Download Print this page

Rockwell Automation Allen-Bradley E300 User Manual

Electronic overload relay

Hide thumbs Also See for Allen-Bradley E300:

Installation instructions (4 pages)

Table Of Contents

Table of Contents

Advertisement

Quick Links

User Manual

E300 Electronic Overload Relay

Bul. 193/592

Table of Contents

Advertisement

Table of Contents

Troubleshooting

Need help?

Need help?

Do you have a question about the Allen-Bradley E300 and is the answer not in the manual?

Questions and answers

Summary of Contents for Rockwell Automation Allen-Bradley E300

Page 1 User Manual E300 Electronic Overload Relay Bul. 193/592...
Page 2: Important User Information
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.
Page 3: Table Of Contents
Starter Assembly ..........30 100-C09…-C55 Starter Assembly Installation ....30 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 4 Option Match ........... 66 Enable Option Match Protection Trip (Parameter 186)..67 Enable Option Match Protection Warning (Parameter 192) ..68 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 5 Introduction to Operating Modes ....... . 123 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 6 Analog Module 4 ..........283 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 7 Time to Start..........319 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 8 L2 Power Factor Power ........337 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 9 Trip Snapshot ..........369 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 10 Firmware Compatibility ......... 425 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 11 Instance 198 - Current Diagnostics Produced Assembly ..518 Instance 199 - All Diagnostics Produced Assembly ... . . 520 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 12 DPI Warning Object — CLASS CODE 0x0098 ....541 MCC Object — CLASS CODE 0x00C2..... . 544 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 13: Product Overview
You can select from multiple communication options that integrate with Logix- based control systems. Developers can easily add the E300 Electronic Overload Relay to Logix-based control systems using Integrated Architecture tools like Add-on Profiles, Add-on Instructions, and Faceplates. • EtherNet/IP (DLR) • DeviceNet Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 14: Diagnostic Information
The E300 Electronic Overload Relay provides an easy means to mount to both IEC and NEMA Allen-Bradley contactors. A contactor coil adapter is available for the 100-C contactor, which allows the you to create a functional motor starter with only two control wires. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 15: Catalog Number Explanation
22 2 Inputs / 2 Relay Outputs Communication Module 193 - ECM - ETR Module Type Communication Type Bulletin Number ECM Communication Module ETR EtherNet/IP with Dual Ethernet Ports 193 IEC Overload Relay DNT DeviceNet Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 16: Digital Expansion Module
193 - EXP - PS - AC Supply Voltage Module Type Function Type Bulletin Number AC 110-240V AC, 50/60Hz control voltage 193 IEC Overload Relay EXP Expansion Module PS Expansion Bus Power Supply DC 24V DC control voltage Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 17: Module Description
• DIN Rail / Panel Mount with power terminals • Replacement DIN Rail / Panel Mount with power terminals for an Allen-Bradley E3 Plus panel mount adapter • DIN Rail / Panel Mount with pass-thru power conductors Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 18: Control Module
The communication module allows the E300 Electronic Overload Relay to be integrated into an automation system, and it can attach to any control module. All communication modules allow you to set the node address with rotary turn Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 19: Optional Add-On Modules
• Average %FLA • %TCU • Ground Fault Current • Current Imbalance • Average L-L Voltage • Voltage Imbalance • Total kW • Total kVAR • Total kVA • Total Power Factor • User-defined Value Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 20: Optional Operator Station
Expansion Bus. The E300 Electronic Overload Relay offers you two types of Expansion Bus Power Supplies: AC (110…240V AC, 50/60 Hz) and DC (24V DC). One Expansion Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 21: Protection Features
• Over and Under Power (37) • Over and Under Leading/Lagging Power Factor (55) • Over and Under Reactive Power Generated • Over and Under Reactive Power Consumed • Over and Under Apparent Power Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 22: Applications
• Wye (Star) / Delta starter • Two-speed motors • Low and medium voltage with two or three potential transformers • With or without Phase current transformers • With or without zero-sequence core balanced current transformer Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 23: Installation And Wiring
-40…+85 °C (-40…+185 °F). • Store within a relative humidity range of 0…95%, non-condensing. • Do not store where the device could be exposed to a corrosive atmosphere. • Do not store in a construction area. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 24: General Precautions
ATTENTION: The purpose of this user manual is to serve as a guide for proper installation. The National Electrical Code (NEC) and any other governing regional or local code overrules this information. Rockwell Automation cannot assume responsibility for the compliance or proper installation of the E300 Electronic Overload Relay or associated equipment.
Page 25: Control Module To Sensing Module Assembly
You can connect any E300 Control Module to any E300 Sensing Module. The following illustrations show the steps that are required to make this connection. Module Assembly Figure 6 - Control Module to Sensing Module Assembly Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 26: Communication Module To Control Module Assembly
You can connect any E300 Communication Module to any E300 Control Module. The illustrations below show the steps required to make this Control Module Assembly connection. Figure 7 - Communication Module to Control Module Assembly Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 27: Expansion Bus Peripherals
Local / Remote Stop Reset Control Station Diagnostic Station The following illustrations show how to mount and connect the E300 Electronic Overload Relay expansion bus I/O modules, expansion power supplies, and operator stations. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 28: Expansion Bus Digital And Analog I/O Modules And Power Supply
(4) Expansion Analog I/O modules, and (1) Operation Station. The Installation E300 Base Relay can supply enough power for (1) Expansion Digital I/O module and (1) Operator Station. Any other combination of E300 Expansion Bus Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 29 1-meter (Cat. No. 193-EXP-CBL-1M) and 3-meter (Cat. No. 193-EXP-CBL-3M) Expansion Bus cables are available as accessories. The E300 expansion bus can support a maximum distance of 5 meters (16 ft.). Figure 12 - Expansion Bus Network Installation Click Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 30: Starter Assembly
The starter assembly installation instructions are for use with E300 Sensing Module catalog numbers 193-ESM-___-___-C23 and 193-ESM-___-___-C55 Figure 13 - 100-C09…-C55 Starter Assembly Installation 5 - 7 lb-in 9 - 22 lb-in 7 -11 lb-in Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 31: Starter Dimensions
190 (7.49) 60 (2.36) (ADD 5 mm (0.19 in.) FOR CONTACTOR COIL ON LINE SIDE) 67 (2.65) 37 (1.48) FROM CONTACTOR MTG. HOLE 152 (5.98) 122 (4.81) 29 (1.13) FROM CONTACTOR MTG. HOLE (4.78) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 32 (5.4) 3.98 9.26 (101) (235.1) (ADD 0.24 FOR CONTACTOR COIL ON LINE SIDE) 3.60 (91.6) 1.71 FROM CONTACTOR (43.5) MTG. HOLE 6.99 (177.6) 5.10 129.5) FROM 1.53 5.32 CONTACTOR (38.9) (135.2) MTG. HOLE Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 33 12 (0.46) (4.91) 35 (1.38) (2.75) Figure 19 - E300 Sensing Module 592-ESM-___-__-S2 with NEMA Contactor Size 2 (3.94) n 6 (0.22) 184 (7.24) 219 (8.63) 276 (10.85) 12 (0.46) (4.91) 40 (1.58) (3.15) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 34: Din Rail / Panel Mount Dimensions
(11.35) n 0.189 (4.8) 1.53 (39) 0.18 (4.5) 5.32 1.19 (135) WITH MTG. FEET (30.1) 4.58 4.921 (116.2) (125) W/O MTG. FEET 0.197 4.88 (124) 1.76 (45) Mount feet accessory Cat. No.: 140M-C-N45 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 35: Expansion Bus Peripherals Dimensions
Approximate dimensions are shown in millimeters. Dimensions are not intended to be used for manufacturing purposes. Dimensions Figure 23 - E300 Digital Expansion Module 193-EXP-DIO-___ 22.5 (0.89) 2 x 4.5 (0.18) dia. 98 (3.86) 87 (3.43) 80.75 (3.18) (4.73) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 36 22.5 (0.89) 2 x 4.5 (0.18) dia. 98 (3.86) 87 (3.43) 80.75 (3.18) (4.73) Figure 25 - E300 Expansion Power Supply 193-EXP-PS-___ (1.77) 4x 4.5 (0.18) dia (4.73) 80.75 (3.18) (3.86) (3.43) (0.47) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 37: Terminals
Flexible-Stranded with Ferrule Metric 6…10 mm2 4…25 mm2 Multiple 3.4 N•m 4 N•m 2.5…25 mm2 4…50 mm2 Single 2.5 N•m 4 N•m Coarse-Stranded/Solid Metric 6…16 mm2 4…35 mm2 Multiple 3.4 N•m 4 N•m Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 38: Control Module
193-EIOGP-42- _ _ _ 193-EIO-43- _ _ _ 193-EIOGP-22- _ _ _ Power / PTC Communication Terminals Module Latch Expansion Bus Connector Input / Output Terminals Relay / Ground Fault Terminals Sensing Module Latch Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 39 193-EIO-_ _-_ _ _ 193-EIOGP-_ _-_ _ _ A1 R03 A1 R03 RELAY 0 RELAY 0 Additional Inputs for 193-EIO-63-_ _ _ Additional Inputs for 193-EIOGP-42-_ _ _ RELAY 1 RELAY 2 RELAY 1 Ground Fault Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 40: Expansion Digital Module
Multiple 24...16 AWG (stranded only) 5 lb-in 0.25…2.5 mm Single 0.55 N•m Flexible-Stranded with Ferrule Metric 0.5...0.75 mm Multiple 0.55 N•m 0.2...2.5 mm Single 0.55 N•m Coarse-Stranded/Solid Metric 0.2...1.5 mm Multiple 0.55 N•m Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 41: Expansion Analog Module
Figure 31 - E300 Expansion Digital Module Wiring Diagram R04 R14 RC3 Source IN1 IN2 Expansion Analog Module Figure 32 - E300 Expansion Analog Module Terminal Designations OUT+OUT- IN2+ IN2- RS2 IN1+ IN1- RS1 IN0+ IN0- RS0 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 42 Power Supply IN x - 3 Wire RTD IN x + 2 Wire RTD/Resistance IN x + IN x - RS x IN x - Analog Voltage or Current Output Out+ Device Out- Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 43: Expansion Power Supply
(stranded only) 5 lb-in 0.25…2.5 mm Single 0.55 N•m Flexible-Stranded with Ferrule Metric Multiple 0.5...0.75 mm (stranded only) 0.55 N•m 0.2...2.5 mm Single 0.55 N•m Coarse-Stranded/Solid Metric Multiple 0.2...1.5 mm (stranded only) 0.55 N•m Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 44: Grounding
Overload Relay with Sensing Module Cat. No. Max. Available Fault Current [A] Maximum Voltage [V] 193-ESM-___-30A-C23 193-ESM-___-30A-C55 193-ESM-___-30A-E3T 193-ESM-___-30A-P 193-ESM-___-30A-T 193-ESM-VIG-30A-CT 5,000 592-ESM-___-30A-S2 193-ESM-___-60A-C55 193-ESM-___-60A-E3T 193-ESM-___-60A-P 193-ESM-___-60A-T 592-ESM-___-60A-S2 193-ESM-___-100A-C97 193-ESM-___-100A-E3T 10,000 193-ESM-___-100A-T 592-ESM-___-100A-S3 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 45 Max. Starter FLC [A] Max. Voltage [V] Class C or JJ fuse [A] Sensing Module Cat. No. Current [A] 100-C09 100-C12 193-ESM-___-30A-C23 100-C16 100-C23 100-C30 193-ESM-___-30A-C55,  100-C37 100,000 193-ESM-___-60A-C55 100-C43 100-C55 100-C72 193-ESM-___-100A-C97 100-C85 100-C97 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 46: Fuse Coordination
The following tables list Type I and Type II Fuse Coordination when used with Bulletin 100-C and 100-D and Bulletin 500 NEMA Size 00… 2 Contactors. ATTENTION: Select the motor branch circuit protection that complies with the NEC and any other governing regional or local codes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 47: Typical Motor Connections
Three-Phase Direct On-Line (DOL) and Single-Phase Full-voltage The following wiring diagram illustrates the E300 Electronic Overload Relay typical motor connections in a three-phase DOL and single-phase full-voltage applications. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 48: External Line Current Transformer Application
Based on these two configuration parameters, the E300 Electronic Overload Relay will automatically adjust the measured current. Use the primary current for your FLA settings. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 49 (2) be accurate to within ≤±2% over its normal operating range. Typical CT ratings include: • ANSI USA • CSA (Canada) • IEC (Europe) • Class C5 BO.1 • Class 10L5 • 5 VA Class SP10 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 50 Catalog Number Connection Type Power System Single Phase Delta 193-ESM-VIG-__-__ Direct 592-ESM-VIG-__-__ Grounded B Phase Delta Single Phase Delta Direct Grounded B Phase Delta 193-ESM-VIG-30A-CT Delta 3 PT Single Phase 2 PT Open Delta Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 51 65535 Parameter Type UINT Size (Bytes) Scaling Factor Units Amps Table 18 - PT Secondary (Parameter 354) Default Value Minimum Value 165535 Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Amps Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 52: Control Circuits
Relay 0 (terminals R03 and R04) is configured to be a normally closed Trip Relay. Full-Voltage Non-Reversing Starter (with Network Control) Figure 38 - NEMA Nomenclature Relay 0 Configured as a Relay 1 Trip Relay Contact shown with supply voltage applied. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 53: Full-Voltage Reversing Starter (With Network Control)
Contact shown with supply voltage applied. Full-Voltage Reversing Starter (with Network Control) Figure 40 - NEMA Nomenclature Relay 0 Configured as a Relay 1 Trip Relay Relay 2 Contact shown with supply voltage applied. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 54 Chapter 2 Installation and Wiring Figure 41 - CENELEC Nomenclature Relay 0 Configured as a Trip Relay Relay 1 Relay 2 Contact shown with supply voltage applied. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 55: Diagnostic Station
The E300 Diagnostic Station allows you to view parameters using a group menu system or by a linear list. To start the navigation menu, press the key. The menu prompts you to view parameters by groups, parameters in a linear list, or E300 system information. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 56: Parameter Group Navigation
When viewing a bit enumerated parameter, press to view the description of each bit. Press to view the next bit. Press to return to the parameter. Press to return to the parameter group navigation system. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 57: Linear List Navigation
When viewing a bit enumerated parameter, press to view the description of each bit. Press to view the next bit. Press to return to the parameter. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 58: System Info
Use the keys to select the new value. Press to select the next system value. Press to save the new system values or press to cancel the modification and restore the previous system values. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 59: Editing Parameters
If you do not press any navigation keys for a period that is Defined by Display Timeout (Parameter 436), then the E300 Diagnostic Station automatically cancels the modification, restores the previous value, and returns to its programmable display sequence. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 60: Editing A Bit Enumerated Parameter
• User-defined screen 4 The three-phase voltage and total power screens are only included in the sequence when the E300 Electronic Overload Relay has a voltage, current, and ground fault current (VIG)-based Sensing Module. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 61: Stopping The Display Sequence
If you do not press any navigation keys for a period that is Defined by Display Timeout (Parameter 436), then the E300 Diagnostic Station automatically returns to its programmable display sequence. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 62: Automatic Trip And Warning Screens
If a different parameter is displayed and you do not press any navigation keys for a period that is Defined by Display Timeout (Parameter 436), then the E300 Diagnostic Station will automatically return to the trip or warning screen if the trip or warning event is not cleared. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 63: System Operation And Configuration
After commissioning activities and maintenance tasks are completed, return the E300 Electronic Overload Relay back to Operation or Run Mode by setting the rotary dials of the E300 communication module back to its previous positions and cycle power. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 64: Operation Mode
The Power LED on the Communication Module and Operator Stations will be solid green and bits 3, 4, and/or 5 in Device Status 0 (Parameter 20) are set to 1 when the device is in Run Mode. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 65: Test Mode
Relay in which the E300 is in a tripped state due to invalid configuration data. Invalid Configuration Parameter (Parameter 38) indicates the parameter number that is causing the fault. Invalid Configuration Cause (Parameter 39) identifies the reason for Invalid Configuration Mode. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 66: Option Match
Due to the modular nature of the E300 Electronic Overload Relay, you can enable the Option Match feature to ensure that the options that were expected for the motor protection application are the ones that are present on the E300 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 67: Enable Option Match Protection Trip (Parameter 186)
Remote Trip Enable Blocked Start Trip Enable Hardware Fault Trip Enable Configuration Trip Enable Option Match Trip Enable Feedback Timeout Trip Enable Expansion Bus Trip Enable Reserved Reserved Nonvolatile Memory Trip Enable Ready Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 68: Enable Option Match Protection Warning (Parameter 192)
