC/7.5 A 30 V DC/5 A
cos j = 0.4
60 V DC/1 A
L/R = 7 ms
Minimum load 100 mA
Fig. 6/49
Control terminal strip X9 for compact converters
(sizes A to D)
M
-X9
external
1 2
internal
ADA65-5315c
P24
electronics
Fig. 6/50
Control terminal strip X9 for Compact PLUS converters
6/45
Engineering Information
Immunity
The units satisfy the requirements of the EMC product
standard, EN 61 800-3, for
the industrial sector and thus
the lower values regarding
immunity required by the
residential sector as well.
Type of interference
Electrostatic discharge
Rapid transient interference (burst)
Level of
interference
up to 12 kV
up to 4 kV
up to 2 kV
Comments
6/46
Engineering Information
System components
Supply-side components
Line fuses
Autotransformers for
rectifier/regenerative
units
Rectifier/regenerative units
require a 20 % higher supply
voltage at the anti-parallel
inverter bridge for regenerative operation. An autotransformer can be used to adapt
the voltage accordingly.
Two types of autotransformer are available, one
with 25 % and another with
100 % power-on duration.
They correspond to the
required technical specifications and cannot be replaced
by any other types.
For Order No. and assignment, see Section 3;
for dimension drawings,
see Section 7.
Radio-interference
suppression filters
When integrated in the
installation in accordance
with EMC guidelines,
SIMOVERT MASTERDRIVES
applications comply with the
EMC product standard for
electrical drives, EN 61 800-3.
The radio-interference
suppression filters, in
conjunction with the line
commutating reactor, reduce
the interference voltages of
the converters, the rectifier
units and the rectifier/regenerative units up to an output of 37 kW . The specified
limits acc. to EN 55 011 Class
B1 (residential sector) for
3-ph. 200 V AC to 230 V AC
and 3-ph. 380 V to 480 V AC
are adhered to with the suggested filters (TN systems).
Radio-interference suppression filters with rated
currents up to 2500 A and
rated voltages of up to 690 V
are available for the different
types of power systems in
the industrial sector.
For Order No. and assignment, see Section 3;
for dimension drawings,
see Section 7.
For limit values, see Electromagnetic compatibility
(EMC)on page 6/46.
Note
If several converters are built
into a drive cabinet or control
room, a common shared
filter with the total current
of the installed converters
is recommended in order to
avoid exceeding the limit
values. The individual converters are to be decoupled
with the corresponding line
commutation reactor.
6/47
Engineering Information
System components
DC link components
Direct connection
with the fuses integrated
in the unit
Option: L30
for sizes E to G.
Electro-mechanical connection (Fig. 6/51)
A load switch disconnector
(2-pole connection) with
two SITOR fuses (which
protect the inverter) connects the inverter and braking units to the DC bus.
The DC bus must be in a
de-energized state when
inverters or braking units
are switched in or out.
For ordering data, see
Section 3.
Electrical connection
(Fig. 6/52)
A load switch disconnector
(2-pole connection) with
SITOR fuses, precharging
resistors and a coupling
contactor connects inverters to the DC bus.
In the standard version, the
coupling contactor can be
operated by the electronics
of the inverter. The inverters
can thus be switched in/out
while the DC bus is live.
During switch-in and
switch-out, the inverter
pulses are blocked, i.e.
switching takes place without power. During configuration, it must be ensured
that the contacts do not
open during operation, e.g.
if the control voltage for the
contactor coils fails. For ordering data, see Section 3.
DC bus
Fuse switch
disconnector with
semiconductor
fuse
Inverters
Fig. 6/51
Electro-mechanical connection
DC bus
C
Disconnector
Contactor
disconnector
DA65-5318
DA65-5317
Inverters
Fig. 6/52
Electrical connection
DC voltage range
to 810 V
810 V to 930 V
Precharging contactor
type
3TC44
3TC52
6
Free-wheeling diode on
the DC bus
DC voltage range
510 V to 650 V
675 V to 810 V
890 V to 930 V
6/48
A)
A)
A)
A)
A)
A)
A)
A)
A)
A)
A)
A)
A)
Engineering Information
System components
Note
When the internal load resistor is being used, P20 can be
used for a braking time of
2.5 s and P3 for a braking
time of 1.7 s with a cycle
time of 72.5 s (see Fig. 6/56).
When a braking unit is used
on a DC bus, a fuse complying with page 3/78 should be
fitted.
Overload
Overtemp
Ready
R int.
P3
1,50
P20
R ext.
H1
DA65-5177a
H2
External
load resistors
5 kW to 200 kW
Fig. 6/53
Block diagram of a braking unit with external braking resistor
DA65-5179b
PDB 0,25
3
20 23
t/s
90
Fig. 6/54
Load diagram with external load resistor
Connecting
jumper
R int.
P3
1,50
P20
H1
DA65-5178a
H2
DA65-5180b
PDB 0,03
Load resistors up to
20 kW integrated
Fig. 6/55
Block diagram of braking unit with internal braking resistor
1,7 2,5
72,5
t/s
Fig. 6/56
Load diagram with internal load resistor
6/49
Engineering Information
System components
Load-side components and cables
Output reactors
compensate capacitive
recharging currents in long
cables.
Output
Rated voltage
to 4 kW
5.5 kW
7.5 kW
11 kW
15 kW
18.5 kW
22 kW
30 kW to 200 kW
250 kW to 630 kW
710 kW and 1300 kW
900 kW to 1100 kW
250 kW to 2300 kW
380 V to 600 V
380 V to 600 V
380 V to 600 V
380 V to 600 V
380 V to 600 V
380 V to 600 V
380 V to 600 V
380 V to 690 V
380 V to 480 V
380 V to 480 V
380 V to 480 V
500 V to 690 V
1
2
Reactor2)
Non-shielded cables
100 m
90 m
200 m
225 m
240 m
260 m
280 m
300 m
300 m
400 m
400 m
300 m
300 m
35 m
50 m
67 m
75 m
85 m
90 m
100 m
100 m
135 m
135 m
100 m
1
2
Reactor2)
Shielded cables5)
1)
1)
1)
1)
1)
1)
450 m
480 m
520 m
560 m
600 m
600 m
800 m
800 m
600 m
450 m
1)
60 m
100 m
135 m
150 m
160 m
175 m
190 m
200 m
200 m
270 m
270 m
200 m
200 m
4) Applies to size M.
Shielded cables
1) Cannot be used.
6/50
Non-shielded cables
and PROTOFLEX EMV
50 m
70 m
100 m
110 m
125 m
135 m
150 m
150 m
200 m
unlimited
200 m
150 m
1)
1)
1)
900 m
900 m
1200 m
1200 m
900 m
600 m
1)
1)
1)
1)
1)
1)
300 m
320 m
350 m
375 m
400 m
400 m
530 m
530 m
400 m
300 m
1)
1)
1)
1)
600 m
600 m
800 m
800 m
600 m
450 m
Engineering Information
dv/dt-filter
dv/dt-filter
dv/dt-filter
and 2 reactors2)
and reactor
Shielded cables
1)
1)
100 m
450 m
100 m
200 m
450 m
100 m
200 m
1)
100 m
250 m
1)
100 m
250 m
3)
3)
3)
Note
dv/dt-filter
and 2 reactors2)
1)
300 m
300 m
1)
1)
3)
Converter
C/L+
D/L-
V1
W1
U2
V2
W2
Reactor
U1
L1
A DA65-5857
System components
V1
L2
W1
L3
dv/dt-filter
U2
T1
V2
T2
W2
T3
C/L+
D/L-
M
3 AC
Fig. 6/57
Converter with reactor
1) Cannot be used.
6/51
Engineering Information
System components
Load-side components and cables (continued)
Sinusoidal filters
ensure that the motor voltage and currents are almost
sinusoidal. The harmonic
distortion factor for a 50 Hz
motor voltage with sinusoidal filter, for example, is approximately 5 %. The stressing levels of motors which
are supplied via sinusoidal
filters are lower than the
values specified in
DIN VDE 0530.
When engineering the drive,
it should be ensured that the
output voltage of converters
and inverters with sinusoidal
filters is approximately 85 %
of the associated supply
voltage at 380 V to 480 V and
approximately 90 % at 500 V
to 600 V.
The sinusoidal filters for
supply voltages of 380 V to
480 V are designed for a
6 kHz pulse frequency. The
maximum output frequency
is:
m
(P - 15 kW)
kW
m
(P - 15 kW)
kW
Required cross-sections of
protective conductor
6/52
250 m
320 m
400 m
500 m
600 m
A
P Rated motor
output of the
converter or inverter
500 V to 600 V
Note
The total cable length is the
sum of the cable lengths to
the individual motors. From
a motor current of 120 A,
single-motor drives can also
be operated with parallel
cables (up to the maximum
permissible cable length) in
the case of standard units.
For selection and ordering
data for the sinusoidal filters,
see Section 3; for dimension
drawings, see Section 7.
Engineering Information
Communication Boards
Communication via
PROFIBUS DP
Slot A
CBP2
Communication via
CAN Bus
DA65-5970b
Slot B
CBC
SLB
Terminal Expansion
Boards
Fig. 6/58
Integration of option boards
EB1
4 bidirectional digital
inputs/outputs
3 digital inputs
2 analog outputs
3 analog inputs
Incremental Encoder
Evaluation
SBP
EB2
2 digital inputs
1 analog output
1 analog input
Evaluation of an external
encoder or frequency generator, e.g. setpoint signal
HTL or TTL level selectable
Notice
The base unit already has a
motor encoder input (incremental encoder HTL).
Board
Slot A
Slot B
Supplementary
order code
CBP2
G91
CBC
G21
G22
SLB 1)
G41
G42
EB1
G61
G62
EB2
G71
G72
SBP 1)
C11
C12
G92
6/53
Engineering Information
Supplementary
board
SCB 1
SCB 2
TSY
Supplementary
board
T100
T300
T400
Mounting position 1 for
CUVC, CUR, CUSA
Mounting position 3
DA65-5227a
Mounting position 2
Compact unit
Optional
boards
Backplane board
Local bus adapter LBA
6
Adapter board ADB
with mounted
option boards
Chassis unit
Adapter
board ADB
Option
boards
EB1/EB2
CBP2/CBC/CBD/SLB
SBP
Fig. 6/59
Integration of the optional boards and supplementary boards in the electronics box of compact and chassis units
6/54
Engineering Information
Boards
Mounting
position 1
Boards
Communication
SCB1
SCB2
Technology
T100/T300/T400
TSY
Mounting
position 3
LBA1)
LBA1)
CUVC
CUVC
CUVC
CUVC
Slot A Slot C
Option boards
Communication
CBP23)
CBC
SLB
Expansion boards
EB1
EB2
Incremental encoder boards
SBP
Mounting
position 2
Electronics box with CUR or CUSA control board - option board possibilities
Boards
Communication
SCB1
SCB2
Technology
T100/T300
TSY
LBA1)
LBA1)
CUR/CUSA
CUR/CUSA
CUR/CUSA
CUR/CUSA
Slot A Slot C
Option boards
Communication
CBP2
CBC
Possible mounting position
Note
1
Data flow
T100
T300
T400
DA65-5447c
DA65-5448
Fig. 6/60
Integration of boards in the electronics box
6/55
Engineering Information
Communication
USS protocol
The user data which can be
transmitted with the USS
protocol have the structure
shown in Fig. 6/61.
Protocol frame
User data
PKW area
PKE
PZD area
IND
PWE
Length: 0 to 16 words
IND: Index
PWE: Parameter value
Fig. 6/61
Telegram structure with the USS protocol
Additional hardware/software1)
USS-Master
SIMATIC S5
SIMATIC S7
Bus cable
The SINEC L2 bus cable
(Order No. 6XV1830-0AH10)
can be used as the bus
cable. The maximum cable
length is 1200 m.
SIMATIC TI
SIMADYN D
PC
Bus termination
6/56
PZD 16
DA65-5316
. . .
PZD 1
Bus topology
Protocol frame
Configuring of USS
communication
Configuration of USS communication in an automation
system consists of the following steps:
parameterization of the
USS master
parameterization of the
drives.
Engineering Information
Communication
PROFIBUS DP
If the PROFIBUS DP is used,
the CBP or CBP2 communication board is necessary for
interfacing drives to higherlevel automation systems.
With extended functionality,
CBP2 is fully compatible
with CBP and has replaced it
as standard. In the following,
therefore, CBPsignifies
both boards; individual special features of CBP2 are indicated.
Fixing screw
System connector
DA65-5102
LED (green)
LED (yellow)
LED (red)
9-pole Sub D terminal
X448
Extended functionality
of CBP2
to PROFIBUS profile, drive
systems V3 PROFIDRIVE
Flexible configuration of
cyclic messages at up to
16 process data words
Acyclic communication
channel for direct access of
a SIMATIC OP to a drive.
Fig. 6/62
CBP communication board
PKW area
PKW
IND
PWE
fixed length: 4 words
fixed length: 4 words
fixed length: 0 words
fixed length: 0 words
fixed length: 4 words
0 or 4 words
PZD area
PZD1
PZD16
fixed length: 2 words
fixed length: 6 words
fixed length: 2 words
fixed length: 6 words
fixed length: 10 words
flexible configurable from
1 to 16 words
IND: Index
PWE: Parameter value
Cyclic exchange of
user data
Functionality
CBP
CBP2
6/57
Engineering Information
Communication
PROFIBUS DP (continued)
Bus cable
A bus cable to the
PROFIBUS DP specifications
is to be used for data transmission (see page 3/85).
Bus connection
The bus is connected to the
PROFIBUS DP via the 9-pole
Sub-D socket (X448) in
accordance with the
PROFIBUS DP standard. For
the pin assignment at terminal X448, see the table, top
right.
On the bus side, a 9-pole
Sub-D connector plug is
necessary (see page 3/85).
The CBP2 communication
board can alternatively be
connected via an optical bus
terminal or an optical link
module to the optical
PROFIBUS DP (see page
3/85).
3
RxD/TxD-P
4
CNTR-P
5
DGND
6
VP
7
8
RxD/TxD-N
9
SIMATIC S5
SIMATIC S7
SIMATIC M7
SIMATIC TI
SIMADYN D
PC
PROFIBUS DP
master systems
6/58
AG95U/DP master
AG115 to AG155U
with IM308-C (or CP5431)
communications board
S7-300 with CPU315-2DP, 318-2
S7-300 with CP342-5
S7-400 with CPU413-/414-/416-2DP, 417-4
S7-400 with CP443-5 Ext.
S7-400 with IM467
IF 964 interface module
TI545/TI555 with integrated DP interface
FIM505 field interface module
CS7 adaption board with SS52 interface module
CP5613/5614 (PCI) communication board
CP55511 (PCMCIA) communication board
CP5611 (PCI) communication board
CP5412 (A2) communication board
Area
RS485
TTL
5 V 10 %
RS485
Additional software1)
Bus termination
Each RS485 bus segment
must be provided at both its
ends with a bus termination.
The bus is terminated by
means of a switch integrated
in the PROFIBUS DP plug-in
connector; with its help the
termination can be opened
or closed.
Meaning
Ground connection
Not assigned
Receive/transmit data P (B/B)
Control signal
PROFIBUS DP data reference potential (C/C)
Supply voltage plus
Not assigned
Receive/transmit data N (A/A)
Not assigned
Parameterization
of the drives
Parameterization of the
drives consists of two steps:
parameterization of the
interface (parameter P918)
parameterization of the
process-data interconnection and parameterization
enabling (control words
P554 to P591), setpoints
P443, P433 etc., status
words and actual values
P734, process-data monitoring P722, parameter
access P053).
Engineering Information
Communication
CAN
Parameter area (mechanism for reading and writing parameter values, e.g.
settings, alarms, fault numbers or values).
max. 16 words
10, 20, 50 Kbit/s
100 Kbit/s
125 Kbit/s
250 Kbit/s
500 Kbit/s
1 Mbit/s
124
Individual communication
objects for the process data
from and to the drive are
defined, as well as for the
parameter tasks of reading and writing.
