VM210 En004
VM210 En004
VM210 En004
Technical description
VAMP 210 Generator protection relay VAMP Ltd
Operation and configuration
Table of Content
1. General ...................................................................................5
1.1. Relay features......................................................................5
1.2. Operating safety .................................................................6
2. User interface .........................................................................7
2.1. General.................................................................................7
2.2. Relay front panel.................................................................7
2.2.1. Display .........................................................................8
2.2.2. Key pad.......................................................................8
2.2.3. Indicators ....................................................................9
3. Local panel operations .......................................................10
3.1. Navigation in the menus................................................. 10
3.1.1. Function menu table.............................................. 11
3.1.2. Basic menu structure of protection functions .... 16
3.2. Operating levels ............................................................... 17
3.2.1. Opening operating levels ..................................... 18
3.2.2. Changing passwords ............................................. 18
4. Operating measures ............................................................19
4.1. Measured data ................................................................ 19
4.2. Operation indicators ....................................................... 20
4.3. Reading event register.................................................... 21
4.4. Forced control (Force) .................................................... 21
4.5. Setting range limits........................................................... 22
4.6. Adjusting display contrast............................................... 22
5. Configuration and parameter setting ................................23
5.1. Principle of parameter setting ....................................... 23
5.2. Disturbance recorder menu DR..................................... 24
5.3. Configuring digital inputs DI ........................................... 25
5.4. Configuring digital outputs DO...................................... 25
5.5. Configuring protection functions Prot .......................... 25
5.6. Setting protection function parameters....................... 26
5.7. Configuration menu CONF ............................................ 26
5.8. Protocol menu Bus ........................................................... 28
6. PC software...........................................................................29
6.1. PC user interface.............................................................. 29
6.1.1. Using the VAMPSET program................................. 29
6.2. Remote control connection........................................... 29
7. Commissioning configuration.............................................30
7.1. Factory settings................................................................. 30
7.1.1. Configuration during commissioning .................. 30
7.1.2. Configuration example ......................................... 31
1. General
This part of the manual describes the functions of the generator
protection relay VAMP 210 and includes the relay operation
instructions. It also contains instructions for parameterization
and configuration of the relay and instructions for changing
settings.
The second part of the publication includes detailed protection
function descriptions as well as application examples and
technical data sheets.
The Mounting and Commissioning Instructions are published
in a separate publication with the code VMMC.EN0xx.
2. User interface
2.1. General
The VAMP 210 protection relay can be controlled in three
ways:
Locally with the push-buttons on the relay front panel
Locally using a PC connected to the serial port on the front
panel or on the rear panel of the relay (both cannot be used
simultaneously)
Via the remote control port on the relay rear panel.
VAMP 210
Generator Protection Relay
Power
Error
Com
3
Alarm
Trip 1
A
B
C
4
2
VY 062 B
2.2.1. Display
The VAMP 210 protection relay is provided with a back lit LCD
dot matrix display. The display is divided into sections as
shown in the next figure.
lcdnaytt
4 2
6
CURRENTS
3
IL1 503A
MEAS IL2 505A
Ev t
n IL3 502A
DI Io 0.07A
.
DO Uo 3.0 .
Pr t
o f 50.010HZ
1 5
Figure 2.2.1-1 Sections of the LCD dot matrix display.
Inside brackets is the term used for the buttons in this manual.
2.2.3. Indicators
The relay is provided with eight LED indicators on the relay
front panel:
Power
Error
Com
Alarm
Trip
A
B
C
Figure 3.1-1 The principles of the menu structure and navigation in the
menus.