193-EIOGP-42-24D 2 Inputs, 110-120V AC 50/60Hz / 2 Relay Outputs / External Ground Fault / PTC 193-EIOGP-22-120 2 Inputs, 220-240V AC 50/60Hz / 2 Relay Outputs / External Ground Fault / PTC 193-EIOGP-22-240 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 69: Sensing Module Type (Parameter 222)
223. A value of (0) disables the Option Match feature for the communication module. Table 27 - Communication Module Type (Parameter 223) Code Description Communication Module Cat. No. Ignore — EtherNet/IP with Dual Port Switch supporting DLR 193-ECM-ETR DeviceNet 193-ECM-DNT Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 70: Operator Station Type (Parameter 224)
— Module Not Allowed) 4 Inputs, 24V DC / 2 Relay Outputs 193-EXP-DIO-42-24D 4 Inputs, 110-120V AC 50/60Hz / 2 Relay Outputs 193-EXP-DIO-42-120 4 Inputs, 220-240V AC 50/60Hz / 2 Relay Outputs 193-EXP-DIO-42-240 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 71: Digital I/O Expansion Module 2 Type (Parameter 226)
4 Inputs, 220-240V AC 50/60Hz / 2 Relay Outputs 193-EXP-DIO-42-240 Digital I/O Expansion Module 4 Type (Parameter 228) The E300 Electronic Overload Relay supports up to four additional Digital I/O expansion modules. This parameter configures the Option Match feature for the Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 72: Analog I/O Expansion Module 1 Type (Parameter 229)
Table 33 - Analog I/O Expansion Module 1 Type (Parameter 229) Code Description Analog I/O Expansion Module Cat. No. Ignore — No Analog I/O Expansion Module (Analog I/O Expansion — Module Not Allowed) 3 Universal Analog Inputs / 1 Analog Output 193-EXP-AIO-31 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 73: Analog I/O Expansion Module 2 Type (Parameter 230)
Table 35 - Analog I/O Expansion Module 3 Type (Parameter 231) Code Description Analog I/O Expansion Module Cat. No. Ignore — No Analog I/O Expansion Module (Analog I/O Expansion — Module Not Allowed) 3 Universal Analog Inputs / 1 Analog Output 193-EXP-AIO-31 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 74: Analog I/O Expansion Module 4 Type (Parameter 232)
Digital Module 2 Mismatch Action Digital Module 3 Mismatch Action Digital Module 4 Mismatch Action Analog Module 1 Mismatch Action Analog Module 2 Mismatch Action Analog Module 3 Mismatch Action Analog Module 4 Mismatch Action Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 75: Security Policy
Electronic Overload Relay is in Operation Mode. When this policy is disabled, all external reset message instructions will return a communications error when the E300 Electronic Overload Relay is in Operation Mode or Run Mode. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 76: Firmware Update Policy
Activate L2 and L3 Line Loss Protection L1 L3 Line Loss Arm Activate L1 and L3 Line Loss Protection L1 L2 L3 Line Loss Arm Activate L1, L2, and L3 Line Loss Protection Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 77: Input Pt01 Assignment (Parameter 197)
Activate L2 and L3 Line Loss Protection L1 L3 Line Loss Arm Activate L1 and L3 Line Loss Protection L1 L2 L3 Line Loss Arm Activate L1, L2, and L3 Line Loss Protection Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 78: Input Pt03 Assignment (Parameter 199)
Activate L2 and L3 Line Loss Protection L1 L3 Line Loss Arm Activate L1 and L3 Line Loss Protection L1 L2 L3 Line Loss Arm Activate L1, L2, and L3 Line Loss Protection Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 79: Input Pt05 Assignment (Parameter 201)
Activate L2 and L3 Line Loss Protection L1 L3 Line Loss Arm Activate L1 and L3 Line Loss Protection L1 L2 L3 Line Loss Arm Activate L1, L2, and L3 Line Loss Protection Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 80: Output Pt00 Assignment (Parameter 202)
Monitor L3 Control Relay Under Current, L3 Over Current, or L3 Line Loss, the relay opens. The Control Relay remains open until a trip reset is issued. (1) Requires Control Module firmware v3.000 or higher Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 81: Output Pt01 Assignment (Parameter 203)
Monitor L3 Control Relay Under Current, L3 Over Current, or L3 Line Loss, the relay opens. The Control Relay remains open until a trip reset is issued. (1) Requires Control Module firmware v3.000 or higher Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 82: Output Pt02 Assignment (Parameter 204)
I/O capabilities of the E300 Electronic Overload Relay with the addition of digital and analog expansion I/O modules. The Expansion Bus Fault allows you to have the E300 Electronic Overload Relay go into a Trip or Warning state when Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 83: Expansion Bus Trip
E300 Electronic Overload Relay by pressing the blue reset button on the Communication Module, via network communications, with the internal web server of the EtherNet/IP communications module, or by an assigned digital input. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 84: Expansion Bus Warning
Activating Emergency Start inhibits overload and blocked start protection. IMPORTANT Running in this mode can cause equipment overheating and fire. To enable the Emergency Start feature in the E300 Electronic Overload Relay set the Emergency Start Enable (Parameter 216) to Enable. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 85 • Output relays configured as Trip Relays are put into closed state • Normal operation resumes with any Normal or Control Relay assigned output relay • The Emergency Start Active bit is set to 1 in Device Status 0 (Parameter 20) bit 6 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 86: Diagnostic Station User-Defined Screens
User-defined Screen 1 - Parameter 2 (Parameter 429) is the E300 parameter number to display for the second parameter in user-defined screen 1. You can select one of the 560 available E300 Electronic Overload Relay parameters. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 87: User-Defined Screen 2
560 available E300 Electronic Overload Relay parameters. Table 58 - Screen 2 - Parameter 2 (Parameter 431) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 88: User-Defined Screen 3
560 available E300 Electronic Overload Relay parameters. Table 61 - Screen 4 - Parameter 1 (Parameter 434) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 89: Display Timeout
A value of zero disables the display timeout function. Table 62 - Display Timeout (Parameter 436) Default Value Minimum Value Maximum Value 65535 Parameter Type UINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 90: Analog I/O Expansion Modules
Low Limit 3000 -32768 -1024 21.00 mA High Limit 21000 2100 32767 17202 20.00 mA High Range 20000 2000 32767 16383 0…20 mA 0.00 mA Low Range -32768 0.00 mA Low Limit -32768 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 91 -32768 100 Ω Ni 618 500.0 °F High Limit 5000 32767 16383 500.0 °F High Range 5000 32767 16383 -148.0 °F Low Range -1480 -148 -32768 -148.0 °F Low Limit -1480 -148 -32768 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 92: Analog Output Channel
0 Ω Low Limit -32768 Analog Output Channel The isolated analog output can be programmed to provide one of the following analog output signal types: • Current – 4…20 mA – 0…20 mA Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 93 The analog output can represent one of the following E300 diagnostic parameters: • Average %FLA • %TCU • Ground Fault Current • Current Imbalance • Average L-L Voltage • Voltage Imbalance • Total kW • Total kVAR • Total kVA Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 94: Update Rate
• Channel 00 is configured for a 3-wire RTD and 4 Hz filter (conversion time = 1024 ms). • Channel 01 is configured for 17Hz voltage (conversion time = 153 ms). • Channel 02 is configured for 62Hz current (conversion time = 65 ms). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 95: Analog Module 1
PTC and NTC sensors. Analog Module 1 – Input Channel 00 Format Analog Module 1 – Input Channel 00 Format (Parameter 438) defines the data format for how the analog reading is reported. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 96 Analog Module 1 – Input Channel 00 RTD Type Enable Analog Module 1 – Input Channel 00 RTD Type Enable (Parameter 442) defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 97 Assignment Description EngUnits Engineering Units (mA, V, °C, °F, or Ω) EngUnitsTimes10 Engineering Units x 10 (mA, V, °C, °F, or Ω) RawProportional Raw / Proportional (-32768…+32767) ScaledForPID Scaled for PID (0…16383) Analog Module 1 – Input Channel 01 Temperature Unit Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 98 Analog Module 1 – Input Channel 02 Type Analog Module 1 – Input Channel 02 Type (Parameter 455) defines the type of analog signal that Input Channel 02 of Analog Module 1 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 99 RTD sensor readings. Table 85 - Analog Module 1 – Input Channel 02 Temperature Unit (Parameter 457) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 100 Provide an analog current signal from 0…20 mA 0To10Volts Provide an analog voltage signal from 0…10 V DC 1To5Volts Provide an analog voltage signal from 1…5 V DC 0To5Volts Provide an analog voltage signal from 0…5 V DC Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 101 Continue providing the appropriate analog signal Maximum Provide an analog signal equal to the high limit Minimum Provide an analog signal equal to the low limit HoldLastState Provide the analog signal at the time of the fault Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 102: Analog Module 2
Scaled for PID (0 - 16383) Analog Module 2 – Input Channel 00 Temperature Unit Analog Module 2 – Input Channel 00 Temperature Unit (Parameter 470) defines the temperate unit for RTD sensor readings. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 103 Analog Module 2 – Input Channel 01 Type Analog Module 2 – Input Channel 01 Type (Parameter 477) defines the type of analog signal that Input Channel 01 of Analog Module 2 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 104 RTD sensor readings. Table 101 - Analog Module 2 – Input Channel 01 Temperature Unit (Parameter 479) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 105 Analog Module 2 – Input Channel 02 Type Analog Module 2 – Input Channel 02 Type (Parameter 486) defines the type of analog signal that Input Channel 02 of Analog Module 2 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 106 RTD sensor readings. Table 107 - Analog Module 2 – Input Channel 02 Temperature Unit (Parameter 488) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 107 Provide an analog current signal from 0…20 mA 0To10Volts Provide an analog voltage signal from 0…10 V DC 1To5Volts Provide an analog voltage signal from 1…5 V DC 0To5Volts Provide an analog voltage signal from 0…5 V DC Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 108 Continue providing the appropriate analog signal Maximum Provide an analog signal equal to the high limit Minimum Provide an analog signal equal to the low limit HoldLastState Provide the analog signal at the time of the fault Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 109: Analog Module 3
Scaled for PID (0 …16383) Analog Module 3 – Input Channel 00 Temperature Unit Analog Module 3 – Input Channel 00 Temperature Unit (Parameter 501) defines the temperate unit for RTD sensor readings. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 110 Analog Module 3 – Input Channel 01 Type Analog Module 3 – Input Channel 01 Type (Parameter 508) defines the type of analog signal that Input Channel 01 of Analog Module 3 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 111 RTD sensor readings. Table 123 - Analog Module 3 – Input Channel 01 Temperature Unit (Parameter 510) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 112 Analog Module 3 – Input Channel 02 Type Analog Module 3 – Input Channel 02 Type (Parameter 517) defines the type of analog signal that Input Channel 02 of Analog Module 3 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 113 RTD sensor readings. Table 129 - Analog Module 3 – Input Channel 02 Temperature Unit (Parameter 519) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 114 Provide an analog current signal from 0…20 mA 0To10Volts Provide an analog voltage signal from 0…10 V DC 1To5Volts Provide an analog voltage signal from 1…5 V DC 0To5Volts Provide an analog voltage signal from 0…5 V DC Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 115 Continue providing the appropriate analog signal Maximum Provide an analog signal equal to the high limit Minimum Provide an analog signal equal to the low limit HoldLastState Provide the analog signal at the time of the fault Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 116: Analog Module 4
ScaledForPID Scaled for PID (0…16383) Analog Module 4 – Input Channel 00 Temperature Unit Analog Module 4 – Input Channel 00 Temperature Unit (Parameter 532) defines the temperate unit for RTD sensor readings. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 117 Analog Module 4 – Input Channel 01 Type Analog Module 4 – Input Channel 01 Type (Parameter 539) defines the type of analog signal that Input Channel 01 of Analog Module 4 will be monitoring. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 118 RTD sensor readings. Table 145 - Analog Module 4 – Input Channel 01 Temperature Unit (Parameter 541) Value Assignment Description DegreesC Report RTD Temperature Data in °C DegreesF Report RTD Temperature Data in °F Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 119 RTD sensor. Table 148 - Analog Module 4 – Input Channel 01 RTD Type Enable (Parameter 544) Value Assignment Description 3-Wire Scan a 3-wire RTD sensor 2-Wire Scan a 2-wire RTD sensor Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 120 Value Assignment Description EngUnits Engineering Units (mA, V, °C, °F, or Ω) EngUnitsTimes10 Engineering Units x 10 (mA, V, °C, °F, or Ω) RawProportional Raw / Proportional (-32768…+32767) ScaledForPID Scaled for PID (0…16383) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 121 Analog Module 4 – Output Channel 00 Type Analog Module 4 – Output Channel 00 Type (Parameter 557) defines the type of analog signal that Output Channel 00 of Analog Module 4 will be providing. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 122 Analog Module 4 – Output Channel 00 Expansion Bus Fault Action (Parameter 560) defines the value that the E300 Analog I/O Expansion Module Output Channel 00 provides when the E300 is in a tripped state. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 123: Introduction To Operating Modes
Invalid Configuration Mode and trip on a configuration trip. Operating Modes on page 125 describes the functionality of the available Operating Modes for the E300 Electronic Overload Relay and their associated configuration rules. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 124 Chapter 4 System Operation and Configuration Notes: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 125: Operating Modes
The E300 Electronic Overload Relay is wired as a traditional overload relay with one of the output relays configured as a normally closed Trip Relay. Figure 43 is a wiring diagram of a Non-Reversing Starter. Relay 0 is configured as a Trip Relay, Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 126 Relay 0 also goes to an open state when there is a trip event. Figure 44 - Control Relay Wiring Diagram Relay 0 Configured as a Control Relay Contact shown with supply voltage applied. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 127: Monitor (Custom)
Hardware Fault trip), then set any of the Output Ptxx Assignments (Parameters 202…204) to the appropriate value of Trip Relay, Control Relay, Monitor Lx Trip Relay, or Monitor Lx Control Relay. Wiring Diagram Not Applicable Timing Diagram Not Applicable Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 128 Chapter 5 Operating Modes Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 129: Protective Trip And Warning Functions
• Phase Loss Trip • Ground Fault Trip/Warning • Stall Trip • Jam Trip/Warning • Underload Trip/Warning • Current Imbalance Trip/Warning • Line Under Current Trip/Warning • Line Over Current Trip/Warning • Line Loss Trip/Warning Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 130 L1 Under Current Warning L2 Under Current Warning L3 Under Current Warning L1 Over Current Warning L2 Over Current Warning L3 Over Current Warning L1 Line Loss Warning L2 Line Loss Warning L3 Line Loss Warning Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 131 L1 Under Current Warning L2 Under Current Warning L3 Under Current Warning L1 Over Current Warning L2 Over Current Warning L3 Over Current Warning L1 Line Loss Warning L2 Line Loss Warning L3 Line Loss Warning Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 132: Overload Protection
• Output Digital Module 3 Protection Fault Action (Parameter 334) • Output Digital Module 3 Protection Fault Value (Parameter 335) • Output Digital Module 4 Protection Fault Action (Parameter 340) • Output Digital Module 4 Protection Fault Value (Parameter 342) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 133 1.15, program the FLA setting to 90% of the full-load current rating on the printed nameplate. • Wye-Delta (Y-Δ) Applications: Follow the application’s service factor instructions, except divide the full-load current rating on the printed nameplate by 1.73. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 134 Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Trip Curves The following figures illustrate the E300 Electronic Overload Relay’s time- current characteristics for trip classes 5, 10, 20, and 30. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 135 Overload Relay automatically resets when the value stored in % Thermal Capacity Utilized (Parameter 1) falls below the value stored in Overload Reset Level (Parameter 174). If manual reset mode is selected, the E300 Overload Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 136 Size (Bytes) Scaling Factor Units Table 167 - Overload Reset Level (Parameter 174) Overload Reset Level (Parameter 174) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units %TCU Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 137 • % Thermal Capacity Utilized is equal to or greater than Overload Warning Level When the overload warning conditions are satisfied, the: • TRIP/WARN LED status indicator flashes a yellow short-1 blink pattern • Bit 0 in Current Warning Status (Parameter 10) sets to 1 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 138 Overload Reset Level (Parameter 174), the Overload Time to Reset value indicates zero until the overload trip is reset. After an overload trip is reset, the Overload Time to Reset value is reported as 0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 139: Phase Loss Protection