-A12
Slave 2
CBC
CBC
-S1.1
CAN_L
-S1.1
CAN_H
-A12
X459
X458
2
-S1.1
3,6
3,6 7
X459
X458
2 7
3,6
DA65-5336a
3,6
Last slave:
Bus termination
activated
-S1.1 closed
Connect
shield
Connect shield to
converter housing or
connector housing
Connect shield to
converter housing or
connector housing
Connect shield to
converter housing or
connector housing
Fig. 6/63
Data exchange between CBC boards, with bus interruption
6SE70... Slave 1
-A12
6
Slave 2
-A12
CBC
CBC
-S1.1
-S1.1
X458
2
3,6
X459
Connect shield to 2 7
converter housing
or connector
housing
3,6
-S1.1
X458
Connect shield to 2 7 3,6
converter housing
or connector
housing
DA65-5337a
CAN_L
The specifications in
ISO-DIS 11898 and in DS
102-1 are complied with by
the CBC board.
Process data
Data transfer rate:
CAN_GND
Functions
CAN_H
CAN_GND
X459
Last slave:
Bus termination
activated
-S1.1 closed
Connect
shield
T connector
T connector
Connect shield to
converter housing or
connector housing
Fig. 6/64
Data exchange between the CBC boards, without bus interruption
6/59
Engineering Information
Communication
CAN (continued)
The CAN protocol enables
rapid data exchange between the bus nodes.
With regard to user data, a
distinction is made between
parameter values (PKW) and
process data (PZD).
A CAN data telegram consists of a protocol header,
the CAN identifier (up to
8 bytes of user data) and the
protocol trailer. The CAN
identifier serves to uniquely
identify the data telegram. A
total of 2048 different CAN
identifiers are possible in the
standard message format. In
the extended message format, 229 CAN identifiers are
possible.
The extended message format is tolerated by the CBC
board but not evaluated. The
CAN identifier specifies the
priority of the data telegram.
The smaller the number of
the CAN identifier, the higher
is its priority.
CAN
Identifier
Protocol frame
(Trailer)
Protocol frame
(Header)
CAN
Identifier
Protocol frame
(Trailer)
Protocol frame
(Header)
CAN
Identifier
Protocol frame
(Trailer)
Protocol frame
(Header)
CAN
Identifier
Protocol frame
(Trailer)
Protocol frame
(Header)
CAN
Identifier
Protocol frame
(Trailer)
DA65-5338
Fig. 6/65
Structure of the net data in the telegram
Pin
1
2
3
4
5
6
7
8
9
Designation
Description
CAN_L
CAN_GND
CAN_GND
CAN_H
Not assigned
CAN_L bus line
CAN ground (frame M5)
Not assigned
Not assigned
CAN ground (frame M5)
CAN_H bus line
Not assigned
Not assigned
1
6
5
9
6
5
1
DA65-5429
Protocol frame
(Header)
X458
Fig. 6/66
Terminals X458 (plug) and X459 (socket)
6/60
X459
Engineering Information
Communication
SIMOLINK
The SIMOLINK drive-interface is for rapid data exchange between different
drives. This is based on a
closed ring in which all nodes
are integrated.
DA65-5101
Fixing screw
SIMOLINK output
SIMOLINK input
Fig. 6/67
The SLB communications board
SYNC
DA65-5132
Fixing screw
System
connector
Fig. 6/68
SIMOLINK telegram traffic
Features
6/61
Engineering Information
Communication
SIMOLINK (continued)
Method of operation
24 V
5V
SLB
Parameterized
as the
transceiver
SLB
MASTER
DRIVES
Vector Control
MASTER
DRIVES
Vector Control
SLB
Parameterized
as the
dispatcher
MASTER
DRIVES
Vector Control
Peer-to-peer functionality
The peer-to-peer functionality with the SIMOLINK is, in
principle, the same as peerto-peer connection known
from the MASTERDRIVES
and SIMOREG systems.
With SIMOLINK, the exchange of process data between the MASTERDRIVES
Vector Control units has the
following advantages:
Fig. 6/69
Peer-to-peer functions with the SIMOLINK
Parameterization
Data traffic is parameterized
solely by means of the
parameters of the base
MASTERDRIVES Vector
Control unit. An additional
configuration tool is not
needed. For configuration
of the SLB, the following
parameter settings are basically necessary:
Transmission power
Note
The external power supply
must not be changed over
during bus operation. If the
power supply is automatically changed over, a reset
signal is generated on the
board, thus causing several
telegrams to be lost.
Voltage supply
The option board can be supplied with the necessary operating voltage either
internally by the converter/
inverter or externally. Priority
is given to external power
supply. The changeover
takes place automatically on
the option board.
Designation
Value
90 mm x 83 mm
24 V DC
Max. 200 mA
5 V DC
Max. 600 mA
Automatic; the external supply has priority
Can be set in the parameter
11 Mbit/s
Max. 3 clock times
Plastic (preferable); glass fiber
Max. 40 m (plastic) between 2 nodes
300 m (glass fiber) between 2 nodes
3 LED: yellow: data exchange green: SIMOLINK in operation
with the basic unit
red: board in operation
Display
6/62
Parameterized
as the
transceiver
DA65-5130
Engineering Information
Fixing screw
4 bidirectional digital
inputs/outputs
2 analog outputs
64-pole
system connector
X4
88
X4
87
Jumpers X486,
X487, X488
X4
86
Fixing screw
38
39
40
41
42
43
44
45
46
X480
47
48
49
50
51
52
53
54
X481
Fig. 6/70
EB1 terminal expansion board
24 V ext.
-
38
X480
24 V supply (external)
The supply must be
designed for the output
currents of the digital
outputs
39
43
44
5V
24 V
46
Out
40
4 bidirectional digital
inputs/outputs
24 V/4 kW (input)
24 V/20 mA (output)
Out/In
45
41
42
3 digital inputs
24 V/4 kW
TTL
In
X481
47
48
A
49
50
+10
V
-
+20
mA
-
1 analog input
(differential)
13 bits + sign
10 V/40 kW (voltage)
20 mA/250 W (current)
X488
1
51
52
53
54
3
1
2 analog outputs
11 bits + sign
10 V/5 mA
3
1
X486
2
2
X487
2 analog inputs
(single-ended)
13 bits + sign
10 V/40 kW
Can also be used
as digital inputs
Switching threshold 8 V
DA65-5427
3 digital inputs
DA65-5169
Fig. 6/71
Circuit diagram of the EB1 terminal expansion board
6/63
Engineering Information
3 digital inputs
4 bidirectional digital
inputs/outputs
Connection X481
2 analog outputs
Technical Data
6/64
Terminal
Designation
Description
Range
38
39
40
41
42
43
44
45
46
M
P24 ext.
DI1
DI2
DI3
DIO1
DIO2
DIO3
DIO4
Ground digital
Ext. 24 V supply
Digital input 1
Digital input 2
Digital input 3
Digital input/output 1
Digital input/output 2
Digital input/output 3
Digital input/output 4
0V
20 V to 33 V
24 V, Ri = 4 kW
24 V, Ri = 4 kW
24 V, Ri = 4 kW
As input:
24 V, 4 kW
As output:
Output voltage
P24 ext. 2.5 V, 20 mA
Connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Terminal Designation
Description
Range
47
AO1
Analog output 1
10 V, 5 mA
48
AO2
Analog output 2
10 V, 5 mA
49
AOM
Ground analog output
0V
50
AI1P
Analog input 1 +
Voltage: 10 V, 40 kW
51
AI1N
Analog input 1
Current: 20 mA, 250 W
52
AI2
Analog input 2
10 V, 40 kW
53
AI3
Analog input 3
10 V, 40 kW
54
AIM
Ground analog input
0V
Connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Designation
Digital inputs
Voltage range LOW
Voltage range HIGH
Input resistance
Smoothing
Electrical isolation
Bidirectional digital inputs/outputs
As input
Voltage range LOW
Voltage range HIGH
Input resistance
As output
Voltage range LOW
Voltage range HIGH
Analog input (differential input)
Input range
Voltage
Current
Input resistance
Voltage
Current
Hardware smoothing
Resolution
Analog input (single-ended)
Input range
Input resistance
Hardware smoothing
Resolution
Analog output
Voltage range
Input resistance
Hardware smoothing
Resolution
Value
DI1, DI2, DI3
0 V (33 V to +5 V)
+24 V (13 V to 33 V)
4 kW
250 ms
None
DIO1, DIO2, DIO3, DIO4
0 V (33 V to +5 V)
+24 V (13 V to 33 V)
4 kW
<2 V
> P24 ext. 2.5 V
AI1P, AI1N
11 V
20 mA
40 kW to ground
250 W to ground
220 ms
13 bits + sign
AI2, AI3, AIM
11 V
40 kW to ground
220 ms
13 bits + sign
AO1, AO2, AOM
10 V
40 kW to ground
10 ms
11 bits + sign
Engineering Information
Fixing screw
1 analog output
64-pole
system connector
X4
Jumpers
X498, X499
99
X4
98
Fixing screw
38
39
40
41
42
43
44
45
46
X490
47
48
49
50
51
52
53
54
X491
Fig. 6/72
EB2 terminal expansion board
X490
38
1 relay output
with changeover contact
AC: 48 V, 60 VA cos j = 1
16 VA cos j = 0.4
DC: 48 V, 24 W
39
40
41
42
3 relay outputs
with make contact
AC: 48 V, 60 VA cos j = 1
16 VA cos j = 0.4
DC: 48 V, 24 W
43
44
45
46
47
48
49
X499
X491
1 0...+20
mA
3 0...+10
V
-
X498
1
+
-
+10
V +20
mA 50
-
51
+
24 V ext.
52
1 analog output
9 bits + sign
10 V/5 mA (voltage)
20 mA/500 W (current)
1 analog input
(differential)
11 bits + sign
10 V/40 kW (voltage)
20 mA/250 W (current)
53
24 V
54
TTL
2 digital inputs
24 V/4 kW
DA65-5428b
2 digital inputs
DA65-5170
Fig. 6/73
Circuit diagram of the EB2 terminal expansion board
6/65
Engineering Information
Terminal expansion boards
Connection X491
Technical Data
Terminal
Designation
Description
38
DO13
Relay output 1, break contact
39
DO12
Relay output 1, make contact
40
DO11
Relay output 1, reference contact
41
DO22
Relay output 2, make contact
42
DO21
Relay output 2, reference contact
43
DO32
Relay output 3, make contact
44
DO31
Relay output 3, reference contact
45
DO42
Relay output 4, make contact
46
DO41
Relay output 4, reference contact
Connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Terminal
Designation
Description
47
AO
Analog output
48
AOM
Ground analog output
49
Al1P
Analog input +
50
Al1N
Analog input
51
DIM
Ground digital input
52
P24AUX
24 V supply
53
Dl1
Digital input 1
54
Dl2
Digital input 2
Connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Designation
Digital inputs
Voltage range LOW
Voltage range HIGH
Input resistance
Smoothing
Electrical isolation
Digital outputs (relays)
Type of contact
Max. switching voltage
Max. switching capacity
at 60 V AC:
at 60 V DC:
Min. permissible load
Value
Dl1, Dl2, DIM
0 V ( 33 V to +5 V)
+24 V (13 V to 33 V)
4 kW
250 ms
None
DO1 ., DO2 ., DO3 ., DO4 .
Changeover contact
60 V AC, 60 V DC
16 VA (cos j = 0.4)
60 VA (cos j = 1.0)
3W
24 W
1 mA, 1 V
Al1P, Al1N
Input range
Voltage
Current
Input resistance
Voltage
Current
Hardware smoothing
Resolution
Analog output
Voltage range
Input resistance
Hardware smoothing
Resolution
6/66
11 V
20 mA
40 kW to ground
250 W to ground
220 ms
11 bits + sign
AO, AOM
10 V, 0 20 mA
40 kW to ground
10 ms
9 bits + sign
Range
10 V, 5 mA
0V
Differential input:
11 V/Ri = 4 kW
0V
24 V
24 V, Ri = 4 kW
24 V, Ri = 4 kW
Engineering Information
DA65-5105a
Connectable incremental
encoders and frequency
generators
60
61
62
63
64
65
66
67
X400
68
69
70
71
72
73
74
75
X401
Switch for
encoder supply
Fixing screw
Fig. 6/74
View of the SBP option board
X400
Terminal
60
Terminals
The option board has two
terminal strips for the signal
cables.
Designation
+VSS
Description
Range
Power supply for
5 V/15 V
incremental encoder Imax. = 250 mA
Ground for
61
VSS
power supply
2)
62
temp
Minus() terminal
KTY84/PTC100
2)
63
+temp
Plus(+) terminal
KTY84/PTC100
1)
64
Ground coarse/fine Ground
1)
65
Coarse pulse 1
Digital input for
coarse pulse 1
1)
66
Coarse pulse 2
Digital input for
coarse pulse 2
1)
67
Fine pulse 2
Digital input for
fine pulse 2
Max. connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Terminal 60 is at the top, when installed.
6/67
Engineering Information
Description
Range
Plus(+) terminal
TTL/HTL/HTL, unipolar
Track A
69
A track
Minus() terminal
TTL/HTL/HTL, unipolar
Track A
70
B+ track
Plus(+) terminal
TTL/HTL/HTL, unipolar
Track B
71
B track
Minus() terminal
TTL/HTL/HTL, unipolar
Track B
72
Zero pulse +
Plus(+) terminal
TTL/HTL/HTL, unipolar
Zero track
73
Zero pulse
Minus() terminal
TTL/HTL/HTL, unipolar
Zero track
74
CTRL +
Plus(+) terminal
TTL/HTL/HTL, unipolar
Control track
75
CTRL = M
Minus() terminal
TTL/HTL/HTL, unipolar
Control track = Ground
Max. connectable cross-section: 0.14 mm2 to 1.5 mm2 (AWG 16)
Terminal 68 is at the top, when installed.
X401
Designation
A+ track
Note
If unipolar signals are connected, one ground terminal
for all signals at the CTRL
terminal is sufficient. Due to
possible interference
Voltage range
Input
Voltage range +
Input
Switching level of
differential voltage LOW
Switching level of
differential voltage HIGH
Note
The inputs are non-floating.
The coarse pulse is smoothed with 0.7 ms, the fine
pulse with approx. 200 ns.
6/68
RS422 (TTL)
HTL bipolar
Max. 33 V; min. 33 V
HTL unipolar
Max. 33 V; min. 33 V
Min. 150 mV
Min. 2 V
Min. 4 V
Max. 150 mV
Max. 2 V
Max. 8 V
Rated value
0V
24 V
2
10 mA
Min.
0.6 V
13 V
Max.
3V
33 V
8 mA
12 mA
Engineering Information
Technology
Comfort ramp-function
generator with roundingoff, parameter sets which
can be toggled via a control
command, dv/dt output
and triggerable function
Fig. 6/75
T100 technology board
Technical Data
5
3
4
3
4
3
4
2
2
1
1
2
2
1
10
1
1
3
16
8
8
3
6
7
2
5
4
1
6/69
Engineering Information
Technology
Technology applications with the T100 (continued)
65
20mA
50
10V
5 analog inputs
10 V/0.4 mA or
0 20 mA/250 W or
4 20 mA/250 W
2 differential inputs
(terminals 50 up to 53)
3 single-ended inputs
(terminals 54 up to 59)
+
-
20mA 51
X130:
52
10V
20mA 53
10V
20mA 55
10V
56
20mA 57
54
58
10V
10V
+
-
+
-
+
-
+
-
20mA 59
10 bit + VZ
Microcontroller
CPU:
SIEMENS
SAB 80C166
66
RS485, 2-wire
68
76
RS485, 4-wire
Tx+ 70
Tx- 71
Rx-
P24AUX
77
8 binary outputs
78
24 V DC
(input resistance:
4.4 kW typ.)