Evnt (Events)
EVENT COUNT
EVENT LIST
DR (Disturbance Recorder)
DISTURBANCE RECO
REC. COUPLING
DI (Digital Inputs)
DIGITAL INPUTS
DELAYs for DigIn
INPUT POLARITY
EVENT MASK1
EVENT MASK2
DO (Digital Outputs)
RELAY OUTPUTS 1
RELAY OUTPUTS 2
Matrix emblems
XXX xxx output (Output Matrix)
Prot (Protection)
PROTECTION SET
PROTECT STATUS 1 5
ENABLED STAGES 1 5
XXX xxx output (Block Matrix)
I>
I> STATUS 51
SET I> 51
LOG I> 51
LOG2 I> 51
I> event mask
I>>
I>> STATUS 51
SET I>> 51
LOG I>> 51
LOG2 I>> 51
I>> event mask
Iv>
Iv> STATUS 51V
SET Iv> 51V
SET Iv> 51V
LOG Iv> 51V
LOG2 Iv> 51V
Iv> event mask
Io>
Io> STATUS 51N
SET Io> 51N
LOG Io> 51N
LOG2 Io> 51N
Io> event mask
Io>>
Io>> STATUS 51N
SET Io>> 51N
LOG Io>> 51N
LOG2 Io>> 51N
Io>> event mask
Io>
IoDr> STATUS 67N
SET IoDir> 67N
SET2 IoDir> 67N
LOG IoDir> 67N
LOG2 IoDir> 67N
Io> event mask
Io2>
Io2> STATUS 51N
SET Io2> 51N
LOG Io2> 51N
LOG2 Io2> 51N
Io>2 event mask
Io2>>
Io2>> STATUS 51N
SET Io2>> 51N
LOG Io2>> 51N
LOG2 Io2>> 51N
Io2>> event mask
Uo>
Uo> STATUS 59N
SET Uo> 59N
LOG Uo> 59N
LOG2 Uo> 59N
Uo> event mask
Uo>>
Uo>> STATUS 59N
SET Uo>> 59N
LOG Uo>> 59N
LOG2 Uo>> 59N
Uo>> event mask
U>
U> STATUS 59
SET U> 59
LOG U> 59
LOG2 U> 59
U> event mask
U>>
U>> STATUS 59
SET U>> 59
LOG U>> 59
LOG2 U>> 59
U>> event mask
U1<
U1< STATUS 27
SET U1< 27
LOG U1< 27
LOG2 U1< 27
U1< event mask
T>
T> STATUS 49
SET T> 49
T> event mask
Q<
Q< STATUS 40
SET Q< % 40
SET Q< kvar 40
SET Q< 40
LOG Q< 40
LOG2 Q< 40
Q< event mask
P<
P< STATUS 32
SET P< 32
LOG P< 32
LOG2 P< 32
P< event mask
f>
f> STATUS 81
SET f> 81
LOG f> 81
LOG2 f> 81
f> event mask
CONF (Configuration)
DEVICE SETUP
POWER SCALING
CURRENT SCALING
VOLTAGE SCALING
Io1 SCALING
Io2 SCALING
DEVICE INFO
DATE/TIME SETUP
CLOCK SYNC
Bus (Protocols)
PROTOCOL
MODBUS
SPABUS SLAVE
IEC-103
Profibus DP
TCP/IP
LOG I>:
Index 1 Order number of start 1 8, 1=latest
Type - Recorded event data
Flt A Fault current
Load A Current before fault
EDly % Elapsed delay, 100% = tripped
LOG2 I>:
Index 1 Order number of start 1 8, 1=latest
2002-08-22 Time stamp of event
20:34:11
67ms
USER level
Use: Parameter values can be read
Opening: Level permanently open
Closing: Closing not possible
OPERATOR level
Use: Settings of protection stages can be changed
Opening: Default password 0001
Setting state: On entering the parameter setting state a
password must be given, see 3.2.1
Closing: The level is automatically closed when 10
minutes has elapsed since a key was pushed
or a setting was done via the local port. The
level can also be closed by giving the password
9999
CONFIGURATION level
Use: The configuration level is needed during the
commissioning of the relay. E.g. the turn
ratios of the voltage and current transformers
can be set.
Opening: Default password 0002
Setting state: On entering the parameter setting state a
password must be given, see 3.2.1
Closing: The level is automatically closed when 10
minutes has elapsed since a key was pushed
or a setting was done via the local port. The
level can also be closed by giving the password
9999
0
***
4. Operating measures
General
Carefully study the operating instructions in chapters 1
through 3 of this manual before taking any operating measures
or changing any relay settings or functions.
The relay can be controlled from the relay front panel, from a
PC running the VAMPSET software, from a PC running a
suitable terminal software, or from a remote control system.
Submenu CURRENTS
The CURRENTS display shows a list of parameters and their
values.
currents
CURRENTS
IL1 308A
MEAS IL2 317A
Evnt IL3 309A
DI Io 0.16A
DO f 50.010Hz
Prot
Figure 4.1-1 Current and frequency data.