It is adjustable from 0…250 seconds. Table 171 - Phase Loss Inhibit Time (Parameter 239) Phase Loss Inhibit Time (Parameter 239) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 140 • Output Digital Module 3 Protection Fault Action (Parameter 334) • Output Digital Module 3 Protection Fault Value (Parameter 335) • Output Digital Module 4 Protection Fault Action (Parameter 340) • Output Digital Module 4 Protection Fault Value (Parameter 342) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 141: Ground Fault Current Protection
➊ One of the following Catalog Number 193-CBCT_ Core Balance Ground Fault Sensors must be used: 1 — Ø 20 mm window 2 — Ø 40 mm window 3 — Ø 65 mm window 4 — Ø 85 mm window Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 142 When enabled, Ground Fault Maximum Inhibit (Parameter 248), inhibits a ground fault trip from occurring when the ground fault current exceeds the maximum range of the core-balance sensor (approximately 6.5 A). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 143 0…250 seconds. The ground fault inhibit time begins when the Current Present (bit 3) or Ground Fault Current Present (bit 4) is set in Device Status 0 (Parameter 20). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 144 If the E300 Electronic Overload Relay trips on a ground fault, the: • TRIP/WARN LED flashes a red 3-short blink pattern • Bit 2 in Current Trip Status (Parameter 4) sets to 1 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 145 Ground Fault Trip Delay Ground Fault Trip Delay (Parameter 243) allows you to define the time period a ground fault condition must be present before a trip occurs and is adjustable from 0.0…25.0 s. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 146 The E300 Electronic Overload Relay indicates a ground fault warning if: • No warning currently exists • Ground Fault Warning is enabled • Current is present • Ground Fault Inhibit Time has expired Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 147 Table 182 - Ground Fault Warning Delay (Parameter 245) Ground Fault Warning Delay (Parameter 245) Default Value Minimum Value Maximum Value 25.00 Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 148: Stall Protection
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 149 Size (Bytes) Scaling Factor Units Seconds Stall Trip Level Stall Trip Level (Parameter 250) allows you to define the locked rotor current and is adjustable from 100…600% of the FLA Setting (Parameter 171). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 150: Jam Protection
Jam Inhibit Time (Parameter 251) allows you to inhibit a jam trip and warning from occurring during the motor starting sequence. It is adjustable from 0…250 s. Table 185 ‐ Jam Trip Inhibit Time (Parameter 251) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 151 • Output Digital Module 4 Protection Fault Value (Parameter 342) Jam Trip Delay Jam Trip Delay (Parameter 252) allows you to define the time period a jam condition must be present before a trip occurs. It is adjustable from  0.1…25.0 s. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 152 • Bit 4 in Current Warning Status (Parameter 10) sets to 1 • Bit 1 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Warning Alarm close Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 153: Underload Protection
It is adjustable from 0…250 s. Table 189 - Underload Inhibit Time (Parameter 255) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 154 • Output Digital Module 4 Protection Fault Value (Parameter 342) Underload Trip Delay Underload Trip Delay (Parameter 256) allows you to define the time period an underload condition must be present before a trip occurs. It is adjustable from 0.1…25.0 s. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 155 The E300 Electronic Overload Relay indicates an underload warning if: • No warning currently exists • Underload Warning is enabled • Current is present • Underload Inhibit Time has expired • The minimum phase current is less than the Underload Warning Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 156: Current Imbalance Protection
Current Imbalance can be defined by the following equation: %CI = 100% * (I ) where %CI = Percent Current Imbalance = Maximum Deviation from the Average Current = Average Current Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 157 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 158 Current Imbalance Trip Level Current Imbalance Trip Level (Parameter 261) allows you to define the percentage at which the E300 Electronic Overload Relay trips on a current imbalance. It is user-adjustable from 10…100%. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 159 E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 10…100%. Table 196 - Current Imbalance Warning Level (Parameter 262) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 160: Line Under Current Protection
Level for a time period greater than the L1 Under Current Trip Delay. • If the E300 Electronic Overload Relay trips on a L1 Under Current, the: • TRIP/WARN LED status indicator flashes a red 8-short blink pattern Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 161 L1 Under Current condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Table 198 - L1 Under Current Trip Delay (Parameter 266) Default Value Minimum Value Maximum Value 25.0 Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 162 • Any relay outputs configured as a Warning Alarm close L1 Under Current Warning Level L1 Under Current Warning Level (Parameter 268) allows you to define the current at which the E300 Electronic Overload Relay indicates a L1 Under Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 163 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 164 L2 Under Current Trip Level (Parameter 270) allows you to define the current at which the E300 Electronic Overload Relay trips on a L2 Under Current. It is user-adjustable from 10…100% of the FLA Setting (Parameter 171). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 165 L2 Under Current Warning Level (Parameter 271) allows you to define the current at which the E300 Electronic Overload Relay indicates a L2 Under Current warning. It is user-adjustable from 10…100% for the FLA Setting (Parameter 171). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 166 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 167 L3 Under Current Trip Level (Parameter 273) allows you to define the current at which the E300 Electronic Overload Relay trips on a L3 Under Current. It is user-adjustable from 10…100% of the FLA Setting (Parameter 171). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 168 L3 Under Current Warning Level (Parameter 274) allows you to define the current at which the E300 Electronic Overload Relay indicates a L3 Under Current warning. It is user-adjustable from 10…100% for the FLA Setting (Parameter 171). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 169: Line Over Current Protection
L1 Over Current Trip The E300 Electronic Overload Relay trips with a L1 Over Current indication if: • No trip currently exists • L1 Over Current Trip is enabled • Current is present Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 170 L1 Over Current Trip Delay L1 Over Current Trip Delay (Parameter 276) allows you to define the time period an L1 Over Current condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 171 • Bit 10 in Current Warning Status (Parameter 10) sets to 1 • Bit 1 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Warning Alarm closes Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 172 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 173 L2 Over Current Trip Level (Parameter 280) allows you to define the current at which the E300 Electronic Overload Relay trips on a L2 Over Current. It is user- adjustable from 10…100% of the FLA Setting (Parameter 171) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 174 It is user-adjustable from 10…100% for the FLA Setting (Parameter 171). Table 213 - L2 Over Current Warning Level (Parameter 281) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units %FLA Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 175 • Output Digital Module 3 Protection Fault Action (Parameter 334) • Output Digital Module 3 Protection Fault Value (Parameter 335) • Output Digital Module 4 Protection Fault Action (Parameter 340) • Output Digital Module 4 Protection Fault Value (Parameter 342) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 176 • L3 Over Current Warning is enabled • Current is present • The Over Current Inhibit Timer has expired • L3 Percent FLA (Parameter 49) is greater than the L3 Over Current Warning Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 177: Line Loss Protection
Line Loss Inhibit Time (Parameter 285) allows you to inhibit an L1, L2, and L3 Line Loss trip and warning from occurring during a load starting sequence. It is adjustable from 0…250 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 178 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 179 196-201). The E300 Electronic Overload Relay does not begin monitoring for Line Loss condition until the Line Loss Inhibit Timer expires. L1 Line Loss Warning The E300 Electronic Overload Relay indicates an L1 Line Loss warning if: • No warning currently exists Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 180 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 181 196-201). The E300 Electronic Overload Relay does not begin monitoring for Line Loss condition until the Line Loss Inhibit Timer expires. L2 Line Loss Warning The E300 Electronic Overload Relay indicates an L2 Line Loss warning if: • No warning currently exists Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 182 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 183 196-201). The E300 Electronic Overload Relay does not begin monitoring for Line Loss condition until the Line Loss Inhibit Timer expires. L3 Line Loss Warning The E300 Electronic Overload Relay indicates an L3 Line Loss warning if: • No warning currently exists Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 184: Voltage-Based Protection
• Phase rotation mismatch trip • Under frequency trip/warning • Over frequency trip/warning Voltage Trip Enable (Parameter 184) and Voltage Warning Enable (Parameter 190) are used to enable the respective voltage-based protective trip and warning functions. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 185 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Voltage Trip Status (Parameter 5) and Voltage Warning Status (Parameter 11) are used to view the status of the respective voltage-based protective trip and warning functions. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 186 15 14 13 12 11 10 9 Function X Under Voltage Warning Over Voltage Warning Voltage Imbalance Warning Phase Rotation Mismatch Warning Under Frequency Warning Over Frequency Warning Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 187: Under Voltage Protection
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 188 Under Voltage Trip Level Under Voltage Trip Level (Parameter 357) allows you to define the voltage at which the E300 Electronic Overload Relay trips on an under voltage. It is user- adjustable from 0…6553.5 volts. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 189 E300 Electronic Overload Relay indicates a warning. It is user- adjustable from 0…6553.5 volts. Table 229 - Under Voltage Warn Level Default Value 400.0 Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 190: Over Voltage Protection
• Bit 1 in Voltage Trip Status (Parameter 5) sets to 1 • Bit 0 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Trip Relay open • Any relay outputs configured as a Control Relay open Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 191 Over Voltage Trip Level Over Voltage Trip Level (Parameter 357) allows you to define the voltage at which the E300 Electronic Overload Relay trips on an over voltage. It is user- adjustable from 0…6553.5 volts. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 192 E300 Electronic Overload Relay indicates a warning. It is user- adjustable from 0…6553.5 volts. Table 232 - Over Voltage Warn Level (Parameter 362) Default Value 490.0 Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 193: Voltage Imbalance Protection
Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Voltage Imbalance Trip The E300 Electronic Overload Relay trips with a voltage imbalance indication if: • No trip currently exists Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 194 Voltage Imbalance Trip Delay Voltage Imbalance Trip Delay (Parameter 366) allows you to define the time period a voltage imbalance condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 195 • Bit 2 in Voltage Warning Status (Parameter 11) sets to 1 • Bit 1 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Warning Alarm close Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 196: Phase Rotation Protection
Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Phase Rotation Trip The E300 Electronic Overload Relay trips with a Phase Rotation indication if: • No trip currently exists Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 197 Relay trips on a phase rotation mismatch when this parameter does not match the measured voltage phase rotation. It is user-adjustable, ABC or ACB. Table 238 - Phase Rotation Trip Type (Parameter 364) Default Value 1 = ABC Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 198: Frequency Protection
Over Frequency Inhibit Time Over Frequency Inhibit Time (Parameter 373) allows you to inhibit an over frequency trip and warning from occurring during the motor starting sequence. It is adjustable from 0…250 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 199 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 200 Under Frequency Trip Level Under Voltage Trip Level (Parameter 371) allows you to define the frequency at which the E300 Electronic Overload Relay trips on an under frequency. It is user- adjustable from 46…65 Hz. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 201 E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 46…65 Hz. Table 243 - Under Frequency Warn Level (Parameter 372) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 202 Over Frequency Trip Delay Over Frequency Trip Delay (Parameter 374) allows you to define the time period an over frequency condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 203 • Bit 5 in Voltage Warning Status (Parameter 11) sets to 1 • Bit 1 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Warning Alarm closes Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 204: Power-Based Protection
• Under Reactive Power (kVAR) Trip/Warning • Over Reactive Power (kVAR) Trip/Warning • Under Apparent Power (kVA) Trip/Warning • Over Apparent Power (kVA) Trip/Warning • Under Power Factor Trip/Warning • Over Power Factor Trip/Warning Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 205 Over PF Leading Warning Reserved Reserved Reserved Reserved Power Trip Status (Parameter 6) and Power Warning Status (Parameter 12) are used to view the status of the respective power-based protective trip and warning functions. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 206: Real Power (Kw) Protection
(kW) for specific applications that require the monitoring of both voltage and current. You can help protect or issue a warning ifthe real power (kW) consumption of an electric motor is either too high or too low. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 207 • TRIP/WARN LED status indicator flashes a red 2-long / 1-short blink pattern • Bit 0 in Power Trip Status (Parameter 6) sets to 1 • Bit 0 in Device Status 0 (Parameter 20) sets to 1 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 208 Under kW Trip Level (Parameter 380) allows you to define the real power (kW) at which the E300 Electronic Overload Relay trips on an under real power (kW). It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 209 Under kW Warn Level Under kW Warn Level (Parameter 381) allows you to define the real power (kW) at which the E300 Electronic Overload Relay indicates a warning. It is user- adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 210 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 211 Over kW Trip Level (Parameter 384) allows you to define the total real power (kW) at which the E300 Electronic Overload Relay trips on over real power (kW). It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 212 E300 Electronic Overload Relay indicates a warning. It is user- adjustable from 0…2,000,000 kW. Table 259 - Over kW Warn Level Default Value 0.000 Minimum Value 0.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 213: Reactive Power (Kvar) Protection
It is adjustable from 0…250 seconds. Table 261 - Over kVAR Consumed Inhibit Time (Parameter 390) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 214 • The total reactive power (kVAR) consumed is less than the Under kVAR Consumed Trip Level for a time period greater than the Under kVAR Consumed Trip Delay. If the E300 Electronic Overload Relay trips on an under reactive power (kVAR) consumed, the: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 215 It is adjustable from 0.1…25.0 seconds. Table 264 - Under kVAR Consumed Trip Delay (Parameter 387) Default Value Minimum Value Maximum Value 25.0 Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 216 Under kVAR Consumed Warn Level Under kVAR Consumed Warn Level (Parameter 389) allows you to define the reactive power (kVAR) consumed at which the E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 217 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 218 Over kVAR Consumed Trip Level (Parameter 392) allows you to define the total reactive power (kVAR) consumed at which the E300 Electronic Overload Relay trips on over reactive power (kVAR) consumed. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 219 It is user-adjustable from 0…2,000,000 kW. Table 269 - Over kVAR Consumed Warn Level (Parameter 393) Default Value 0.000 Minimum Value 0.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units kVAR Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 220 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 221 Under kVAR Generated Trip Level (Parameter 396) allows you to define the reactive power (kVAR) generated at which the E300 Electronic Overload Relay trips on an under reactive power (kVAR) generated. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 222 Under kVAR Generated Warn Level Under kVAR Generated Warn Level (Parameter 397) allows you to define the reactive power (kVAR) generated at which the E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 223 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 224 Over kVAR Generated Trip Level (Parameter 400) allows you to define the total reactive power (kVAR) generated at which the E300 Electronic Overload Relay trips on over reactive power (kVAR) generated. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 225 It is user-adjustable from 0…2,000,000 kW. Table 275 - Over kVAR Generated Warn Level (Parameter 401) Default Value 0.000 Minimum Value 0.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units kVAR Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 226: Apparent Power (Kva) Protection
