193 Um012 - en P
193 Um012 - en P
193 Um012 - en P
Identifies information that is critical for successful application and understanding of the product.
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Table of Contents
Installation and Wiring
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Network Design. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Protection Functions
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trip Status / Identification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trip Resetting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trip and Warning Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overload and Phase Loss Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Overload Warning. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Jam Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Jam Trip . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Jam Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Underload Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Underload Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Communication Fault Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Comm Fault Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Communication Idle Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Comm Idle Warning. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
13
13
13
13
14
14
15
15
16
16
16
17
17
17
17
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Determining Network Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting the IP Network Address . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Assign Network Parameters via the BOOTP/DHCP Utility. . . . . . . . .
Assign Network Parameters Via a Web Browser and MAC Scanner
Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Other Factors to Consider When Assigning Network Parameters . . . .
Duplicate IP Address Detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Behavior of Modules With Duplicate IP Addresses . . . . . . . . . . . . . .
DNS Addressing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Install EDS File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Download EDS File Embedded in the Module . . . . . . . . . . . . . . . . . .
Download EDS File from Allen-Bradley EDS File Download Site
Register the EDS File . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
19
19
20
20
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Messaging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
ControlLogix Configuration with Add-On Profiles . . . . . . . . . . . . .
EtherNet/IP Network Configuration with Add-On Profiles . . . . .
Accessing Module Data with Add-On Profiles . . . . . . . . . . . . . . . . . .
ControlLogix Generic Configuration . . . . . . . . . . . . . . . . . . . . . . . . . .
EtherNet/IP Network Generic Configuration . . . . . . . . . . . . . . . . . .
Downloading the Generic Configuration to the PLC . . . . . . . . . . . .
33
33
33
35
37
38
40
43
22
24
25
25
26
26
26
27
28
44
45
48
51
Email Notifications
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Notification Events. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Email Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Email Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configure Device Identity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Limitations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
57
57
57
58
59
61
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Parameter and Tag Programming . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Program Lock . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Resetting to the Factory Default Values. . . . . . . . . . . . . . . . . . . . . . . . .
Parameter Group Listing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Monitor Group. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Advanced Setup Group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reset/Lock Group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
I/O Setup Group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trip History Group. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
63
63
63
63
64
64
65
68
69
71
Troubleshooting
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EtherNet/IP Modes of Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power-Up Reset Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Run Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Recoverable Error Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unrecoverable Error Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
EtherNet/IP Troubleshooting Procedures . . . . . . . . . . . . . . . . . . . . . . . . . .
Input and Output Troubleshooting Procedures . . . . . . . . . . . . . . . . . . . . .
73
73
73
74
74
75
75
75
Specifications
Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 77
EtherNet/IP Information
81
81
81
82
83
85
85
86
87
88
89
91
91
92
93
95
95
95
Chapter
Introduction
Chapter 1
Features
Figure 1 - Features
Output Status LED
Ethernet Connector
Link/Activity LED
Network Status LED
Power Connector
I/O Connector
Link/Activity LED
Network Status LED
Chapter 1
Installation
#2 Driver
0.71.1 Nm
(610 lb.-in)
Figure 4 - Installation [3]
7 mm
(0.28 in)
0.50.6 Nm
(4.45.3 lb.-in)
Chapter 1
Wiring
Table 1 - Wire and Size Torque Specifications
1X
2X
2412 AWG
2416 AWG
5 lb.-in
1X
2X
0.22.5 mm2
0.251 mm2
0.56 Nm
1X
2X
0.22.5 mm2
0.21 mm2
0.56 Nm
GND
A2 (-)
10
SSV
IN2
13 14 1
OUTA
(B300)
(20.426.4V DC)
A1 (+)
IN1
Chapter 1
Dimensions
J
A
F
E
K
B
D
Network Design
C
85.2 mm
(3.35 in)
101.2 mm
(3.98 in)
101.2 mm
(3.98 in)
120.4 mm
(4.74 in)
D
24.5 mm
(0.96 in)
24.5 mm
(0.96 in)
24.5 mm
(0.96 in)
29 mm
(1.14 in)
F
13.9 mm
(0.55 in)
13.9 mm
(0.56 in)
18.4 mm
(0.74 in)
23.8 mm
(0.94 in)
35 mm
(1.38 in)
35 mm
(0.55 in)
45 mm
(1.77 in)
55 mm
(2.16 in)
60 mm
(2.36 in)
60 mm
(2.36 in)
60 mm
(2.36 in)
100 mm
(3.94 in)
86.5 mm
(3.40 in)
104 mm
(4.09 in)
104 mm
(4.09 in)
126 mm
(4.94 in)
2 mm
(0.08 in)
2 mm
(0.08 in)
2 mm
(0.08 in)
2 mm
(0.08 in)
4.5 mm
(0.17 in)
4.5 mm
(0.17 in)
4.5 mm
(0.17 in)
5.4 mm
(0.21 in)
22,3 mm
(0.88 in)
22,3 mm
(0.88 in)
22,3 mm
(0.88 in)
22,3 mm
(0.88 in)
The E1 Plus EtherNet/IP module has one RJ45 port to connect a CAT5 type or
better Ethernet cable. Rockwell Automation offers a wide variety of
Allen-Bradley Ethernet patch cables with its Bulletin 1585 line of Ethernet cables
(http://www.ab.com/sensors/ethernet/incabinet.html).
The E1 Plus supports a Star Ethernet topology in which all Ethernet nodes wire
back to a central Ethernet switch, hub, or router as shown below:
11
Chapter 1
12
Chapter
Protection Functions
Introduction
Trip Resetting
The following options are available for resetting a tripped E1 Plus Overload Relay
with an E1 Plus EtherNet/IP module:
Blue mechanical reset button located on the front of the E1 Plus Overload
Relay
Setting Parameter 14, Trip Reset, to Reset trip
Setting the trip reset bit in an output assembly from a logic controller
Using a push button (N.O. contact configuration) wired to one of the
EtherNet/IP module inputs, programming the corresponding input
assignment parameter (40 or 41) to Trip Reset
Setting the CIP Tag, Trip_Reset, to 1
IMPORTANT
Parameter 12, Trip Enable, allows the installer to enable or disable the jam trip
protective function.
13
Chapter 2
Parameter 13, Warning Enable, allows the installer to enable or disable the
overload, jam, underload, and communication warning protective functions.
ATTENTION: The Trip Enable settings should not be altered during
machine operation, as unexpected behavior could occur. This may
result in an unintended actuation of controlled industrial
equipment, with the potential for machine damage or serious
injury to personnel.