EVENT LIST
17 Io> Start on
1.22 pu
2002-02-15
00:17:37.530
3. Scroll through the event list with the UP and DOWN keys.
4. Exit the event list by pushing the LEFT key.
ENTER : password
CANCEL: back to menu
Figure 4.5-1 Display of allowed setting ranges
REC. COUPLING
Add a link to the recorder (AddLink)
Clear all links (ClrLnks)
Available links:
DO, DI
Uline, Uphase
IL
U2/U1, U2, U1
I2/Ign, I2/I1, I2, I1
CosFii
PF, S, Q, P
f
Uo, UL3, UL2, UL1
U31, U23, U12
Io2, Io
IL3, IL2, IL1
POWER SCALING
Rated generator apparent power (Sgn)
Rated generator voltage (Ugn)
Rated generator current (Ign) (derived value)
Prime mover shaft power (Pm)
Calculated power CTxVT (CTxVT) (derived value)
Unit transformer used? (Trafo)
CURRENT SCALING
Rated CT primary current (Inom)
Rated CT secondary current (Isec)
Rated current of current input (Iinput) (only display)
VOLTAGE SCALING
Rated VT primary voltage (Unom)
Rated VT secondary voltage (Usec)
Rated residual VT secondary voltage (Uosec)
Io1 SCALING
Io1 current transformer primary current (Io1n)
Io1 current transformer secondary current (Io1sec)
Io1 current input rated current (Io1inp) (only display)
Io2 SCALING
Io2 current transformer primary current (Io2n)
Io2 current transformer secondary current (Io2sec)
Io2 current input rated current (Io2inp) (only display)
DATE/TIME SETUP
Date (Dat)
Time (Time)
Presentation style of date information (Style)
MODBUS
Device slave number at Modbus Slave Protocol or
target slave number at Modbus Master Protocol (Addr)
Modbus transfer rate (bit/s)
ModBus parity check (Parity)
SPABUS SLAVE
Slave number (Addr) when relay connected to SPA-Bus
SPA-Bus transfer rate (bit/s)
Event mode (Emode)
ProfiBus DP
ProfiBus profile (Mode)
Transfer rate of converter (bit/s)
ProfiBus Tx Buf length (InBuf)
ProfiBus Rx Buf length (OutBuf)
ProfiBus address (Addr)
Type of the ProfiBus converter (Conv)
IEC-60870-5-103
Slave address (Addr)
Transfer rate (bit/s)
6. PC software
7. Commissioning configuration
Figure 7.1.1-1 Principle for scaling the measured values of the VAMP 210
relay.
1 Start data
Given within parenthesis are the configuration menus where
the settings are done.
Rated values of the generator and the prime mover:
Generator rated power
Sgn 6000 kVA
(Conf/power scaling)
Generator rated voltage
Ugn 6300 V
(Conf/power scaling)
Prime mover rated power
Pm 4800 kVA
(Conf/power scaling)
3 Blocking matrix
The required blockings are made in the Prot menu, see chapter
5.5 on page 25.
Typical blockings:
The U< and I> functions block the f< function, a DI signal
from the MCB of the potential transformers blocks the U<
and f< functions.
Table of Content
1. Introduction ............................................................................3
1.1. Application ..........................................................................3
1.2. Main features.......................................................................3
2. Functions .................................................................................5
2.1. Principles of the numerical protection technique .........5
2.2. Protection relay functions..................................................7
2.2.1. Overcurrent protection (50/51) ..............................7
2.2.2. Voltage restrained and voltage controlled
overcurrent function (51V) ................................... 14
2.2.3. Unbalance protection (46) .................................. 16
2.2.4. Directional earth-fault protection (67N)............. 18
2.2.5. Earth fault protection (50N/51N) ......................... 19
2.2.6. Residual voltage protection (59N) ...................... 21
2.2.7. Overvoltage protection (59)................................ 22
2.2.8. Undervoltage protection (27/60) ........................ 23
2.2.9. Overload protection (49) ..................................... 24
2.2.10. Underexcitation protection (40) .......................... 25
2.2.11. Reverse power protection (32R).......................... 27
2.2.12. Overfrequency protection (81H)......................... 28
2.2.13. Underfrequency protection (81L)........................ 29
2.2.14. Circuit-breaker failure protection (50BF)............ 30
2.2.15. Arc fault protection (option) ArcI> (51 L>), ArcI0>
(51N L>), ArcI02> (51N L>) ...................................... 31
2.3. Measurement functions of the relay............................. 32
2.4. Output relay and blocking functions............................ 33
2.4.1. Output relay matrix................................................ 34
2.4.2. Blocking matrix ....................................................... 34
2.5. Communication ............................................................... 34
2.5.1. PC port..................................................................... 34
2.5.2. Remote control connection ................................ 34
2.6. Disturbance recorder ...................................................... 35
2.7. Self-supervision.................................................................. 36
3. Applications..........................................................................37
3.1. Directly connected generator....................................... 38
3.2. Directly connected generator with unearthed
generator neutral ............................................................ 39
3.3. Generator-transformer unit............................................. 40
3.4. Trip circuit supervision ...................................................... 41
4. Connections .........................................................................43
4.1. Digital inputs...................................................................... 43
4.2. Auxiliary voltage............................................................... 44
4.3. Output relays .................................................................... 44
4.4. Serial communication connection ............................... 44
4.5. Arc Protection................................................................... 44
4.6. Block diagram .................................................................. 45
1. Introduction
This part of the users manual describes the protection
functions, provides a few application examples and contains
technical data. This part of the manual also includes the
operating instructions.