79
80
60
X131:
61
2 analog outputs
62
10 V/5 mA max.
or
0 20 mA/500 W max.
or
4 20 mA/500 W max.
63
i
64
85
P24INT
86
81
87
82
Serial interface 2
(peer-to-peer)
73
74
max. 90 mA
X134:
X133:
Rx+ 72
D
P24INT
69
9 bit + VZ
Serial interface 1
(USS-Protocol)
T/Rx+
T/Rx-
75
+24V
X132:
67
88
83
89
84
90
+24V
+
X136:
5 binary outputs
24 V DC/90 mA max.
91
92
Communication
board e.g.
CBP or SCB1
1/2 LBA
Dualport
RAM
Fig. 6/76
T100 technology board connecting diagram
6/70
1/2 LBA
Dualport
RAM
X135
VZ = signs
P24AUX
DA65-5425
X137
MASTERDRIVES
base unit
Vector Control
(CUVC board)
Engineering Information
Technology
5 analog inputs
2 analog outputs
8 binary inputs
5 binary outputs
1 peer-to-peer interface
2 differential inputs
3 single-ended inputs
Non-floating
Resolution: 10 bits + sign
Possible output level / drive capability
@ 10 V to +10 V/5 mA max.
@
0 mA to 20 mA/500 W max.
@
4 mA to 20 mA/500 W max.
Non-floating
resolution: 9 bits + sign
Input level: 24 V DC, SIMATIC-compatible: LOW = 33 V to +5 V, HIGH = +13 V to +33 V
No electrical isolation
Input resistance: 4.4 kW typ.
Signal status indication to PMU and OP1S
Transistor switch, switches 24 V DC (open emitter)
SIMATIC-compatible output level (LOW < +2 V, HIGH = +17.5 V to +33 V)
Switching capability: 90 mA max (continuously short-circuit-proof, can be connected in parallel)
Signal status indication to PMU and OP1S
From the MASTERDRIVES unit:
A short-circuit-proof 24 V DC supply voltage is available at terminals 76 and 85, which can be loaded
with a maximum of 90 mA (see the dotted-line wiring in the connecting diagram on page 6/70)1)
External 24 V DC supply. Permissible voltage range: +20 V to +30 V
(see the continuous-line wiring in the connecting diagram on page 6/70)
Data transfer technique: RS485, 4-wire, full-duplex
Non-floating
Cable terminating resistors can be activated using plug-in jumpers
Baud rate can be adjusted up to 187.5 Kbit/s
Adjustable telegram length 1 to 5 words
Joint operation possible with SIMOREG 6RA24 and 6RA70 units and MASTERDRIVES with SCB2
Receive and transmit signals (also control/status bits) can be freely combined per parameter
Max. cable length: 500 m at 187.5 Kbit/s, 1000 m at other baud rates
Data transfer technique: RS485, 2-wire, half-duplex
Non-floating
Bus terminating resistors can be activated by means of plug-in jumpers
Baud rate can be adjusted up to 187.5 Kbit/s
Max. cable length: 500 m at 187.5 Kbit/s, 1000 m at other baud rates
Note
All the software functions
described here are contained in the MS100 software module Universal
Drive. The software module is a 40-pin EPROM device, which must be ordered
separately and is inserted in
the dedicated plug-in socket
on the T100. The T100 cannot be used without a software module.
1) The total load of the base unit and the technology board must not exceed 150 mA. An external
24 DC power supply must be used if this value is
exceeded (to be connected at terminals 76 and
86).
Siemens DA 65.10 2003/2004
6/71
Engineering Information
Technology
Technology applications with the T300
The T300 can be used to provide additional technological
functions for compact and
chassis units (e.g. for closedloop tension and position
control, coilers, winders,
closed-loop synchronous
and positioning controls,
transverse cutters, hoisting
equipment and drive-related
control functions).
Supplementary technological functions which are often
requested are offered as
standard software packages
on pre-programmed memory
modules.
The T300 and SIMADYN D
are fully compatible with
each other.
Users who wish to create
special applications or who
wish to market their own
technological know-how can
create their own technological design on the T300 by
using the graphics-oriented
STRUC planning language
known from the SIMADYN D
system (See also ordering
data in Section 3).
Fig. 6/78 shows the most important hardware functions
of the T300.
The technological functions
are configured with STRUC
and cyclically executed by
the processor. The closedloop control sampling time
is a minimum of 1 ms (see
Catalog ST DA).
a Drive ES or DriveMonitor
PC (for a description see
pages 2/10 to 2/15)
6/72
Fig. 6/77
T300 board with memory module
Engineering Information
Fine
pulse
Technology
+24 V
Coarse
pulse
X5.538
+24 V
Zero
pulse
Zero
+15 V
+15 V
pulse
90 0
90 0
537535 533 531 540 539 548 547 545 543 541 549
+15V
Incremental encoder
detection 1
X133
Incremental encoder
detection 2
6
X5
501
+10
V
-
502
503
+10
V
-
504
505
+10
V
-
7 analog inputs
Differential inputs
11 bits + sign
10 V/ 10 k
506
507
+10
V
-
508
511
+10
V
-
512
514
515
+10
V
+24 V
516
RS485, 2-wire
D
T/Rx+
+
-
9
D
+
-
+
-
+
-
+
-
+
-
T/Rx-
TTL
RS232
RxD
10
X132
1
RxD
3
4
5
X134
RS485, 4-wire
513
+10
V
-
Serial interface 1
e.g. for service,
start-up with PC/PG
7
+
-
Tx+ 13
Microprocessor
CPU:
80C186
20 MHz
Tx- 14
Serial interface 2
(peer-to-peer)
Rx+ 11
Rx- 12
X6
610
15
11 bits + sign
D
A
601
602
X5
509
510
603
8 binary inputs
24 V DC
(input current
8 mA typical)
604
519
A
605
520
4 analog outputs
11 bits + sign
+
_ 10 V / 10 mA
606
521
607
522
608
+24 V
523
630
524
+
X6
639
611
612
613
8 binary inputs
24 V DC
(input current
8 mA typical)
614
615
Slot for
memory
module, e.g.
MS 300
+24 V
631
632
633
8 binary outputs
24 V DC / max. 100 mA
Base load 40 mA for
external P24 infeed which
can also come from
the base unit.
634
616
635
617
636
618
637
638
640
Communication
boards, e.g.
CBP, SCB1
or SCB2
1/2 LBA
DualportRAM
1/2 LBA
DualportRAM
X135
MASTERDRIVES
base unit
(CUVC board)
X137
A DA65-5426b
Fig. 6/78
T300 technology board connection diagram
Siemens DA 65.10 2003/2004
6/73
Engineering Information
Technology
Technology applications with the T300 (continued)
Customer configuration
with STRUC Grafik
STRUC G PT with
start-up program
STRUC L PT with
start-up program
Siemens Nixdorf PC
pre-configured
with UNIX and
STRUC G PT
Memory module
for slot in T300
Parallel
programmer
PP1X
Programming
adapter UP3
Memory module
MS300 or
MS301
Slot for
memory
module
MS3xx
X131
Backplane
bus LBA
Peer-to-peerconnection
(to other T300
units, to the SCB2
or SIMOREG
6RA24)
X134 (RS485)
X136
SC58
Length of
the round
cables:
2m
DA65-5435a
SC60
3 Slot number
2
X451
LEDs
X456
Fig. 6/79
Hardware and software components of the T300 technology board
6/74
Engineering Information
Technology
Standard configurations
are available on a memory
module for frequently
required applications.
The standard configuration is
ready for use if the memory
module has been built into
the T300. The standard configuration can be adapted to
the system requirements by
means of parameterization.
Note:
The STRUC L PT or
STRUC G PT configuring
language is not needed
for standard configurations.
Components and features of
the standard configuration:
Parameter upreading
and downloading with
DriveMonitor.
multi-motor drives
axial winders
angular synchronous
control
position control.
Brake control.
Stipulation of setpoints
(speed setpoint) also
possible by means of
incremental encoder, for
example when a speed
setpoint is not available via
a terminal or an interface.
Applications:
Features:
Ramp-function generator
for rpm / speed, for local
and plant operation.
6/75
Engineering Information
Technology
Technology applications with the T300 (continued)
Applications:
Tension controller can either act on the speed controller or, directly, on the
closed-loop torque control
system.
Paper machines,
Coating systems,
Textile machines,
Features:
Friction compensation by
means of a polygon characteristic, speed-dependent.
Inertia compensation, as a
function of the diameter,
web width and gearbox
stage.
Ramp-function generator
for ramping-up during flying
roll change with subsequent shutdown.
6/76
Features:
Reverse inhibit.
Protection against
overspeed and stalling.
Inching.
Applications:
Setpoint specification
(speed setpoint) also possible via incremental encoder; for example when
there is no speed setpoint
via a terminal or interface.
Maximum 10 slave drives
can be connected when
pulse encoder cable
< 100 m
n < 3000 rpm
encoder pulse number
< 1024 pulses per rotation and output current
of encoder 100 mA.
Note
For further explanations regarding angular synchronous
control, see Fig. 6/80.
Engineering Information
Technology
Peer-to-peer
6
Speed setpoint
X5.501, 502
X5.501, 502
T300
SCB 2
T300
X5.541...545
X5.541...545
X101.19...20
CU
CU
6SE70, CUVC
6SE70, CUVC
X103.23...28
X103.23...28
CU
X103.35...40
6SE70, CUVC
DA65-5339a
Master encoder
M
3
Master drive
Angle
setpoint
Slave drive 1
d A maximum of 10 slave drives can be connected without pulse amplifier if the 1PX8001
incremental encoder with 1024 pulses per
rotation is used and the maximum speed is
< 3000 rpm. The master encoder is connected
both to the master drive and to the T300 boards
of the slave drives. An incremental encoder
which is located at a preceding part of the
machine and is driven there by a shaft can also
be used as the master encoder.
f The incremental encoders of the slave drives
are usually connected only to the CUVC.
Setpoints are then passed on to the T300 internally via the LBA backplane bus. A built-on
encoder can also be directly connected to the
T300 (T300 terminals X5.531 to 535) if the
motor encoder cannot be used for processengineering reasons.
Slave drive n
Fig. 6/80
Schematic illustration of angular synchronous control
Features:
Applications:
Automatic reference-point
approaching, taking into account possible system play.
6/77
Engineering Information
Technology
Technology applications with the T300 (continued)
Configurations created on
the T300 by the user
Configuring with STRUC:
Technology functions can be
easily created with the function-block oriented STRUC
configuring language. It has
more than 250 function
blocks for open and closedloop control and arithmetic
operations (e.g. PI controllers, ramp-function generators, multipliers and logic
gates).
An easy-to-use start-up program which runs on a PG or
PC supports start-up and
service.
Configuring tools
STRUC L PT, version 4.2.5
and higher
is used to configure the T300
in a list form (see Fig. 6/79).
It is supplied on a 3" set
of floppy disks, either with
German or English menu
texts as required.
The scope of supply includes
the Service start-up program
which allows any 10 values
in software package to be
simultaneously visualized
and any input values to be
changed at the function
blocks. Most of the connections between the function
blocks can be changed and
displayed.
System platform requirements for STRUC L PT:
6/78
We recommend ordering a
SIEMENS-NIXDORF STRUC
configuring PC with installed
UNIX operating system
SCO-UNIX and a run-time
version of STRUC PT (see
minimum SNI-PC requirements). STRUC requires
approximately 250 Mbyte on
the hard disk, including the
reserve for STRUC G application software. The PC, preconfigured with STRUC G PT,
has, in addition to the UNIX
partition, a DOS partition in
which all of the DOS and
Windows applications are
run.
The scope of supply includes
the Service start-up program
which allows any 10 values
(max.) in a software package
to be simultaneously visualized and any input values to
be changed at the function
blocks. Most of the connections between the function
blocks can be changed and
displayed.
Minimum SNI-PC requirements
3-button mouse
Engineering Information
Technology
Application
Serial interface 1
with RS232 and RS485
transmission format and via
switches using a protocol
which can be selected on
the board:
DUST1 service protocol
with 19.2 Kbit/s and
RS232 transmission
format
USS protocol, 2-wire,
with selectable RS232 or
RS485 transmission
format, max. 38.4 Kbit/s;
can be configured as
slave for parameterization with the OP1S, Drive
ES Basic or DriveMonitor.
Standard configurations
for frequently occurring
applications such as synchronism, winders, positioning
are available as a CFC source
code. The T400 board is
ready for immediate use with
the standard configurations.
It simply has to be parameterized and does not
require configuration with
STEP7/CFC.
If the T400 is configured with
CFC, function-block terminals can also be defined as
parameters in order to observe or alter them, for example, through the following
interfaces:
Characteristics
(inputs/outputs)
2 analog outputs
5 analog inputs
2 binary outputs
8 binary inputs
Serial interface 2
with RS485 transmission
format and a protocol
which can be selected by
configuration of the
corresponding function
block:
Baud rates (Kbit/s):
9.6/19.2/38.4/93.75/187.5
USS protocol
can be configured as a
slave for parameterization with the OP1S,
Drive ES Basic or
DriveMonitor (2-wire or
4-wire)
peer-to-peer
for rapid process
coupling, 4-wire.
Fig. 6/81
T400 technology board
Note
Absolute-value encoder 1
with SSI or EnDat protocol
(RS485) for positioning
applications.
Absolute-value encoder 2
with SSI or EnDat protocol
(RS485) for positioning
applications.
Numerous possibilities of
synchronization:
synchronization of the
T400 with MASTERDRIVES units or second
T400 or vice versa.
Note
If absolute-value encoder 2 is
used, serial interface 2
(peer-to-peer, USS) cannot
be operated, as the same
terminals are used for both
applications!
6/79
Engineering Information
SCB1
peer-to-peer connection
between several units with
a max. data transfer rate of
38.4 Kbits/s.
U 121 U 125
SCI1
SCI2
U 425 U 421
U 435 U 431
X80
X80
X429
X427
X428
X439
X438
X437
2. Customized assignment
of the terminals for the
inputs and outputs
(e.g. NAMUR).
Peer-to-peer connection
between several converters via the RS485 interface
(see Fig. 6/83).
Note
The SCB2 interface board
always operates as a slave.
6/80
16 binary inputs
7 relay outputs
Fig. 6/82
Example of connecting a serial I/O system with SCB1, SCI1 and SCI2
5 transistor outputs
10 binary inputs
1 transistor output
3 analog inputs
7 relay outputs
3 analog outputs
24 V DC
DA65-5340
MASTERDRIVES
Engineering Information
MASTERDRIVES 1
MASTERDRIVES 2
SCB2
SCB2
X128
X129
X128
DA65-5341
Peer-to-peer connection
X129
6789
89
to other units
MASTERDRIVES 1
MASTERDRIVES 2
SCB2
SCB2
X128
X129
X128
DA65-5342
Fig. 6/83
Example of a serial peer-to-peer connection via RS485
X129
89
6789
to other units
Fig. 6/84
Example of a parallel peer-to-peer connection via RS485
MASTERDRIVES 1
MASTERDRIVES 2
SCB2
SCB2
X128
X129
1234
X128
6
DA65-5343
X129
1234
to other units
Fig. 6/85
Example of a bus connection with USS protocol via RS485
6/81
Engineering Information
Fig. 6/86
SCI1 interface board
Fig. 6/87
SCI2 interface board
SCI1
10
SCI2
16
Binary outputs
including:
Relay changeover contacts
Relay make contacts
Transistor outputs
12
4
3
1
4
3
5
Analog inputs
Analog outputs
Supply voltage:
Reference voltage
+10 V
10 V
24 V DC
1
1
2
Technical Data
Mounting
External rated input voltage
Degree of protection
Dimensions H x W x D
6/82
Description
Floating optocoupler inputs in 2 circuits
24 V DC, 10 mA
Load capability:
250 V AC, 2000 VA (cos j = 1)
100 V DC, 240 W
24 V DC, max. 100 mA, short-circuit proof,
open-emitter for driving the optocouplers or relay
Voltage signals: 0 V to 10 V
Current signals: 0 mA to 20 mA;
4 mA to 20 mA; 250 W load
Non-floating inputs
Output signals:
0 V to 10 V, 0 mA to 20 mA, 4 mA to 20 mA,
non-floating
max. cable length with shielded cable is 100 m,
max. load 500 W
Engineering Information
Control terminal strip on the SCI1 interface board for cabinet units with PMU or OP1S and the option, NAMUR terminal strip
Terminal
No.