Thermal overload and phase loss trip protection is provided exclusively by the E1
Plus Overload Relay. The E1 Plus Overload Relay provides uninterrupted
protection to the motor, even in the event of an E1 Plus EtherNet/IP Module
failure. Settings for FLA and trip class are found directly on the E1 Plus Overload
Relay.
IMPORTANT
Overload Warning
The E1 Plus EtherNet/IP Module continuously monitors the E1 Plus Overload
Relay's percentage of thermal utilization signal. Parameter 2,%Therm Utilized,
provides this value.
Parameter 17, OL Warn Level, is used to adjust the setpoint to alert for an
impending overload trip and is adjustable from 0100% TCU.
The E1 Plus EtherNet/IP Module will indicate an overload warning if all the
following conditions are met:
No warning currently exists
Overload warning is enabled
%Therm Utilized is equal to or greater than OL Warn Level
When the overload warning conditions are satisfied, the following will occur:
Bit 0 in Parameter 4, Warning Status, will go to 1
Bit 1 of Parameter 10, Device Status, will go to 1
IMPORTANT
14
Chapter 2
Jam Protection
Motor current greater than the motor's nameplate rating can indicate a high
overload or stall condition, such as an overloaded conveyor or jammed gear.
These conditions can result in overheating of the motor, and equipment damage.
Rapid jam fault detection helps to minimize damage and loss of production.
By continuously monitoring the motor current level signal as a percentage of the
E1 Plus Overload Relay's dial FLA setting, the E1 Plus EtherNet/IP module
allows jam trip and warning capability.
Jam Trip
The following parameters are available for configuring the E1 Plus EtherNet/IP
Module's jam trip performance:
Parameter 18, Jam Inhibit Time, allows the installer to inhibit a jam trip
from occurring during the motor starting sequence. It is adjustable from
0250 seconds.
Parameter 19, Jam Trip Delay, allows the installer to define the time period
a jam condition must be present before a trip occurs. It is adjustable from
5250 seconds.
Parameter 20, Jam Trip Level, allows the installer to define the current at
which the E1 Plus Overload Relay will trip on a jam. It is user-adjustable
from 150600% of the FLA dial setting.
The E1 Plus EtherNet/IP Module will command the E1 Plus Overload Relay to
trip if all the following conditions are met:
No trip currently exists
Jam Protection is enabled
Jam Inhibit Time has expired
The motor current is greater than the Jam Trip Level for a time period
greater than the Jam Trip Delay
When the conditions for a jam trip are satisfied, the following will occur:
Bit 2 in Parameter 3, Trip Status, will go to 1
Bit 0 in Parameter 10, Device Status, will go to 1
The E1 Plus Overload Relay's trip relay contacts (95 and 96) will open
Out A will be placed in their Protection Fault State (if so programmed)
IMPORTANT
IMPORTANT
The jam inhibit timer starts after the load current transitions from 0 A
to 30% FLA. The E1 Plus EtherNet/IP Module does not begin
monitoring for a jam condition until the Jam Inhibit Time expires.
15
Chapter 2
Jam Warning
Parameter 21, Jam Warn Level, allows the installer to define the current at which
the EtherNet Module will indicate a warning. It is user-adjustable from
100600% FLA.
The E1 Plus EtherNet/IP Module will indicate a Jam warning if:
No warning currently exists
Jam Warning is enabled
Jam Inhibit Time has expired
The motor current is equal to or greater than the Jam Warn Level
When the Jam Warning conditions are satisfied, the following will occur:
Bit 2 in Parameter 4, Warning Status, will go to 1
Bit 1 in Parameter 10, Device Status, will go to 1
IMPORTANT
Underload Protection
The Jam Warning function does not include a time delay feature.
Once the Jam Inhibit Time has expired, the Jam Warning indication is
instantaneous.
Motor current less than a specific level may indicate a mechanical malfunction in
the installation, such as a torn conveyor belt, damaged fan blade, broken shaft, or
worn tool. Such conditions may not harm the motor, however, rapid detection
may help to minimize equipment damage and loss of production.
Underload Warning
The following parameters are available for configuring the E1 Plus EtherNet/IP
Module's underload warning performance:
Parameter 22, UL Inhibit Time, allows the installer to inhibit an underload
indication from occurring during the motor starting sequence. It is
adjustable from 0250 seconds.
Parameter 23, UL Warn Level, allows the installer to define the current at
which the E1 Plus EtherNet/IP Module will indicate a warning. It is useradjustable from 30100% of the FLA dial setting.
The E1 Plus EtherNet/IP Module will immediately indicate an Underload
warning if:
No warning currently exists
Underload Warning is enabled
UL Inhibit Time has expired
The motor current is less than the UL Warn Level
16
Chapter 2
When the Underload Warning conditions are satisfied, the following will occur:
Bit 3 in Parameter 4, Warning Status, will go to 1
Bit 1 of Parameter 10, Device Status, will go to 1
IMPORTANT
Communication Fault
Protection
Communication Idle
Protection
When a programmable controller is placed into the program mode, the execution
of its ladder program is suspended, and any connected networks go to an idle
state. If inadvertent, this can result in the loss of application control and/or
critical process diagnostic data. Rapid communication idle detection helps
minimize the potential damage due to uncontrolled or unmonitored
applications.
17
Chapter 2
18
Chapter
Introduction
Determining Network
Parameters
Description
IP address
The IP address uniquely identifies the module. The IP address is in the form xxx.xxx.xxx.xxx where
each xxx is a number from 0...255. These are reserved values you cannot use:
0.0.0.1...0.255.255.255
127.0.0.0...127.255.255.255
224.255.255.255...255.255.255.255
Subnet mask
Subnet addressing is an extension of the IP address scheme that allows a site to use a single
network ID for multiple physical networks. Routing outside of the site continues by dividing the IP
address into a net ID and a host ID via the class. Inside a site, the subnet mask is used to redivide
the IP address into a custom network ID portion and host ID portion.
If you change the subnet mask of an already-configured module, you must cycle power to
the module for the change to take effect.
Gateway
A gateway connects individual physical networks into a system of networks. When a node needs to
communicate with a node on another network, a gateway transfers the data between the two
networks.
If you use DNS addressing, or reference the module via a host name in an MSG
instruction, then define these parameters.
Table 4 - EtherNet/IP Network Parameters for DNS Addressing
EtherNet/IP Network Parameter
Description
Host name
A host name is part of a text address that identifies the module. The full text address of a module is
host_name.domain_name.
Domain name
A domain name is part of a text address that identifies the domain in which the module resides. The
full text address of a module is host_name.domain_name. The domain name has a 48-character
limit.
This identifies any DNS servers used in the network. You must have a DNS server configured if you
specify an SMTP server with a name. The DNS server converts the domain name or host name to an
IP address that can be used by the network.
