Allen-Bradley E300 Quick Start Instructions
Allen-Bradley E300 is an electronic overload relay that provides motor overload protection for industrial applications. It features an easy-to-use interface, comprehensive diagnostics, and flexible communication options, making it a versatile choice for protecting motors in various industries. With its precise overload protection, the E300 relay helps prevent downtime and ensures the smooth operation of your motor-driven equipment.
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Quick Start
Original Instructions
E300 Electronic Overload Relay
Bulletins 193, 592
Important User Information
Read this document and the documents listed in the additional resources section about installation, configuration, and operation of this equipment before you install, configure, operate, or maintain this product. Users are required to familiarize themselves with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.
Activities including installation, adjustments, putting into service, use, assembly, disassembly, and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice.
If this equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.
In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment.
The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams.
No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual.
Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation,
Inc., is prohibited.
Throughout this manual, when necessary, we use notes to make you aware of safety considerations.
WARNING: Identifies information about practices or circumstances that can cause an explosion in a hazardous environment, which may lead to personal injury or death, property damage, or economic loss.
ATTENTION: Identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. Attentions help you identify a hazard, avoid a hazard, and recognize the consequence.
IMPORTANT Identifies information that is critical for successful application and understanding of the product.
Labels may also be on or inside the equipment to provide specific precautions.
SHOCK HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that dangerous voltage may be present.
BURN HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that surfaces may reach dangerous temperatures.
ARC FLASH HAZARD: Labels may be on or inside the equipment, for example, a motor control center, to alert people to potential Arc Flash. Arc Flash will cause severe injury or death. Wear proper Personal Protective Equipment (PPE). Follow ALL
Regulatory requirements for safe work practices and for Personal Protective Equipment (PPE).
Table of Contents
Installation
Configuration and
Communication with a Logix™
Controller
Device Configuration Using the
Diagnostic Station
Device Configuration Using the
Web Server
Preface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
Chapter 1
E300 Configuration via Rotary Dial Addressing: . . . . . . . . . . . . . 15
E300 Configuration via the BOOTP/ DHCP Utility:. . . . . . . . 16
Downloading the Electronic Data Sheet (EDS) File:. . . . . . . . . . 17
Chapter 2
Add an E300 Overload Relay to a Studio 5000™ or
Add E300 Device Profile . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Upload Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
Set the Operating Mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Download the Project to the Logix Controller . . . . . . . . . . . . . . . 25
Use Output Tags to Control the Motor . . . . . . . . . . . . . . . . . . . . . 26
Chapter 3
Edit Configuration Preset (Parameter 164). . . . . . . . . . . . . . . . . . . . . . 29
Edit Full Load Amps (Parameter 171). . . . . . . . . . . . . . . . . . . . . . . . . . . 30
Chapter 4
Enabling the E300 Relay Web Server. . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
Select the Operating Mode with ConfigPreset (Parameter 164) . . . 33
Set Motor FLA Using FLASetting (Parameter 171) . . . . . . . . . . . . . . 34
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Table of Contents
E300 Relay Operating Mode
Summary
Appendix A
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .37
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .41
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Preface
About This Publication
This manual describes the minimum steps required to install and configure the E300™ Electronic Overload Relay. More detailed information about the E300 Electronic Overload Relay is available in the E300 Electronic Overload Relay User
Manual, publication 193-UM015 .
The beginning of each chapter contains the following information. Read these sections carefully before you begin work in each chapter:
• Before You Begin - The chapters in this quick start do not have to be completed in the order in which they appear.
However, this section defines the minimum amount of preparation that is required before completing the current chapter.
• What You Need - This section lists the tools that are required to complete the steps in the current chapter, including, but not limited to, hardware and software.
• Follow These Steps - This section illustrates the steps in the current chapter and identifies the steps that are required to complete the examples.
Terminology
Throughout this manual, we refer to the E300™ electronic overload relay as “the E300 relay”. This term is used interchangeably with “E300 electronic overload relay”; they are synonymous.
Additional Resources
These documents contain additional information concerning related products from Rockwell Automation.