Type
Preassignment
Notes
A1
P24
X427
A2
M
A3
BE6
Setpoint lower
A4
BE7
Acknowledge
A5
BE8
Off 2
A6
BE9
Select counter-clockwise-rotating field
A7
BE10
None
A8
M
A9
M
A10
M
A11
M
B1
P24
X427
B2
BA8
None
Transistor output
B3
BE1
On/Off 1
B4
BE2
Select BICO data set 2
Local/remote operation
B5
BE3
None
B6
BE4
None
B7
BE5
Setpoint higher
B8
M
B9
P24
B10
P24
B11
P24
1
+10 V stab
X428
2
10 V stab
3
AE1 10 V
Main setpoint
Analog input 1
4
M
5
AE1 20 mA
Shunt resistor 250 W
6
AE2 10 V
None
Analog input 2
7
M
8
AE2 20 mA
Shunt resistor 250 W
9
AE3 10 V
None
Analog input 3
10
M
11
AE3 20 mA
Shunt resistor 250 W
12
AA1 10 V
Speed
Analog output 1
13
M
14
AA1 0-20 mA
Shunt resistor max. 500 W
15
AA2 10 V
Output current
Analog output 2
16
M
17
AA2 0-20 mA
Shunt resistor max. 500 W
18
AA3 10 V
Torque
Analog output 3
19
M
20
AA3 0-20 mA
Shunt resistor max. 500 W
1
BA1
Ready for power-on
Relay contact
X429
2
3
BA2
Setpoint reached
Relay contact
4
5
BA3
Off 2 signal
Relay contact
6
7
BA4
Fault
Changeover contact: common
8
9
10
BA5
None
11
12
13
BA6
None
14
15
16
BA7
None
17
18
Relay contacts, maximum loading 100 V DC, 2.4 A or 250 V AC, 8 A
break contact
make contact
Changeover contact: common
break contact
make contact
Changeover contact: common
break contact
make contact
Changeover contact: common
break contact
make contact
6/83
Engineering Information
TSY
X112
X111
78
9 10 11 12
X111
X110
13 14
Phase signal
Synchronism achieved
Select synchronization
Synchronizing error
Fig. 6/88
Example of connecting the synchronization board between the starting converter and the main converter
6/84
Starting converter
TSY
Preconditions:
Main converter
DA65-5344a
Engineering Information
Fig. 6/89
DTI digital tachometer interface
24 V DC
+ 24 V
1
2 X404
1
Track A
Track A inv.
Track B
Track B inv.
+UB
CUVC
X401
10
M
DTI
1
2
3
1
2
3
4
5 X402
6
7
X403
X103
6
14
28
X81
X80
I > 150 m
23
24
25
DA65-5347a
Fig. 6/90
Example of connecting a HTL encoder with differential outputs (e.g. 1XP80011) and 15 V encoder voltage
24 V DC
+ 24 V
1
2 X404
3
4
1
10
M
Track A
Track B
+UB
I > 150 m
DTI
CUVC
X401
1
2
3
4
5 X402
6
7
1
2
3
X403
X103
6
14
X80
23
24
25
28
X81
DA65-5346
Fig. 6/91
Example of connecting a HTL encoder (e.g. 1XP80011) to an external 24 V supply
1) Not for Compact PLUS units.
Siemens DA 65.10 2003/2004
6/85
Engineering Information
24 V DC + 24 V
1
2 X404
3
4
1
Track A
Track B
+UB
1
2
DTI
CUVC
TTL
X405
X401
1
2
3
4
5 X402
6
7
1
2
3
23
24
25
28
10
M
Designation
Reference potential M5 SYT
Track A
Track, inverted
Track B
Track B, inverted
Zero pulse
Zero pulse, inverted
Supply voltage 5 V
X403
X103
14
X81
X80
I > 150 m
DA65-5430
Connection X405
Fig. 6/92
Example of connecting a HTL encoder (e.g. 1XP8001-1) to an external 24 V supply with TTL output
24 V DC
+ 24 V
M
Track A
Track A inv.
Track B
Track B inv.
+UB
I < 150 m
1
2 X404
DTI
10
1
14
CUVC
X405
1
2
3
4
X401
5
8
1
2
3
23
24
25
X403
X402
X80
X103
6
X81
28
DA65-5438a
Fig. 6/93
Example of connecting a TTL encoder
6/86
Vector Control
Dimension
Drawings
7/2
7/3
Compact units
7/3
7/6
Chassis units
Converters/inverters, AFE inverters
Rectifier units and rectifier/regenerative units
7/8
7/9
7/11
7/13
Autotransformers
7/15
7/18
7/19
7/20
7/21
7/23
7/1
Dimension Drawings
25
22,5
414
425
414
425
360
DA65-6071
1)
DA65-6072
260
1)
360
260
39
Converters
1)
22,5
220
0.55 kW
1)
45
90
33,75
67,5
45
1.1/1.5 kW
22,5
22,5
5.5/7.5 kW
3 kW and 4 kW
Fig. 1
22,5
180
135
220
11/15 kW
Fig. 2
Inverters
22,5
414
425
414
425
360
DA65-6094
1)
DA65-5453e
260
1)
360
260
1)
22,5
220
45
0.75 kW
33,75
67,5
1.5/2.2 kW
1)
45
90
220
4 kW
Fig. 4
Rectifiers units
1)
220
DA65-6073
39
45
90
15 kW
Fig. 5
1) Retaining bolts: M 5.
7/2
135
50 kW
22,5
22,5
22,5
414
425
360
43
260
135
5.5/7.5/11 kW
Fig. 3
1)
22,5
22,5
22,5
180
100 kW
22,5
180
15/18.5 kW
Dimension Drawings
DA65-5348b
100
Compact units
$ Feed
% Return
& Threaded elbow joint
(enclosed)
( Space for water connections
at the side
16
h2
h1
250
DA65-5349c
Notes
a
b
350
t1
t2
350
Side view
Front view
Fig. 7
Fig. 6
Sizes B, C and D
water-cooled converter and inverter
position of the water connections
Sizes A, B, C and D
converters, inverters, AFE inverters,
rectifier unit sizes B and C,
rectifier/regenerative unit size C
Type
6SE70 . . . . A
6SE70 . . . . B
6SE70 . . . . C
6SE70 . . . . D
Type
45
67.5
90
451)
90
135
180
270
425
425
600
600
425
425
600
600
6SE70 . . . . B
6SE70 . . . . C
6SE70 . . . . D
h1
h2
t1
t2
65
65
65
135
180
270
425
600
600
380
500
390
140
290
254
85
105
35
140
43
220
t1
t2
$ Feed
% Return
h1
a1
e
c
Notes
f
h
DA65-5350a
b1
d
t3
Size G,
male thread G 3/4", flat proof
h2
DA65-5352b
Water supply:
Size E and F,
male thread G 1/2", flat proof
t4
Working pressure:
max. 1 bar
Fig. 9
Fig. 8
Sizes E, F and G
water-cooled converter and inverter
position of the water connection
Sizes E, F and G
Converter, inverter, AFE inverter
a1
b1
Type
Converter/
inverter
6SE70 . . . . E
6SE70 . . . . F
6SE70 . . . . G
270 1050
360 1050
508 1450
h1
h2
t1
t2
42
42
31
25
25
40
117 56
207 56
233 66
t3
t4
91
181
191
56
56
66
30
30
40
7/3
Dimension Drawings
2
565
550
$ Air inlet
% Air outlet
& With water cooling, connection for
cooling circuit directly at the heatsink,
1" internal thread (R1")
D/L- C/L+
D/L26
26
43
350
67
800
139
83
85
130
h1
528
417
104,5
3
145,5
a1
a
C/L+
17
222,5
b
0
213
483
Type
235
708
6SE70 . . . . J
6SE70 . . . . K
6SE70 . . . . Q
a1
h1
170.5
207.5
45
1400
1345
177
209
25
1790
1675
2 x chassis units for size K, side-by-side
60
DA655353c
350
45
16,5
U2/T1V2/T2 W2/T3
50
Fig. 10
Sizes J, K
Inverters
565
540
350
1100
42
40
40
130
85
C/L+
D/L
50
55
60
$ Air inlet
% Air outlet
& With water cooling, connection for
cooling circuit directly at the heatsink,
1" internal thread (R1")
C/L+
D/L
U2/T1
1675
1160
50 50
75
95
120
360
25
100
32,5
0
Fig. 11
7/4
Size L
Inverters
DA655354c
350
295
(M12)
W2/T3
760
623
512
V2/T2
1730
50 50
270
(M16)
k
340
220
Dimension Drawings
123,5
31
31
129 129
151,5
55
53,5
31
350
800
243,5
190
13,5
U1/L1
W1/L3
V1/L2
M12 17
10
$ Air inlet
% Air outlet
& With water cooling, connection inlet
for cooling circuit directly at the
heatsink, 1" internal thread (R1")
( With water cooling, connection return
U1/L1,
V1/L2,
W1/L3
C/L+
C/L+,
D/L
1651
1678,5
1730
D/L
528
209
177
104
483
708
3 50
45
17
16,5
235,5
24
9x15
213
340
145,5
V2/T2
U2/T1
W2/T3
DA65-5355e
350
222,5
417
60
Fig. 12
Size K
Converters
2097
497
$ Air inlet
% Air outlet
( Transport unit
1730
800
V2/T2
V2/T2
W2/T3
W1/L3
U1/L1
V1/L2
V1/L2
U1/L1
W1/L3
U2/T1
W2/T3
DA65-5439c
U2/T1
Inverter
Size K
Inverters
Size K
Fig. 13
Size M
Inverter with interphase transformer chassis
7/5
Dimension Drawings
Chassis units
Rectifier units and rectifier/regenerative units
V1/L2
40
W1 V1 U1
L3 L2 L1
350
50
PE1
PE1
1050
1000
1050
941
1025
148
94,5
41
D/L- C/L+
W1/L3
50
U1/L1
C/L+ D/L-
950
26
170
228
255
67
C/L+ D/L-
250
285
225
155
130
85
508
376
40
234
40 26
92
119
61
63
26
350
269
180
44,5
350
340
294
PE2
PE
13
30
100
17
50
PE2
PE
500
10
17
17
DA65-5825b
13
30
70
168,5
70
424
551
45
17 L1 L2 L3
40
147
DA65-5824b
119
270
Fig. 14
Fig. 15
Size H
Rectifier unit
285
225
155
130
85
508
376
40
234
92
40 26
119
61
63
26
V1/L2
250
40
W1/L3
DA65-5826b
D/L- C/L+
W1 V1
L3 L2
U1
L1
PE1
50
50
U1/L1
26
252
67
C/L+ D/L-
350
Size E
Rectifier unit,
rectifier/regenerative unit
1400
1300
PE1
PE2
3
50
40
234
376
40
70
40
Fig. 16
Size H
Rectifier/regenerative unit
7/6
424
551
296
45
92
40
80
PE2
1U2/1T1 1V2/1T2 1W2/1T3
119
270
Dimension Drawings
Chassis units
Rectifier units and rectifier/regenerative units
26
26
26
26
26
V1/V2
D/L-
W1/L3
D
L-
$
%
&
(
Air inlet
Air outlet
Through-hole for M 12 bolt
M 12 thread
$
%
&
(
Air inlet
Air outlet
Through-hole for M 12 bolt
M 12 thread
DA65-5827a
C W1 V1 U1
L+ L3 L2 L1
PE1
26
C/L+
50
U1/L1
PE1
400
340
270
200
130
85
350
40
87
40
40
62
175
50
420
310
40
665
555
1300
1400
50
PE2
40
205
550
258
483
45
710
800
122,5
PE2
708
Fig. 17
Size K
Rectifier unit
2
26
26
26
26
26
1W/L3
1D
L-
1C 1W 1V
L+ L3 L2
DA65-5828a
1U
L1
PE1
26
1V/L2 1D/L-
50
1U/L1 1C/L+
PE1
400
340
270
200
130
85
350
40
87
40
40
62
175
50
420
310
40
665
555
335
50
50
580
710
800
50
40
137,5
PE2
1W2
1T3
550
190
340
258
483
25
90
1V2
1T2
122,5
1U2
1T1
PE2
50
1650
1730
708
Fig. 18
Size K
Rectifier/regenerative units
7/7
Dimension Drawings
185
45 45 45
158
Inverter
C/L+
400
296,5
87
5
A
5
1
50
360
113 45 45 45 45
for M12
for M10
750
710
602
F3
X301 X9 X36
137,5
(42,5)
400
587
3
136
X19
180
160
250
24
470
356
132
V10
102
485
Fig. 19
$ Air outlet
% Optional mounting surfaces for
wall mounting
& Optional mounting surfaces for
horizontal mounting
7/8
ADA65-6056
XKIPP1
247,5
15
40
60
X19
643
F1
F1
85
45
50
30
25
for M12
Rectifier/regenerative unit
C/L+
30
85
132,5
175
212,5
Dimension Drawings
100
min
10
min
10
1)
ca. 500
DA65-6048a
16
425
250
238
35
M4
100
a
b
350
44
22
120
DA65-5320
Fig. 21
Fig. 20
22.5
45
67.5
45
90
135
134
90
DA65-6049a
338
350
a
b
525
540
DA65-5362a
15
22
203
145
5,5x8
Fig. 22
PE/M 4
150
150
150
330
330
330
180
180
180
360
360
360
Fig. 23
Braking resistor 12 kW
100
100
1
100
380
485
380
b
a
DA65-5357b
100
Type
Dimensions for
base mounting
380
Fig. 24
100
100
Pg11
Pg21
DA65-5358
305
M6 2
6SE70 232ES872DC0
6SE70 263CS872DC0
6SE70 253HS872DC0
6SE70 264FS872DC0
6SE70 280ES872DC0
430
430
740
740
740
400
400
710
710
710
400
400
710
710
710
7/9
Dimension Drawings
200
200
200
605
M8 2
Pg11
Pg29
380
485
1325
200
M12 2
710
740
Pg11
DA65-5359b
710
Pg36
Dimensions for
base mounting
710
740
755
380
485
380
DA65-5360b
Fig. 25
Braking resistor 100 kW
6SE70313FS872DC0
6SE70316ES872DC0
710
200
10,5
380
Fig. 26
Braking resistor 170 kW and 200 kW
6SE70321HS872DC0
6SE70325FS872DC0
6SE70327ES872DC0
7/10
Dimensions for
base mounting
Dimension Drawings
DA93-5017
d1
d2
d3
n1
n3
b1
n2
n4
l2
n1
n3
l1
n2
n4
Fig. 27
Commutating reactor 4EP, ILN 35.5 A
with terminal connection for any mounting position
Type
4EP32
4EP33
4EP34
4EP35
4EP36
4EP37
4EP38
4EP39
4EP40
b1
d1
d2
d3
l1
l2
n1
n2
n3
n4
57.5
64
73
68
78
73
88
99
119
4.8
4.8
4.8
4.8
4.8
5.8
5.8
7
7
9
9
9
9
9
11
11
13
13
M4
M4
M4
M4
M4
M5
M5
M6
M6
56
55
59
57
62
60
67
62
72
108
122
122
139
139
159
159
181
181
78
96
96
120
120
150
150
182
182
88.5
124
124
148
148
178
178
219
219
34
33
42
39
49
49
64
56
76
1)
1)
1)
42.5
44
53
48
58
53
68
69
89
79.5
112
112
136
136
166
166
201
201
90
90
113
113
136
136
Weight
approx.