Table 277 - Over kVA Inhibit Time (Parameter 406) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Under kVA Trip The E300 Electronic Overload Relay trips with an Under kVA indication if: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 227 Under kVA Trip Delay Under kVA Trip Delay (Parameter 403) allows you to define the time period an under apparent power (kVA) condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 228 Warning Level When the Under kVA Warning conditions are satisfied, the: • TRIP/WARN LED flashes a yellow 2-long / 7-short blink pattern • Bit 6 in Power Warning Status (Parameter 12) sets to 1 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 229 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 230 Over kVA Trip Level (Parameter 408) allows you to define the total apparent power (kVA) at which the E300 Electronic Overload Relay trips on over apparent power (kVA). It is user-adjustable from 0…2,000,000 kVA. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 231 (kVA) at which the E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kVA. Table 283 - Over kVA Warn Level (Parameter 409) Default Value 0.000 Minimum Value 0.000 Maximum Value 2,000,000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 232: Power Factor Protection
It is adjustable from 0…250 seconds. Table 285 - Over Power Factor Lagging Inhibit Time (Parameter 414) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 233 • Under Power Factor Lagging Inhibit Time has expired • The total power factor lagging is less than the Under Power Factor Lagging Trip Level for a time period greater than the Under Power Factor Lagging Trip Delay. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 234 It is adjustable from 0.1…25.0 seconds. Table 288 - Under Power Factor Lagging Trip Delay (Parameter 411) Default Value Minimum Value Maximum Value 25.0 Parameter Type USINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 235 Under Power Factor Lagging Warn Level Under Power Factor Lagging Warn Level (Parameter 413) allows you to define the power factor lagging at which the E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 236 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 237 Over Power Factor Lagging Trip Level (Parameter 416) allows you to define the total power factor lagging at which the E300 Electronic Overload Relay trips on over power factor lagging. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 238 It is user-adjustable from 0…2,000,000 kW. Table 293 - Over Power Factor Lagging Warn Level (Parameter 417) Default Value Minimum Value -100 Maximum Value Parameter Type SINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 239 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 240 Under Power Factor Leading Trip Level (Parameter 420) allows you to define the power factor leading at which the E300 Electronic Overload Relay trips on an under power factor leading. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 241 Under Power Factor Leading Warn Level Under Power Factor Leading Warn Level (Parameter 421) allows you to define the power factor leading at which the E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 242 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 243 Over Power Factor Leading Trip Level (Parameter 424) allows you to define the total power factor leading at which the E300 Electronic Overload Relay trips on over power factor leading. It is user-adjustable from 0…2,000,000 kW. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 244 E300 Electronic Overload Relay indicates a warning. It is user-adjustable from 0…2,000,000 kW. Table 299 - Over Power Factor Leading Warn Level (Parameter 425) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 245: Control-Based Protection
Blocked Start Trip Enable Hardware Fault Trip Enable Configuration Trip Enable Option Match Trip Enable Feedback Timeout Trip Enable Expansion Bus Trip Enable Reserved Reserved Nonvolatile Memory Trip Enable Test Mode Trip Enable Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 246 DeviceLogix Trip Operator Station Trip Remote Trip Blocked Start Trip Hardware Fault Trip Configuration Trip Option Match Trip Feedback Timeout Trip Expansion Bus Trip Reserved Reserved Nonvolatile Memory Trip Test Mode Trip Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 247: Test Trip
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 248: Operator Station Trip
• Bit 3 in Control Trip Status (Parameter 7) sets to 1 • Bit 0 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Trip Relay open • Any relay outputs configured as a Control Relay open Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 249: Remote Trip
• Bit 4 in Control Trip Status (Parameter 7) sets to 1 • Bit 0 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Trip Relay open Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 250: Start Inhibit Protection
• The number of starts within the past hour equals the value set in Starts Per Hour (Parameter 205) • The time between starts is less than the value set in Starts Interval (Parameter 206) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 251 Starts Per Hour (Parameter 205) is the number of starts within the last hour (60 minutes). This value is adjustable from 0…120 starts. Table 304 - Starts Per Hour (Parameter 205) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 252 Blocked Start trip occurs. Table 307 - Time to Start (Parameter 31) Default Value Minimum Value Maximum Value 3600 Parameter Type UINT Size (Bytes) Scaling Factor Units Seconds Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 253: Preventive Maintenance
Starts Counter Starts Counter (Parameter 29) represents the number of times a motor has been started. This value can be reset to zero using the Clear Command (Parameter 165) function Clear Operating Statistics. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 254 Operating Time Operating Time (Parameter 28) represents the number hours that a motor has been running. This value can be reset to zero using the Clear Command (Parameter 165) function Clear Operating Statistics. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 255: Hardware Fault
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 256: Configuration Trip
The E300 Electronic Overload Relay issues a nonvolatile storage fault trip if there is an issue with its nonvolatile storage or if it becomes corrupt. The Nonvolatile Storage Fault Trip is always enabled. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 257: Test Mode Trip
The E300 Electronic Overload Relay provides the capability to put the overload relay into a Test Mode Trip state if motor control Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 258 • Output Digital Module 4 Protection Fault Value (Parameter 342) Motor current is detected when a phase of load current transitions from 0 A to IMPORTANT 30% of the minimum FLA setting of the device Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 259: Analog-Based Protection
Analog Module 4 - Input Channel 01 Trip Analog Module 4 - Input Channel 02 Trip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 260 Analog Module 4 - Input Channel 01 Trip Analog Module 4 - Input Channel 02 Trip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 261: Analog Module 1
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 262 Analog Module 1 – Channel 00 Trip Level (Parameter 444) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 1 – Channel 00 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 263 The E300 Electronic Overload Relay trips with an Analog Module 1 – Channel 01 Over Level Trip indication if: • No trip currently exists • Analog Module 1 – Channel 01 Over Level Trip is enabled Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 264 Analog Module 1 – Channel 01 Over Level Trip Delay (Parameter 452) allows you to define the time period an Analog Module 1 – Channel 01 Over Level condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 265 Analog Module 1 – Channel 01 Warning Level (Parameter 454) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 1 – Channel 01 Over Level warning. It is user- adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 266 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 267 Analog Module 1 – Channel 02 Trip Level (Parameter 462) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 1 – Channel 02 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 268 Size (Bytes) Scaling Factor Units Analog Module 2 The E300 Analog I/O Expansion Module scans up to three analog signals. An over level trip or warning can be configured for each input channel. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 269: Analog Module 2
Analog Module 2 – Channel 00 Over Level Trip Delay Analog Module 2 – Channel 00 Over Level Trip Delay (Parameter 474) allows you to define the time period an Analog Module 2 – Channel 00 Over Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 270 Analog Module 2 – Channel 00 Warning Level Analog Module 2 – Channel 00 Warning Level (Parameter 476) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 271 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 272 Analog Module 2 – Channel 01 Trip Level (Parameter 484) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 2 – Channel 01 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 273 The E300 Electronic Overload Relay trips with an Analog Module 2 – Channel 02 Over Level Trip indication if: • No trip currently exists • Analog Module 2 – Channel 02 Over Level Trip is enabled Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 274 Analog Module 2 – Channel 02 Over Level Trip Delay (Parameter 492) allows you to define the time period an Analog Module 2 – Channel 02 Over Level condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 275 Analog Module 2 – Channel 02 Warning Level (Parameter 494) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 2 – Channel 02 Over Level warning. It is user- adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 276: Analog Module 3
• Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 277 Analog Module 3 – Channel 00 Trip Level (Parameter 506) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 3 – Channel 00 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 278 The E300 Electronic Overload Relay trips with an Analog Module 3 – Channel 01 Over Level Trip indication if: • No trip currently exists • Analog Module 3 – Channel 01 Over Level Trip is enabled Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 279 Analog Module 3 – Channel 01 Over Level Trip Delay (Parameter 514) allows you to define the time period an Analog Module 3 – Channel 01 Over Level condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 280 Analog Module 3 – Channel 01 Warning Level (Parameter 516) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 3 – Channel 01 Over Level warning. It is user- adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 281 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 282 Analog Module 3 – Channel 02 Trip Level (Parameter 524) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 3 – Channel 02 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 283 Size (Bytes) Scaling Factor Units Analog Module 4 The E300 Analog I/O Expansion Module scans up to three analog signals. An over level trip or warning can be configured for each input channel. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 284: Analog Module 4
Analog Module 4 – Channel 00 Over Level Trip Delay Analog Module 4 – Channel 00 Over Level Trip Delay (Parameter 536) allows you to define the time period an Analog Module 4 – Channel 00 Over Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 285 Analog Module 4 – Channel 00 Warning Level Analog Module 4 – Channel 00 Warning Level (Parameter 538) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 286 • Any relay outputs configured as a Control Relay open • Any relay outputs configured as a Trip Alarm close • Any relay outputs configured as a Normal Relay are placed in their Protection Fault state (if so programmed) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 287 Analog Module 4 – Channel 01 Trip Level (Parameter 546) allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 4 – Channel 01 Over Level trip. It is user-adjustable from -32768…+32767. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 288 The E300 Electronic Overload Relay trips with an Analog Module 4 – Channel 02 Over Level Trip indication if: • No trip currently exists • Analog Module 4 – Channel 02 Over Level Trip is enabled Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 289 Analog Module 4 – Channel 02 Over Level Trip Delay (Parameter 554) allows you to define the time period an Analog Module 4 – Channel 02 Over Level condition must be present before a trip occurs. It is adjustable from 0.1…25.0 seconds. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 290 • Bit 11 in Analog Warning Status (Parameter 14) sets to 1 • Bit 1 in Device Status 0 (Parameter 20) sets to 1 • Any relay outputs configured as a Warning Alarm close Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 291 Relay trips on an Analog Module 4 – Channel 02 Over Level warning. It is user- adjustable from -32768…+32767. Table 351 - Analog Module 4 – Channel 02 Warning Level (Parameter 556) Default Value Minimum Value -32768 Maximum Value 32767 Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 292 Chapter 6 Protective Trip and Warning Functions Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 293: Introduction
This also allows you to restore the factory default values for all configuration parameters in the E300 Electronic Overload Relay. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 294: Factory Defaults
Value OLResetLevel %TCU OutPt02PrFltVal Open InAMod1C0OpCktSt Upscale OLWarningLevel %TCU OutPt02ComFltAct Goto InAnMod1Ch0RTDEn 3-Wire Value SingleOrThreePh Three OutPt02ComFltVal Open InAMod1C0TripDly Phase Second FLA2Setting 0.50 Amps OutPt02ComIdlAct Goto InAMod1C0TripLvl Value TripEnableI 0x0003 OutPt02ComIdlVal Open InAMod1C0WarnLvl Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 295 Degrees C Language English NetworkOverride Disable InAMod2C0FiltFrq 17 Hz FeedbackTimeout PtDevOutCOSMask 0x0000 InAMod2C0OpCktSt Upscale TransitionDelay 10000 VoltageMode Delta InAnMod2Ch0RTDEn 3-Wire InterlockDelay PTPrimary InAMod2C0TripDly Second EmergencyStartEn Disable PTSecondary InAMod2C0TripLvl ControlModuleTyp Ignore UVInhibitTime InAMod2C0WarnLvl Second Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 296 Disable Second Second GFWarningLevel 2.00 Amps OFTripLevel OutAnMod2Select Ave %FLA GFFilter Disable OFWarningLevel OutAnMod2FltActn Zero GFMaxInhibit Disable PowerScale OutAnMod2dlActn Zero StallEnabledTime UWInhibitTime InAnMod3Ch00Type Disable Second Second StallTripLevel %FLA UWTripDelay InAMod3Ch0Format Eng Units Second Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 297 L1UCWarningLevel UVARGWarnLevel 0.000 kVAR InAMod3Ch2Format Eng Units L2UCTripDelay OVARGInhibitTime InAMod3C2TmpUnit Degrees C Second Second L2UCTripLevel OVARGTripDelay InAMod3C2FiltFrq 17 Hz Second L2UCWarningLevel OVARGTripLevel 0.000 kVAR InAMod3C2OpCktSt Upscale L3UCTripDelay OVARGWarnLevel 0.000 kVAR InAnMod3Ch2RTDEn 3-Wire Second Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 298 InAnMod4Ch01Type Disable Second Datalink1 UPFLeadTripDelay InAMod4Ch1Format Eng Units Second Datalink2 UPFLeadTripLevel InAMod4C1TmpUnit Degrees C Datalink3 UPFLeadWarnLevel InAMod4C1FiltFrq 17 Hz Datalink4 OPFLeadInhibTime InAMod4C1OpCktSt Upscale Second Datalink5 OPFLeadTripDelay InAnMod4Ch1RTDEn 3-Wire Second Datalink6 OPFLeadTripLevel InAMod4C1TripDly Second Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 299: Clear Command
6 = Clear kVAh 7 = Clear Max kW Demand 8 = Clear Max kVAR Demand 9 = Clear Max kVA Demand 10 = Clear All Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 300: Clear Operating Statistics
(0): • kWh x 10 (Parameter 80) • kWh x 10 (Parameter 81) • kWh x 10 (Parameter 82) • kWh x 10 (Parameter 83) • kWh x 10 (Parameter 84) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 301: Clear Kvarh
• kVAh x 10 (Parameter 104) Clear Max kW Demand When the Clear %TCU command is issued, the E300 Electronic Overload Relay sets Max kW Demand (Parameter 106) to a value of zero (0). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 302: Clear Max Kvar Demand
• kVARh Net x 10 (Parameter 95) • kVARh Net x 10 (Parameter 96) • kVARh Net x 10 (Parameter 97) • kVARh Net x 10 (Parameter 98) • kVARh Net x 10 (Parameter 99) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 303 • Trip History 4 (Parameter 131) • Warning History 0 (Parameter 132) • Warning History 1 (Parameter 133) • Warning History 2 (Parameter 134) • Warning History 3 (Parameter 135) • Warning History 4 (Parameter 136) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 304 Chapter 7 Commands Notes: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 305: Metering And Diagnostics
100%, the E300 Electronic Overload Relay issues an overload trip. Table 355 - Percent Thermal Capacity Utilization (Parameter 1) Default Value Minimum Value Maximum Value Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 306: Time To Trip
After an overload trip is reset, the Overload Time to Reset value is reported as 0 seconds. Table 357 - Overload Time to Reset (Parameter 3) Default Value Minimum Value Maximum Value 9999 Parameter Type UINT Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 307: Current Trip Status
L1 Under Current Trip L2 Under Current Trip L3 Under Current Trip L1 Over Current Trip L2 Over Current Trip L3 Over Current Trip L1 Line Loss Trip L2 Line Loss Trip L3 Line Loss Trip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 308: Voltage Trip Status