Resource
E300 Electronic Overload Relay Selection Guide, publication 193-SG010
E300 Electronic Overload Relay User Manual, publication 193-UM015
DeviceLogix™ System User Manual, publication RA-UM003B
Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1
Product Certifications website, http://www.rockwellautomation.com/global/certification/overview.page
Description
Provides product selection information about the E300 overload relay.
Provides complete user information about the E300 overload relay.
Provides complete information about the DeviceLogix editor and its functions.
Provides general guidelines for installing a Rockwell Automation industrial system.
Provides declarations of conformity, certificates, and other certification details.
You can view or download publications at http://www.rockwellautomation.com/global/literature-library/overview.page
. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.
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Preface
Notes:
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Chapter
1
Installation
This chapter explains how to assemble the three module types of the E300 electronic overload relay, wire the relay, and set the relay IP address.
Three modules comprise the E300 relay. All three modules are required to make a functional overload relay. You can customize each of the three with accessories to tailor the electronic motor overload for the exact needs of your
through
Figure 3 show the three types of E300 relay modules.
Figure 1 - Sensing Module
Figure 2 - Control Module
Figure 3 - Communication Module
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Chapter 1
Before You Begin
Familiarize yourself with installation and wiring instructions in addition to requirements of all applicable codes, laws, and standards.
Activities including installation, adjustments, putting into service, use, assembly, disassembly, and maintenance are required to be carried out by suitably trained personnel in accordance with applicable code of practice.
What You Need
• E300 relay control, communication, and sensing modules
• Any additional modules required (operator station, contactor, etc.)
• Wiring diagram(s)
• Thin flathead screwdriver
• Wire for I/O terminals, #12…24 AWG
• Standard industrial grade Ethernet cable
Follow These Steps
Complete the following steps to install the E300 relay. When you have finished, you will be ready to communicate with a
Logix controller, use the diagnostic station and web server to control, protect, and troubleshoot a motor.
Assemble the Relay
Wire the Relay
Set the IP address
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Chapter 1
Assemble the E300 Relay
Complete the following steps to assemble the E300 relay. When you have finished, you will be ready to wire and configure the device.
IMPORTANT Take caution while assembling each module and add-on component. Small I/O pins can bend and/or break, which causes a module service error once the device is configured.
1. Connect the E300 relay control module to the E300 relay sensing module.
Be sure to secure this connection by pushing in the tab on the right side of the control module.
1
2
3
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Chapter 1
2. Connect the E300 relay communication module to the E300 relay control module.
Be sure to secure this connection by pushing in the tab shown on the left side of the control module.
2
3
1
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Chapter 1
3. Install the I/O connectors.
Two of the I/O connectors attach to the bottom of the control modules. The third connector attaches to the top of the control module
Power / Input / PTC
Terminals
Terminals
Expansion Bus Connector
Expansion Bus Connector
Terminals
You have completed the assembly of the E300 Overload Relay.
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Chapter 1
4. Attach any add-on modules that you require.
Connection of an operator station
Connection of a contactor
5 - 7 lb•in
0.56 - 0.79 N•m
IN1
IN0
A2
R04
R03
A1
6
4
ESC
SELEC
T
REM L
0
RESET
5
9 - 22 lb•in
1.01 - 2.48 N•m
3
1
2
7 -11 lb•in
0.79 - 1.24 N•m
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Chapter 1
Wire the E300 Relay
Complete the device wiring according to the appropriate wiring diagrams for your application. You can wire the E300 relay in multiple ways, depending on the accessories, add-on modules, application requirements, etc. The wiring diagrams in this section are for illustrative purposes only.
For the E300 Electronic Overload Relay to function properly and protect your motor, it needs a control voltage
(24V DC, 120V AC, 240V AC).Connect the control voltage to the device by attaching wires to the A1 (positive) and
A2 (negative) terminals, which are located on the bottom of the control module of the E300 relay. Figure 4 shows this configuration.
Figure 4 - Control Module Wiring
193-EIO-_ _-_ _ _ 193-EIOGP-_ _-_ _ _
A1 R03
R04
A2 IN0
IN1
RELAY 0
Additional Inputs for 193-EIO-63-_ _ _
A1 R03 R04 A2 IN0
IN1
RELAY 0
Additional Inputs for 193-EIOGP-42-_ _ _
A1 A1
A2
(+)
(-)
IN2
IN3
IN4
IN5
RELAY 1 RELAY 2
PE R13 R14 R23 R24 A1 A1 A2
(+) (-)
IN2
IN3
IT1
PTC
IT2
PE R13
RELAY 1
R14 S1
Ground
Fault
S2
+t
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Chapter 1
The E300 overload relay typically is wired in one of two different motor connections: a three-phase, direct-on-line
(DOL), and a single-phase, full-voltage connection.