For more information on DNS addressing, see page 26.
19
Chapter 3
E1 Plus EtherNet/IP modules ship with DHCP enabled. You can set the network
Internet Protocol (IP) address by:
Using a Bootstrap Protocol (BOOTP)/Dynamic Host Configuration
Protocol (DHCP) server, such as the Rockwell Automation BOOTPDHCP Server Utility, which is included with Rockwell Softwares
RSLinx Classic software
Using a web browser and MAC Scanner software
Assign Network
Parameters via the BOOTP/
DHCP Utility
Before you start the BOOTP/DHCP utility, make sure you have the
hardware MAC ID of the module, which is printed on the side of the
E1 Plus EtherNet/IP module. The MAC ID has a format similar to: 000b-db-14-55-35.
4. Click OK.
The Request History panel displays the hardware addresses of modules
issuing BOOTP or DHCP requests.
20
Chapter 3
The New Entry window appears with the modules Ethernet Address
(MAC).
21
Chapter 3
Assign Network
Parameters Via a Web
Browser and MAC Scanner
Software
In the event that a user does not have access to a DHCP software utility, a user
can assign network parameters via a web browser, such as Microsofts Internet
Explorer, and Media Access Control (MAC) scanner software, such as MAC
Scanner from Colasoft - http://www.colasoft.com/. Follow these steps to
configure the module using this method.
1. Locate and identify the MAC ID printed on the label of the E1 Plus
EtherNet/IP Side Mount Module. This address has a format that is similar
to: 00-0b-db-14-55-35
2. Connect the E1 Plus EtherNet/IP Side Mount Module to the same Wide
Area Network (WAN) as your personal computer.
3. Start the MAC scanner software
4. Select the appropriate subnet to scan for available MAC addresses.
22
Chapter 3
7. Open a web browser and type the IP address on the address line to view the
internal web server of the E1 Plus EtherNet/IP Side Mount Module.
23
Chapter 3
10. Assign the appropriate network settings per the recommendation of the
network administrator for the network that this module will be
communicating on and select Apply.
11. Recycle the power on the E1 Plus EtherNet/IP module for the
communications changes to take affect. To recycle power, remove and
reapply the control power terminals A1 and A2.
There are other factors to consider when assigning networks parameters, which
include:
Network isolation from or integration into the plant/enterprise network
Network size
For large networks, even isolated networks, it might be more convenient
and safer to use a BOOTP/DHCP server rather than RSLinx software.
The BOOTP/DHCP server also limits the possibility of assigning
duplicate IP addresses.
Company policies and procedures dealing with plant floor network
installation and maintenance
Level of involvement by IT personnel in plant floor network installation
and maintenance
Type of training offered to control engineers and maintenance personnel
If you use the Rockwell Automation BOOTP or DHCP server in an uplinked
subnet where an enterprise DHCP server exists, a module may get an address
from the enterprise server before the Rockwell Automation utility even sees the
24
Chapter 3
module. You might have to disconnect from the uplink to set the address and
configure the module to retain its static address before reconnecting to the
uplink. This is not a problem if you have node names configured in the module
and leave DHCP enabled.
ATTENTION: The E1 Plus EtherNet/IP module must be assigned a
fixed network address. The IP address of this module must not be
dynamically provided.
Duplicate IP Address
Detection
Then
The second module generally keeps its IP address, regardless of which module first obtains the
IP address.
The module that supports duplicate IP address detection will detect the conflict and give up the
IP address.
25
Chapter 3
DNS Addressing
To further qualify a modules address, use DNS addressing to specify a host name
for a module, which also includes specifying a domain name and DNS servers.
DNS addressing makes it possible to set up similar network structures and IP
address sequences under different domains.
DNS addressing is only necessary if you refer to the module by host name, such as
in path descriptions in MSG instructions.
To use DNS addressing, perform this procedure.
1. Assign a host name to the module.
A network administrator should be able to assign a host name. Valid host
names should be IEC-1131-3 compliant.
2. Configure the module's parameters.
3. In addition to the IP address, subnet mask, and gateway address, configure
a host name for the module, domain name, and primary/secondary DNS
server addresses.
26
Chapter 3
27
Chapter 3
3. Locate the EDS file for the E1 Plus EtherNet/IP Side Mount Module and
download it to the personal computer.
28
Chapter 3
3. Register a single file, browse to the location where the EDS file is located,
and select Next.
29
Chapter 3
30
Chapter 3
31
Chapter 3
32
Chapter
Introduction
The E1 Plus EtherNet/IP Side Mount Module supports three types of EtherNet/
IP messaging:
I/O Messaging Used for deterministic Ethernet communications with
ControlLogix, CompactLogix, SoftLogix, and EtherNet/IP scanners.
Its primary use is to read and write I/O data for control purposes.
Explicit Messaging Used for non-deterministic communications in
which the data is not critical for control. Explicit messages have a lower
priority compared to I/O messages, and they are used to read and write
non-critical data. Logix controllers, MicroLogix 1100 and 1400 controllers
support Explicit Messaging using a MSG instruction.
ControlLogix Style Tags Used for non-deterministic communications
in which the data will is used in an HMI, SCADA, or historical data
logging software system. Software packages can read and write data
directly from the device.
This chapter describes and shows examples of how each type of messaging is used.
I/O Messaging
If you have RSLogix 5000 v. 20.0, the E1 Plus add-on profile (AOP) is included.
Proceed with the following instructions. If you do have v. 19 or earlier, download
the AOP before proceeding.
An existing project can be used or a new project can be created to configure
EtherNet/IP I/O messaging. To create a new configuration in RSLogix 5000,
select File New.
33
Chapter 4
1. Select the controller type, chassis type, slot number, and project path.
Enter a name for the controller and click OK.
34
Chapter 4
35
Chapter 4
4. Enter a name for the E1 Plus EtherNet/IP Side Mount Module. The name
will create a tag in RSLogix 5000 that can be used to read and write data
from the E1 Plus EtherNet/IP Side Mount Module.
36
Chapter 4
6. Click Next.
7. The E1 Plus EtherNet/IP Side Mount Module is now shown as a module
in the I/O configuration.
37
Chapter 4
38
Chapter 4
1. Select the controller type, chassis type, slot number, and project path.
Enter a name for the controller and click OK.
39
Chapter 4
40
Chapter 4
4. Enter a name for the E1 Plus EtherNet/IP Side Mount Module. The name
will create a tag in RSLogix 5000 that can be used to read and write data
from the E1 Plus EtherNet/IP Side Mount Module.
5. Select Data-SINT for the Comm Format. The Comm Format tells
RSLogix 5000 the format of the data. The Data-SINT format will
represent the data from the E1 Plus EtherNet/IP Side Mount Module as a
field of 8-bit values.