Mounting and commissioning instructions are given in a
separate mounting and commissioning manual
(VMMC.EN0xx).
1.1. Application
The numerical generator protection relay VAMP 210 includes
all the essential functions needed for protection of small or
medium-sized power generators in modern unmanned fully
automatic power plants. Further the relay includes several
programmable functions, such as arc, thermal, trip circuit
supervision and circuit breaker protection and communication
protocols for various protection and communication situations.
The generator protection relay provides comprehensive
protection for generators in various power plant types, such as
hydro, steam and diesel power plants. The same relay type can
be used for the protection of a single generator as well as for
several generators running in parallel.
The modern technology in association with an extensive self-
supervision system and a reliable construction ensures an
extremely high availability for the VAMP 210 protection relay.
2. Functions
The individual protection functions of the generator protection
relay VAMP 210 can independently of each other be enabled or
disabled according to the requirements of the intended
application. See the configuration instructions, Chapter 5 and
7, in the first part of this manual.
Im1
Im2
Im3
MAX
Imax
> ts tr
& Start
Havahtuminen
Lukitus
Block
& Register
Tapahtuma
event
rekisteriin
t
1 Laukaisu
Trip
Register
& Tapahtuma
event
rekisteriin
Setting
AsetteluIsIs Viive
Delay Definite / inverse Inverse
Vakio-/knteis- time Kerroin
Knteis- Multiplier Enable events
Tapahtumien
time aika tyyppi
aika toiminto characteristics sallinta
Limitations:
1. The maximum measured current is 50 x In. This limits the
scope of inverse curves when the setting is more than 2.5 x
In. See Figure 2.1-1. E.g. at setting 4 x In the maximum
setting relative current is 12.5 x Iset/In although the curves
are defined up to 20 x Iset/In
2. The fastest possible operating time is about 60 ms at
inverse time characteristic according to curve types VI and
EI.
k
t = 0,14 0 , 02
I
1
I >
k
t = 13,5
I
1
I >
(See explanation for formula on page 10.)
k
t = 80 2
I
1
I >
k
t = 120
I
1
I >
When the generator pole voltage falls below the set voltage
level, the start current level of the overcurrent stage IV> also
starts falling linearly controlled by the voltage according to the
characteristic curve in Figure 2.2.2-1.
When the setting parameters are selected according to Figure
2.2.2-2 the function is said to be voltage controlled.
Note: The overcurrent function can be used as a normal high-
set overcurrent stage I>>>, if IY1 and IY2 are set to 100%.
Isinj
>
Io
& Start
Icosj
Block
& Register
event
Uo
>
t Trip
& Register
event
MAX
> & Start
ts tr
Block
& Register
event
Trip
t
& Register
event
MAX
> & Start
ts tr
Block
& Register
event
Trip
t
Register
& event
t = ln
I 2 ( k I gen ) 2
where:
=
time to trip
I =
generator heating and cooling time constant
ln =
natural logarithm
Ip =
preload current (corresponds to the heating
level reached)
k = factor for allowed continuous overload
IGN = generator rated current
The heating time constant () and the load current factor (k)
corresponding to the maximum thermal load are adjustable.
The cooling time constant of the thermal overload protection is
the same as the heating time constant.
The thermal overload stage is provided with a separately
adjustable alarm function, the setting range of which is
60...100% of the thermal trip level.
P P-Q-Circle1
100% = Sgen
80%
Q2
Q
Q1
P P-Q-circle2
100% = Sgen
80%
Q2
Q
Q1
Start
Register
& events
Im1
Im2
Im3
MAX > & Trip
L>
Register
& events
In the above figure the symbol of the starting of the arc sensor
is L> and Iarc of the fast overcurrent stage.