Figure 5 shows these connections.
Figure 5 - E300 DOL and Single-Phase Full-voltage Connections (NEMA Nomenclature)
Three-Phase Direct-On-Line
Single-Phase Full-Voltage
S.C.P.D.
S.C.P.D.
L 1
T1
M
L 2
E300
2/T1
4/T2
6/T3
T2
T3
L 3
L 1 L 2
E300
2/T1 4/T2
6/T3
T1 T2
M
Figure 6 - E300 DOL and Single-Phase Full-voltage Connections (CENELEC Nomenclature)
Three-Phase
Single-Phase
L1
1 3 5
K1
A1
A2
2 4 6
A1
K1
A2
1 3 5
2 4 6
Output Relay 0
R03
R04
2
T1 T3 T5
M
Output Relay 1 is assigned as a normally closed trip relay using
Parameter 203 (Output 1 Assignment).
T1 T3 T5
Trip Relay
2
R13
R14
M
K
A1
A2
N
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Chapter 1
Establish the IP Address
You may use one of two methods to configure the IP address for the E300 relay: configuring via the rotary dial addressing, or by using the BOOTP/DHCP utility. After the IP address is configured, you will download and install the
Electronic Data Sheet (EDS) for RSLinx™ Classic and RSLinx Enterprise connectivity software.
E300 Configuration via Rotary Dial Addressing:
The E300 Overload Relay EtherNet/IP Communication Module has three node address selection switches that allow you to select the last octet for the IP address 192.168.1.xxx. When you set the node address selection switches to a value greater than 255 (excluding 888), the IP address is set to DHCP Enabled or programmed for a static IP address.
Figure 7 - E300 Relay Node Addressing
Network Information
- MAC Id
- Serial Number
- Firmware Revision
Node Address
Node Address
001 - 254
255 - 887
889 - 999
888
000
x100 x10
Function
Set IP Address to 192.168.1.xxx
Set IP Address via DHCP or use static IP Address
Reset to factory defaults
Administration mode
x1
1. Verify that the E300 Relay is fully powered, then turn the three dials to your selected IP address.
2. Once dials are in place, cycle power to the E300 Relay.
For example, when the left dial is set to 0, the middle is set to 0, and the right dial is set to 6, the resulting IP address is:
192.168.1.006 or 192.168.1.6.
IMPORTANT A power cycle is required for any rotary dial changes to the E300 Relay to take effect.
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Chapter 1
E300 Configuration via the BOOTP/ DHCP Utility:
By default, the E300 relay EtherNet/IP Communication Module is DHCP Enabled. The BOOTP/DHCP utility is a standalone program that is included when you install RSLinx Classic software.
IMPORTANT Before starting the BOOTP/DHCP utility, verify the hardware MAC ID, which is printed on the front of the E300 Relay
Communication Module. The MAC ID has a format similar to: 00-0b-db-14-55- 35.
To assign an IP address to the E300 relay via the BOOTP/DHCP utility, perform the following procedure
1. Execute the BOOTP/DHCP software and choose Tool, then select Network Settings.
2. Type the subnet mask, gateway address, primary/secondary server addresses, and domain name in their respective fields. Click OK
3. Double-click the MAC address of the E300 module that you want to configure. It may take a few seconds for your
E300 relay to show up in the Request History.
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4. The New Entry window appears with the Ethernet Address (MAC). Type the IP address. Select OK.
Chapter 1
5. Cycle power to the E300 relay.
6. Once your E300 is powered up, verify that the proper IP address has been assigned, select the module in the
Relation List panel, and click Disable BOOTP/DHCP.
After completing either one of the above methods, your E300 Electronic Overload Relay will be configured and connected to your network. The next step to communicating with the E300 is to download its EDS file. The following steps will guide you through the process.