kg
0.7
0.9
1.4
1.9
2.8
3.7
5
6.1
8.8
solid
2.5 mm2 to 10.0 mm2
finely stranded 4.0 mm2 to 10.0 mm2
DA93-5015
d1
DA93-5016a
d3
d2
n1
n3
b1
n2
n4
l2
n1
n3
l1
n2
n4
Fig. 28
Commutating reactor 4EP, ILN 36 A to 50 A
with terminal connection for any mounting position
Type
4EP38
4EP39
4EP40
b1
d1
d2
d3
l1
l2
n1
n2
n3
n4
88
99
119
5.8
7
7
11
13
13
M5
M6
M6
86
91.5
101.5
193
220
220
150
182
182
178
219
219
64
56
76
113
136
136
68
69
89
166
201
201
Weight
approx.
kg
5
6.1
8.8
7/11
Dimension Drawings
DA93-5018
Flat terminals
DA65-5390
d3
d2
n1
n3
b1
n2
n4
l2
a4
n2
n4
a1
a3
d1
n1
n3
a5
a2
DA93-5016a
Fig. 29
Commutating reactor 4EP, ILN 51 A
with flat terminals, for any mounting position
Type
4EP38
4EP39
4EP40
b1
d1
d2
d3
l1
l2
n1
n2
n3
n4
88
99
119
5.8
7
7
11
13
13
M5
M6
M6
76
73
83
153
179
179
150
182
182
178
219
219
64
56
76
113
136
136
68
69
89
166
201
201
Weight
approx.
kg
5
6.5
10
Rated
current ILN
A
51 to 80
81 to 200
a1
a2
a3
a4
a5
30
35
20
25
3
5
10
9
12.5 11
Flat terminals
a5
a2
DA65-5390
a4
l4
a3
a1
DA93-5019a
ILN 45 A to 1000 A
e
DA65-5389
Mounting hole
h
DA93-5020
d4
d1
n1
a5
a6
a2
l1
d4
d2
a7
a4
d3
n1
b1
n2
a1
a3
n2
l2
Fig. 30
Commutating reactors 4EU
with flat terminals, for arrangement on horizontal surfaces
Type
4EU24
4EU25
4EU27
4EU30
4EU36
4EU39
4EU43
4EU45
4EU47
4EU50
4EU52
7/12
b1
d1
d2
d3
d4
e
h
l1
max. max.
l2
l4
n1
n2
91
115
133
148
169
174
194
221
251
195
220
7
7
10
10
10
12
15
15
15
12.5
12.5
13
13
18
18
18
18
22
22
22
12.5
12.5
M6
M6
M8
M8
M8
M 10
M 12
M 12
M 12
M 10
M 10
M6
M6
M6
M6
M8
M6
M6
M6
M6
M 12
M 12
102
119
142
147
197
197
212
211
231
220
242
190
190
220
250
300
366
416
416
416
470
470
270
300
350
410
460
460
460
518
518
70
94
101
118
138
141
155
182
212
158
183
176
176
200
224
264
316
356
356
356
410
410
210
210
248
269
321
385
435
435
435
565
565
225
225
260
295
357
405
458
458
458
533
533
Weight
approx.
kg
11.9
18
28.2
40.3
61
78
117
140
160
182
216
Rated
current ILN
A
45 to 80
81 to 200
201 to 315
316 to 800
801 to 1000
1001 to 1600
a1
a2
a3
a4
a5
a6
a7
20
25
30
40
40
60
20
25
30
40
40
60
3
5
6
6
8
12
10
12.5
15
20
20
17
9
11
14
14
14
14
26
26
Dimension Drawings
b2
h1
n1
DA65-5322
d2
d1
DA65-5321
n2
n2
n1
b1
Fig. 31
Autotransformers 4AP25 to 4AP30
for any mounting position
Type
4AP25
4AP27
4AP30
Designation
acc. to DIN 41 302
b1
b2
3UI 114/62
3UI 132/70
3UI 150/75
115
133
148
d1
85
89
92
d2
7.4
10
10
M6
M8
M8
h1
l1
214
241
270
n1
229
264
300
n2
94
101
118
Weight
approx.
kg
19
26
37
176
200
224
Screw terminals
24 A: solid
finely stranded
58 A: solid or
stranded
finely stranded
94 A: solid or
stranded
0.5 to 6 mm2
0.5 to 4 mm2
1 to 25 mm2
2.5 to 16 mm2
4 to 50 mm2
h2
h1
DA65-5324a
l1
Flat terminals
d4
b2
d2
h3
d1
n1
DA65-5323
d3
n2
l2
l3
n1
b1
l4
n2
Fig. 32
Autotransformers 4AU36 to 4AU39
with flat terminals, for any mounting position
Form Nominal
current
A
A
100
A
200
A
400
Type
4AU36
4AU39
Designation
acc. to DIN 41 302
b1
d1
d2
d3
h1
h2
h3
l1
l2
l3
n1
n2
3UI 180/75
3UI 210/70
169
174
10
12
M8
M 10
M6
M6
320
370
150
180
60
66
360
420
314
366
360
410
138
141
264
316
b2
d4
l4
16
20
25
7
9
11
25
35
35
Weight
approx.
kg
59
81
7/13
Dimension Drawings
DA65-5392
e2 e 1
d4
d2
d4
b3
b1
l1
Flat terminals
n1
e3
b3
DA65-5325
d3
n2
l2
d1
d1
n2
n1
b2
DA65-5391
l4
l4
Fig. 33
Autotransformers 4BU
with flat terminals, for arrangement on horizontal surfaces
Type
4BU43
4BU45
4BU47
4BU51
4BU52
4BU53
4BU54
4BU55
4BU56
4BU58
4BU59
4BU60
4BU62
4BU63
4BU64
4BU65
Designation
acc. to
DIN 41 302
3UI 240/ 80
3UI 240/107
3UI 240/137
3UIS 265/107
3UIS 265/120
3UIS 265/135
3UIS 305/125
3UIS 305/140
3UIS 305/160
3UIS 370/150
3UIS 370/170
3UIS 370/195
3UIS 455/175
3UIS 455/200
3UIS 455/230
3UIS 455/260
d4
e1
e2
e3
l4
9
11
11
14
14
14
14
14
17
22
26
22
26
35
35
40
40
50
60
70
b1
b2
d1
d2
d3
l1
l2
n1
n2
194
221
251
267
280
295
295
310
330
330
350
375
405
430
460
490
194
221
251
207
220
235
245
260
280
290
310
335
315
340
370
400
15 x 22
15 x 22
15 x 22
12.5
12.5
12.5
15
15
15
15
15
15
21
21
21
21
M 12
M 12
M 12
M 10
M 10
M 10
M 12
M 12
M 12
M 12
M 12
M 12
M 16
M 16
M 16
M 16
M6
M6
M6
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
M 12
420
420
420
515
515
515
585
585
585
665
665
665
760
760
760
760
480
480
480
555
555
555
630
630
630
780
780
780
975
975
975
975
416
416
416
470
470
470
540
540
540
660
660
660
820
820
820
820
155
182
212
170
183
198
198
213
233
241
261
286
261
298
323
353
356
356
356
410
410
410
470
470
470
580
580
580
720
720
720
720
7/14
Form Nominal
b3
current
A
A
200
20
A
400
25
A
630
30
A
800
30
A
1000
40
C
1250
50
C
1600
60
above 1600 A on request
Weight
approx.
kg
108
135
170
180
200
220
280
310
370
440
480
600
720
860
1040
1170
Dimension Drawings
1
b
6SE70120EP870FB0
6SE70160EP870FB0
h1
h2
44.5
67
110
130
290
310
250
270
275
295
DA65-5151c
h
h2
h1
2
a
Fig. 34
Radio-interference suppression filter
6SE70120EP870FB0, 6SE70160EP870FB0,
6SE70120EP870FB1, 6SE70160EP870FB1
160
DA65-5152c
340
325
300
75
89
Fig. 35
Radio-interference suppression filter
6SE70212EP870FB0, 6SE70218EP870FB0,
6SE70212EP870FB1, 6SE70218EP870FB1
PE M 6
b1
h1
h2
h3
215
215
231
308
166
166
166
221
196
196
196
256
182 81
182 81
182 86
240 141
Type
a
PE
b1
Fig. 36
PE M6
5,3 7
414
425
462
$ Power COMBICON
% Oblong hole 5.5 x 7.5
& Terminals 16 mm2
90
Fig. 37
67,5
395
DA65-6074
DA65-5331b
max. 2
190
h1
h3
h2
h
6SE70210ES870FB1 90 75
6SE70218ES870FB1 90 75
6SE70234ES870FB1 101 85
6SE70272ES870FB1 141 120
7/15
Dimension Drawings
DA65-5332a
141
PE M 10
6SE70312ES870FA1
6SE70318ES870FA1
h1
h3
h4
Terminals
Earthing
Stud
348
404
261
301
115
165
82.5
50 mm2
95 mm2
M 10
M 10
Weight
approx.
kg
10
10
141
h3
h4
155
171
h4
Fig. 38
Radio-interference suppression filter 6SE7031
6,6
h1
h
91
PE
DA65-5327a
126
80
Fig. 39
140
156
6,6
166
216
22,5
h1
Terminals
300
348
221
261
25 mm2
50 mm2
141
Type
DA65-5328
B8143A80R21
B8143A120R21/A150R21
141
115
155
171
Fig. 40
Radio-interference suppression filter
B84143A80R21
B84143A120R21/A150R21
141
6,6
h1
h
DA65-5329
141
82,5
82,5
155
171
Fig. 41
6,6
301
404
7/16
Weight
approx.
kg
10
10
Dimension Drawings
PE M 10 x 30
Type
B84143B250S . .
B84143A320S . .
6SE70332ES870FA1
B84143B600S . .
6SE70360ES870FA1
B84143B1000S . .
6SE70410ES870FA1
h2
b1
Type
DA65-5330c
12
h1
h
b1
b2
b3
c1
110
180
115
116
85
190
260
165
235
80
120
30
36
15
15
180
116
85
260
235
120
36
15
220
166
135
300
275
160
61
20
e1
e2
h1
h2
25
25
5
5
11
11
300
300
240
240
360
360
Weight
approx.
kg
15
21
30
11
350
290
410
22
40
14
350
290
420
28
a
t
b3
b2
e2
PE
e1
B84143B250S . .
B84143A320S . .
6SE70332ES870FA1
B84143B600S . .
6SE70360ES870FA1
B84143B1000S . .
6SE70410ES870FA1
c1
b
Fig. 42
Radio-interference suppression filter
B84143B250S . . /A320S . . /
B600S . . /B1000S . .
6SE7033, 6SE7036, 6SE7041
50
PE
M 12 x 30
40
550
20
16
12
220
250
61
166
80
40
340
400
Fig. 43
DA65-5333a
PE
160
275
300
10
135
810
40
20
190
286
320
200
355
385
15
90
14
560
200
DA65-5334b
Fig. 44
Radio-interference suppression filter
B84143B2500S . .
Weight approx. 105 kg
650
7/17
Dimension Drawings
414
425
360
DA65-5071e
1)
1)
45
90
220
Fig. 45
Precharging resistors
l
Type
View A
ADA65-6075
d1
A
b
a
Fig. 46
Type
c
b
d1
DA65-6076
e
d
Fig. 47
7/18
6SX70100AC06
6SX70100AC07
6SX70100AC08
6SX70100AC10
6SX70100AC11
6SX70100AC12
6SX70100AC13
d1
11.8 0.8
14.8 0.8
22.3 1.3
22.3 1.3
22.3 1.3
62 2
100 2
100 2
165 2
265 4
51 2
87 2
71 2
136 2
236 2
5
5
8
8
8
11.5
13
18.5
18.5
18.6
5.5
5.5
10
10
10
M 3 x 12
M 3 x 12
M 4 x 18
M 4 x 18
M 4 x 18
3
4
10.5
10.5
10.5
d1
37 1
37 1
100 2.5 15
215 5.4 15
5.2
5.2
34
34
28
28
14
14
18.5
18.5
Weight
approx.
kg
0.013
0.033
0.08
0.113
0.194
Weight
approx.
kg
0.2
0.4
Dimension Drawings
H
h
H
h
DA65-5368a
DA65-5369b
DA65-5367
h
H
26
h
H
Fig. 49
Fig. 51
Fig. 50
DA65-5370
Fig. 52
6SE70130ES871FE0
6SE70150ES871FE0
6SE70161ES871FE0
6SE70162FS871FE0
6SE70210ES871FE0
6SE70215FS871FE0
6SE70218ES871FE0
6SE70226ES871FE0
6SE70234ES871FE0
6SE70247ES871FE0
6SE70260HS871FE0
6SE70272ES871FE0
6SE70282HS871FE0
6SE70310ES871FE0
6SE70312HS871FE0
6SE70315ES871FE0
6SE70317HS871FE0
6SE70318ES871FE0
6SE70323HS871FE0
6SE70326ES871FE0
6SE70332ES871FE0
6SE70337ES871FE0
6SE70351ES871FE0
6SE70370ES871FE0
6SE70386ES871FE0
6SE70222FS871FE0
6SE70234FS871FE0
6SE70247FS871FE0
6SE70330GS871FE0
6SE70335GS871FE0
6SE70345GS871FE0
6SE70357GS871FE0
6SE70365GS871FE0
6SE70386GS871FE0
6SE70411ES871FE0
6SE70412GS871FE0
Fig. No.
52
52
52
52
52
50
52
52
52
51
51
49
51
49
51
51
51
51
51
51
51
51
51
51
51
50
51
51
51
51
51
51
51
51
51
51
124
148
178
267
178
207
219
219
267
197
235
267
264
267
314
197
314
281
367
281
311
264
310
360
410
207
197
197
417
417
417
533
533
608
420
608
122
139
153
221
153
220
180
180
221
220
250
221
280
221
335
220
335
250
385
250
280
280
280
335
385
220
220
220
435
435
435
565
565
650
380
650
73
78
73
107
88
104
99
119
107
104
146
107
155
107
169
128
169
146
174
146
155
155
155
169
174
128
104
128
194
194
251
207
235
245
233
310
55
69
98
77
101
77
109
81
109
98
112
111
114
101
106
114
127
66
72
81
118
118
147
160
240
146
204
146
168
181
216
103
206
206
100
119
121
139
150
180
210
114
93
240
255
385
Weight
approx.
kg
1
2.2
4.4
14.5
5.5
20
8
9.2
11
20
30
11
45
17
60
25
60
30
80
30
45
45
45
60
80
25
20
25
120
120
160
170
220
280
100
310
n1
n2
42
49
53
77
68
70.5
69
89
77
70
101
77
18
77
138
94
138
101
141.5
101
118
118
118
138
141
94.5
70
128
155.5
155.5
212.5
170.5
198.5
195.5
203
213
1)
90
166
249
166
176.5
201
201
249
176
200
249
224
249
264
176
264
200
316.5
200
224
224
224
264
316
176.5
176
176
356.5
356.5
356.5
411
411
471
316
470
M 4 2)
M 4 2)
M 5 2)
M 6 2)
M 5 2)
M6
M 6 2)
M 6 2)
M 6 2)
M6
M8
M 6 2)
M8
M6
M8
M6
M8
M8
M 10
M8
M8
M8
M8
M8
M 10
M6
M6
M6
M 12
M 12
M 12
M 10
M 10
M 12
M 10
M 12
DA65-5371a
n1
Type
n2
Mounting hole
7/19
Dimension Drawings
30
T=D
7x11
7,5
135
160
DA65-5363
56
86
Fig. 53
DA65-5364
540
600
225
300
325
350
7,5
Fig. 54
h
H
Fig. 55
Type
6SE70211CS871FF0
6SE70213CS871FF0
6SE70218CS871FF0
6SE70223CS871FF0
6SE70232CS871FF0
6SE70244CS871FF0
6SE70270CS871FF0
6SE70281CS871FF0
6SE70161ES871FF1
6SE70210ES871FF1
6SE70218ES871FF1
6SE70226ES871FF0
6SE70234ES871FF0
6SE70247ES871FF0
6SE70272ES871FF0
6SE70310ES871FF0
6SE70162FS871FF0
6SE70215FS871FF0
6SE70315ES871FF0
6SE70318ES871FF0
6SE70222FS871FF0
6SE70234FS871FF0
6SE70247FS871FF0
6SE70326ES871FF0
6SE70332ES871FF0
6SE70337ES871FF0
6SE70351ES871FF0
6SE70370ES871FF0
6SE70386ES871FF0
7/20
Fig. No.