Residual voltage U0
Measuring range 0 - 175 V ac
Frequency f
Measuring range 16 - 75 Hz
Apparent power S
Measuring range 0... 2 x SN (SN = IN * UN * 3)
Active power P
Measuring range 0... 2 x SN
Reactive power Q
Measuring range 0... 2 x SN
2.5. Communication
2.5.1. PC port
The PC port is used for on-site parameterization of the relay,
for downloading of the program and for reading relay
parameters to a PC.
For connection to a PC, one RS 232 serial port is available on
the front panel of the relay. Any connection to the port is done
with the connection cable type VX 003.
Available links
The following channels can be linked to Disturbance Recorder:
IL1, IL2, IL3, IL, Io, Io2, I2/I1
U12, U23, U31, UL1, UL2, UL3
U1, U2/U1, Uo
Uphase, Uline
f
P, Q, S, PF
cos
DI, DO
2.7. Self-supervision
The functions of the micro controller and the associated
circuitry as well as the program execution are supervised by
means of a separate watchdog circuit. Besides supervising the
relay the watchdog circuit attempts to restart the micro
controller in a fault situation. If the restarting fails the
watchdog issues a self-supervision alarm because of a
permanent relay fault.
When the watchdog circuit detects a permanent fault it always
blocks any control of the other output relays, except for the self-
supervision output relay.
Also the internal supply voltage is supervised. Should the
auxiliary supply of the relay disappear, an IF alarm is
automatically given, because the IF output relay is normally
always energized when the auxiliary supply is on and within
the permitted range.
3. Applications
The VAMP 210 generator protection relay comprises all the
essential protection functions needed for a generator, except
the differential protection function.
Thanks to the comprehensive range of protection functions the
generator protection relay can be used as the main protection
for a variety of generators from small diesel power plants to
large hydro power plants in the power range from 1 to 100 MW.
Especially versatile and flexible protection functions are
provided for the generator earth-fault protection. These
features are needed, when for instance, several generators are
connected in parallel to the same busbar but their earthing
principles differ.
The other energizing connections, except for the ones for the
earth-fault protection, are independent of the generator size
and type. For large generator a higher accuracy of the
protection functions is needed. Being based on numerical signal
processing and high-resolution A/D conversion the VAMP 210
generator protection relay fulfils also these requirements.
The three generator protection applications on the following
pages illustrate how the flexibility of the VAMP 210 generator
protection relay can be utilized.
X3
VAMP 210
17 ~ Protection function X4
18
3I> U> X5
X1
1 3I>> U>>
X3
2 IL1
P> U< A1 9
3 11
10
4 IL2 P>> U<<
T2 12
5
13
VEO-MSV IL3 I0> I0 ,U0>
6
230V~ T1 14
7 I0>> I0,U0>>
15
I01
G
8
9 I2> F> X2
I02 A5 5
10
6
11 A4 7
U12 X< f>
12
8
f<
13
f<< A3 10
U23 X<<
14 11
12
17 A2 13
U0 Blocking and 14
18
output matrix 15
IF 16
+48 V DC X3 17
1 18
2
Digital 3
4
inputs 5
6
7
X3
VAMP 210
17 ~ Protection function X4
18
3I> U> X5
X1
1 3I>> U>>
X3
2 IL1
P> U< A1 9
3 11
10
4 IL2 P>> U<<
T2 12
5
13
IL3 I0> I0 ,U0>
6
T1 14
7 I0>> I0,U0>>
15
I01
G
8
9 I2> F> X2
I02 A5 5
10
6
11 A4 7
U12 X< f>
12
8
f<
13
f<< A3 10
U23 X<<
14 11
12
17 A2 13
U0 Blocking and 14
18
output matrix 15
IF 16
+48 V DC X3 17
1 18
2
Digital 3
4
inputs 5
6
7
A a L1
B b
A a L2
B b L3 X3
VAMP 210
17 ~ Protection function X4
18
3I> U> X5
X1
1 3I>> U>>
X3
2 IL1
P> U< A1 9
B 3 11
A C 10
4 IL2 P>> U<<
T2 12
5
13
IL3 I0> I0 ,U0>
6
a c T1 14
b 7 I0>> I0,U0>>
15
8
I01
9 I2> F> X2
I02 A5 5
10
G
6
11 A4 7
U12 X< f>
12
8
f<
13
f<< A3 10
U23 X<<
14 11
12
17 A2 13
U0 Blocking and 14
18
output matrix 15
IF 16
+48 V DC X3 17
1 18
2
Digital 3
4
inputs 5
6
7
Figure 3.4-2. Trip circuit supervision when the circuit-breaker is open. The
supervised circuitry in this CB position is doubled-lined. The value for R1 in
this application is 3k3 and 2W. These can be calculated from the resistance
and voltage operating range of the coil of K1 and the tolerance of the
wetting voltage.