Downloading the Electronic Data Sheet (EDS) File:
The EDS file for the E300 relay EtherNet/IP communication module is embedded within the module. Using RSLinx™
Classic, you can install the proper EDS file for the E300 relay using the following steps:
1. Open RSLinx Classic and browse the EtherNet/IP network that has the E300 relay. It is identified with a yellow question mark. Right click on the unrecognized device and select Upload EDS File from Device.
2. Using the EDS Wizard, install the embedded E300 relay EtherNet/IP Communication Module EDS file.
3. When finished, RSLinx Classic recognizes the newly registered E300 relay EtherNet/IP Communication Module.
The yellow question mark should have disappeared.
Now your E300 relay is configured within your network.
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Chapter 1
Notes:
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Chapter
2
Configuration and Communication with a Logix™ Controller
You can manually add a preconfigured E300 relay offline to any Logix processor, or you can manually add a preconfigured E300 relay online to a ControlLogix™ processor. You can perform an upload command to retain all of the
E300 relay’s configuration settings.
Before You Begin
To complete this chapter, you must have completed the requirements in Appendix 1
.
What You Need
• An E300 relay that is set up and connected to a communication network
Follow These Steps
In this chapter, you will perform the following steps to set up communication between a Logix controller and the
E300 relay.
1. Add the E300 relay device profile to the project
2. Upload the configuration settings of the preprogrammed E300 relay to the project
3. Set the E300 relay operation mode
4. Set the full-load current (FLA)
5. Download the project to the Logix controller
6. Use an Output tag to control the motor
Add an E300 Overload Relay to a Studio 5000™ or RSLogix 5000 Project
Follow these steps to manually add an E300 relay and retain its configuration settings with a new or existing RSLogix
5000 or Studio 5000 project.
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Chapter 2
Add E300 Device Profile
1. Create a new or open an existing RSLogix 5000 or Studio 5000 project and verify that the Logix controller is offline. Make sure that your project communication path is correct and the software is communicating with your controller.
IMPORTANT To choose the correct path, select RSWho which is the button next to the path’s drop down menu, and navigate to your Logix controller. The Logix controller used for this demonstration has an IP address of 192.168.1.2.
2. Right click on the Ethernet tree of the EtherNet/IP scanner and select New Module.
3. Search for an E300 relay by typing E300 in the search field, select the 193-ECM-ETR Electronic Overload Relay, 2-
Port device profile, and click Create.
4. Type a Name for the E300 relay, and select OK.
The E300 device profile appears in your projects Organizer Menu under Ethernet. The next step in properly configuring your E300 Relay to your project is to upload the E300 module properties to the project.
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Chapter 2
Upload Parameters
The process of updating your new or existing project with the correct parameter settings and firmware to communicate between your E300 relay and programmable logic controller (PLC) has become significantly easier. By using the
“Upload” button on the E300 Module Definition, you can upload the firmware revision, module types, and existing configuration parameters into your project. The following steps show the step-by-step process to perform this action.
1. Double click on the appropriate E300 device profile. In the general display, select Change.
2. Once the Module Definition tab appears, click Upload. Select the appropriate E300 relay that is on the
EtherNet/IP network, and click OK.
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Chapter 2
3. If the upload is successful, a display appears indicating the success of this command. Click OK to continue.
The firmware revision, module types, and existing configuration parameters of the E300 relay are now uploaded into your project.
Set the Operating Mode
The Operating Mode is an embedded motor control program that is used to reduce motor starter control wiring and simplify PLC programs. You can choose from 47 different Operating Modes to accommodate the most common motor
control strategies. For more information, see Appendix A
. Follow the steps below to choose the correct Operating Mode for your motor starter.
1. Double click on the E300 device profile. In the general display, select Change to open the Module Definition
Window.
2. Click on the Motor Control Operating Mode window.
3. Using the dropdown fields, select the appropriate Control Strategy and relay settings that correspond to your motor starter. When you are finished, click OK to close the Module Definition display.
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Chapter 2
4. Click Apply to add the changes to the project.
IMPORTANT If you plan to use a custom DeviceLogix program in your project, be sure to check the 'Enable Custom DeviceLogix Programming' box located next to the Control Strategy dropdown field.