Table 359 - Voltage Trip Status (Parameter 5) Function X Under Voltage Trip Over Voltage Trip Voltage Imbalance Trip Phase Rotation Mismatch Trip Under Frequency Trip Over Frequency Trip Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 309: Power Trip Status
DeviceLogix Trip Operator Station Trip Remote Trip Blocked Start Trip Hardware Fault Trip Configuration Trip Option Match Trip Feedback Timeout Trip Expansion Bus Trip Reserved Reserved Nonvolatile Memory Trip Test Mode Trip Enable Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 310: Current Warning Status
Table 363 - Voltage Warning Status (Parameter 11) Function X Under Voltage Warning Over Voltage Warning Voltage Imbalance Warning Phase Rotation Mismatch Warning Under Frequency Warning Over Frequency Warning Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 311: Power Warning Status
Table 365 - Control Warning Status (Parameter 13) Function Reserved PTC Warning DeviceLogix Warning Operator Station Warning Reserved Reserved Reserved Reserved Option Match Warning Feedback Timeout Warning Expansion Bus Warning Number Of Starts Warning Operating Hours Warning Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 312: Input Status 0
Digital Module 3 Input Pt01 Digital Module 3 Input Pt02 Digital Module 3 Input Pt03 Digital Module 4 Input Pt00 Digital Module 4 Input Pt01 Digital Module 4 Input Pt02 Digital Module 4 Input Pt03 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 313: Output Status
Digital Module 2 Output Pt00 Digital Module 2 Output Pt01 Digital Module 3 Output Pt00 Digital Module 3 Output Pt01 Digital Module 4 Output Pt00 Digital Module 4 Output Pt01 Reserved Reserved Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 314: Operator Station Status
Operation Station Local Remote Operation Station O Operation Station Reset Reserved Reserved Reserved Operation Station I LED Operation Station II LED Operation Station Local LED Operation Station Remote LED Operation Station O LED Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 315: Device Status 0
• The E300 Electronic Overload Relay has not completed its power-up initialization • The processing of data in a configuration assembly is in progress • A CopyCat function is in progress • A Factory Defaults command has been invoked and is in progress. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 316: Device Status 1
Maximum Value 65.535 Parameter Type UINT Size (Bytes) Scaling Factor 1000 Units Control Module ID Control Module ID (Parameter 23) identifies which specific Control Module is present in the E300 Electronic Overload Relay system. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 317: Sensing Module Id
Parameter Type USINT Size (Bytes) Scaling Factor Units Operator Station ID Operator Station ID (Parameter 25) identifies which specific Operator Station is present on the Expansion Bus of the E300 Electronic Overload Relay system. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 318: Expansion Digital Module Id
Operating Time Operating Time (Parameter 28) represents the number hours that a motor has been running. This value can be reset to zero using the Clear Command (Parameter 165) function Clear Operating Statistics. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 319: Starts Counter
Time to Start (Parameter 31) reports the amount of time remaining until a new start can be issued. If the Time to Start time has elapsed, this parameter reports zero until the next Blocked Start trip occurs. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 320: Year
Table 382 - Month (Parameter 33) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Day (Parameter 34) reports the day in the virtual real-time clock of the E300 Electronic Overload Relay. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 321: Hour
Minute (Parameter 36) reports the minute in the virtual real-time clock of the E300 Electronic Overload Relay. Table 385 - Minute (Parameter 36) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 322: Second
0 = No Error 1 = Value Over Maximum 2 = Value Under Minimum Range 3 = Illegal Value 4 = L3 Current Detected 5 = CopyCat Error Parameter Type USINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 323: Mismatch Status
L1 Current L1 Current (Parameter 43) reports the current in Amperes flowing through the L1 and T1 power terminals of the E300 Electronic Overload Relay Sensing Module. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 324: L2 Current
Average Current (Parameter 46) reports the average current of the monitored current. When single or three phase (Parameter 176) is set to three phase, average current is calculated as follows: Average Current = (L1 Current + L2 Current + L3 Current) / 3 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 325: L1 Percent Fla
L2 Percent FLA = L2 Current / Full Load Amps Table 395 - L2 Percent FLA (Parameter 48) Default Value Minimum Value Maximum Value 1000.00 Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 326: L3 Percent Fla
Overload Relay Sensing Module or external core balanced current transformer. Table 398 - Ground Fault Current (Parameter 51) Default Value Minimum Value Maximum Value 99.99 Parameter Type UINT Size (Bytes) Scaling Factor Units Amps Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 327: Current Imbalance
T2 power terminals of the E300 Electronic Overload Relay Sensing Module. Table 400 - L1-L2 Voltage (Parameter 53) Default Value Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 328: L2-L3 Voltage
Average L-L Voltage = (L1-L2 Voltage + L2-L3 Voltage) / 2 Table 404 - Average L-L Voltage (Parameter 56) Default Value Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 329: L1-N Voltage
E300 Electronic Overload Relay Sensing Module. Table 407 - L3-N Voltage (Parameter 59) Default Value Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 330: Average L-N Voltage
Vd = Maximum L-L Voltage Deviation from the Average L-L Voltage Va = Average L-L Voltage Table 409 - Voltage Imbalance (Parameter 61) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 331: Frequency
(Parameters 64-75) in terms of Megawatts instead of Kilowatts. Power Scale (Parameter 377) allows the E300 Electronic Overload Relay to display the values of Parameters 64…75as Kilowatts or Megawatts. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 332: L1 Real Power
L3 Real Power (Parameter 66) reports the real power for line 3 in kW or MW depending on the configuration value for Power Scale (Parameter 377). When Voltage Mode (Parameter 352) is set to any Delta base setting, L3 Real Power is Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 333: Total Real Power
L1 Reactive Power (Parameter 68) reports the reactive power for line 1 in kVAR or MVAR depending on the configuration value for Power Scale (Parameter 377). When Voltage Mode (Parameter 352) is set to any Delta base setting, L1 Reactive Power is set to 0. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 334: L2 Reactive Power
Size (Bytes) Scaling Factor 1000 Units kVAR or MVAR Total Reactive Power Total Reactive Power (Parameter 71) reports the total Reactive power of the monitored power conductors in kVAR or MVAR depending on the Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 335: L1 Apparent Power
L2 Apparent Power (Parameter 73) reports the apparent power for line 2 in kVA or MVA depending on the configuration value for Power Scale (Parameter 377). When Voltage Mode (Parameter 352) is set to any Delta base setting, L2 Apparent Power is set to 0. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 336: L3 Apparent Power
Total Apparent Power = (L1 Apparent Power + L2 Apparent Power + L3 Apparent Power) When Single or Three Phase (Parameter 176) is set to Single Phase, Total Apparent Power is calculated as follows: Total Apparent Power = (L1 Apparent Power + L2 Apparent Power) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 337: L1 Power Factor
When Voltage Mode (Parameter 352) is set to any Delta base setting, L3 Power Factor is set to 0. When Single or Three Phase (Parameter 176) is set to Single Phase, L3 power factor is set to 0. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 338: Total Power Factor
Demand, kVAR Demand, and kVA Demand. kWh 10 kWh 10 (Parameter 80) reports a component of total real energy (kWh). Multiply this value by 10 and add to the other kWh parameters. Represents XXX,000,000,000.000 kWh Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 339: Kwh 106
Multiply this value by 10 and add to the other kWh parameters. Represents 000,000,XXX,000.000 kWh Table 431 - kWh x 10E3 (Parameter 82) Default Value Minimum Value -999 Maximum Value Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 340: Kwh 100
Consumed 10 kVARh Consumed 10 (Parameter 85) reports a component of total reactive energy consumed (kVARh). Multiply this value by 10 and add to the other kVARh Consumed parameters. Represents XXX,000,000,000.000 kVARh Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 341: Kvarh Consumed 106
Consumed parameters. Represents 000,000,XXX,000.000 kVARh Table 436 - kVARh Consumed x 10 (Parameter 87) Default Value Minimum Value -999 Maximum Value Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 342: Kvarh Consumed 100
Generated 10 kVARh Generated 10 (Parameter 90) reports a component of total reactive energy generated (kVARh). Multiply this value by 10 and add to the other kVARh Generated parameters. Represents XXX,000,000,000.000 kVARh Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 343: Kvarh Generated 106
Generated parameters. Represents 000,000,XXX,000.000 kVARh Table 441 - kVARh Generated x 10 (Parameter 92) Default Value Minimum Value -999 Maximum Value Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 344: Kvarh Generated 100
Net 10 kVARh Net 10 (Parameter 95) reports a component of total reactive energy net (kVARh). Multiply this value by 10 and add to the other kVARh Net parameters. Represents XXX,000,000,000.000 kVARh Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 345: Kvarh Net 106
Net parameters. Represents 000,000,XXX,000.000 kVARh Table 446 - kVARh Net x 10 (Parameter 97) Default Value Minimum Value -999 Maximum Value Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 346: Kvarh Net 100
Size (Bytes) Scaling Factor Units kVAh 10 kVAh 10 (Parameter 100) reports a component of total apparent energy (kVAh). Multiply this value by 10 and add to the other kVAh parameters. Represents XXX,000,000,000.000 kVAh Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 347: Kvah 106
(kVAh). Multiply this value by 10 and add to the other kVAh parameters. Represents 000,000,XXX,000.000 kVAh Table 451 - kVAh x 10 (Parameter 102) Default Value Minimum Value -999 Maximum Value Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 348: Kvah 100
Demand (Parameter 105) reports the average real energy usage in kW over a defined period. Table 454 - kW Demand (Parameter 105) Default Value 0.000 Minimum Value -2000000.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 349: Max Kw Demand
Minimum Value -2000000.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units kVAR kVA Demand kVA Demand (Parameter 109) reports the average reactive energy usage in kVA over a defined period. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 350: Max Kva Demand
• PTC or NTC thermistor sensors Analog Module 1 Analog Module 1 – Input Channel 00 Analog Module 1 – Input Channel 00 (Parameter 111) reports the monitored value of Analog Module 1 – Input Channel 00. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 351 Default Value Minimum Value -32768 Maximum Value 32767 Parameter Type Size (Bytes) Scaling Factor Units Analog Module 1 Status Analog Module 1 Status (Parameter 123) reports the status of Analog Module 1. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 352: Analog Module 2
Size (Bytes) Scaling Factor Units Analog Module 2 – Input Channel 01 Analog Module 2 – Input Channel 01 (Parameter 115) reports the monitored value of Analog Module 2 – Input Channel 01. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 353 Analog Module Warning (Module Number Dial Changed) Analog Module Faulted Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 354: Analog Module 3
Default Value Minimum Value -32768 Maximum Value 32767 Parameter Type Size (Bytes) Scaling Factor Units Analog Module 3 Status Analog Module 3 Status (Parameter 125) reports the status of Analog Module 3. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 355: Analog Module 4
Size (Bytes) Scaling Factor Units Analog Module 4 – Input Channel 01 Analog Module 4 – Input Channel 01 (Parameter 121) reports the monitored value of Analog Module 4 – Input Channel 01. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 356 Changed) Analog Module Faulted Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 357: Trip / Warning History
Total Real Power (kW) is below trip level Total Real Power (kW) has exceeded trip level Under Total Reactive Power Consumed (+kVAR) condition detected Over Total Reactive Power Consumed (+kVAR) condition detected Under Total Reactive Power Generated (-kVAR) condition detected Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 358 Sensing Module installed does not match the expected type Comms Module installed does not match the expected type Operator Station installed does not match expected type Digital Module installed does not match the expected type Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 359 Trip History 2 (Parameter 129) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Trip History 3 Trip History 3 (Parameter 130) reports the fourth most recent trip event. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 360 Relay’s trip history by using the Trip History Masks. Current Trip History Mask Current Trip History Mask (Parameter 139) allows you to select which current- based trip events are recorded in the trip history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 361 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Power Trip History Mask Power Trip History Mask (Parameter 141) allows you to select which power- based trip events are recorded in the trip history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 362 Reserved Nonvolatile Memory Trip Test Mode Trip Reserved Analog Trip History Mask Analog Trip History Mask (Parameter 143) allows you to select which analog- based trip events are recorded in the trip history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 363: Warning History
Line voltage frequency has exceeded warning level Total Real Power (kW) is below warning level Total Real Power (kW) has exceeded warning level Under Reactive Power Consumed (+kVAR) condition detected Over Reactive Power Consumed (+kVAR) condition detected Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 364 Comms Module installed does not match the expected type Operator Station installed does not match expected type Digital Module installed does not match the expected type Analog Module installed does not match the expected type A hardware fault condition was detected Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 365 Warning History 2 Warning History 2 (Parameter 135) reports the third most recent warning event. Trip History 2 (Parameter 135) Default Value Minimum Value Maximum Value Parameter Type UINT Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 366 Overload Relay’s warning history by using the Warning History Masks. Current Warning History Mask Current Warning History Mask (Parameter 145) allows you to select which current-based warning events are recorded in the warning history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 367 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Power Warning History Mask Power Warning History Mask (Parameter 147) allows you to select which power- based warning events are recorded in the warning history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 368 Number Of Starts Warning Operating Hours Warning Reserved Reserved Reserved Analog Warning History Mask Analog Warning History Mask (Parameter 149) allows you to select which control-based warning events are recorded in the warning history. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 369: Trip Snapshot
Relay Sensing Module at the time of the most recent trip event. Table 489 - Trip Snapshot L2-L3 Voltage (Parameter 157) Default Value Minimum Value Maximum Value 6553.5 Parameter Type UINT Size (Bytes) Scaling Factor Units Volts Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 370: Trip Snapshot L3-L1 Voltage
Table 492 - Trip Snapshot Total Reactive Power (Parameter 160) Default Value 0.000 Minimum Value -2000000.000 Maximum Value 2000000.000 Parameter Type DINT Size (Bytes) Scaling Factor 1000 Units kVAR or MVAR Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 371: Trip Snapshot Total Apparent Power
Table 494 - Trip Snapshot Total Power Factor (Parameter 162) Default Value Minimum Value -100.0 Maximum Value 100.0 Parameter Type Size (Bytes) Scaling Factor Units Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 372 Chapter 8 Metering and Diagnostics Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 373: Ethernet/Ip Communications
The E300 Electronic Overload Relay EtherNet/IP Communication Module has dual Ethernet ports that function as an Ethernet switch with RJ45 ports to connect Ethernet cable CAT5 type or better to. Rockwell Automation offers a wide variety of Allen-Bradley Ethernet patch cables with its Bulletin 1585 line of Ethernet cables (http://ab.rockwellautomation.com/Connection-Devices/...
Page 374 Figure The E300 Electronic Overload Relay EtherNet/IP Communication Module supports Rockwell Automation's Device Level Ring (DLR) topology as a slave device in which the EtherNet/IP network continues to communicate if one of the network chains is disrupted...
Page 375: Determining Network Parameters
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 384. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 376: Setting The Ip Network Address
• The EtherNet/IP node address selection switches • A Bootstrap Protocol (BOOTP)/Dynamic Host Configuration Protocol (DHCP) server (for example, the Rockwell Automation BOOTP-DHCP Server Utility, which is included with Rockwell Software's RSLinx Classic software) • A web browser and MAC scanner software...
Page 377: Assign Network Parameters Via The Bootp/ Dhcp Utility