53
53
53
53
53
53
53
53
54
54
54
53
53
53
53
53
53
53
55
55
55
55
55
55
55
55
55
55
55
50
50
50
50
50
50
50
50
50
50
50
50
50
60
50
60
50
50
184
184
184
184
184
184
184
280
230
230
230
280
280
280
280
280
280
280
255
255
255
255
255
295
295
295
295
295
385
225
225
225
225
225
270
270
270
270
270
360
260
260
260
260
260
260
260
260
280
280
260
Weight
approx.
kg
4.5
4.5
5.8
6
4.8
6
7.4
8.8
8.5
8.5
8.5
9.5
12
16.4
14
16.7
13
14
23
31
19
21
27
32
41
45
52
65
81
DA65-5365
Dimension Drawings
Weight
approx.
kg
45
67.5
90
45
90
135
180
270
425
425
600
600
425
425
600
600
13
20
37
56
100
Type
250
16
DA65-5373a
350
Fig. 56
dv/dt filter and sine filter
6SE70 . . . . A to 6SE70 . . . . D
350
Type
Sine filter
6SE70 . . . . E
6SE70 . . . . F
6SE70 . . . . G
dv/dt filter
6SE70 . . . . E
6SE70 . . . . S3)
b1
45
45
119
270
360
508
10
10
25
400
400
320
90
130
170
45
45
270
270
10
10
400
400
55
95
Weight
approx.
kg
f
h
a2)
DA65-5374a
b1
Fig. 57
d
a1
15
360
270
130
Type
675
675
675
1050
1050
1050
650
650
650
1025
1025
1025
370
490
490
490
490
490
$ For M 8 screws
% Earthing stud
& DC link
6SE70 . 3 . . S
6SE70 . 4 . . S
6SE70 . 5 . . S
6SE70 . 6 . . S
6SE70 . 7 . . S
6SE70 . 8 . . S
Fig. 58
Limiting network for dv/dt filter
U2
V2
W2
10
C/L+ D/L+
DA65-5375a
3) 6SE7031 . HS871FD0,
6SE7032 . HS871FD0
Siemens DA 65.10 2003/2004
7/21
Dimension Drawings
Mounting hole
n2
l
DA65-5376
n1
b
n2
Fig. 59
6SE70 . 3 . . S reactor to 6SE70 . 8 . . S for dv/dt filter
Type
6SE70 . 3 . . S
6SE70 . 4 . . S
6SE70 . 5 . . S
6SE70 . 6 . . S
6SE70 . 8 . . S
n1
n2
194
251
207
235
245
M 12
M 12
M 10
M 10
M 12
133
159
186
212
217
435
435
565
565
650
416
416
470
470
540
155
212
170
198
198
356
356
410
410
470
7/22
n1
Dimension Drawings
Cabinet units
380 V to 480 V, 45 kW
500 V to 600 V, 37 kW to 45 kW
2400
2
2000
+.A20
1643
<K 08>
Rittal/8MF
7
800
U1 V1 W1
L1 L2 L3
U2 V2 W2
T1 T2 T3
7
7
0
-100
-200
<M 77>
H1
<M 76>
U1 V1 W1 U2 V2 W2
L1 L2 L3 T1 T2 T3
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5403c
T4
B1
B2
14
130
T1
T3
T5
T6
B3
87
T2
B4
600
10
Fig. 60
B4
450
475
T1
634
602
T2
25
6.5
2350
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T4
9
6.5
2350
T3
600
589
12,5 52,5
T
B3
540
512
30
B2
600
599
25
37,5
B1
618
602
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/23
Dimension Drawings
Cabinet units
380 V to 480 V, 55 kW to 90 kW
500 V to 600 V, 55 kW to 75 kW
660 V to 690 V, 55 kW to 75 kW
2400
2
2000
+.A20
1643
<K 08>
8MF
Rittal
U1 V1 W1
L1 L2 L3
U1 V1 W1
L1 L2 L3
0
-100
-200
U2 V2 W2
T1 T2 T3
H1
<M 76>
U2 V2 W2
T1 T2 T3
800
<M 77>
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5404c
T4
B1
B2
14
130
T6
T1
T3
T5
B3
87
T2
B4
900
10
Fig. 61
B4
750
775
T1
634
602
T2
25
6.5
2350
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
2350
T3
600
589
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/24
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
840
812
30
B2
900
899
25
37,5
B1
918
902
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V, 110 kW to 200 kW
500 V to 600 V, 90 kW to 160 kW
660 V to 690 V, 90 kW to 200 kW
2400
2
2000
+.A20
1643
<K 08>
8MF
Rittal
800
6
U1 V1 W1
L1 L2 L3
7
U2 V2 W2
T1 T2 T3
7
U1V1 W1
L1 L2 L3
H1
<M 76>
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5405d
T4
B1
B2
14
130
T1
T3
T5
T6
B3
87
T2
B4
1200
10
Fig. 62
B4
1050
1075
T1
634
602
T2
25
6.5
2350
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T4
9
6.5
2350
T3
600
589
12,5 52,5
T
B3
1140
1112
30
B2
1200
1199
25
37,5
B1
1218
1202
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/25
Dimension Drawings
Cabinet units
2000
+.A6
+.A20
1643
<K 08>
8MF
Rittal
6
800
7
U1
L1
V1 W1
L2 L3
7
7
L1 L2 L3
0
-100
-200
W2
T3
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5402c
B1
B2
B3
B5
87
T6
700
180
80
B7
T2
14
B4
B6
130
T4
T1
T3
T5
V2
T2
H1
U2
T1
<M 76> U1 V1 W1
1500
10
B8
Fig. 63
B1 B2 B3 B4 B5 B6 B7 B8 T1
T2
T3
T4
1518 1500 600 900 540 840 450 750 634 25
600 9
1502 1499 599 899 512 812 475 775 602 6.5 589 6.5
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/26
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
Pedestal dimensions
30
2350
2350
T5
T6
H1
466 510 63
440 470 25.5
25
37,5
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V, 500 kW
500 V to 600 V, 400 kW to 630 kW
660 V to 690 V, 500 kW to 800 kW
2400
2
2000
+.A8
+.A6
+.A20
1643
<K 08>
8MF
Rittal
6
800
7
7
V1
L2
W1
L3
U2
T1
0
-100
-200
V2
T2
W2
T3
H1
U1
L1
<M 06>
<M 07>
<M 06>
<M 07>
B1
B2
B4
B6
400
700
87
T6
T1
T3
T5
14
B7
130
B3
B5
T4
DA65-5378c
T2
2100
B8
10
Fig. 64
B6
840
812
B7
450
475
2350
T1
634
602
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T2
25
6.5
2350
B8
750
775
12,5 52,5
T
B5
540
512
30
B4
900
899
25
37,5
B1
B2
B3
2118 2100 600
2102 2099 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/27
Dimension Drawings
Cabinet units
2400
2
2000
+.A8
+.A6
+.A20
1643
<K 08>
8MF
6
Rittal
1010
7
7
U1 V1 W1
L1 L2 L3
0
-100
-200
V2
T2
W2
T3
H1
U2
T1
<M 06>
<M 07>
<M 06>
<M 07>
14
B7
T1
T3
T5
65
T6
700
700
130
T4
B1
B2
B4
B6
B3
B5
DA65-5406c
T2
B8
2400
10
Fig. 65
B4
900
899
B5
540
512
B6
840
812
2350
B8
750
775
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
2350
B7
450
475
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/28
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
600
599
30
B2
2400
2399
25
37,5
B1
2418
2402
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V, 710 kW
500 V to 600 V, 800 kW to 900 kW
660 V to 690 V, 1000 kW to 1200 kW
2500
2400
2
2000
+.A6
+.A8
+.A20
1643
<K 08>
U2
T1
8MF
1010
Rittal
V2
T2
7
W2
T3
H1
U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
14
B5
B8
T1
T3
T5
B10
T2
B9
2700
100
65
100
100
150
700
310
T6
T4
B3
B6
B1
B2
130
B4
B7
DA65-5407d
B11
10
Fig. 66
B7
840
812
2350
B11 T1
1050 634
1075 602
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
B10
750
775
2350
B8
B9
1140 450
1112 475
12,5 52,5
T
B5
B6
1200 540
1199 512
30
B4
900
899
25
37,5
B1
B2
B3
2718 2700 600
2702 2699 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/29
Dimension Drawings
Cabinet units
2
2000
+.A8
+.A6
+.A20
+.A22
1643
<K 08>
8MF
6
Rittal
1010
7
U2
T1
0
-100
-200
V2
T2
W2
T3
U2
T1
V2
T2
W2
T3
H1
U1 V1 W1
L1 L2 L3
<M 06>
<M 07>
B7
T2
1500
14
B8
700
700
T6
700
130
T4
T1
T3
T5
65
DA65-5408d
B1
B2
B4
B6
B3
B5
<M 06>
<M 07>
10
1800
10
Fig. 67
B4
900
899
B5
540
512
B6
840
812
2350
B8
750
775
T1
634
602
T2
25
6.5
T3
600
589
2350
B7
450
475
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/30
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
600
599
30
B2
3300
3299
25
37,5
B1
3318
3302
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
500 V to 600 V, 1000 kW to 1100 kW
660 V to 690 V, 1300 kW to 1500 kW
with interphase transformer chassis
2400
2
2000
+.A6
+.A8
+.A20
+.A21
+.A22
1643
<K 08>
8MF
Rittal
1010
7
U2 V2 W2
T1 T2 T3
7
H1
U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
65
T2
1500
700
700
10
B7
B8
400
700
T6
14
130
T1
T3
T5
T4
B1
B2
B4
B6
B3
B5
DA65-5409d
10
2400
Fig. 68
B4
900
899
B5
540
512
2350
B7
450
475
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection
IP23/IP43
( Air inlet
) Cable entry possible
from underneath within
the gray area
70
75
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
125
DA65-6077a
45
60
4
DA65-5382
H1
63
25.5
Pedestal dimensions
B8
750
775
2350
B6
840
812
12,5 52,5
T
B3
600
599
30
B2
3900
3899
25
37,5
B1
3918
3902
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/31
Dimension Drawings
Cabinet units
2000
+.A8
+.A3
+.A20
1643
<K 08>
8MF
Rittal
7
800
U1V1 W1
L1 L2 L3
U1V1 W1
L1 L2 L3
U2
T1
V2
T2
W2
T3
7
<M 76> U1 V1 W1
L1 L2 L3
0
-100
-200
H1
<M
<M 76>
76> U1 V1 W1
L1 L2 L3
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5379c
T4
B1
B2
14
B4
B3
B5
10
2700
T2
T6
87
130
T1
T3
T5
700
Fig. 69
B4
900
899
B5
750
775
2350
T2
25
6.5
T3
600
589
T4
9
6.5
2350
T1
634
602
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/32
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
840
812
30
B2
2700
2699
25
37,5
B1
2718
2702
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V (2 x), 500 kW
500 V to 600 V (2 x), 400 kW to 630 kW
660 V to 690 V (2 x), 500 kW to 800 kW
2400
2000
+.A8
+.A3
+.A20
1643
<K 08>
8MF
Rittal
7
800
U1V1 W1
L1 L2 L3
U1V1 W1
L1 L2 L3
7
7
7
U2
T1
<M 76> U1 V1 W1
L1 L2 L3
0
-100
-200
V2
T2
W2
T3
H1
<M
<M 76>
76> U1 V1 W1
L1 L2 L3
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5380c
T4
B1
B2
14
B4
B3
2700
T2
T6
87
130
T1
T3
T5
700
B5
10
Fig. 70
B4
900
899
B5
750
775
2350
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T2
25
6.5
1
2350
T1
634
602
12,5 52,5
T
B3
840
812
30
B2
2700
2699
25
37,5
B1
2718
2702
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/33
Dimension Drawings
Cabinet units
2400
2
2000
+.A1
+.A3
+.A6
+.A20
+.A8
1643
<K 08>
8MF
Rittal
6
800
U1
L1
V1
L2
W1
L3
U1
L1
V1
L2
0
-100
-200
W1
L3
U2
T1
V2
T2
W2
T3
H1
<M 06>
<M 07>
DA65-5410c
B1
B2
B3
B5
T4
<M 06>
<M 07>
14
B4
B6
T2
87
2400
T6
B7
10
130
T1
T3
T5
700
B8
10
900
Fig. 71
B4
900
899
B5
540
512
B6
840
812
2350
B8
750
775
T1
634
602
T2
25
6.5
T3
600
589
2350
B7
450
475
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/34
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
600
599
30
B2
3300
3299
25
37,5
B1
3318
3302
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V (2 x), 710 kW
500 V to 600 V (2 x), 800 kW to 900 kW
660 V to 690 V (2 x), 1000 kW to 1200 kW
2500
2400
2
2000
+.A1
+.A3
+.A6
+.A20
+.A8
1643
<K 08>
U2
T1
8MF
Rittal
V2
T2
800
7
V1
L2
W1
L3
U1
L1
V1
L2
W2
T3
W1
L3
H1
U1
L1
0
-100
-200
<M 06>
<M 07>
DA65-5411d
B1
B2
14
B4
B6
T2
2400
B7
10
B8
1200
100
87
100
130
T1
T3
T5
100
150
310
T6
B3
B5
T4
<M 06>
<M 07>
10
Fig. 72
B4
1200
1199
B5
540
512
2350
B7
450
475
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
B8
1050
1075
2350
B6
1140
1112
12,5 52,5
T
B3
600
599
30
B2
3600
3599
25
37,5
B1
3618
3602
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/35
Dimension Drawings
Cabinet units
<M 06>
<M 07>
DA65-5412c
H1
<K 08>
1
3
4
14
T6
Rittal
B8
+.A22
U2
T1
700
V2
T2
2350
W2
T3
8MF
DA65-5382
1800
700
U2
T1
B4
B6
V2
T2
W2
T3
10
4
DA65-5383
2650
+.A20
1
2
2
3
B7
B1
B2
W1
L3
+.A8
<M 06>
<M 07>
B3
B5
W1
L3
0
-100
-200
800
T4
1643
87
2000
T1
T3
T5
2400
T2
U1
L1
+.A1
V1
L2
+.A3
2400
10
U1
L1
+.A6
V1
L2
DA65-5384
Fig. 73
Cabinet
Type
8MF
Rittal
7/36
B1
B2
B3
4218 4200 600
4202 4199 599
B4
900
899
B5
540
512
B6
840
812
B7
450
475
B8
750
775
T1
634
602
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Dimension Drawings
Cabinet units
500 V to 600 V, 1100 kW
660 V to 690 V, 1500 kW
with interphase transformer chassis
2350
<M 06>
<M 07>
DA65-5413c
H1
<K 08>
1
3
14
T6
Rittal
130
8MF
4
DA65-5382
2350
700
400
B8
2400
+.A21
U2 V2 W2
T1 T2 T3
10
+.A22
B7
DA65-5383
2650
2
3
B1
B2
<M 06>
<M 07>
+.A20
B4
B6
700
+.A8
DA65-5384
W1
L3
2400
10
U1
L1
+.A6
V1
L2
B3
B5
W1
L3
U1
L1
0
-100
-200
800
T4
1643
T1
T3
T5
87
2000
T2
2400
+.A1
V1
L2
+.A3
Fig. 74
Cabinet
Type
8MF
Rittal
B1
B2
B3
4818 4800 600
4802 4799 599
B4
900
899
B5
540
512
B6
840
812
B7
450
475
B8
750
775
T1
634
602
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
7/37
Dimension Drawings
Cabinet units
380 V to 480 V, 45 kW
500 V to 600 V, 37 kW to 45 kW
2400
2
2000
+.A20
1643
<K 08>
8MF
Rittal
7
800
U1 V1 W1
L1 L2 L3
U1 V1 W1