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Chapter 2
Set the FLA
The FLA1 and FLA2 parameters are the motor's current ratings found on the motor's nameplate. These values are used in the E300 relay thermal overload algorithm. You can adjust this parameter in the Overload Protection display and press
Apply. See
Figure 8 - Overload Protection Tab
While the FLA setting is the minimal adjustment to be made on this display, you can also configure the trip class and the reset mode (manual or automatic) here.
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Chapter 2
Download the Project to the Logix Controller
The final procedure to applying these project and E300 relay changes is to download the updated project to the Logix controller.
1. To download, click on the Controller Icon in the upper left of your Studio 5000/Logix Designer home screen and select Download from the dropdown menu.
2. When prompted with a warning to download the offline project to the controller, select Download
3. A pop-up appears, stating that the download is complete. Select Yes to complete the download and put the controller back in Remote Run Mode.
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Chapter 2
Use Output Tags to Control the Motor
To have the Logix controller operate the motor, you need to enable a specific output tag for the appropriate Operating
Mode and start type.
Non-Reversing Start Command
Wye (Star) / Delta Start Command
Forward Start Command (Reversing Starter)
Speed 1 Start Command (2-Speed Starter)
A non-reversing starter, a wye (Star) / delta starter, the forward start command for a reversing starter, and the speed 1 start command for a two-speed starter use output tag :O.LogicDefinedPt00Data to start the motor.
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Chapter 2
Reverse Start Command (Reversing Starter)
Speed 2 Start Command (2-Speed Starter)
The reverse start command for a reversing starter and the speed 2 start command for a two-speed starter will use output tag:O.LogicDefinedPt01Data to start the motor.
• Overload Start Command
The start command for an E300 overload relay that is in an Overload based Operating Mode use output tag
:O.Pt00Data, :O.Pt01Data, or :O.Pt02Data to start the motor. This depends on which output relay was wired to contactor coil.
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Chapter 2
Notes:
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Chapter
3
Device Configuration Using the Diagnostic Station
The E300 Electronic Overload Relay supports a Diagnostic Station on the E300 Expansion Bus (requires Control
Module firmware v3.000 and higher). The Diagnostic Station allows you to view any E300 relay parameter and edit any configuration parameter. This chapter explains how to use the navigation keys on the Diagnostic Station to view a parameter and edit the minimum required configuration parameters.
Before You Begin
.
What You Need
• E300 relay with diagnostic station that is connected to an E300 expansion bus
Follow These Steps
The E300 Diagnostic Station allows you to edit configuration parameters by using a group menu system or by a linear list. At a minimum you must configure ConfigPreset (Parameter 164) and FLASetting (Parameter 171) to make the
E300 function properly. To start the navigation menu, press the groups or parameters in a linear list.
key. You are prompted to view parameters by
Edit Configuration Preset (Parameter 164)
1. Choose a navigation method and display ConfigPreset (Parameter 164)
2. Press the key to modify the value.
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Chapter 3
3. Use the
or
keys to select the appropriate Operating Mode. See Appendix A
for a description of the available Operating Modes.
4. Press to save the chosen preset configuration values for the chosen Operating Mode or press the modification and restore the previous value.
to cancel
5. Press to return to the navigation menu.
Edit Full Load Amps (Parameter 171)
1. Choose a navigation method and display FLASetting (Parameter 171).
2. Press the key to modify the value.
3. Use the or keys to select the new value for the digit on the left side of the of the value. Press the SEL button to advance the cursor one position to the right. Use the up UP or DOWN keys to select the appropriate digit. Continue this process until the final value has be configured.
4. Press to save the new value or press to cancel the modification and restore the previous value.
5. Press to return to the navigation menu.
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Chapter
4
Device Configuration Using the Web Server
In order to make changes to your E300 relay via the Web Server, it needs to be enabled. In Administrative Mode, you can change any configuration parameter of the E300 relay including permanently enabling the embedded web server. This chapter explains how to put the E300 relay into Administrative Mode to edit the minimum required parameters
ConfigPreset (Parameter 164) and FLASetting (Parameter 171) using the E300 Web Server.
Before You Begin
Before you can configure the E300 relay via the web server, you must first have completed the configuration explained in
What You Need
• E300 relay that has been configured with an IP address and is connected to a network
Follow These Steps
Complete the following steps to configure the E300 relay via the web server. When you have finished, you will have configured the minimum required parameters for the E300 relay.
