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466

Rockwell Automation Publication 193-UM015D-EN-P - November 2013

Appendix B

        Parameter List

 Voltage Monitor

(Continued)

60

AvgVoltageLtoN

Average RMS 
Voltage Line-
Neutral

UINT

2

10

0

65535

0

Volt

61

VoltageUnbalance

Voltage Unbalance USINT

1

1

0

255

0

%

62

VoltageFrequency

Voltage Frequency UINT

2

10

0

2500

0

Hz

63

VPhaseRotation

Voltage Phase 
Rotation

(ABC or ACB)

UINT

2

1

0= NoRotation
1= ABC
2= ACB

0

 Power Monitor

64

L1RealPower

Phase L1 Real 
Power.

DINT

4

1000

-2000000000 2000000000

0

kW

65

L2RealPower

Phase L2 Real 
Power.

DINT

4

1000

-2000000000 2000000000

0

kW

66

L3RealPower

Phase L3 Real 
Power.

DINT

4

1000

-2000000000 2000000000

0

kW

67

TotalRealPower

I.TotalRealPower

Total Real Power

DINT

4

1000

-2000000000 2000000000

0

kW

68

L1ReactivePower

Phase L1 Reactive 
Power 

DINT

4

1000

-2000000000 2000000000

0

kVAR

69

L2ReactivePower

Phase L2 Reactive 
Power 

DINT

4

1000

-2000000000 2000000000

0

kVAR

70

L3ReactivePower

Phase L3 Reactive 
Power 

DINT

4

1000

-2000000000 2000000000

0

kVAR

71

TotalReactivePwr

I.TotalReactivePower

Total Reactive 
Power 

DINT

4

1000

-2000000000 2000000000

0

kVAR

72

L1ApparentPower

Phase L1 Apparent 
Power

DINT

4

1000

0

2000000000

0

kVA

73

L2ApparentPower

Phase L2 Apparent 
Power

DINT

4

1000

0

2000000000

0

kVA

74

L3ApparentPower

Phase L3 Apparent 
Power

DINT

4

1000

0

2000000000

0

kVA

75

TotalApparentPwr

I.TotalApparentPower

Total Apparent 
Power

DINT

4

1000

0

2000000000

0

kVA

76

L1PowerFactor

Phase L1 True 
Power Factor (PF)

INT

2

10

-1000

1000

0

%

77

L2PowerFactor

Phase L2 True 
Power Factor (PF)

INT

2

10

-1000

1000

0

%

78

L3PowerFactor

Phase L3 True 
Power Factor (PF)

INT

2

10

-1000

1000

0

%

79

TotalPowerFactor

I.PowerFactor

Total True Power 
Factor (PF)

INT

2

10

-1000

1000

0

%

Energy Monitoring

80

kWhTimes10E9

Total Real Energy 
(kWh) Word 10^9

INT

2

1

-999

999

0

81

kWhTimes10E6

Total Real Energy 
(kWh) Word 10^6

INT

2

1

-999

999

0

82

kWhTimes10E3

Total Real Energy 
(kWh) Word 10^3

INT

2

1

-999

999

0

83

kWhTimes10E0

Total Real Energy 
(kWh) Word 10^0

INT

2

1

-999

999

0

84

kWhTimes10E-3

Total Real Energy 
(kWh) Word 10^-3

INT

2

1

-999

999

0

85

kVARhCon10E9

Total Reactive 
Energy Consumed 
(kVARh) Word 
10^9

INT

2

1

-999

999

0

86

kVARhCon10E6

Total Reactive 
Energy Consumed 
(kVARh) Word 
10^6

INT

2

1

-999

999

0

87

kVARhCon10E3

Total Reactive 
Energy Consumed 
(kVARh) Word 
10^3

INT

2

1

-999

999

0

88

kVARhCon10E0

Total Reactive 
Energy Consumed 
(kVARh) Word 
10^0

INT

2

1

-999

999

0

Group

Param 

No.

Parameter Name

Device Profile Tag Name

Description

Type

Data Size 

(bytes)

Scale 

Factor

Min

Max

Default Units

Summary of Contents for Allen-Bradley E300

Page 1: ...E300 Electronic Overload Relay Bul 193 592 User Manual...