L1 L2 L3
0
-100
-200
U2 V2 W2
T1 T2 T3
<M 77>
H1
7
<M 76>
U2 V2 W2
T1 T2 T3
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5414d
T4
B1
B2
14
130
T6
T1
T3
T5
B3
87
T2
B4
900
10
Fig. 75
B4
750
775
T1
634
602
T2
25
6.5
2350
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
2350
T3
600
589
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/38
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
840
812
30
B2
900
899
25
37,5
B1
918
902
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V, 55 kW to 90 kW
500 V to 600 V, 55 kW to 75 kW
660 V to 690 V, 55 kW to 75 kW
2400
2
2000
+.A20
1643
<K 08>
8MF
Rittal
U1 V1 W1
L1 L2 L3
7
<M 76>
U2 V2 W2
T1 T2 T3
U1 V1 W1
L1 L2 L3
U2 V2 W2
T1 T2 T3
0
-100
-200
<M 77>
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5415c
B1
B2
T4
H1
800
14
130
T6
T1
T3
T5
B3
87
T2
B4
1200
10
Fig. 76
B4
1050
1075
T1
634
602
T2
25
6.5
2350
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T4
9
6.5
2350
T3
600
589
12,5 52,5
T
B3
1140
1112
30
B2
1200
1199
25
37,5
B1
1218
1202
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/39
Dimension Drawings
Cabinet units
2000
+.A20
+.A8
1643
<K 08>
8MF
Rittal
800
U1 V1 W1 7
L1 L2 L3
U2 V2 W2
T1 T2 T3
H1
<M 76>
U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
DA65-5416c
B1
B2
B3
B5
14
B4
B6
87
130
T1
T3
T5
T6
T4
<M 06>
<M 07>
T2
B7
1500
B8
10
Fig. 77
B1 B2 B3 B4 B5 B6 B7 B8 T1
T2
T3
T4
1518 1500 900 600 840 540 750 450 634 25
600 9
1502 1499 899 599 812 512 775 475 602 6.5 589 6.5
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/40
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
Pedestal dimensions
30
2350
2350
T5
T6
H1
466 510 63
440 470 25.5
25
37,5
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
500 V to 600 V, 200 kW to 250 kW
2400
2
2000
+.A20
+.A8
1643
<K 08>
8MF
Rittal
6
800
U1 V1 W1
L1 L2 L3
7
U2
T1
V2
T2
W2
T3
7
U1 V1 W1
L1 L2 L3
H1
<M 76>
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5417c
T4
B1
B2
14
B4
B3
T6
87
130
T1
T3
T5
700
T2
1800
B5
10
Fig. 78
B4
900
899
B5
750
775
T1
634
602
2350
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T3
600
589
2350
T2
25
6.5
12,5 52,5
T
B3
840
812
30
B2
1800
1799
25
37,5
B1
1818
1802
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/41
Dimension Drawings
Cabinet units
2000
+.A8
+.A20
<K 08>
1643
8MF
Rittal
6
800
7
H1
<M 76>
0
-100
-200
<M 06>
<M 06>
<M 07>
<M 07>
DA65-5849
B1
B2
B4
B6
B8
14
130
T6
T1
T3
T5
T4
B3
B5
B7
B7
B8
1050 750
1075 775
2350
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
2350
T1
634
602
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/42
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B5
B6
1140 840
1112 812
Fig. 79
30
B1
B2
B3
B4
2118 2100 1200 900
2102 2099 1199 899
10
25
37,5
Cabinet
Type
8MF
Rittal
2100
2650
T2
87
Dimension Drawings
Cabinet units
380 V to 480 V, 315 kW to 400 kW
2400
2
2000
+.A9
+.A8
+.A6
1643
+.A20
<K 08>
8MF
Rittal
6
800
U2
T1
7
V1
L2
W2
T3
W1
L3
H1
U1
L1
V2
T2
0
-100
-200
<M 06>
<M 07>
B1
B2
DA65-5419d
14
400
700
T6
B4
B6
B3
87
T2
B7
2700
130
T1
T3
T5
T4
B3
B5
<M 06>
<M 07>
B8
10
Fig. 80
B6
840
812
B7
450
475
2350
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T1
634
602
2350
B8
750
775
12,5 52,5
T
B5
540
512
30
B4
900
899
25
37,5
B1
B2
B3
2718 2700 600
2702 2699 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/43
Dimension Drawings
Cabinet units
2000
+.A6
+.A8
+.A20
+.A9
1643
<K 08>
8MF
Rittal
6
800
7
V1
L2
W1
L3
U2
T1
0
-100
-200
V2
T2
W2
T3
H1
U1
L1
<M 06>
<M 07>
B1
B2
DA65-5420c
14
B4
B6
400
700
T6
B4
87
B7
T2
3000
130
T1
T3
T5
T4
B3
B5
<M 06>
<M 07>
B8
10
Fig. 81
B4
900
899
B5
540
512
B6
840
812
2350
B8
750
775
T1
634
602
T2
25
6.5
T3
600
589
2350
B7
450
475
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/44
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
600
599
30
B2
3000
2999
25
37,5
B1
3018
3002
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 480 V, 630 kW
2400
2
2000
+.A9
+.A8
+.A6
+.A20
1643
<K 08>
8MF
6
Rittal
1010
7
U2
T1
0
-100
-200
V2
T2
W2
T3
H1
U1 V1 W1
L1 L2 L3
<M 06>
<M 07>
14
B4
700
700
T6
B8
65
5
B7
T2
2400
10
900
130
T1
T3
T5
T4
DA65-5421c
B1
B2
B4
B6
B3
B5
<M 06>
<M 07>
10
Fig. 82
B4
900
899
B5
540
512
B6
840
812
2350
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
B8
750
775
2350
B7
450
475
12,5 52,5
T
B3
600
599
30
B2
3300
3299
25
37,5
B1
3318
3302
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/45
Dimension Drawings
Cabinet units
2000
+.A6
+.A8
+.A9
+.A20
1643
<K 08>
U2
T1
8MF
7
1010
Rittal
V2
T2
7
W2
T3
H1
U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
14
B4
B5
B8
100
150
700
100
130
T1
T3
T5
5
5
B9
B10
T2
65
310
B1
B2
B4
B7
DA65-5422f
2400
T6
T4
B3
B6
<M 06>
<M 07>
100
B11
10
1200
10
Fig. 83
B4
900
899
B5
1200
1199
B6
540
512
2350
B8
1140
1112
B9
450
475
B10
750
775
B11
1050
1075
2350
B7
840
812
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/46
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
125
DA65-6077a
7
DA65-5382
H1
63
25.5
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B3
600
599
30
B2
3600
3599
25
37,5
B1
3618
3602
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
500 V to 600 V, 1000 kW to 1100 kW
660 V to 690 V, 1300 kW to 1500 kW
<K 08>
<M 06>
<M 07>
DA65-5423c
2350
1
3
14
T6
Rittal
W2
T3
2350
B8
4
DA65-5383
+.A20
U2
T1
700
V2
T2
1800
W2
T3
10
+.A22
U2
T1
700
V2
T2
130
8MF
4
DA65-5382
2
3
B1
B2
+.A9
<M 06>
<M 07>
2650
10
DA65-5384
700
0
-100
-200
B7
B3
B5
U1 V1 W1
L1 L2 L3
+.A6
1010
T4
1643
65
2000
T1
T3
T5
2400
T2
+.A8
B4
B6
2400
Fig. 84
Cabinet
Type
8MF
Rittal
B1
B2
B3
4218 4200 600
4202 4199 599
B4
900
899
B5
540
512
B6
840
812
B7
450
475
B8
750
775
T1
634
602
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
7/47
Dimension Drawings
Cabinet units
<M 06>
<M 07>
DA65-5424f
H1
<K 08>
1
3
4
14
T6
Rittal
8MF
DA65-5382
700
10
400
B7
2400
+.A21
U2 V2 W2
T1 T2 T3
+.A22
B8
2350
DA65-5383
2
3
B1
B2
<M 06>
<M 07>
+.A20
700
2650
DA65-5384
700
0
-100
-200
B3
B5
7
1010
1643
+.A6
2000
T4
2400
T1
T3
T5
65
T2
U1 V1 W1
L1 L2 L3
+.A8
B4
B6
2400
10
+.A9
Fig. 85
Cabinet
Type
8MF
Rittal
7/48
B1
B2
B3
4818 4800 600
4802 4799 599
B4
900
899
B5
540
512
B6
840
812
B7
450
475
B8
750
775
T1
634
602
T2
T3
25
600
6.5 589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Dimension Drawings
Cabinet units
380 V to 460 V, 45 kW
480 V to 575 V, 37 kW to 45 kW
2400
2
2000
+.A20
1643
<K 08>
8MF
Rittal
7
U1 V1 W1
L1 L2 L3
7
<M 76>
U2 V2 W2 <M 77>
T1 T2 T3
U1 V1 W1
L1 L2 L3
0
-100
-200
U2 V2 W2
T1 T2 T3
H1
800
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5818a
T4
B1
B2
14
T1
T3
T5
130
T6
B3
B4
T2
87
900
10
Fig. 86
B4
750
775
T1
634
602
T2
25
6.5
2350
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T4
9
6.5
2350
T3
600
589
12,5 52,5
T
B3
840
812
30
B2
900
899
25
37,5
B1
918
902
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/49
Dimension Drawings
Cabinet units
380 V to 460 V, 55 kW to 90 kW
480 V to 575 V, 55 kW to 75 kW
660 V to 690 V, 55 kW to 75 kW
2400
2
2000
+.A8
+.A20
1643
<K 08>
8MF
Rittal
7
U1V1 W1
L1 L2 L3
<M 76>
U2 V2 W2
T1 T2 T3
7
U1 V1 W1
L1 L2 L3
<M 77>
U2 V2 W2
T1 T2 T3
0
-100
-200
H1
800
<M 06>
<M 07>
DA65-5817a
B1
B2
B3
B5
B7
B4
B6
B8
14
T1
T3
T5
130
T6
T4
<M 06>
<M 07>
T2
87
1500
10
Fig. 87
B6
540
512
2350
B8
450
475
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
2350
B7
750
775
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/50
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B5
840
812
30
B4
600
599
25
37,5
B1
B2
B3
1518 1500 900
1502 1499 899
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 460 V, 110 kW to 200 kW
480 V to 575 V, 90 kW to 160 kW
660 V to 690 V, 90 kW to 200 kW
2400
2
2000
+.A8
+.A20
1643
<K 08>
8MF
Rittal
6
800
U1 V1 W1
L1 L2 L3
7
7
U2 V2 W2
T1 T2 T3
U1 V1 W1
L1 L2 L3
H1
<M 76>
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5819a
B1
B2
B4
B6
B8
14
T6
T1
T3
T5
130
T4
B3
B5
B7
T2
87
1800
10
Fig. 88
2350
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T2
25
6.5
2350
T1
634
602
12,5 52,5
T
B7
B8
1050 450
1075 475
30
B5
B6
1140 540
1112 512
25
37,5
B1
B2
B3
B4
1818 1800 1200 600
1802 1799 1199 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/51
Dimension Drawings
Cabinet units
+.A6
+.A8
+.A20
1643
<K 08>
8MF
Rittal
6
800
U1 V1 W1
L1 L2 L3
U2
T1
V2
T2
W2
T3
7
H1
<M 76> U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 06>
<M 07>
<M 07>
700
700
T2
87
2400
14
130
T1
T3
T5
B4
B6
B8
T6
B1
B2
B3
B5
B7
T4
DA65-5820a
10
Fig. 89
B6
840
812
2350
B8
750
775
T1
634
602
T2
25
6.5
T3
600
589
T4
9
6.5
2350
B7
450
475
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/52
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B5
540
512
30
B4
900
899
25
37,5
B1
B2
B3
2418 2400 600
2402 2399 599
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 460 V, 315 kW to 400 kW
480 V to 575 V, 250 kW to 315 kW
660 V to 690 V, 315 kW to 400 kW
2400
2
2000
+.A6
+.A7A
+.A8
+.A20
1643
<K 08>
8MF
Rittal
6
800
7
U1 V1 W1
L1 L2 L3
U2
T1
V2
T2
W2
T3
H1
7
<M 76> U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5821a
700
87
3000
14
130
T4
T1
T3
T5
700
5
T2
B4
B6
B8
T6
B1
B2
B3
B5
B7
10
Fig. 90
B6
840
812
2350
B8
750
775
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T1
634
602
2350
B7
450
475
12,5 52,5
T
B5
540
512
30
B4
900
899
25
37,5
B1
B2
B3
3018 3000 600
3002 2999 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/53
Dimension Drawings
Cabinet units
2500
2400
2
2000
+.A6
+.A7A
+.A8
+.A20
1643
<K 08>
8MF
6
Rittal
1010
7
7
U2
T1
W2
T3
<M 06>
<M 07>
B5
B8
B11
100
14
700
100
65
T2
DA65-5816d
B4
B7
B10
150
5
<M 06>
<M 07>
130
T6
B1
B2
B3
B6
B9
T1
T3
T5
T4
0
-100
-200
V2
T2
H1
U1 V1 W1
L1 L2 L3
2400
10
100
900
10
Fig. 91
B7
B8
1140 840
1112 812
2350
B10 B11
1050 750
1075 775
T1
634
602
2350
B9
450
475
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/54
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B6
540
512
30
B4
B5
1200 900
1199 899
25
37,5
B1
B2
B3
3318 3300 600
3302 3299 599
2650
Cabinet
Type
8MF
Rittal
Dimension Drawings
Cabinet units
380 V to 460 V, 500 kW
480 V to 575 V, 400 kW to 630 kW
660 V to 690 V, 500 kW to 800 kW
2400
2
2000
+.A6
+.A7A
+.A8
+.A20
1643
<K 08>
8MF
Rittal
6
800
7
V1
L2
W1
L3
U2
T1
0
-100
-200
V2
T2
W2
T3
H1
U1
L1
<M 06>
<M 07>
<M 06>
<M 07>
DA65-5822a
B1
B2
87
3000
14
700
700
T2
B4
B6
B8
130
T6
T1
T3
T5
T4
B3
B5
B7
10
Fig. 92
B6
840
812
2350
B8
750
775
T2
25
6.5
T3
600
589
T4
9
6.5
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
4
DA65-5382
125
DA65-6077a
T1
634
602
2350
B7
450
475
12,5 52,5
T
B5
540
512
30
B4
900
899
25
37,5
B1
B2
B3
3018 3000 600
3002 2999 599
2650
Cabinet
Type
8MF
Rittal
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
7/55
Dimension Drawings
Cabinet units
2000
+.A6
2
+.A7A
+.A8
+.A20
1643
<K 08>
U2
T1
8MF
1010
Rittal
V2
T2
7
W2
T3
H1
U1 V1 W1
L1 L2 L3
0
-100
-200
<M 06>
<M 07>
DA65-5823b
B1
B2
2400
65
150
T2
100
14
100
100
10
10
100
T2
25
6.5
T3
600
589
1200
130
T1
T3
T5
150
B4
B6
B7
310
T6
B3
B5
B7
T4
<M 06>
<M 07>
Fig. 93
2350
T4
9
6.5
2350
B8
T1
1050 634
1075 602
T5
466
440
T6
510
470
H1
63
25.5
Pedestal dimensions
2
3
DA65-6078
14
1814
14
Degree of protection
IP20
DA65-5383
Degree of protection
IP21
Degree of protection IP54 prepared for, air inlet on bottom, air outlet on top.