Enable the E300 relay
Web Server
Select the Operating
Mode Using ConfigPreset
(Parameter 164)
Configure FLASetting
(Parameter 171)
Enabling the E300 Relay Web Server
1. Enter Administrative Mode by turning the rotary dials on the E300 relay communication module to 000 and cycle power on the E300 relay.
2. Using a personal computer, open a web browser and type the IP address of the E300 relay.
3. To permanently enable the E300 Web Server, navigate to Administrative Settings->Network Configuration.
4. When you are prompted for a user name and password, enter "Administrator" for the user name, and enter the appropriate password.
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Chapter 4
The default password is <blank> for an E300 EtherNet/IP Communication Module with v1.003 firmware. For all other firmware revisions, the default password is the serial number of the E300 EtherNet/IP Communication
Module. You can find the serial number under the front sliding panel of the communication module
5. If your E300 relay has an EtherNet/IP Module with firmware revision v1.001 - v1.007, proceed to
If your E300 relay has an EtherNet/IP Module with firmware revision v1.008 and higher you will be required to immediately change the password to any value except the serial number.
6. Enable the Web Server Control (under the Network Configuration tab) and press Apply Changes.
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Select the Operating Mode with ConfigPreset (Parameter 164)
Follow the steps below to select the Operating Mode for the E300 relay.
1. Navigate to Parameters->Command and press the Edit button.
Chapter 4
2. Click the down arrow on the pull-down box for ConfigPreset (Parameter 164) to select the appropriate Operating
Mode for the motor starter.
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Chapter 4
3. Click Apply to download the new parameter value to the device.
4. A confirmation window appears. Press OK.
Set Motor FLA Using FLASetting (Parameter 171)
Use the following steps to edit the motor FLA setting using the web interface of the E300 relay EtherNet/IP
Communication Module.
1. Select the Overload Setup parameter group that contains the parameter FLASetting (Parameter 171), then click the Edit button.
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Chapter 4
2. Enter the motor FLA in FLASetting (Parameter 171). Click on Apply to apply this change to the E300 relay.
3. A confirmation window appears. Press OK.
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Chapter 4
Notes:
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Appendix
A
E300 Relay Operating Mode Summary
This section summarizes the preset configurations for the various E300 relay Operating Modes that can be selected using the ConfigPreset (Parameter 164) command.
Detailed information about the E300 relay Operating Modes is found in Chapter 5 of the E300 Electronic Overload
Relay User Manual, publication 193-UM015.
The default Operating Mode is (2) - Network Overload. The four most common Operating Modes are:
• (2) - Network Overload
• (4) - Network Non-Reversing Starter
• (11) - Network & Operator Station Non-Reversing Starter
• (16) - Network & Local I/O 2-Wire Control Non-Reversing Starter
Table 1 - E300 Relay Preset Configurations (Parameter 164)
Operating Mode
0
1
2
3
Value Enumeration
Control
Source
Starter Type
Ready
FactoryDefaults
NetOverload Network Overload
NetNonRev2Wire Network Non-reversing
Control Option
4 NetNonRevFB2Wire Network Non-reversing
With Feedback
Protection
5 NetRev2Wire Network Reversing
6 NetRevFB2Wire Network Reversing
With Feedback
Protection
7 NetOpWyeDelta2W Network Wye/Delta Open Transition
Description
No operation
Set all parameters to their default setting
A controller is the control source for a traditional overload relay with a trip contact
A controller is the control source for a non-reversing starter that has a maintained signal
A controller is the control source for a non-reversing starter that has a maintained signal, and the E300 relay will trip if the contactor auxiliary is not closed
A controller is the control source for a reversing starter that has a maintained signal
A controller is the control source for a reversing starter that has a maintained signal, and the
E300 relay will trip if the contactor auxiliary is not closed
A controller is the control source for a Wye/Delta starter that has a maintained signal and has an open transition
8 NetClWyeDelta2W Network
9 Net2Speed2Wire Network
10 Net2SpeedFB2Wire Network
11 NetOSNonRev3Wir
12 NetOSNonRevFB3W
13
14 NetOSOpWyeDel3W
15
NetOSRev3Wire
NetOS2Speed3Wir
Network &
Operator
Station
Network &
Operator
Station
Network &
Operator
Station
Network &
Operator