41
Chapter 4
6. Set the Connection Parameters. I/O data is accessed using Input Instances
50, 51, 106, 110 or 111 and Output Instances 2, 101 or 103. The size of
the input connection and the output connection shall correspond to the
size of the chosen instance. The E1 Plus configuration assembly instance is
120. In this example configuration data is not used, so the data size is set to
0.
8. Click Next.
9. Enter a value for the time between each scan of the module. Make sure
Inhibit Module is not checked.
42
Chapter 4
2. Select the desired communication path and click Set Project Path.
43
Chapter 4
If there are any errors, a warning triangle will be present on the E1 Plus in
the I/O configuration listing.
Double-click the module to view any error that is reported.
44
Chapter 4
45
Chapter 4
1. Configure the configuration tab for the message instruction with the
follow settings:
Message type: CIP Generic
Service type: Parameter Read
Instance: 10: The parameter you want to read back (e.g., 10 represents
device status)
Destination: The controller tag to write the data to.
2. Configure the path field in the communications tab to point to the E1 Plus
EtherNet/IP Side Mount Module.
Path: 1, 2, 2, 192.168.0.100
For this example, 1 represents the processor slot, 2 represents the
EtherNet/IP scanner slot, 2 represents the EtherNet/IP port, and
192.168.0.100 represents the IP address of the E1 Plus EtherNet/IP Side
Mount Module.
46
Chapter 4
Users can read all of the motor diagnostic data back in one MSG instruction by
using Assembly Instance 111. An example of configuring a ControlLogix explicit
message using the MSG instruction to read all of the motor diagnostic data from
the E1 Plus EtherNet/IP Side Mount Module is shown below.
1. Configure the configuration tab for the message instruction with the
follow settings:
Message type: CIP Generic
Service type: Get Attribute Single
Class: 4 the Assembly Object
Instance: 111 - the Complete Motor Starter assembly
Destination: The controller tag to write the data to.
Attribute: 3 get/set data instance attribute
2. Configure the path field in the communications tab to point to the E1 Plus
EtherNet/IP Side Mount Module.
Path: 1, 2, 2, 192.168.0.100
For this example, 1 represents the processor slot, 2 represents the
EtherNet/IP scanner slot, 2 represents the EtherNet/IP port, and
192.168.0.100 represents the IP address of the E1 Plus EtherNet/IP Side
Mount Module.
47
Chapter 4
MicroLogix 1100 and 1400 controllers can read and write information to and
from the E1 Plus EtherNet/IP Side Mount Module using Explicit Messaging and
the Assembly Object. RSLogix 500 Version 8.10 or higher is required to
configure EtherNet/IP explicit messaging with these controllers.
An example of a MicroLogix 1100 using the MSG instruction to read all of the
motor diagnostic data from the E1 Plus EtherNet/IP Side Mount Module is
shown below.
1. Write the appropriate ladder logic to periodically execute a MSG
instruction for the MicroLogix controller.
Chapter 4
49
Chapter 4
1. Write the appropriate ladder logic to execute a MSG instruction for the
MicroLogix controller (an EEM instruction for the SLC-5/05) to control
the E1 Plus EtherNet/IP Side Mount Module.
50
Chapter 4
3. Configure the MultiHop tab in the MSG instruction with the following
parameters:
To Address: the IP address of the E1 Plus EtherNet/IP Side Mount
Module.
The E1 Plus EtherNet/IP Side Mount Module embedded predefined CIP tags
within the module. This allows software packages, such as FactoryTalk View
Supervisory Edition (SE), to read and write data directly from the E1 Plus
EtherNet/IP Side Mount Module. An example of using RSLinx Classic as an
OPC (OLE for Process Control) server to serve data to FactoryTalk View SE is
show below. Follow these steps to read data directly from the E1 Plus EtherNet/
IP Side Mount Module using its predefined tags.
51
Chapter 4
2. In the Data Collection tab, select the process type Logix5000 and select
Apply
52
Chapter 4
5. Right click on the project name and select Refresh All Folders to get an
updated list of topics to read data from.
53
Chapter 4
6. Expand the OPC topic name that you created in RSLinx Classic, select the
Online folder, choose the tag you would like to display in the numeric
display, and press OK.
54
Chapter 4
55
Chapter 4
56
Chapter
Email Notifications
Introduction
Notification Events
There are several events that can trigger an email notification; the events are listed
below.
Overload trip
Phase loss trip
Jam trip
Trip clear
Overload warning
Jam warning
Underload warning
Communication fault warning
Communication idle warning
EEPROM fault warning
Warning clear
IMPORTANT
Email Contents
The subject and body contents in the email message will be created from the type
of trip or warning that is detected, the Device Name, Device Description, Device
Location and Contact Info. Sample email messages are shown here:
Email Subject
E1Plus module has detected a trip
Email Body
Trip status:
Overload
Device Name:
Device Description:
Device Location:
The Location
Contact Info:
Contact Person
contact.person@thecontact.com
57
Chapter 5
The first word in the subject is the Device Name. If a Device Name is not
configured, then the product name attribute from the identity object will be used.
Email Configuration
58
Chapter 5
4. Enter the information into the email notification fields as described below.
Email Recipient
The email address of the person who will receive the notifications.
Email Sender
SMTP Server
The SMTP server address. Ask your network administration what address
to use.
SMTP Username
The username for the SMTP server. Ask your network administration what
username to use.
SMTP Password
The password for the SMTP server. Ask your network administration what
password to use.
SMTP Port
The SMTP Server Port. Ask your network administration what port number
to use (Port 25 is a common SMTP port).
5. Select the specific fault and warning notifications to send to the email
recipient. These can be changed after the initial configuration.
59
Chapter 5
60
Chapter 5
4. Enter the Device Identity information into the fields as described below.
Device Name
Device Description
Device Location
Contact Info
Limitations
Based on the functionality of the E1 Plus EtherNet/IP module there are some
limitations on when emails can be triggered.
If two events occur at the same time, an email will only be sent for the most
significant event.
If the module has been configured to send an email for a lower prioritized
event and this event occurs at the same time as a higher prioritized event
for which the module has not been programmed to send an email, no email
will be sent for either event.
The Clear email will only be sent when all events have been cleared and an
event email has previously been sent. For example: if the module is
configured to send an email when a jam trip is detected and it detects an
overload trip for which no email notification is configured, no email will be
sent when the overload event is cleared.
61
Chapter 5
62
Chapter
Introduction
The E1 Plus EtherNet/IP Side Mount Module allows the Parameter Object to
respond to explicit messages using the MSG instruction from Logix Controllers
and SLC-500/MicroLogix controllers. The module also supports the Symbolic
Object, which allows software packages such FactoryTalk View to communicate
directly to the E1 Plus EtherNet/IP Side Mount Module as if it were a Logix
Controller with predefined tags. This chapter describes each parameter and tag.