4. Connections
X3 X6 X2 X1
1 1 1
2 2 2
1 2 IL1
3 3 3 IL1
4 4 4
3 4 IL2
IL2
REMOTE
5 5 5
(TTL)
6 6 6
X5 IL3 5 6 IL3
7 7 7 8 I0
I0 7
8 8
9 9 I02 9 10 I02
10 10 12 U12
U12 11
11 11
12 12 U23 13 14 U23
(RS-232)
LOCAL
13 13
X4 15 16
14 14
40..265V
18 U0
AC/DC
15 15 U0 17
16 16
19 20
17 17
18 18
VYX060A
Figure 4-1 Connections on the rear panel of the relay.
Figure 4.6-1 Block diagram of the generator protection relay VAMP 210.
5. Technical data
5.1. Connections
5.1.1. Measuring circuitry
Rated current In 1 A or 5 A
- Current measuring range 0 - 50 x In
- Thermal withstand 4 x In (continuously)
20 x In (for 10 s)
100 x In (for 1 s)
- Burden < 0.1 VA (In = 1 A)
< 0.2 VA (In = 5 A)
Rated voltage Un 50 - 120 V (configurable)
- Voltage measuring range 0 - 175 V (100 V/110 V)
- Continuous voltage withstand 250 V
- Burden < 0.5V A
Rated frequency fn 45 - 65 Hz
- Frequency measuring range 16 - 75 Hz
Terminal block: Max. wire dimension:
- Solid or stranded wire 4 mm2 (10-12 AWG)
5.2.5. Casing
Degree of protection (IEC 60529) IP20
Dimensions (W x H x D) 208 x 155 x 225 mm
Material 1 mm steel plate
Weight 4.2 kg
Color code RAL 7032 (Casing) / RAL 7035 (Back plate)
5.2.6. Package
Dimensions (W x H x D) 215 * 160 * 275
Weight (Relay, Package and Manual) 5.2 kg
Inaccuracy:
- Starting 2% of set value
- Operating time 1% or 30 ms
*) This is the instantaneous time i.e. the minimum total operational time including the fault
detection time and operation time of the trip contacts.
Inaccuracy:
- Starting 3% of set value or 0.5% of rated value
- Operating time 1% or 150 ms
*) This is the instantaneous time i.e. the minimum total operational time including the fault
detection time and operation time of the trip contacts.
6. Construction
6.1. Dimensional drawing
208.0 28.0 181.0 27.0
155.0
137.0
190.0
193.0 >20.0
139.0
PANEL
CUT-OUT
1.0-10.0 P200_ulkomitat_kannella
b a
P200_semi-flush
7. Order information
When ordering, please, state:
Type designation: VAMP 210
Quantity:
Auxiliary voltage:
Rated current:
Rated earth fault current:
Options:
VAMP 210 - 7
Frequency [Hz]
7 = 50/60Hz
Optional hardware
A = None
B = Plastic/Plastic fibre interface
C = Profibus interface
D = RS 485 interface
E = Glass/Glass Optic Interface
F = Plastic/Glass Optic Interface
G = Glass/Plastic Optic Interface
Optional software
A = None
Accessories :
8. Reference information
Documentation:
Mounting and Commissioning Instructions VMMC.EN0xx
VAMPSET Users Manual VMV.EN0xx
Manufacturer data:
VAMP Ltd
P.O.Box 810
FIN-65101 Vaasa, Finland
Visiting address: Yrittjnkatu 15
Phone: +358 (0)20 753 3200
Fax: +358 (0)20 753 3205
24h support: +358 (0)20 753 3264
Email: vamp@vamp.fi
URL: http://www.vamp.fi
Service:
VAMP Ltd
P.O.Box 810
FIN-65101 Vaasa, Finland
Visiting address: Yrittjnkatu 15
Phone: +358 (0)20 753 3200
Fax: +358 (0)20 753 3205
24h support: +358 (0)20 753 3264
Email: vamp@vamp.fi
URL: http://www.vamp.fi
24h support phone:
Tel. +358 (0)20 753 3264
Email:
vampsupport@vamp.fi
During office hours 6.00 -
14.00 GMT, please use
the following telephone
number +358 (0)20 753
3200
VM210.EN004