Station
Network &
Operator
Station
Wye/Delta
2-Speed
2-Speed
Non-reversing
Non-reversing
Reversing
Wye/Delta
2-Speed
With Feedback
Protection
With Feedback
Protection
Open Transition
A controller is the control source for a 2-Speed starter that has a maintained signal
A controller is the control source for a 2-Speed starter that has a maintained signal, and the
E300 relay will trip if the contactor auxiliary is not closed
A controller that has a maintained signal and an Operator Station with momentary control buttons are the control sources for a non-reversing starter
A controller that has a maintained signal and an Operator Station with momentary control buttons are the control sources for a non-reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed
A controller that has a maintained signal and an Operator Station with momentary control buttons are the control sources for a reversing starter
A controller that has a maintained signal and an Operator Station with momentary control buttons are the control sources for a Wye/Delta starter that has an open transition
A controller that has a maintained signal and an Operator Station with momentary control buttons are the control sources for a 2-speed starter
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
37
Appendix A
Table 1 - E300 Relay Preset Configurations (Parameter 164)
Value Enumeration
Control
Source
Operating Mode
Starter Type Control Option
Description
16 NetLIONonRev2Wir Network &
18 NetLIONonRev3Wir Network &
Non-reversing
Non-reversing
2 Wire Control
3 Wire Control
A controller that has a maintained signal and a maintained selector switch are the control sources for a non-reversing starter
A controller that has a maintained signal and a maintained selector switch are the control sources for a non-reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
A controller that has a maintained signal and two momentary push buttons are the control sources for a non-reversing starter
20
21
23
24
29
30
31
32
33
34
35
36
37
NetLIORev2Wire
NetLIORev3Wire
OSRev3Wire
OSRevFB3Wire
OSOpWyeDel3W
OSClWyeDelta3W
OS2Speed3Wire
OS2SpeedFB3Wire
LIOOverload
LIONonRev2Wire
Network &
Local I/O
Network &
Local I/O
NetLIOClWyeDel2W Network &
NetLIO2Speed2Wir Network &
25 NetLIO2Speed3Wir Network &
26 OSOverload
Operator
Station
27
28
OSNonRev3Wire
OSNonRevFB3Wire
Operator
Station
Operator
Station
Operator
Station
Operator
Station
Operator
Station
Operator
Station
Operator
Station
Operator
Station
Local I/O
Local I/O
LIONonRevFB2Wire Local I/O
Reversing
Reversing
Wye/Delta
Wye/Delta
2-Speed
2-Speed
Overload
Non-reversing
Non-reversing
Reversing
Reversing
Wye/Delta
Wye/Delta
2-Speed
2-Speed
Overload
Non-reversing
2 Wire Control
3 Wire Control
2 Wire Control with
Open Transition
2 Wire Control with
Closed Transition
2 Wire Control
3 Wire Control
With Feedback
Protection
With Feedback
Protection
Open Transition
A controller that has a maintained signal and two momentary push buttons are the control sources for a non-reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
A controller that has a maintained signal and a maintained selector switch are the control sources for a reversing starter
A controller that has a maintained signal and three momentary push buttons are the control sources for a reversing starter
A controller that has a maintained signal and a maintained selector switch are the control sources for a wye/delta starter with an open transition
A controller that has a maintained signal and a maintained selector switch are the control sources for a wye/delta starter with a closed transition
A controller that has a maintained signal and a maintained selector switch are the control sources for a 2-speed starter
A controller that has a maintained signal and three momentary push buttons are the control sources for a 2-speed starter
An Operator Station with a momentary trip reset button is the control source for a traditional overload relay with a trip contact
An Operator Station with momentary control buttons is the control source for a non-reversing starter
An Operator Station with momentary control buttons is the control source for a non-reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
An Operator Station with momentary control buttons is the control source for a reversing starter
An Operator Station with momentary control buttons is the control source for a reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed
An Operator Station with momentary control buttons is the control source for a wye/delta starter with an open transition
With Feedback
Protection
An Operator Station with momentary control buttons is the control source for a 2-speed starter