Program Lock
Parameter 24, Program Lock, provides a degree of security from having parameter
settings unintentionally altered when programmed to the locked setting.
63
Chapter 6
Advanced Setup
Reset/Lock
I/O Setup
Trip History
1 Average %FLA
12 Trip Enable
14 Trip Reset
34 OutA Pr FltState
5 Trip Log 0
2%Therm Utilized
13 Warning Enable
24 Program Lock
35 OutA Pr FltValue
6 Trip Log 1
3 Trip Status
15 Single/Three Ph
25 Set to Default
36 OutA En FltState
7 Trip Log 2
4 Warning Status
16 OL Reset Mode
37 OutA En FltValue
8 Trip Log 3
10 Device Status
17 OL Warning Level
38 OutA En IdlState
9 Trip Log 4
39 OutA En IdlValue
40 IN1 Assignment
41 IN2 Assignment
Monitor Group
64
Average %FLA
Parameter No.
Access Rule
Get
Data Type
UINT
Units
Min. Value
Max. Value
1275
Default Value
Tag Name
Average_%FLA
% Therm Utilized
Parameter No.
Access Rule
Get
Data Type
USINT
Units
Min. Value
Max. Value
100
Default Value
None
Tag Name
%_Therm_Utilized
Chapter 6
Trip Status
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Warning Status
Parameter
No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x00FF
Default Value
0x0000
Parameter
No.
10
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x003F
Default
Value
0x0000
Parameter No.
12
Access Rule
Get/Set
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
65
Chapter 6
66
Warning Enable
Parameter
No.
13
Access Rule
Get/Set
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x007F
Default Value
0x0000
Single/Three Ph
Parameter No.
15
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
Single_Three_Ph
OL Reset Mode
Parameter No.
16
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OL_Reset_Mode
OL Warning Level
Parameter No.
17
Access Rule
Get/Set
Data Type
USINT
Units
% TCU
Min. Value
Max. Value
100
Default Value
90
Tag Name
OL_Warning_Level
Chapter 6
Parameter No.
18
Access Rule
Get/Set
Data Type
USINT
Units
Seconds
Min. Value
Max. Value
250
Default Value
10
Tag Name
Jam_Inhibit_Time
Parameter No.
19
Access Rule
Get/Set
Data Type
USINT
Units
Seconds
Min. Value
Max. Value
250
Default Value
50
Tag Name
Jam_Trip_Delay
Parameter No.
20
Access Rule
Get/Set
Data Type
UINT
Units
% FLA
Min. Value
150
Max. Value
600
Default Value
250
Tag Name
Jam_Trip_Level
Parameter No.
21
Access Rule
Get/Set
Data Type
UINT
Units
% FLA
Min. Value
100
Max. Value
600
Default Value
150
Tag Name
Jam_Warn_Level
67
Chapter 6
UL Inhibit Time
Parameter No.
22
Access Rule
Get/Set
Data Type
USINT
Units
Seconds
Min. Value
Max. Value
250
Default Value
10
Tag Name
UL_Inhibit_Time
UL Warn Level
Parameter No.
23
Access Rule
Get/Set
Data Type
USINT
Units
% FLA
Min. Value
30
Max. Value
100
Default Value
70
Tag Name
UL_Warn_Level
Trip Reset
Parameter No.
14
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
Trip_Reset
Program Lock
Parameter No.
24
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
Program_Lock
Reset/Lock Group
68
Chapter 6
Set To Defaults
Parameter No.
25
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
Set_To_Default
OutA Pr FltState
Parameter No.
34
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_Pr_FLTState
OutA Pr FltValue
Parameter No.
35
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_Pr_FLTValue
OutA En FltState
Parameter No.
36
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_En_FLTState
69
Chapter 6
70
OutA En FltValue
Parameter No.
37
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_En_FLTValue
OutA En IdlState
Parameter No.
38
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_En_IdlState
OutA En IdlValue
Parameter No.
39
Access Rule
Get/Set
Data Type
BOOL
Units
Min. Value
Max. Value
Default Value
Tag Name
OutA_En_IdlValue
IN1 Assignment
Parameter No.
40
Access Rule
Get/Set
Data Type
USINT
Units
Min. Value
Max. Value
Default Value
Tag Name
IN1_Assignment
Chapter 6
IN2 Assignment
Parameter No.
41
Access Rule
Get/Set
Data Type
USINT
Units
Min. Value
Max. Value
Default Value
Tag Name
IN2_Assignment
Trip Log 0
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Tag Name
Trip_Log_0
Trip Log 1
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Tag Name
Trip_Log_1
Trip Log 2
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Tag Name
Trip_Log_2
71
Chapter 6
72
Trip Log 3
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Tag Name
Trip_Log_3
Trip Log 4
Parameter No.
Access Rule
Get
Data Type
WORD
Units
Min. Value
0x0000
Max. Value
0x0007
Default Value
0x0000
Tag Name
Trip_Log_4
Chapter
Troubleshooting
Introduction
EtherNet/IP Modes of
Operation
73
Chapter 7
1. The MODULE STATUS LED should flash green for approximately 1/4
second, then red for 1/4 second. The MODULE STATUS LED will then
stay lit green and the NETWORK STATUS LED should flash green for
approximately 1/4 second, then red for 1/4 second before turning off. The
NETWORK STATUS LED and the MODULE STATUS LED will now
return to their standard indication.
IMPORTANT
Run Mode
In Run Mode, the E1 Plus EtherNet/IP Module will operate as a slave device to a
master device. The NETWORK STATUS LED will blink green if there are no
network connections established with a network master. When one or more
connections are in the established state, the NETWORK STATUS LED will
turn solid green. When one or more connections are in the timed-out state, the
NETWORK STATUS LED will blink red. In the Run Mode, the E1 Plus
EtherNet/IP Module will:
Accept messages from a master on the EtherNet/IP network.
Send response messages, COS messages, or CYCLIC messages to a master.
If a communication error is detected, the E1 Plus EtherNet/IP Module will either
enter the Recoverable Error or Unrecoverable Error Mode.
74
Error Type
Description
LED State
Recoverable
Flashing Red
Chapter 7
Description
LED State
Unrecoverable
Solid Red
EtherNet/IP
Troubleshooting
Procedures
The following table identifies possible causes and corrective actions when
troubleshooting EtherNet/IP-related failures using the NETWORK STATUS
LED.