Degree of protection IP54 b on request.
$ Minimum ceiling height
for wall mounting
% Cover optional
& Air outlet
7/56
( Air inlet
) Cable entry possible
from underneath within
the gray area
30
Pedestal 8MF
Pedestal
Rittal
8MF
62,5
100
32,5
125
4
DA65-5384
Degree of protection
IP23/IP43
75
70
45
60
7
DA65-5382
125
DA65-6077a
Pedestal Rittal
Cabinet width
W
600/900/1200
600/900/1200
Cabinet depth
D
550
600
12,5 52,5
T
B6
B7
1140 450
1112 475
30
B4
B5
1200 540
1199 512
25
37,5
B1
B2
B3
3618 3600 600
3602 3599 599
2650
Cabinet
Type
8MF
Rittal
Vector Control
Appendix
A/2
A/3
Certificate of Adequacy
Test/Factory certificate
A/4
Index
A/7
A/8
A/9
A/11
A/12
A
Siemens DA 65.10 2003/2004
A/1
Appendix
A
A/2
Appendix
Certificate of Adequacy
Test/Factory certificate
A
Siemens DA 65.10 2003/2004
A/3
Appendix
Index
A
AC contactors
for converters
for rectifier units
for rectifier/regenerative units
Adapter APMU for cabinet-door mounting
Adapter board ADB
Additional documentation for converter cabinet
units
AFE inverter
AFE supply connecting module
Analog tachometer interface ATI
Approvals
ATI analog tachometer interface
Automatic restart WEA
Autotransformer
Auxiliary power supply
B
Backplane bus adapter LBA
Basic interference suppression
Basic setting
Bearing currents
BICO data sets
Block diagrams
Brake cables
Brake operation
Braking units and braking resistors
Bus adapter for the electronics box LBA
C
Cabinet units
Cabinet-unit earthing
Cable protection fuses
for converters
for rectifier units
for rectifier/regenerative units
Cables for motor connection
CAN
Capacitor module for Compact PLUS units
CBC board for CAN
see CAN
CBP board for PROFIBUS DP
see PROFIBUS DP
Certificate of Adequacy
Certificates
Circuit-breakers for system and motor protection
for converters
for rectifier units
for rectifier/regenerative units
Clean power filter
Closed-loop control characteristics
Closed-loop control functions
Commissioning, parameterization and diagnosis
with DriveMonitor
Communication
A/4
Page
from 3/47
from 3/67
from 3/71
3/90
3/87; 4/26
5/5
3/24; 3/26; 6/23
3/24; 3/62; 6/23
4/28
3/3
4/28
4/42; 6/16; 6/32
3/46; 3/73; 3/77;
4/34; 4/42; 6/47
3/94; 4/28; 4/38
3/87; 4/26; 4/37;
6/54
3/24; 3/65; 6/24
6/16
6/8
6/33
6/28
3/81
6/32
from 3/38; 6/49
3/87; 6/54
from 4/1
6/5
from 3/47
from 3/67
from 3/71
3/44; from 3/80;
6/50
2/5; 2/11; 3/85;
4/29; 4/37
3/78; 6/27
A/3
A/2
from 3/46
from 3/66
from 3/70
3/65; 6/24
2/3; 6/28
2/3; 6/28
2/10; 3/91
from 2/4;
from 6/56
6/47
4/31; 4/39
from 3/47
from 3/68
from 3/72
from 3/8
5/4
3/42
3/78
from 3/46
from 3/50
from 3/56
from 3/66
3/62
from 3/70
3/43; 6/48
3/42; 6/47
3/43; 6/50
2/14; 3/91; 6/54
3/79
D
DC braking
DC link components
Demonstration case
Digital tachometer interface DTI
DIN rail for mounting the interface module
Documentation for the converter cabinet units
Documentation overview
Drive dimensioning
Drive ES
DriveMonitor
DTI digital tachometer interface
dv/dt filters
DVA_S5
E
Earth-leakage monitor for cabinet units
EB1/EB2 terminal expansion boards
Electromagnetic compatibility (EMC)
Electronic options for compact and chassis units
Electronics box LBA
EMERGENCY OFF
Encoder cables
Engineering package Drive ES
Evaluation of motor-temperature sensor
F
Ferrite-core reactors
Field bus systems
Field-oriented closed-loop control
Free-wheeling diode on the DC bus
Function blocks
Function data sets FDS
Fuse bases to IEC/DIN
for rectifier units
for rectifier/regenerative units
Fuse switch disconnectors
for converters
for inverters
for rectifier units
for rectifier/regenerative units
Fuse switch disconnectors for DC coupling
for braking units
for inverters
Fuses for braking units
Fuses for inverters
G
G rail for mounting compact units
Page
6/7
from 3/57
1/4
6/2
from 6/35
2/3; 6/28
2/3; 6/28
6/31
2/9; 6/35; 6/39;
6/43; 6/44; 6/45
2/2
3/24; 4/20; 6/23
3/4
4/2
3/5; 3/9; 3/19;
4/28
3/18; 6/4
4/36
6/4
6/3
3/78
3/94
6/3
6/32
3/43; 6/48
5/8
3/89; 4/28; 4/38;
6/85
3/79
4/43; 5/2
5/2
6/7
2/14; 3/91; 6/54
2/10
3/89; 4/28; 4/38;
6/85
3/43; 4/31; 4/40;
6/51
2/12; 3/92; 6/56;
6/58
4/31; 4/39
3/86; 6/63; 6/65
6/46
3/85
3/87; 4/26; 4/37;
6/54
4/32; 4/41
from 3/80
2/14; 3/91; 6/56
6/32
from 3/50; 4/31;
4/40; 6/50
2/11
6/30
3/43; 3/57
2/3; 6/33
6/32
3/67
from 3/71
from 3/46
from 3/56
from 3/66
from 3/70
3/78
from 3/56
3/78
3/56
3/79
Appendix
Page
6/46
3/86; 4/27; 4/37;
6/67
ISO 9001
Isolation amplifier boards
Isolation monitor for cabinet units
IT systems
6/32
3/94
6/3
6/54
3/89; 4/28; 4/38;
6/80; 6/81
3/89; 6/82
2/4
6/46
6/3
2/2
from 3/4
3/50; 4/31; 4/40;
6/50
A/2
3/94; 4/30; 4/38
4/31; 4/39
4/31; 4/39
K
Kinetic buffering KIP
6/32
L
Large rating inverters
LBA backplane bus adapter
LBA electronics box
Line commutating reactors,
see also commutating reactors
Line fuses
Line-side components
Link-up to automation systems
Load capability of the relay contacts
Load resistance
Load-side components
Load torque square-law and constant
M
Main contactor
for converters
for rectifier units
for rectifier/regenerative AFE units
for rectifier/regenerative units
Main contactor operation
Maximum cable lengths with/without output
filter reactor
Mechanical components
Mechanical components and options for
cabinet units
MOTION CONNECT
Motor connection cables
Motor-converter combination
Motor data sets MDS
Motor protection
Motor-side filters
Motors with explosion-proof d type of
protection
Multi-motor drives
N
NAMUR
Notes on single drives
O
OP1S user-friendly operator control panel
Operating instructions
Operating instructions library
Operator control and parameterizing unit PMU
Operator control and visualization
Optional package for SIMATIC S7
Options for cabinet units
Order number examples
Output dv/dt filters
Output isolating amplifier
Index
6/3
3/87; 4/26; 4/37;
6/54
3/87; 4/26; 4/37;
6/54
6/47
3/46;
from 3/47;
from 3/56;
from 3/71
3/42; 6/47
2/11
6/66
6/49
3/43; 6/50
6/7
3/47
3/67
3/64
3/71
6/45
6/50
3/79
4/35; 4/42
3/44; 3/80
3/44; from 3/80;
6/50
6/7
6/32
6/8
4/40
6/8
6/11
4/32; 4/41; 6/83
6/9
2/8; 3/90
5/2
2/7
2/6; 3/90
2/12
from 4/26
1/8
3/43; 6/51
3/94; 4/30; 4/38
Output reactors
Selection and ordering data
Output reactors
Overcurrent protector unit OCP
Overload capability of the converters and
inverters
P
Panels for increasing the degree of protection
of chassis units
Parallel switching of parallel units
Parallel switched units
Peer-to-peer protocol
PFAD
PMU System description
Power section dimensioning
Power supply 24 V DC
Preassignment for the terminal strip
Precharging contactor
Precharging resistors for inverters
Page
3/43; 6/50
from 3/50
6/3
2/3; 3/36; 6/21
3/5; 3/9; 3/19;
4/5; 4/11; 4/15;
4/21; 4/31; 4/39;
6/2
PROFIBUS DP
PROTODUR
PROTOFLEX
PT 100 evaluation unit
3/79
6/17
3/16
2/5; 6/80
Cover page 2
2/7
from 6/2
6/24
6/41
3/64
3/57; 3/59; 3/61;
3/65
2/5; 3/85; 6/57
3/45; 3/82
3/45; 3/82
4/32; 4/42
Q
Quadratic load torque
6/7
R
Radio-interference suppression
Radio-interference suppression filters
Radio-interference suppression level
Rated data of the converters and inverters
Rectifier units and rectifier/regenerative units
for connection in parallel
Rectifier units for 24 V DC power supply
Rectifier units
Selection and ordering data
System components
Technical data
Rectifier/regenerative AFE units
Selection and ordering data
System components
Technical data
Rectifier/regenerative units
Selection and ordering data
System components
Technical data
Reserve data sets
Reserve settings
Restart-on-the-fly
Rise times
S
Safe Stop
SCB1/SCB2 interface boards
SCI1/SCI2 interface boards
Semiconductor protection fuses
for converters
for rectifier units
for rectifier/regenerative AFE units
for rectifier/regenerative units
Service and Support
Shield clamps to connect control-cable
shields
SIMATIC
SIMOLINK
Single drives
Sinusoidal filters
SLB board for SIMOLINK
see SIMOLINK
Software functions
Software modules for technology boards
T100
T300
A/5
Appendix
Index
Software update service for Drive ES
Speed accuracy level
STOP function
STRUC L PT/STRUC G PT configuring
languages
Supplementary cabinets
Supply cable fuses
Converters 1-quadrant, 6-pulse
Converters 1-quadrant, 12-pulse
Converters 4-quadrant, 6-pulse
Converters with AFE
Supply connecting module for AFE
Supply connecting voltages
Supply voltage sensing (VSB)
Switch disconnectors with/without fuse holders
for converters
for rectifier units
for rectifier/regenerative AFE units
for rectifier/regenerative units
Synchronization board TSY
Synchronization, converter-converter
System components
System structure
T
Technology board
T100
T300
T400
Technology controller
A
A/6
Page
3/92
6/31
4/32; 4/41
6/72
4/45
4/7
4/13
4/17; 4/19
4/23; 4/25
3/24; 3/62; 6/23
3/42; from 3/47;
from 3/67;
from 3/71
3/24; 3/62; 3/65;
6/23
from 3/46
from 3/66
from 3/63
from 3/70
3/89; 6/32; 6/84
6/32
2/3; from 3/42
from 2/2
U
USS protocol
V
V/f characteristic
V/f characteristic for textile applications
V/f characteristic types of control
Vector control
Voltage derating
Voltage limiting filters
see also dv/dt filters
VSB voltage sensing board
W
Water-cooled converters
Wobble generator
X
X9
see control terminal strip
Page
3/86; 6/63; 6/65
A/3
4/32; 4/42
3/93; 4/31; 4/39
6/31
5/7
5/6
5/9
3/89; 6/32; 6/84
4/36
2/4; 2/11; 6/56;
6/81
6/28; 6/84
6/29; 6/84
6/28
6/29; 6/31
6/47
3/24; 3/62; 3/65;
6/23
from 3/14; 6/4
3/87; 6/32; 6/69
Appendix
Technical Support,
Spare parts/repairs,
Service,
Training,
Sales or
Consultation/engineering.
Country,
Product or
Industrial sector.
A
Siemens DA 65.10 2003/2004
A/7
http://www.siemens.com/
automation
you will find everything you
need to know about products, systems and services.
http://www.siemens.com/
automation/ca01
or on CD-ROM:
Automation and Drives, CA 01
Order No.:
E86060-D4001-A110-B9-7600
Standard Drives, SD 01
Order No.:
E86080-D5201-A100-A3-7600
http://www.siemens.com/
automation/mall
A
A/8
Online Support
Technical Support
The comprehensive information system available round
the clock via the Internet ranging from Product Support
and Service & Support services to Support Tools in the
Shop.
http://www.siemens.
com/automation/service&
Technical Consulting
Support in the planning and
designing of your project
from detailed actual-state
analysis, target definition and
consulting on product and
system questions right to
the creation of the automation solution. 1)
Competent consulting in
technical questions covering
a wide range of customeroriented services for all our
products and systems.
Service On Site
With Service On Site we offer services for startup and
maintenance, essential for
ensuring system availability.
In Germany, call:
Tel.: 0180 50 50 444 1)
In the United States, call
toll-free:
Tel.: +1 800 333 7421
In Canada, call:
Tel.: +1 888 303 3353
In Germany, call:
Tel.: 0180 50 50 448 1)
In Canada, call:
Tel.: +1 888 303 3353
1) For the right partner for your country, please look at our Internet site at:
http://www.siemens.com/automation/service&support
Siemens DA 65.10 2003/2004
A/9
Appendix
Notes
A
A/10
Appendix
Export regulations
ECCN
6ZB5310-0KR30-0BA0
(for customers based in the Federal Republic of Germany)
6ZB5310-0KS53-0BA0
(for customers based outside of the Federal Republic of Germany)
Responsible for
Technical contents:
Siemens AG, A&D MC PM, Erlangen
Siemens AG, A&D LD M MS, Nuremberg
General editing:
Siemens AG, A&D PT 5, Erlangen
Siemens AG
Automation and Drives
Motion Control Systems and Large Drives
PO Box 31 80
D-91050 Erlangen
Germany
A/11
Appendix
Fax order
Siemens AG Infoservice
P.O. Box 23 48
D-90713 Frth
Germany
AD/Z330E
Company
Department
Name
Motion Control
Street
Vector Control
Postcode/City
Telephone
Fax
Email
Date
Signature
A/12
Catalogs of the
Catalog
CA 01
NC 60
Communication-Capable Controlgear,
Controlgear with SIRIUS, SIGUARD Safety Systems,
Control and Signalling Devices, Switchgear,
Transformers and DC Power Supplies,
Main- and EMERGENCY-STOP Switches,
Control Switches, Terminal Blocks
NC Z
NS BERO
NS PS
SENTRON WL
NS WL
PM 10
Drive Systems
Variable-Speed Drives
Catalog
NS K
DC Motors
DA 12
DA 12.1
DA 12.2
DA 21.1
DA 21.2
DA 22
MP 12
DA 45
MP 20
SIEMOSYN Motors
DA 48
MP 31
DA 51.2
WT 01
DA 51.3
PA 10
DA 63
PA 11
DA 65.10
PA 20
DA 65.11
DA 65.3
DA 65.4
ST 45
NC 60
ST 50
ST 70
ST PCS 7
ST PCS 7.A
ST DA
FI 01
M 10
MP 35
M 11
MP 35.1/.2
HE 1
Systems Engineering
Power supplies SITOP power
KT 10.1
KT 10.2
KT 21
KT 51
ET A1
ET A3
ET B1
ET D1
ET G1
System Solutions
Applications and Products for Industry are part of the
interactive catalog CA 01
ST 80
PLT 111
PLT 112
PLT 123
PLT 130
IK PI
Token fee: 5, /$
Siemens AG
Automation and Drives
Motion Control Systems and Large Drives
Postfach 31 80, D-91050 Erlangen
Germany
www.siemens.com