An Operator Station with momentary control buttons is the control source for a 2-speed starter, and the E300 relay will trip if the contactor auxiliary is not closed
A momentary push button for a trip reset is the control source for a traditional overload relay with a trip contact
2 Wire Control A maintained selector switch is the control source for a non-reversing starter
Non-reversing 2 Wire Control with
A maintained selector switch is the control sources for a non-reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
38 LIONonRev3Wire Local I/O Non-reversing 3 Wire Control Two momentary push buttons are the control sources for a non-reversing starter
39 LIONonRevFB3Wire Local I/O Non-reversing 3 Wire Control with
40 LIORev2Wire Local I/O Reversing
Three momentary push buttons are the control sources for a non-reversing starter, and the
E300 relay will trip if the contactor auxiliary is not closed of the contactor
2 Wire Control A maintained selector switch is the control source for a reversing starter
41
42
43
LIORevFB2Wire
LIORev3Wire
Local I/O
Local I/O
LIOOpWyeDelta2W Local I/O
Reversing
Reversing
Wye/Delta
2 Wire Control with
Feedback Protection
A maintained selector switch is the control source for a reversing starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
3 Wire Control Three momentary push buttons are the control sources for a reversing starter
2 Wire Control with
Open Transition
A selector switch is the control source for a wye/delta starter with an open transition
38
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
Appendix A
Table 1 - E300 Relay Preset Configurations (Parameter 164)
Operating Mode
Value Enumeration
Control
Source
Starter Type Control Option
44 LIOClWyeDelta2W Local I/O
45 LIOOpWyeDelta3W Local I/O
46 LIO2Speed2Wire Local I/O
47 LIO2SpeedFB2Wire Local I/O
48 LIO2Speed3Wire Local I/O
49 CustomOverload Custom
50 CustomNonRev
Wye/Delta
Wye/Delta
2-Speed
2-Speed
2-Speed
Overload
Custom Non-reversing
51 CustomReverser Custom Reversing
52 CustomWyeDelta Custom
53 Custom2Speed Custom
Wye/Delta
2-Speed Starter
54 CustomMonitor Custom Monitor
Description
2 Wire Control with
Closed Transition A selector switch is the control source for a wye/delta starter with a closed transitions
3 Wire Control with
Open Transition
Two momentary push buttons are the control sources for a wye/delta starter with an open transitions
2 Wire Control A maintained selector switch is the control source for a 2-speed starter
2 Wire Control with
Feedback Protection
A maintained selector switch is the control source for a 2-speed starter, and the E300 relay will trip if the contactor auxiliary is not closed of the contactor
3 Wire Control Three momentary push buttons are the control sources for a 2-speed starter
A custom DeviceLogix program can be used to control the E300 relay with an Overload operating mode
A custom DeviceLogix program can be used to control the E300 relay for a non-reversing starter
A custom DeviceLogix program can be used to control the E300 relay for a reversing starter
A custom DeviceLogix program can be used to control the E300 relay for a wye/delta starter
A custom DeviceLogix program can be used to control the E300 relay for a 2-speed starter
The E300 relay can be used as a monitoring device, and all protections can be disabled
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
39
Appendix A
Notes:
40
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
A
assembly
communication module to control module 10
control module to sensing module 9
B
C communication logix controller 19
communication module to control module assembly 10
configuration
control module to sensing module assembly 9
D
downloading
E
F
I
installation
L logix controller 19
M module
assembling 7, 8 communication 8
Index
O
P
R
S
T
U
W web server
E300 DOL and single-phase connections 14
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
41
Index
Notes:
42
Rockwell Automation Publication 193-QR004B-EN-P - January 2017
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Publication 193-QR004B-EN-P - January 2017
Supersedes Publication 193-QR004A-EN-P October 2016 Copyright © 2017 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.
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Key features
- Electronic overload protection with adjustable trip class and time delays
- Phase loss, phase unbalance, and ground fault detection
- Stall prevention and broken rotor protection
- Remote monitoring and control via Ethernet IP
- Parameter configuration through rotary dial or software
- Compact design for space-saving installation
- Easy-to-read display for clear status indication
- Built-in diagnostic functions for troubleshooting
- Compliance with global safety standards