State
None
Possible Cause
Corrective Action
Green
Red
Off
Flashing (once)
Normal
The Network Status LED flashes green, red, and off once
during a normal power-up sequence.
Green
Flashing
Green
Solid
No action required.
Red
Flashing
Red
Solid
75
Chapter 7
Failure Description
Corrective Action
Input 1, 2
Input 1, 2
Check the programming of Parameter 40, IN1 Assignment or Parameter 41, IN2 Assignment.
OUT A
OUT A
1. Check the OUTA status LED. If the appropriate LED remains illuminated, check the programmable
controller ladder logic and I/O mapping.
2. If the appropriate Output LED is not illuminated, remove the control circuit power and check for
continuity across the appropriate output terminals (13/14). If the continuity test indicates the
output is closed, replace the E1 Plus EtherNet/IP Module. Check the supply voltage against
ratings of the contactor and the relay output before installing a new unit.
3. Remove control circuit power and check the control circuit fuse and the control wiring to the E1
Plus EtherNet/IP Module output terminals.
4. Check the OUTA Pr FltState, Pr FltValue, En FltState, En FltValue, En IdlState, and En IdlValue
programmable parameters. Then check the DEVICE STATUS and TRIP STATUS parameters. If a
Protection Fault exists, refer to the TRIP STATUS parameters. If a EtherNet/IP-related fault
exists, refer to the EtherNet troubleshooting procedure.
OUT A
1. Verify the OUT A LED remains in the appropriate On or Off state. If the LED is flickering, check the
programmable controllers ladder logic program.
2. Check the control circuit supply voltage. Verify it is within the ratings of the contactor coil and the
overload relays outputs.
3. Remove the control circuit power. Verify all control wiring is properly secured.
76
Appendix
Specifications
Specifications
Terminal Ratings:
Terminal Screw
M3
Torque
Degree of Protection
IP20
Us
24V DC
Ue
Ie
110 mA at 24V DC
2.5 A
2.7 W
13/14
Type of Contacts
Form A
SPST - NO
Ithe
5A
Ui
300V AC
Ue
240V AC
Ie
10 mA at 5V DC
Rating Designation
B300
Utilization Category
AC-15
5 A, 250V DC
5 A, 30V DC
2 A, 250V AC
2 A, 30V DC
1,000 A
KTK-R-6
(6 A, 600V)
5,000,000
2,500,000
1,000,000
300,000
Input Ratings:
77
Appendix A
Terminals
IN 1:
IN 2:
SSV (Sensor Supply Voltage)
1
2
3
24V DC10%
Type of Inputs
Current Sinking
ON-State Voltage
15V DC
2 mA
5 mA
Off-State Voltage
5V DC
Off-State Current
0.5 mA
Transition Voltage
515V DC
Transition Current
0.52.0 mA
Environmental Ratings:
Ambient Temperature
Storage
Operating
(Open)
(Enclosed)
Tamb
-40+85C (-40+185F)
-20+60C (-4+140F)
-20+40C (-4+104F)
Humidity
Operating
Damp Heat - Steady State
Damp Heat - Cyclic
595% non-condensing
per IEC 68-2-3
per IEC 68-2-30
Cooling Method
Natural Convection
3G
30 G
Maximum Altitude
2000 m
Pollution Environment
Pollution Degree 2
Terminal Marking
EN 50012
Degree of Protection
IP20
Electromagnetic Compatibility
Electrostatic Discharge Immunity
Test Level
Performance Criteria
RF Immunity
Test Level
Performance Criteria
10V/m
1
2 kV (Power); 1 kV (control)
1
Surge Immunity
Test Level
Performance Criteria
2 kV L-E; 1 kV L-L
1
Radiated Emissions
Class A
Conducted Emissions
Not tested
Performance Criteria 1 requires the DUT (device under test) not to experience degradation or loss of
performance.
78
Appendix A
150
48
128
500
500
Media Support
Twisted Pair
Fiber
Yes
No
10/100
Duplicate IP Detection
Yes
Jam Protection:
Trip Level
150600% FLA
Trip Delay
0.125.0 sec.
Inhibit
0250 sec.
79
Appendix A
80
Appendix
EtherNet/IP Information
Electronic Data Sheet (EDS) files are specially formatted ASCII files that provide
all of the information necessary for a configuration tool (e.g., RSNetWorx for
EtherNet/IP) to access and alter the parameters of a device. The EDS file
contains all the parameter information of a device: number of parameters,
groupings, parameter name, min., max, and default values, units, data format and
scaling. The EDS file for the E1 Plus EtherNet/IP Module is available from the
Internet at www.ab.com/networks/eds/index/html. It can also be built
automatically by some configuration tools since all of the information necessary
for an EDS file may be extracted from the E1 Plus EtherNet/IP Module.
EtherNet/IP Objects
Object
0x01
Identity
0x02
Message Router
0x04
Assembly
0x06
Connection Manager
0x08
0x09
0x0F
Parameter
0x10
Parameter Group
0x29
Control Supervisor
0x2C
Overload
0xC2
PCP
0xF5
TCP/IP Interface
0xF6
Ethernet Link
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0001
81
Appendix B
Access Rule
Name
Data Type
Value
Get
Vendor ID
UINT
Get
Device Type
UINT
0x0003
Get
Product Code
UINT
300
Get
Revision
Structure of:
Major Revision
USINT
Minor Revision
USINT
N/A
Get
Status
WORD
Get
Serial Number
UDINT
Get
Product Name
SHORT_STRING
Product name
Get
State
USINT
3=Operational
The following common services are implemented for the Identity Object:
Table 12 - Identity Object Common Services
Service Code
Implemented for:
Service Name
Class
Instance
0x01
No
Yes
0x0E
Yes
Yes
0x05
No
Yes
Reset
82
Appendix B
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0002
Get
Max Instance
UINT
120
Instance Attributes
Instances/Connection points implements the following data attributes:
Table 14 - Instance Attributes
#
Access
Name
Type
Value
Description
Get