5. Double-click the MAC address of the module to be configured. NOTE: The MAC address is printed underneath the sliding front cover of the E300 Electronic Overload Relay EtherNet/IP Communication Module. The format of the hardware address resembles: 00-0b-db-14-55-35 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 378 When module power is cycled, it uses the assigned configuration and does not issue a DHCP request. If you do not click Disable BOOTP/DHCP, on a power cycle, the module clears the current IP configuration and again begins sending DHCP requests. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 379: Assign Network Parameters Via A Web Browser And Mac Scanner
• Company policies and procedures that are associated with plant floor network installation and maintenance. • Level of involvement by information technology personnel in plant floor network installation and maintenance. • Type of training that is offered to control engineers and maintenance personnel. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 380: Web Server
Chapter 9 EtherNet/IP Communications If the Rockwell Automation DHCP server is used 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 module. In this case, disconnect the uplink to set the address and configure the module to retain its static address before reconnecting to the uplink.
Page 381 It is recommended that you change the password for user name Administrator to deter any malicious activity through the E300 EtherNet/IP Communication Module’s web server. The password can be change on the password configuration web page. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 382: Permanently Enabling The Web Server
E300 Electronic Overload Relay 2. Access the web page 3. Navigate to Administrative Settings->Network Configuration 4. You will be prompted for user name and password. Enter "Administrator" for the user name, and enter the appropriate password. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 383: Duplicate Ip Address Detection
Behavior of Modules With Duplicate IP Addresses Devices in conflict over an IP address behave differently depending on whether connections have been established to either of the modules and whether both modules support duplicate IP address detection. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 384: Dns Addressing
Register the module by installing an EDS file. The EDS file for the E300 Electronic Overload Relay EtherNet/IP Communication Module can be obtained from one of two locations: • Embedded in the module • The Allen-Bradley EDS file download website. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 385: Download The Eds File
E300 Electronic Overload Relay. It will be 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 Electronic Overload Relay EtherNet/IP Communication Module EDS file. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 386 EDS file by following these steps: 1. Type http://www.rockwellautomation.com/rockwellautomation/ support/networks/eds.page? on the address line of the web browser. 2. Select EtherNet/IP as the network type, enter 193 for the Bulletin Number, and click Search. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 387 4. Start the EDS Hardware Installation Tool located at Start>Programs>Rockwell Software>RSLinx Tools and Add a new device 5. Using the EDS Wizard, install the downloaded E300 Electronic Overload Relay EtherNet/IP Communication Module EDS file. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 388: View And Configure Parameters
Follow the steps below to view parameters using the web interface of the E300 Electronic Overload Relay EtherNet/IP Communication Module. 1. Using a web browser, open the web page of the E300 Electronic Overload Relay EtherNet/IP Communication Module by typing its IP address for the URL. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 389: Editing Parameters
Editing Parameters Follow the steps below to edit configuration parameters using the web interface of the E300 Electronic Overload Relay EtherNet/IP Communication Module. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 390 3. Click Apply once all parameter edits have been completed. The E300 Electronic Overload Relay EtherNet/IP Communication Module will download the new parameter values to the device. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 391: Automation Controller Communications
Module and can be used with RSLogix 5000 version 16 and higher and Studio 5000 version 21 and higher. The E300 Add-on Profile provides a graphical user interface to modify configuration parameters, it provides intuitive input and Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 392: • Pre-Configured E300 Electronic Overload Relay Logix Integration With
Preconfigured E300 Electronic Overload Relay Logix Integration with an Add-On Profile The E300 Add-on Profile for RSLogix 5000 and Studio 5000 software automatically enables Automatic Device Configuration. The Logix controller will overwrite any existing E300 Electronic Overload Relay configuration data Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 393 E300 Electronic Overload Relay’s configuration data by following these steps: 1. Go Online with the ControlLogix controller using RSLogix 5000 or Studio 5000 software. The ControlLogix controller can be in Run or Program mode. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 394 ATTENTION: If an Upload command is not performed during Module Discovery, any preconfigured E300 Electronic Overload Relay configuration data will not be retained when adding an E300 Electronic Overload Relay online to a ControlLogix project. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 395 Cancel the Module Discovery process will result in the loss of any preconfigured E300 Electronic Overload Relay configuration data. This configuration data will not be retained and default values will be used when adding an E300 Electronic Overload Relay online to a ControlLogix project. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 396 Module Discovery process will result in the loss of any preconfigured E300 Electronic Overload Relay configuration data. This configuration data will not be retained and default values will be used when adding an E300 Electronic Overload Relay online to a ControlLogix project. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 397 EtherNet/IP Communications Chapter 9 6. Enter a name for the E300 Electronic Overload Relay. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 398 Relay’s configuration data will be retained and stored in the ControlLogix controller and in the RSLogix 5000 or Studio 5000 project. Press No to return to the new module profile and make additional edits. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 399 Studio 5000 project. If you are running IntelliCENTER Integration Assistant for Logix 5000, you can skip to step 4 and repeat these steps for each E300 Electronic Overload Relay that was added to the project while the project is offline. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 400 Relay online, go online with the ControlLogix controller using RSLogix 5000 or Studio 5000 software. The ControlLogix controller can be in Run or Program mode. 2. Right click on the Ethernet tree of the EtherNet/IP scanner and select New Module. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 401 Electronic Overload Relay configuration data will not be retained when downloading an RSLogix 5000 or Studio 5000 project to a Logix controller or when adding a new E300 Electronic Overload Relay online to a ControlLogix project. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 402 6. Select the appropriate E300 Electronic Overload Relay that is on the EtherNet/IP network, and press OK. 7. If the upload is successful, a display will appear indicating the success of this command. Press OK to continue. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 403 Read parameters 38 and 39 from the E300 Electronic Overload Relay to determine the reason for the configuration trip. Fix the issue and press Upload again, or press Cancel to remove any module definition changes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 404 Relay configuration data. Default values will be used when the RSLogix 5000 or Studio 5000 project is downloaded to the Logix controller or when adding an E300 Electronic Overload Relay online to a ControlLogix project. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 405 9. Press Yes to apply these changes to the module definition and to update the configuration parameters with the data from the upload command. Pressing No will ignore all changes and return the E300 Electronic Overload Relay device profile back to its default settings. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 406 Logix controller and E300 Electronic Overload Relay. For users who are adding a preconfigured E300 Electronic Overload Relay online to a ControlLogix controller, a display will appear verifying the intent to create a module online. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 407 Press No to return to the new module profile and make additional edits. 12. To access the data provided by the E300 Electronic Overload Relay EtherNet/IP Communication Module, navigate to the input tags created by the Add-on Profile. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 408: On Profile
E300 Electronic Overload Relay when the Logix controller establishes a connection to it. ATTENTION: Any preconfigured E300 Electronic Overload Relay configuration data will not be retained when downloading an RSLogix 5000 or Studio 5000 project to a Logix controller. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 409 2. Right-click on the EtherNet/IP scanner within the I/O Configuration folder, then select New Module to open the Select Module Type window. 3. Select the E300 Electronic Overload Relay EtherNet/IP Communication Module (193-ECM-ETR), then click Create. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 410 Modules and their respective Option Match actions. 7. Right click on the Expansion Bus to add the specific Expansion Bus accessories for the E300 Electronic Overload Relay system and select their specific Option Match action. When finished, press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 411 Select the parameters for the additional data to be included with the input tags. Press OK to complete the module definition. 10. Next, set the overload protection configuration parameters for your specific motor application by selecting Protection. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 412 To configure the other configuration parameters for Control Modules with firmware v1.000 and v2.000, navigate to the configuration tags of the newly added E300 Electronic Overload Relay. Modify the configuration tags directly to Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 413 Overload Relay to the Logix system. 13. Download the project to the Logix controller, and place the controller into Run Mode. The E300 Electronic Overload Relay is actively communicating with the Logix controller. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 414: Profile
Configuration disabled or between a non-Logix based automation control system, a Generic Profile can be used. Follow the steps provided to integrate an E300 Electronic Overload Relay using a Generic device profile to a Logix controller offline: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 415 Logix controller is offline. 2. Right-click on the EtherNet/IP scanner within the I/O Configuration folder, then select New Module to open the Select Module Type window. 3. Select the Generic Ethernet Module, then click Create. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 416 32-bit values. Set the I/O Assemblies to the following values: • Input Assembly Instance 199 (Size 39) • Output Assembly Instance 144 (Size 2) • Configuration Assembly Instance 120 (Size 0) 6. Download the project to the controller and go online. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 417 Reserved for Logix DeviceStaus0 DeviceStaus1 InputStatus0 InputStatus1 OutputStatus OpStationStatus TripStsCurrent WarnStsCurrent TripStsVoltage WarnStsVoltage TripStsPower WarnStsPower TripStsControl WarnStsControl TripStsAnalog WarnStsAnalog Reserved ThermUtilizedPct CurrentImbalance AvgPercentFLA AverageCurrent L1Current L2Current L3Current GFCurrent Reserved AvgVoltageLtoL L1toL2Voltage L2toL3Voltage L3toL1Voltage Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 418 15 14 13 12 11 10 TotalRealPower TotalReactivePwr TotalApparentPwr TotalPowerFactor Datalink0 Datalink1 Datalink2 Datalink3 Datalink4 Datalink5 Datalink6 Datalink7 PtDeviceOuts AnDeviceOuts InAnMod1Ch00 InAnMod1Ch01 InAnMod1Ch02 Reserved InAnMod2Ch00 InAnMod2Ch01 InAnMod2Ch02 Reserved InAnMod3Ch00 InAnMod3Ch01 InAnMod3Ch02 Reserved InAnMod4Ch00 InAnMod4Ch01 InAnMod4Ch02 Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 419 Table 499 - Instance 144 - Output (Consumed) Assembly DINT 15 14 13 12 11 10 OutputStatus0 NetworkStart1 NetworkStart2 TripReset EmergencyStart RemoteTrip Reserved HMILED1Green HMILED2Green HMILED3Green HMILED3Red HMILED4Red Reserved DLXPtDeviceIn DLXAnDeviceIn For example, E300_Overload:O.Data[0].0 represents Relay Output Pt00 as shown below. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 420: E-Mail/Text
Contact Info: Contact Person contactperson@thecontact.com The first word in the e-mail subject is the device name. If a device name is not configured, then the product name attribute from the identity object is used. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 421: E-Mail Configuration
5. Type the information into the e-mail notification fields as stated below. Multiple e-mail addresses can be entered into the E-mail Recipient field by separating each e-mail address with a semicolon (;). The E-mail Recipient field is limited to 255 characters. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 422 You can change these after the initial configurations. 7. Click Apply to accept the configuration 8. When an E300 Electronic Overload Relay event occurs, the e-mail message will look like the following: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 423: Text Notifications
Duplicate EtherNet/IP module address exists. Two Change the IP address to a valid setting and reset the modules cannot have the same address. device. A fatal communication error occurred. Check Ethernet media for proper installation. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 424 Ethernet network. installed. Link1 or Link2 Green Flashing The Ethernet network is properly connected. No action is required. Green Solid Communications are occurring on the Ethernet network. No action is required. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 425: Firmware Updates
193-ECM-ETR File System 1.001 1.001 2.002 2.002 2.002 2.002 E300 Sensing Module 193-ESM Sensing Module Table 501 shows which firmware revisions are compatible with the other E300 Electronic Overload Relay modules and their associated subsystems. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 426: Updating Firmware
— — — — — Firmware for the E300 Electronic Overload Relay modules and their associated Updating Firmware subsystems can be downloaded from the Product Compatibility and Download Center located at http://www.rockwellautomation.com/rockwellautomation/ support/pcdc.page?. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 427 ControlFLASH from the Start menu located at Start -> FLASH Programming Tools -> ControlFlash as shown below. Select the Local directory to locate the ControlFLASH update file and press Next to continue. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 428 Chapter 10 Firmware Updates Select the module update file and press Next. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 429 Firmware Updates Chapter 10 Select the specific device to update and press OK. Select the specific module subsystem to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 430 Chapter 10 Firmware Updates Select the specific firmware revision for the firmware update and press Next. Verify that you want to update the firmware for that specific module subsystem by pressing Yes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 431 Press OK to finish the firmware update process. Do not interrupt power or communications to the device during the firmware IMPORTANT update process. Failure of control power or communications could permanently damage the device. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 432: E300 Firmware Update Example
Communication Module and Sensing Module. However, five control module firmware subsystems changeed. Update the following control module firmware subsystems: • 193-EIO Boot Code • 193-EIO Application • 193-EIO Uncompressed EtherNet/IP EDS File • 193-EIO Compressed EtherNet/IP EDS File Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 433: Control Module Boot Code Firmware Update
1. To update the firmware for the E300 Control Module Boot Code, start the ControlFlash Utility, select 193-EIO BootCode, and press Next. 2. Select the device to update and press OK. 3. Select the firmware subsystem type 193-EIO Boot Code to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 434 Chapter 10 Firmware Updates 4. Select firmware revision 1.007.1 to update to. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 435 Firmware Updates Chapter 10 5. Verify the firmware revision change and press Finish. 6. Begin the firmware updating process by pressing Yes. When the firmware update is successful, the following display appears. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 436: Control Module Application Code Firmware Update
1. To update the firmware for the E300 Control Module Application Code, start the ControlFlash Utility, select 193-EIO Application, and press Next. 2. Select the device to update and press OK. 3. Select the firmware subsystem type 193-EIO Application to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 437 Firmware Updates Chapter 10 4. Select firmware revision 3.001.12 to update to. 5. Verify the firmware revision change and press Finish. 6. Begin the firmware updating process by pressing Yes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 438: Update