Number of members in
list
UINT
N/A
Get
Member list
Array of
N/A
Get/Set
Data
Array of UINT
Get
Size
UINT
N/A
100
Get
Name
SHORT_STRING
N/A
Output Assemblies
The following output assembly instances are implemented:
Table 15 - Instance 2 Basic Overload Output Assembly from ODVA Profile
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Trip Reset
Table 16 - Instance 101 Similar to Basic Contact Output Assembly from ODVA
Contact Profile
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Output A
Table 17 - Instance 103 Similar to Basic Starter Output Assembly from ODVA
Starter Profile
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Trip Reset
Bit 1
Bit 0
Output A
83
Appendix B
Input Assemblies
Table 18 - Instance 50 Trip Status Input Assembly from ODVA Overload Profile
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Tripped
Table 19 - Instance 51 Basic Status Input Assembly from ODVA Overload Profile
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Warning
Tripped
Bit 1
Bit 0
Bit 7
Motor
Current
Bit 6
Bit 5
Bit 4
Input 2
Input 1
Bit 3
Bit 2
Tripped
Bit 7
Bit 6
Bit 5
Bit 4
Motor
Current
Input 2
Input 1
Unused
Bit 3
Bit 2
Bit 1
Bit 0
Tripped
84
Byte
Bit 7
Bit 6
Bit 5
Bit 4
Motor
Current
Input 2
Input 1
Unused
10
11
12
13
14
15
Bit 3
Bit 2
Bit 1
Bit 0
Tripped
Appendix B
Bit 7
Bit 6
Bit 5
16
17
18
19
20
21
Bit 4
Bit 3
Bit 2
Bit 1
Bit 0
Implemented for:
Service Name
Class
Instance
Consuming
Instance
Producing
0x0E
Yes
Yes
Yes
0x10
No
Yes
No
Implemented for:
Service Name
Class
Instance
0x54
No
Yes
Forward Open
0x4E
No
Yes
Forward Close
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0002
Get
Max Instance
UINT
0x0002
85
Appendix B
Two instances of the Discrete Input Point Object are supported as follows:
Table 26 - Discrete Input Point Object Instances
Attribute ID
Access Rule
Name
Data Type
Value
Get
Value
BOOL
0=OFF
1=ON
The following common services are implemented for the Discrete Input Point
Object:
Table 27 - Discrete Input Object Common Services
Service
Code
Implemented for:
Class
Instance
0x0E
Yes
Yes
Service Name
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0001
Get
Max Instance
UINT
0x0001
86
Attribute ID
Access Rule
Name
Data Type
Value
Get
Value
BOOL
0=OFF
1=ON
Get/Set
Fault Action
BOOL
0=Fault Value
Attribute
1=Hold Last State
Get/Set
Fault Value
BOOL
0=OFF
1=ON
Get/Set
Idle Action
BOOL
0=Fault Value
Attribute
1=Hold Last State
Get/Set
Idle Value
BOOL
0=OFF
1=ON
113
Get/Set
Pr Fault Action
BOOL
114
Get/Set
Pr Fault Value
BOOL
0=OFF
1=ON
Appendix B
The following common services are implemented for the Discrete Output Point
Object:
Table 30 - Discrete Output Object Common Services
Service
Code
Implemented for:
Service Name
Class
Instance
0x0E
Yes
Yes
0x10
No
Yes
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0001
Get
Max Instance
UINT
0x0029
Get
WORD
0x000B
Get
UINT
0x0078
10
Get
Native Language
UINT
0x01=English
The following instance attributes are implemented for all parameter attributes:
Table 32 - Parameter Object Instance Attributes
Attribute ID
Access Rule
Name
Data Type
Value
Get/Set
Value
Specified in Descriptor
N/A
Get
USINT
N/A
Get
Link Path
Packed EPATH:
Get
Descriptor
WORD
Parameter Dependent
Get
Data Type
EPATH
Parameter Dependent
Get
Data Size
USINT
Parameter Dependent
Get
SHORT_STRING
Parameter Dependent
Get
Units String
SHORT_STRING
Parameter Dependent
Get
Help String
SHORT_STRING
Parameter Dependent
10
Get
Minimum Value
Specified in Descriptor
Parameter Dependent
11
Get
Maximum Value
Specified in Descriptor
Parameter Dependent
12
Get
Default Value
Specified in Descriptor
Parameter Dependent
13
Get
Scaling Multiplier
UINT
14
Get
Scaling Divisor
UINT
15
Get
Scaling Base
UINT
16
Get
Scaling Offset
INT
87
Appendix B
Access Rule
Name
Data Type
Value
17
Get
Multiplier Link
UINT
18
Get
Divisor Link
UINT
19
Get
Base Link
UINT
20
Get
Offset Link
UINT
21
Get
Decimal Precision
USINT
Parameter Dependent
The following commons services are implemented for the Parameter Object:
Table 33 - Parameter Object Common Services
Service
Code
Implemented for:
Service Name
Class
Instance
0x01
No
Yes
0x0E
Yes
Yes
0x10
No
Yes
0x4B
No
Yes
Access Rule
Name
Data Type
Value
Get
Revision
UINT
0x0001
Get
Max Instance
UINT
0x0005
Get
Native Language
USINT
0x01=English
88
Appendix B
The following instance attributes are supported for all parameter group instances:
Table 35 - Parameter Group Object Instance Attributes
Attribute ID
Access Rule
Name
Data Type
Value
Get
SHORT_STRING
N/A
Get
Number of Members
UINT
N/A
Get
1st Parameter
UINT
N/A
Get
2nd parameter
UINT
N/A
Get
Nth Parameter
UINT
N/A
The following common services are implemented for the Parameter Group
Object:
Table 36 - Parameter Group Object Common Services
Service
Code
Implemented for:
Class
Instance
0x0E
Yes
Yes
Service Name
Access Rule
Name
Data Type
Value
10
Get
Faulted
BOOL
11
Get
Warning
BOOL
12
Get/Set
Fault Rst
BOOL
0=No action
0->1=Fault reset
13
Get
FaultCode
UINT
If in Faulted state, FaultCode indicates the fault that caused the transition to
Faulted state. If not in Faulted state, FaultCode indicates the fault that
caused the last transition to the Faulted state.
14
Get
Warning Code
UINT
Code word indicating warning present. If multiple warnings are present, the
lowest code value is displayed.
100
Get
Trip Status
WORD
Bit 0=Overload
Bit 1=Phase Loss
Bit 2=Jam
Bit 3-Bit 15=Not used
89
Appendix B
Access Rule
Name
Data Type
Value
101
Get
Warning Status
WORD
Bit 0=Overload
Bit 1=Not Used
Bit 2=Jam
Bit 3=Underload
Bit 4=Not Used
BIt 5=Comm Fault
Bit 6=Comm Idle
Bit 7=Non Vol Mem Fault
Bit 8-Bit 15=Not used
102
Get
Trip Log 0
WORD
Last trip condition. Bit definitions of the value are the same as attribute 101
103
Get
Trip Log 1
WORD
Last trip condition. Bit definitions of the value are the same as attribute 101
104
Get
Trip Log 2
WORD
Last trip condition. Bit definitions of the value are the same as attribute 101
105
Get
Trip Log 3
WORD
Last trip condition. Bit definitions of the value are the same as attribute 101
106
Get
Trip Log 4
WORD
Last trip condition. Bit definitions of the value are the same as attribute 101
107
Get
Device Status
WORD
Bit 0=Trip
Bit 1=Warning
Bit 2=OutputA
Bit 3=Input 1
Bit 4=Input 2
Bit 5=Motor Current
Bit 6-Bit 15=Not used
108
Get/Set
Trip Enable
WORD
109
Get/Set
Warning Enable
WORD
Bit 0=Overload
Bit 1=Not Used
Bit 2=Jam
Bit 3=Underload
Bit 4=Not Used
BIt 5=Comm Fault
Bit 6=Comm Idle
Bit 7-Bit 15=Not Used
110
Get/Set
OL Reset Mode
BOOL
0=Manual
1=Automatic
111
Get/Set
IN1 Assignment
USINT
0=Normal
1=Trip Reset
2=OL Contact
112
Get/Set
IN2 Assignment
USINT
0=Normal
1=Trip Reset
2=OL Contact
The following common services are implemented for the Control Supervisor
Object:
Table 38 - Control Supervisor Object Common Services
90
Service
Code
Implemented for:
Service Name
Class
Instance
0x0E
No
Yes
0x10
No
Yes
0x05
No
Yes
Reset
Appendix B
Access Rule
Name
Data Type
Value
Get
% Thermal Utilized
USINT
xxx% FLA
108
Get
Average % FLA
UINT
01000%FLA
109
Get
% Thermal Utilized
USINT
0100%
127
Get/Set
Single/Three Phase
BOOL
0=Single Phase
1=Three Phase
132
Get/Set
OL Warn Level
USINT
0100% TCU
141
Get/Set
USINT
0250 s
142
Get/Set
USINT
0.525.0 s
143
Get/Set
UINT
150600%FLA
144
Get/Set
UINT
100600%FLA
145
Get/Set
UL Inhibit Time
USINT
0250 s
148
Get/Set
UL Warn Level
USINT
30100%FLA
The following common services are implemented for the Overload Object:
Table 40 - Overload Object Common Services
Service
Code
Implemented for:
Service Name
Class
Instance
0x0E
No
Yes
0x10
No
Yes
Access Rule
Name
Data Type
Value
Get
Revision
UINT
91
Appendix B
The following instance attributes are implemented for all parameter attributes:
Table 41 - PCP Object Instance Attributes
Attribute ID
Access Rule
Name
Data Type
Value
Get/Set
MCC Number
USINT
0-255
Get/Set
USINT
0-255
Get/Set
USINT
0-255
Get/Set
Space Factors
USINT
0-0x3F
Get/Set
Cabinet Width
USINT
0-255
Get/Set
Controlled Device
USINT
0-255
Get
USINT
Get/Set
Array of USINT
Get
USINT
10
Get/Set
Array of USINT
The following common services are implemented for the PCP Object:
Table 42 - PCP Object Common Services
Service
Code
Implemented for:
Service Name
Class
Instance
0x01
No
Yes
0x02
No
Yes
0x0E
Yes
Yes
0x10
No
Yes
Access Rule
Name
Data Type
Value
Get
Revision
UINT
The following instance attributes are implemented for all parameter attributes:
Table 44 - TCP/IP Interface Object Instance Attributes
Attribute ID
Access Rule
Name
Data Type
Value
Get
Status
DWORD
N/A
Get
Configuration capability
DWORD
0x00000014
Get/Set
Configuration control
DWORD
N/A
92
Appendix B
Access Rule
Name
Data Type
Get
Struct of:
Path size
UINT
0x0002
Path
Padded EPATH
20 F6 24 01
Interface configuration
Structure of:
IP Address
UDINT
Network Mask
UDINT
Gateway Address
UDINT
Name Server
UDINT
Name Server 2
UDINT
Domain Name
STRING
Get/Set
Get/Set
Host Name
STRING
Get/Set
TTL Value
USINT
Get/Set
Mcast Config
Structure of:
Alloc Control
USINT
Reserved
USINT
Num Mcast
UINT
UDINT
Value
The following common services are implemented for the TCP/IP Interface
Object:
Table 45 - TCP/IP Interface Common Services
Service
Code
Implemented for:
Service Name
Class
Instance
0x01
No
Yes
0x0E
Yes
Yes
0x10
No
Yes
Access Rule
Name
Data Type
Value
Get
Revision
UINT
93
Appendix B
The following instance attributes are implemented for all parameter attributes:
Table 47 - Ethernet Link Object Instance Attributes
Attribute ID
Access Rule
Name
Data Type
Value
Get
Interface Speed
UDINT
10 or 100
Get
Interface Flags
DWORD
Get
Physical Address
ARRAY of 6 USINTs
Get
Interface Counters
Structure of:
In Octets
UDINT
N/A
In Ucast Packets
UDINT
N/A
In NUcast Packets
UDINT
N/A
In Discards
UDINT
N/A
In Errors
UDINT
N/A
In Unknown Protos
UDINT
N/A
Out Octets
UDINT
N/A
UDINT
N/A
UDINT
N/A
Out Discards
UDINT
N/A
Out Errors
UDINT
N/A
Media Counters
Structure of:
Alignment Errors
UDINT
N/A
FCS Errors
UDINT
N/A
Single Collisions
UDINT
N/A
Multiple Collisions
UDINT
N/A
UDINT
Deferred Transmission
UDINT
N/A
Late Collisions
UDINT
N/A
Excessive Collisions
UDINT
N/A
UDINT
N/A
UDINT
N/A
UDINT
N/A
UDINT
N/A
Interface Control
Structure of:
Control Bits
WORD
N/A
UINT
N/A
94
Get
Get/Set
MAC Address
Appendix B
The following common services are implemented for the Ethernet Link Object:
Table 48 - Ethernet Link Common Services
Rockwell Automation
Support
Service
Code
Implemented for:
Service Name
Class
Instance
0x01
Yes
Yes
0x0E
No
Yes
0x10
No
Yes
0x4C
No
Yes
Installation Assistance
If you experience a problem with a hardware module within the first 24 hours of
installation, please review the information that's contained in this manual. You
can also contact a special Customer Support number for initial help in getting
your module up and running:
United States
1.440.646.3223
Monday Friday, 8am 5pm EST
Outside United
States
Contact your distributor. You must provide a Customer Support case number
(see phone number above to obtain one) to your distributor in order to
complete the return process.
Outside United
States
95
Appendix B
96
Installation Assistance
If you experience a problem within the first 24 hours of installation, review the information that is contained in this manual.
You can contact Customer Support for initial help in getting your product up and running.
United States or Canada
1.440.646.3434
Contact your distributor. You must provide a Customer Support case number (call the phone number above to obtain
one) to your distributor to complete the return process.
Please contact your local Rockwell Automation representative for the return procedure.
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