When the firmware update is successful, the following display appears. Control Module Uncompressed EtherNet/IP EDS File Firmware Update 1. To update the embedded uncompressed EtherNet/IP EDS file, start the ControlFlash Utility, select 193-EIO Uncompressed EDS, and press Next. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 439 Firmware Updates Chapter 10 2. Select the device to update and press OK. 3. Select the firmware subsystem type 193-EIO EDS Files to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 440 Chapter 10 Firmware Updates 4. Select the first firmware revision 3.001.1 to update to. 5. Verify the firmware revision change and press Finish. 6. Begin the firmware updating process by pressing Yes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 441: Update
Control Module Compressed EtherNet/IP EDS File Firmware Update 1. To update the embedded compressed EtherNet/IP EDS file, start the ControlFlash Utility, select 193-EIO Compressed EDS, and press Next. 2. Select the device to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 442 3. Select the firmware subsystem type 193-EIO EDS Files to update and press OK. 4. Select the second firmware revision 3.001.1 to update to. 5. Verify the firmware revision change and press Finish. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 443: Control Module Compressed Devicenet Eds File Firmware Update
When the firmware update is successful, the following display appears. Control Module Compressed DeviceNet EDS File Firmware Update 1. To update the embedded compressed DeviceNet EDS file, start the ControlFlash Utility, select 193-EIO Compressed DNET EDS, and press Next. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 444 Chapter 10 Firmware Updates 2. Select the device to update and press OK. 3. Select the firmware subsystem type 193-EIO EDS Files to update and press OK. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 445 Firmware Updates Chapter 10 4. Select the third firmware revision 3.001.1 to update to. 5. Verify the firmware revision change and press Finish. 6. Begin the firmware updating process by pressing Yes. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 446: Completed Firmware Update
When the firmware update is successful, the following display appears. Completed Firmware Update When the E300 Electronic Overload Relay firmware is successfully updated from v2.034 to v3.033, the system information displays the information below. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 447: Introduction
Device Ready / Operation Mode Solid Green Device Active (Current Detected) / Run Mode Solid Red Device Error Blinking Red ➊ Communications Error Blinking Green/Red ➊ Copy Cat in Progress ➊ Available on Operator Station Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 448: Trip/Warn Led
L3 Under Current L1 Over Current L2 Over Current L3 Over Current L1 Line Loss L2 Line Loss L3 Line Loss Under Voltage Over Voltage Voltage Imbalance Phase Rotation Mismatch Under Frequency Over Frequency Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 449 Analog Module 3 - Input Channel 01 Analog Module 3 - Input Channel 02 Analog Module 4 - Input Channel 00 Analog Module 4 - Input Channel 01 Analog Module 4 - Input Channel 02 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 450: Resetting A Trip
2. Motor winding insulation is decayed resistance to ground. Ground Fault 3. Foreign Object short 3. Check for foreign objects. 4. External ground fault sensor (core balance current transformer) has improper 4. Check cable connections. connection Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 451 1. Operating Time (Parameter 28) is equal to 1. Clear Command (Parameter 165) to "Clear Total Operating or greater than the value set in Total Operating Statistics" to reset Operating Time Hours Warning Operating Hours (Parameter 208) (Parameter 28) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 452 2. Check Time to Start (Parameter 31) and wait that start is less than the value set in the Starts amount of time, or change the configuration to Interval (Parameter 206) shorten the interval between starts. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 453: Electrical Specifications
0.25 A (@110V DC), 0.1 A (@220V DC) Minimum Operating Current 10 mA @ 5V DC Rating Designation B300 Utilization Category AC-15 5 A, 250V AC Resistive Load Rating (p.f. = 1.0) 5 A, 30V DC Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 454 Resistance: 0-150 , 0-750 , 0-3000 , 0-6000  Current Impedance: 249  ± 1.0% Voltage Impedance: Input Impedance Tolerances 10M at 10V 4M at 5V 680k at 1V Input resolution 12 bits Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 455: Low Voltage Directive
Conditional Short Circuit Current: 1000 A 1000 A 1000 A Recommended Control Circuit Fuse: KTK-R (6 A, 600V) KTK-R (6 A, 600V) KTK-R (6 A, 600V) Utilization Category: AC15, DC13 AC15, DC13 AC15, DC13 Pollution Degree: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 456: Environmental Specifications
5.0 A 5.0 A 5.0 A -20…+40 °C (-4…+104 °F) Enclosed 0.2 A 0.2 A 0.2 A -20…+40 °C (-4…+104 °F) Application 24V DC 5.0 A 1.0 A 1.0 A -20…+30 °C (-4…+86 °F) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 457: Electromagnetic Compatibility Specifications
2kV (L-E) Test Level: 1kV (L-L) 1 ➊➋ Performance Criteria: Class A Radiated Emissions Class A Conducted Emissions ➊Performance Criteria 1 requires the DUT to experience no degradation or loss of performance. ➋Environment 2. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 458: Protection
Phase Loss Sensitive Nature of Relay Solid-State FLA Setting Full Load Amps Setting on page 133 Trip Rating 120% FLA Trip Class 5…30 Reset Mode Automatic or Manual Overload Reset Level 1…100% TCU Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 459: Accuracy
±2% of Sensing Module Current Range Voltage ±2% of Sensing Module Voltage Range Power ±5% Protection Timers All E300 Electronic Overload Relay trip timers shall have a resolution of ±0.1 s or 0.1 s/25 s (whichever is greater). Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 460 Appendix A Specifications Notes: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 461: Overview
Bit13= L1LineLossTrip I.Protection.L2LineLossTrip Bit14= L2LineLossTrip I.Protection.L3LineLossTrip Bit15= L3LineLossTrip TripStsVoltage I.Protection.UnderVoltageTrip Trip Status bits for UINT Bit0= UnderVoltageTrip I.Protection.OverVoltageTrip Voltage Bit1= OvervoltageTrip I.Protection.VoltageImbalanceTrip Bit2= VoltageUnbalTrip I.Protection.PhaseRotationMismatchTrip Bit3= PhaseRotationTrp I.Protection.UnderFrequencyTrip Bit4= UnderFreqTrip I.Protection.OverFrequencyTrip Bit5= OverFreqTrip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 462 Power Bit1= OverKWWarning I.Protection.UnderReactivePowerConsumedWarning Bit2= UnderKVARConWarn I.Protection.OverReactivePowerConsumedWarning Bit3= OverKVARConWarn I.Protection.UnderReactivePowerGeneratedWarning Bit4= UnderKVARGenWarn I.Protection.OverReactivePowerGeneratedWarning Bit5= OverKVARGenWarn I.Protection.UnderApparentPowerWarning Bit6= UnderKVAWarning I.Protection.OverApparentPowerWarning Bit7= OverKVAWarning I.Protection.UnderPowerFactorLaggingWarning Bit8= UnderPFLagWarn I.Protection.OverPowerFactorLaggingWarning Bit9= OverPFLagWarn I.Protection.UnderPowerFactorLeadingWarning Bit10= UnderPFLeadWarn I.Protection.OverPowerFactorLeadingWarning Bit11= OverPFLeadWarn Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 463 Bit1= OpStationStart2 I.OperatorStationLocalRemote and LEDs Bit2= OSLocalRemote I.OperatorStationO Bit3= OpStationStop I.OperatorStationReset Bit4= OpStationReset Bit5= Reserved Bit6= Reserved Bit7= Reserved I.OperatorStationILEDReadback Bit8= OSLED1Green I.OperatorStationIILEDReadback Bit9= OSLED2Green I.OperatorStationLocalLEDReadback Bit10= OSLED3Amber I.OperatorStationRemoteLEDReadback Bit11= OSLED3Red I.OperatorStationOLEDReadback Bit12= OSLED4Red Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 464 Bit11= DigitalMod4[2] AnalogModuleID Expansion Bus UINT Bit0= AnalogMod1[0] Analog Module Bit1= AnalogMod1[1] Types Bit2= AnalogMod2[0] Bit3= AnalogMod2[1] Bit4= AnalogMod3[0] Bit5= AnalogMod3[1] Bit6= AnalogMod4[0] Bit7= AnalogMod4[1] OperatingTime Time unit has been UINT 65535 powered on Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 465 Volt Voltage Line-Line L1toNVoltage 3 Phase RMS UINT 65535 Volt Voltage Line- Neutral L2toNVoltage 3 Phase RMS UINT 65535 Volt Voltage Line- Neutral L3toNVoltage 3 Phase RMS UINT 65535 Volt Voltage Line- Neutral Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 466 -999 Energy Consumed (kVARh) Word 10^9 kVARhCon10E6 Total Reactive -999 Energy Consumed (kVARh) Word 10^6 kVARhCon10E3 Total Reactive -999 Energy Consumed (kVARh) Word 10^3 kVARhCon10E0 Total Reactive -999 Energy Consumed (kVARh) Word 10^0 Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 467 1000 -2000000000 2000000000 0 kVAR Demand MaxVARDemand Maximum Reactive DINT 1000 -2000000000 2000000000 0 kVAR Demand VADemand Apparent Power DINT 1000 2000000000 0 Demand MaxVADemand Maximum DINT 1000 2000000000 0 Apparent Power Demand Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 468 Bit5= InCh01UnderRange I.Analog3.Ch02InputOpenWire Bit6= InCh02OpenCrcuit I.Analog3.Ch02InputOverrange Bit7= InCh02OverRange I.Analog3.Ch02InputUnderrange Bit8= InCh02UnderRange I.Analog3.Ch00OutputOpenWire Bit9= OutOpenCircuit I.Analog3.Ch00OutputInHold Bit10= OutHoldLastSt I.Analog3.Ch00OutputOverrange Bit11= OutOverRange I.Analog3.Ch00OutputUnderrange Bit12= OutUnderRange I.Analog3.AddressChanged Bit 13=Module Configured Bit 14=Module Warning I.Analog3.SelftestFailed Bit 15=Module Faulted Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 469 C.History.L2LineLossTripEn Bit14= L2LineLossTrip C.History.L3LineLossTripEn Bit15= L3LineLossTrip TripHistoryMaskV C.History.UnderVoltageTripEn Trip History Mask UINT Bit0= UnderVoltageTrip 0x3F C.History.OverVoltageTripEn for Voltage-based Bit1= OvervoltageTrip C.History.VoltageImbalanceTripEn Trips Bit2= VoltageUnbalTrip C.History.PhaseRotationMismatchTripEn Bit3= PhaseRotationTrp C.History.UnderFrequencyTripEn Bit4= UnderFreqTrip C.History.OverFrequencyTripEn Bit5= OverFreqTrip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 470 Bit1= OverKWWarning C.History.UnderReactivePowerConsumedWarningEn based Warnings Bit2= UnderKVARConWarn C.History.OverReactivePowerConsumedWarningEn Bit3= OverKVARConWarn C.History.UnderReactivePowerGeneratedWarningEn Bit4= UnderKVARGenWarn C.History.OverReactivePowerGeneratedWarningEn Bit5= OverKVARGenWarn C.History.UnderApparentPowerWarningEn Bit6= UnderKVAWarning C.History.OverApparentPowerWarningEn Bit7= OverKVAWarning C.History.UnderPowerFactorLaggingWarningEn Bit8= UnderPFLagWarn C.History.OverPowerFactorLaggingWarningEn Bit9= OverPFLagWarn C.History.UnderPowerFactorLeadingWarningEn Bit10= UnderPFLeadWarn C.History.OverPowerFactorLeadingWarningEn Bit11= OverPFLeadWarn Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 471 1000 -2000000000 2000000000 0 kVAR Reactive Power at trip TSTotalkVA Snapshot of Total DINT 1000 2000000000 0 Apparent Power at trip TSTotalPF Snapshot of Total -1000 1000 True Power Factor (PF) at trip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 472 Bit13= L1LineLossTrip C.Protection.L2LineLossTripEn Bit14= L2LineLossTrip C.Protection.L3LineLossTripEn Bit15= L3LineLossTrip TripEnableV C.Protection.UnderVoltageTripEn Bitmask used to UINT Bit0= UnderVoltageTrip C.Protection.OverVoltageTripEn enable/disable Bit1= OvervoltageTrip C.Protection.VoltageImbalanceTripEn voltage-based Bit2= VoltageUnbalTrip C.Protection.PhaseRotationMismatchTripEn trips Bit3= PhaseRotationTrp C.Protection.UnderFrequencyTripEn Bit4= UnderFreqTrip C.Protection.OverFrequencyTripEn Bit5= OverFreqTrip Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 473 Bit1= OverKWWarning C.Protection.UnderReactivePowerConsumedWarningEn power-based Bit2= UnderKVARConWarn C.Protection.OverReactivePowerConsumedWarningEn warnings Bit3= OverKVARConWarn C.Protection.UnderReactivePowerGeneratedWarningEn Bit4= UnderKVARGenWarn C.Protection.OverReactivePowerGeneratedWarningEn Bit5= OverKVARGenWarn C.Protection.UnderApparentPowerWarningEn Bit6= UnderKVAWarning C.Protection.OverApparentPowerWarningEn Bit7= OverKVAWarning C.Protection.UnderPowerFactorLaggingWarningEn Bit8= UnderPFLagWarn C.Protection.OverPowerFactorLaggingWarningEn Bit9= OverPFLagWarn C.Protection.UnderPowerFactorLeadingWarningEn Bit10= UnderPFLeadWarn C.Protection.OverPowerFactorLeadingWarningEn Bit11= OverPFLeadWarn Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 474 7=L1LossArm 8=L2LossArm 9=L3LossArm 10=L1L2LossArm 11=L2L3LossArm 12=L1L3LossArm 13=L1L2L3LossArm InPt02Assignment C.Pt02InputFunction_0 Assignment for USINT 0=Normal C.Pt02InputFunction_1 Input Point 02 1=TripReset C.Pt02InputFunction_2 function 2=RemoteTrip C.Pt02InputFunction_3 3=ActivateFLA2 4=ForceSnapshot 5=EmergencyStart 6=TestMode 7=L1LossArm 8=L2LossArm 9=L3LossArm 10=L1L2LossArm 11=L2L3LossArm 12=L1L3LossArm 13=L1L2L3LossArm Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 475 6= MonL2TripRelay 7= MonL3TripRelay StartsPerHour C.StartsPerHourLimit Allowable Starts USINT per Hour StartsInterval C.StartsIntervalLimit The minimum UINT 3600 allowable interval Second between starts PMTotalStarts C.TotalStartsLimit Total number of UINT 65535 starts for preventative maintenance Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 476 1= VIGPt5to30Amp 2= VIG6to60Amp 3= VIG10to100Amp 4= VIG20to200Amp 5= IGPt5to30Amp 6= IG6to60Amp 7= IG10to100Amp 8= IG20to200Amp 9= IPt5to30Amp 10= I6to60Amp 11= I10to100Amp 12= I20to200Amp CommsModuleType Select USINT 0=IgnoreType Communications 1=EtherNetIP Module Type 2=DeviceNet 3=Profibus Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 477 Select Ground USINT 0= Disabled Fault Type 1= Internal1to5Amps 2= ExtPt02toPt1Amps 3= ExtPt1toPt5Amps 4= ExtPt5to1Amps 5= External1to5Amps GFInhibitTime C.GroundFaultInhibitTime Ground Fault USINT Inhibit Time Second GFTripDelay C.GroundFaultTripDelay Ground Fault Trip USINT Delay Second Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 478 Param Data Size Scale Group Parameter Name Device Profile Tag Name Description Type Default Units (bytes) Factor GFTripLevel C.GroundFaultTripLimit Ground Fault Trip UINT Amps Level GFWarningDelay C.GroundFaultWarnDelay Ground Fault USINT Warning Delay Second Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 479 L2UCTripLevel C.L2UnderCurrentTripLimit L2 Under Current USINT Trip Level L2UCWarningLevel C.L2UnderCurrentWarnLimit L2 Under Current USINT Warning Level L3UCTripDelay C.L3UnderCurrentTripDelay L3 Under Current USINT Trip Delay Second L3UCTripLevel C.L3UnderCurrentTripLimit L3 Under Current USINT Trip Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 480 Line Loss Inhibit USINT Time Second L1LossTripDelay C.LineLossInhibitTime L1 Line Loss Trip USINT Delay Second L2LossTripDelay C.L1LineLossTripDelay L2 Line Loss Trip USINT Delay Second L3LossTripDelay C.L2LineLossTripDelay L3 Line Loss Trip USINT Delay Second Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 481 Assembly Datalink4 Parameter Number Datalink5 Produced I/O UINT Assembly Datalink5 Parameter Number Datalink6 Produced I/O UINT Assembly Datalink6 Parameter Number Datalink7 Produced I/O UINT Assembly Datalink7 Parameter Number Reserved Reserved Reserved Reserved Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 482 OutDig2PrFltAct C.Digital2ProtectionFaultMode Digital Expansion BOOL 0= GoToPrFltValue Module 2 Outputs 1= Ignore action on protection fault OutDig2PrFltVal C.Digital2ProtectionFaultValue Digital Expansion BOOL 0=Open Module 2 Outputs 1=Closed value on protection fault Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 483 DeviceLogix Setup CommOverride Enabling allows BOOL 0=Disable local logic to 1=Enable override a loss of an I/O Connection. NetworkOverride Enabling allows BOOL 0=Disable local logic to 1=Enable override a Network Fault. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 484 Bit5= Pt05DeviceOut Bit6= Pt06DeviceOut Bit7= Pt07DeviceOut Bit8= Pt08DeviceOut Bit9= Pt09DeviceOut Bit10= Pt10DeviceOut Bit11= Pt11DeviceOut Bit12= Pt12DeviceOut Bit13= Pt13DeviceOut Bit14= Pt14DeviceOut Bit15= Pt15DeviceOut DLXUserDefData General Purpose UDINT 0xFFFFFFFF Data Value for Use in DeviceLogix Programs Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 485 USINT Warning Level OFInhibitTime C.OverFrequencyInhibitTime Over Frequency USINT Inhibit Time Second OFTripDelay C.OverFrequencyTripDelay Over Frequency USINT Trip Delay Second OFTripLevel C.OverFrequencyTripLimit Over Frequency USINT Trip Level OFWarningLevel C.OverFrequencyWarnLimit Over Frequency USINT Warning Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 486 2000000000 0 kVAR Reactive Power Consumed (+kVAR) Warning Level OVARCInhibitTime C.OverReactivePowerConsumedInhibitTime Over Total Reactive USINT Power Consumed Second (+kVAR) Inhibit Time OVARCTripDelay C.OverReactivePowerConsumedTripDelay Over Total Reactive USINT Power Consumed Second (+kVAR) Trip Delay Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 487 Factor Lagging (- Second PF) Inhibit Time UPFLagTripDelay C.UnderPowerFactorLaggingTripDelay Under Total Power USINT Factor Lagging (- Second PF) Trip Delay UPFLagTripLevel C.UnderPowerFactorLaggingTripLimit Under Total Power SINT -100 Factor Lagging (- PF) Trip Level Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 488 Startup screen 1 line 2 Screen2Param1 C.Screen2ParameterSelect1 Parameter to UINT display on Operator Station Startup screen 2 line 1 Screen2Param2 C.Screen2ParameterSelect2 Parameter to UINT display on Operator Station Startup screen 2 line 2 Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 489 1=2-wire Channel 00 to function with RTD InAMod1C0TripDly C.Analog1.Ch00InputTripDelay Analog Module 1 USINT Input Channel 00 Second Trip Delay InAMod1C0TripLvl C.Analog1.Ch00InputTripLimit Level (in selected UINT 65535 Units) where Analog Input generates a trip Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 490 USINT Input Channel 01 Second Trip Delay InAMod1C1TripLvl C.Analog1.Ch01InputTripLimit Level (in selected UINT 65535 Units) where Analog Input generates a trip InAMod1C1WarnLvl C.Analog1.Ch01InputWarnLimit Level (in selected UINT 65535 Units) where Analog Input generate Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 491 6=VoltLLUnbalance 7= TotalkW 8= TotalkVA 9= TotalkVAR 10= TotalPF 11= UserDLXData OutAnMod1FltActn C.Analog1.Ch00OutputFaultMode_0 Analog Module 1 USINT 0= Zero C.Analog1.Ch00OutputFaultMode_1 Output action on 1= Maximum comms fault 2= Minimum 3= Hold Last State Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 492 Second Trip Delay InAMod2C0TripLvl C.Analog2.Ch00InputTripLimit Level (in selected UINT -32768 32767 Units) where Analog Input generates a trip InAMod2C0WarnLvl C.Analog2.Ch00InputWarnLimit Level (in selected UINT -32768 32767 Units) where Analog Input generates a warning Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 493 5= 0To5Volts 6= 100Pt385 7= 200Pt385 8= 500Pt385 9= 1000Pt385 10=100Pt3916 11= 200Pt3916 12= 500Pt3916 13= 1000Pt3916 14= 10Cu426 15= 120Ni618 16= 120Ni672 17= 604NiFe518 18= 150ohm 19= 1000ohm 20 = 3000ohm 21= 6000ohm Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 494 6=VoltLLUnbalance 7= TotalkW 8= TotalkVA 9= TotalkVAR 10= TotalPF 11= UserDLXData OutAnMod2EFltAct C.Analog2.Ch00OutputFaultMode_0 Analog Module 2 USINT 0= Zero C.Analog2.Ch00OutputFaultMode_1 Output action on 1= Maximum an Expansion Bus 2= Minimum fault 3= HoldLastState Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 495 Second Trip Delay InAMod3C0TripLvl C.Analog3.Ch00InputTripLimit Level (in selected UINT -32768 32767 Units) where Analog Input generates a trip InAMod3C0WarnLvl C.Analog3.Ch00InputWarnLimit Level (in selected UINT -32768 32767 Units) where Analog Input generates a warning Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 496 5= 0To5Volts 6= 100Pt385 7= 200Pt385 8= 500Pt385 9= 1000Pt385 10=100Pt3916 11= 200Pt3916 12= 500Pt3916 13= 1000Pt3916 14= 10Cu426 15= 120Ni618 16= 120Ni672 17= 604NiFe518 18= 150ohm 19= 1000ohm 20 = 3000ohm 21= 6000ohm Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 497 Output action on 1= Maximum an Expansion Bus 2= Minimum fault 3= HoldLastState OutAnMod3PFltAct C.Analog3.Ch00OutputProtectionFaultMode_0 Analog Module 3 USINT 0= Ignore C.Analog3.Ch00OutputProtectionFaultMode_1 Output action on a 1= Maximum protection fault 2= Minimum 3= HoldLastState Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 498 5= 0To5Volts 6= 100Pt385 7= 200Pt385 8= 500Pt385 9= 1000Pt385 10=100Pt3916 11= 200Pt3916 12= 500Pt3916 13= 1000Pt3916 14= 10Cu426 15= 120Ni618 16= 120Ni672 17= 604NiFe518 18= 150ohm 19= 1000ohm 20 = 3000ohm 21= 6000ohm Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 499 0= Zero C.Analog4.Ch02InputOpenWire_1 Module 4 Input 1= Maximum Channel 02 Open 2= Minimum Circuit State 3= HoldLastState InAnMod4Ch2RTDEn C.Analog4.Ch02InputTwoWireRTD Enable Analog BOOL 0=Disable Module 4 Input 1=Enable Channel 02 to function with RTD Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 500 Output action on 1= Maximum an Expansion Bus 2= Minimum fault 3= HoldLastState OutAnMod4PFltAct C.Analog4.Ch00OutputProtectionFaultMode_0 Analog Module 4 USINT 0= Zero C.Analog4.Ch00OutputProtectionFaultMode_1 Output action on a 1= Maximum protection fault 2= Minimum 3= HoldLastState Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 501 Parameter List Appendix B Notes: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 502 Appendix B Parameter List Rockwell Automation Publication 193-UM015D-EN-P - November 2013...
Page 503: Common Industrial Protocol (Cip) Objects
0x0029 Control Supervisor 0x002B Acknowledge Handler 0x002C Overload Object 0x004E Base Energy Object 0x004F Electrical Energy Object 0x008B Wall Clock Time Object 0x0097 DPI Fault Object 0x0098 DPI Warning Object 0x00C2 MCC Object Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 504: Identity Object - Class Code 0X0001
16 bit CRC or checksum of all data included in the following data sets: Parameter included in the configuration assembly Configuration UINT Consistency Value MCC Object configuration data DeviceLogix program data Base Energy Object attribute 16 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 505 16 bit CRC or checksum of all data included in the following data sets: Parameter included in the configuration assembly Configuration UINT Consistency Value MCC Object configuration data DeviceLogix program data Base Energy Object attribute 16 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 506: Message Router - Class Code 0X0002
No class or instance attributes are supported. The message router object exists only to rout explicit messages to other objects. Assembly Object — CLASS CODE 0x0004 The following class attributes are supported for the Assembly Object: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 507: Instance 2
Configuration Configuration Assembly Consumed E300 Consumed Default Consumed Assembly Produced Current Diags Produced Assembly with Current Diagnostics Only Produced All Diags Default Produced Assembly Instance 2 The following table summarizes Attribute 3 Format: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 508: Instance 50
The following table shows Attribute 3 Format and Attribute 2 Member List for revision 2 of the assembly. Table 537 - Instance 120 — Configuration Assembly DINT 15 Size (bits) Param ConfigAssyRev = 2 1100 SetOperatingMode Reserved 1102 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 509 TripEnableI WarningEnableI TripEnableV WarningEnableV TripEnableP WarningEnableP TripEnableC WarningEnableC TripEnableA WarningEnableA TripHistoryMaskI WarnHistoryMaskI TripHistoryMaskV WarnHistoryMaskV TripHistoryMaskP WarnHistoryMaskP TripHistoryMaskC WarnHistoryMaskC TripHistoryMaskA WarnHistoryMaskA MismatchAction ControlModuleTyp SensingModuleTyp OperStationType DigitalMod1Type DigitalMod2Type DigitalMod3Type DigitalMod4Type AnalogMod1Type AnalogMod2Type AnalogMod3Type AnalogMod4Type Reserved Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 510 PMOperatingHours FeedbackTimeout TransitionDelay InterlockDelay GroundFaultType GFInhibitTime GFTripDelay GFWarningDelay GFTripLevel GFWarningLevel PLInhibitTime PLTripDelay StallEnabledTime Reserved StallTripLevel JamInhibitTime JamTripDelay JamTripLevel JamWarningLevel ULInhibitTime ULTripDelay ULTripLevel ULWarningLevel CIInhibitTime CITripDelay CITripLevel CIWarningLevel CTPrimary CTSecondary UCInhibitTime L1UCTripDelay L1UCTripLevel L1UCWarningLevel Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 511 DINT 15 Size (bits) Param L2UCTripDelay L2UCTripLevel L2UCWarningLevel L3UCTripDelay L3UCTripLevel L3UCWarningLevel OCInhibitTime L1OCTripDelay L1OCTripLevel L1OCWarningLevel L2OCTripDelay L2OCTripLevel L2OCWarningLevel L3OCTripDelay L3OCTripLevel L3OCWarningLevel LineLossInhTime L1LossTripDelay L2LossTripDelay L3LossTripDelay Datalink0 Datalink1 Datalink2 Datalink3 Datalink4 Datalink5 Datalink6 Datalink7 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 512 OutPt02ComFltVal OutPt02ComIdlAct OutPt02ComIdlVal OutDig1PrFltAct OutDig1PrFltVal OutDig1ComFltAct OutDig1ComFltVal OutDig1ComIdlAct OutDig1ComIdlVal OutDig2PrFltAct OutDig2PrFltVal OutDig2ComFltAct OutDig2ComFltVal OutDig2ComIdlAct OutDig2ComIdlVal OutDig3PrFltAct OutDig3PrFltVal OutDig3ComFltAct OutDig3ComFltVal OutDig3ComIdlAct OutDig3ComIdlVal OutDig4PrFltAct OutDig4PrFltVal OutDig4ComFltAct OutDig4ComFltVal OutDig4ComIdlAct OutDig4ComIdlVal CommOverride NetworkOverride Reserved PtDevOutCOSMask PTPrimary PTSecondary Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 513 OVTripDelay OVTripLevel OVWarningLevel VUBInhibitTime VUBTripDelay VUBTripLevel VUBWarningLevel UFInhibitTime UFTripDelay UFTripLevel UFWarningLevel OFInhibitTime OFTripDelay OFTripLevel OFWarningLevel DemandPeriod NumberOfPeriods UWInhibitTime UWTripDelay OWInhibitTime OWTripDelay UWTripLevel UWWarningLevel OWTripLevel OWWarningLevel UVARCInhibitTime UVARCTripDelay OVARCInhibitTime OVARCTripDelay UVARCTripLevel UVARCWarnLevel OVARCTripLevel OVARCWarnLevel Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 514 UPFLagInhibTime UPFLagTripDelay UPFLagTripLevel UPFLagWarnLevel OPFLagInhibTime OPFLagTripDelay OPFLagTripLevel OPFLagWarnLevel UPFLeadInhibTime UPFLeadTripDelay UPFLeadTripLevel UPFLeadWarnLevel OPFLeadInhibTime OPFLeadTripDelay OPFLeadTripDelay OPFLeadWarnLevel Screen1Param1 Screen1Param2 Screen1Param3 Reserved 1103 Reserved 1103 Reserved 1103 Reserved 1103 Reserved 1103 Reserved 1103 Reserved 1103 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 515 1101 OutAnMod1Select InAMod1Ch0Format InAMod1C0FiltFrq InAMod1C0OpCktSt InAMod1Ch1Format InAMod1C1FiltFrq InAMod1C1OpCktSt InAMod1Ch2Format InAMod1C2FiltFrq InAMod1C2OpCktSt InAMod1C0TmpUnit InAnMod1Ch0RTDEn InAMod1C1TmpUnit InAnMod1Ch1RTDEn InAMod1C2TmpUnit InAnMod1Ch2RTDEn OutAnMod1FltActn OutAnMod1IdlActn OutAnMod1Type Reserved 1101 InAMod2C0TripDly InAMod2C1TripDly InAMod2C2TripDly Reserved 1102 InAMod2C0TripLvl InAMod2C0WarnLvl InAMod2C1TripLvl InAMod2C1WarnLvl InAMod2C2TripLvl InAMod2C2WarnLvl Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 516 InAMod2Ch2Format InAMod2C2FiltFrq InAMod2C2OpCktSt InAMod2C0TmpUnit InAnMod2Ch0RTDEn InAMod2C1TmpUnit InAnMod2Ch1RTDEn InAMod2C2TmpUnit InAnMod2Ch2RTDEn OutAnMod2FltActn OutAnMod2dlActn OutAnMod2Type Reserved 1101 InAMod3C0TripDly InAMod3C1TripDly InAMod3C2TripDly Reserved 1102 InAMod3C0TripLvl InAMod3C0WarnLvl InAMod3C1TripLvl InAMod3C1WarnLvl InAMod3C2TripLvl InAMod3C2WarnLvl InAnMod3Ch00Type InAnMod3Ch01Type InAnMod3Ch02Type Reserved OutAnMod3Select InAMod3Ch0Format InAMod3C0FiltFrq InAMod3C0OpCktSt Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 517 1102 InAMod4C0TripLvl InAMod4C0WarnLvl InAMod4C1TripLvl InAMod4C1WarnLvl InAMod4C2TripLvl InAMod4C2WarnLvl InAnMod4Ch00Type InAnMod4Ch01Type InAnMod4Ch02Type Reserved 1101 OutAnMod4Select InAMod4Ch0Format InAMod4C0FiltFrq InAMod4C0OpCktSt InAMod4Ch1Format InAMod4C1FiltFrq InAMod4C1OpCktSt InAMod4Ch2Format InAMod4C2FiltFrq InAMod4C2OpCktSt InAMod3C0TmpUnit InAnMod4Ch0RTDEn InAMod4C1TmpUnit InAnMod4Ch1RTDEn InAMod4C2TmpUnit InAnMod4Ch2RTDEn OutAnMod4FltActn OutAnMod4dlActn OutAnMod4Type Reserved 1001 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 518: Instance 120 - Configuration Assembly Revision 1
Reserved DLXPtDeviceIn Symbolic DLXAnDeviceIn Symbolic Instance 198 - Current Diagnostics Produced Assembly Table 540 - Instance 198 – Current Diagnostics Produced Assembly DINT 15 Size (bits) Param Reserved for Logix 1104 DeviceStaus0 DeviceStaus1 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 519 1103 MismatchStatus ThermUtilizedPct CurrentImbal AvgPercentFLA AverageCurrent L1Current L2Current L3Current GFCurrent Reserved 1103 Datalink1 1291 Datalink2 1292 Datalink3 1293 Datalink4 1294 Datalink5 1295 Datalink6 1296 Datalink7 1297 Datalink8 1298 PtDeviceOuts AnDeviceOuts 1105 InAnMod1Ch00 InAnMod1Ch01 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 520: Instance 199 - All Diagnostics Produced Assembly
DINT 15 Size (bits) Param Reserved for Logix 1104 DeviceStaus0 DeviceStaus1 InputStatus0 InputStatus1 OutputStatus OpStationStatus TripStsCurrent WarnStsCurrent TripStsVoltage WarnStsVoltage TripStsPower WarnStsPower TripStsControl WarnStsControl TripStsAnalog WarnStsAnalog Reserved 1104 ThermUtilizedPct CurrentImbalance AvgPercentFLA AverageCurrent L1Current L2Current Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 521 Datalink3 1294 Datalink4 1295 Datalink5 1296 Datalink6 1297 Datalink7 1298 PtDeviceOuts AnDeviceOuts 1105 InAnMod1Ch00 InAnMod1Ch01 InAnMod1Ch02 Reserved 1103 InAnMod2Ch00 InAnMod2Ch01 InAnMod2Ch02 Reserved 1103 InAnMod3Ch00 InAnMod3Ch01 InAnMod3Ch02 Reserved 1103 InAnMod4Ch00 InAnMod4Ch01 InAnMod4Ch02 Reserved 1103 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 522: Connection Object - Class Code 0X0005
Expected Packet Rate UINT in milliseconds 01 = auto delete Watchdog Action USINT 03 = deferred delete Produced Connection Path Length UINT Produced Connection Path Empty Consumed Connection Path Length UINT Consumed Connection Path Empty Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 523 Produced Connection Path Length UINT Get/Set Produced Connection Path 21 04 00 25 (assy inst) 00 30 03 Consumed Connection Path Length UINT Get/Set Consumed Connection Path 21 04 00 25 (assy inst) 00 30 03 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 524 Produced Connection Path Length UINT Produced Connection Path 21 04 00 25 (assy inst) 00 30 03 Consumed Connection Path Length UINT Get/Set Consumed Connection Path 21 04 00 25 (assy inst) 00 30 03 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 525: Discrete Input Point Object - Class Code 0X0008
The following class attributes are supported for the Discrete Input Point Object: Table 547 - Discrete Input Point Object Class Attributes Attribute ID Access Rule Name Data Type Value Revision UINT Max. Instance UINT Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 526: Discrete Output Point Object - Class Code 0X0009
Table 550 - Discrete Input Point Object Common Services Implemented for: Service Code Service Name Class Instance 0x0E Get_Attribute_Single 0x10 Set_Attribute_Single Discrete Output Point Object — CLASS CODE 0x0009 The following class attributes are supported for the Discrete Output Point Object: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 527 Appendix I encoded path: NULL path Get/Set Input Binding USINT means attribute 3 drives the output. Array of USINT Otherwise, this is a path to a bit in an instance of the DeviceLogix Data Table. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 528: Analog Input Point Object - Class Code 0X000A
Table 557 - Analog Input Point Object Instance Attributes Attribute ID Access Rule Name Data Type Value Value Default = 0 Value Data Type USINT 0=INT Get/Set Force Enable BOOL 0=Disable, 1=Enable Get/Set Force Value Default = 0 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 529: Parameter Object - Class Code 0X000F
Specified in Descriptor Parameter Dependent Scaling Multiplier UINT Scaling Divisor UINT Scaling Base UINT Scaling Offset Multiplier Link UINT Divisor Link UINT Base Link UINT Offset Link UINT Decimal Precision USINT Parameter Dependent Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 530: Parameter Group Object - Class Code 0X0010
Discrete Output Group Object — CLASS CODE 0x001E No class attributes are supported for the Discrete Output Group Object. Five instances of the Discrete Output Group Object are supported. Instance 1 has the following instances: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 531: Control Supervisor Object - Class Code 0X0029
Service Code Service Name Class Instance 0x0E Get_Attribute_Single 0x10 Set_Attribute_Single Control Supervisor Object — CLASS CODE 0x0029 No class attributes are supported. A single instance (instance 1) of the Control Supervisor Object is supported. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 532: Overload Object - Class Code 0X002C
Table 571 - Overload Object Common Services Implemented for: Service Code Service Name Class Instance 0x0E Get_Attribute_Single 0x10 Set_Attribute_Single Base Energy Object — CLASS CODE 0x004E The following class attributes are supported for the Base Energy Object. Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 533 Attribute 5 value UINT Data Status ODOMETER Consumed Energy Odometer 0Attribute 7 value ODOMETER Generated Energy Odometer 0,0,0,0,0 SIGNED Total Energy Odometer Attribute 9 value ODOMETER REAL Energy Transfer Rate Attribute 10 value Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 534: Electrical Energy Object - Class Code 0X004F
L2 to L3 Voltage REAL Param 54 value converted to a REAL L3 to L1 Voltage REAL Param 55 value converted to a REAL Avg Voltage Lto N REAL Param 56 value converted to a REAL Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 535 Attribute 9 Value REAL L1 Current Attribute 10 Value REAL L2 Current Attribute 11 Value REAL L3 Current Attribute 12 Value REAL Average Current Attribute 13 Value REAL Percent Current Unbalance Attribute 14 Value Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 536: Wall Clock Time Object - Class Code 0X008B
64-bit offset value in μS that when added to the CST value yields Set / SSV Offset from CSV LINT the Current_UTC_Value Local Time Adjustment WORD Set of flags for specific local time adjustments (Never been used) Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 537: Dpi Fault Object - Class Code 0X0097
Service Code Service Name Class Instance 0x0E GetAttributes_All 0x10 Set_Attribute_Single DPI Fault Object — CLASS CODE 0x0097 This object provides access to fault information within the device. The following class attributes are supported: Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 538 Table 585 The following common services are implemented for the DPI Fault Object. Table 584 - DPI Fault Object Common Services Implemented for: Service Code Service Name Class Instance 0x0E Get_Attribute_Single 0x10 Set_Attribute_Single Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 539 Under Total Power Factor Lagging (-PF) condition detected OverPFLagTrip Over Total Power Factor Lagging (-PF) condition detected UnderPFLeadTrip Under Total Power Factor Leading (+PF) condition detected OverPFLeadTrip Over Total Power Factor Leading (+PF) condition detected Fault45 Fault46 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 540 Comms Module installed does not match the expected type OperStatMismatch Operator Station installed does not match expected type DigModMismatch Digital Module installed does not match the expected type AnModMismatch Analog Module installed does not match the expected type Trip96 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 541: Dpi Warning Object - Class Code 0X0098
Warning Code UINT Table 589 Warning Source Struct of: DPI Port Number USINT Device Object USINT 0x2C Instance Warning Time Struct of: Stamp Timer Value ULINT Timer Descriptor WORD Help Text STRING Table 589 Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 542 OverKWWarning Total Real Power (kW) has exceeded warning level UnderKVARConWarn Under Reactive Power Consumed (+kVAR) condition detected OverKVARConWarn Over Reactive Power Consumed (+kVAR) condition detected UnderKVARGenWarn Under Reactive Power Generated (-kVAR) condition detected Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 543 Digital Expansion Module 3 is not operating properly DigitalMod4Warn Digital Expansion Module 4 is not operating properly AnalogMod1Warn Analog Expansion Module 1 is not operating properly AnalogMod2Warn Analog Expansion Module 2 is not operating properly Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 544: Mcc Object - Class Code 0X00C2
The following common services are implemented for the MCC Object. Table 591 - MCC Object Common Services Implemented for: Service Code Service Name Class Instance 0x0E Get_Attribute_Single 0x10 Set_Attribute_Single 0x18 Get_Member 0x19 Set_Member Rockwell Automation Publication 193-UM015D-EN-P - February 2015...
Page 546 New Product Satisfaction Return Rockwell Automation tests all of its products to help ensure that they are fully operational when shipped from the manufacturing facility. However, if your product is not functioning and needs to be returned, follow these procedures.