Page 2: ...in whole or in part without written permission of Rockwell Automation Inc is prohibited Throughout this manual when necessary we use notes to make you aware of safety considerations Labels may also b...

Page 3: ...Optional Expansion I O 19 Optional Operator Station 20 Optional Expansion Bus Power Supply 20 Protection Features 21 Standard Current Based Protection 21 Ground Fault Current based Protection 21 Volt...

Page 4: ...l Voltage Reversing Starter with Network Control 53 Chapter3 DiagnosticStation Introduction 55 Navigation Keys 55 Displaying a Parameter 55 Parameter Group Navigation 56 Linear List Navigation 57 Syst...

Page 5: ...ion Policy 75 Device Reset Policy 75 Firmware Update Policy 76 Security Configuration Policy 76 I O Assignments 76 Input Pt00 Assignment Parameter 196 76 Input Pt01 Assignment Parameter 197 77 Input P...

Page 6: ...ction 177 Voltage based Protection 184 Under Voltage Protection 187 Over Voltage Protection 190 Voltage Imbalance Protection 193 Phase Rotation Protection 196 Frequency Protection 198 Power based Prot...

Page 7: ...oduction 305 Device Monitor 305 Percent Thermal Capacity Utilized 305 Time to Trip 306 Time To Reset 306 Current Trip Status 307 Voltage Trip Status 308 Power Trip Status 309 Control Trip Status 309 C...

Page 8: ...Ground Fault Current 326 Current Imbalance 327 Voltage Monitor 327 L1 L2 Voltage 327 L2 L3 Voltage 328 Average L L Voltage 328 L1 N Voltage 329 L2 N Voltage 329 L3 N Voltage 329 Average L N Voltage 33...

Page 9: ...106 345 kVARh Net 103 345 kVARh Net 100 346 kVARh Net 10 3 346 kVAh 109 346 kVAh 106 347 kVAh 103 347 kVAh 100 348 kVAh 10 3 348 kW Demand 348 Max kW Demand 349 kVAR Demand 349 Max kVAR Demand 349 kV...

Page 10: ...er When Assigning Network Parameters 379 Web Server 380 Web Server Security and System Password 380 Permanently Enabling the Web Server 382 Duplicate IP Address Detection 383 Behavior of Modules With...

Page 11: ...Trip Warn LED Troubleshooting Procedures 450 AppendixA Specifications Electrical Specifications 453 Low Voltage Directive 455 Environmental Specifications 456 Electromagnetic Compatibility Specificat...

Page 12: ...8 Parameter Object CLASS CODE 0x000F 529 Parameter Group Object CLASS CODE 0x0010 530 Discrete Output Group Object CLASS CODE 0x001E 530 Control Supervisor Object CLASS CODE 0x0029 531 Overload Object...

Page 13: ...or important motor starter applications Modular Design You can select the specific options that you need for your motor starter application The E300 Electronic Overload Relay consists of three modules...

Page 14: ...e reason for an unplanned shutdown Information includes Voltage Current and Energy Trip Warning Histories Thermal Capacity Utilization Time to Trip Time to Reset Operational Hours Number of Starts Tri...

Page 15: ...IN Rail Panel Mount with Power Terminals E3T Replacement DIN Rail Panel Mount with Power Terminals for an E3 Plus Panel Mount Adapter P DIN Rail Panel Mount with Pass thru Power Conductors CT DIN Rail...

Page 16: ...DC Inputs I O Count 42 4 Inputs 2 Relay Outputs 193 EXP AIO 31 Module Type EXP Expansion Module I O Type AIO Analog I O Bulletin Number 193 IEC Overload Relay I O Count 31 3 Universal Analog Inputs 1...

Page 17: ...formation that is needed for the motor protection application Current Sensing Current and Ground Fault Current Sensing Current Ground Fault Current Voltage and Power Sensing The current ranges for eac...

Page 18: ...varieties I O only I O and protection PTC and External Ground Fault Current Sensing The control module is offered in three control voltages 110 120V AC 50 60Hz 220 240V AC 50 60Hz 24V DC External con...

Page 19: ...application on the base relay You can add any combination of up to four Digital I O Expansion Modules that have four inputs 120V AC 240V AC or 24V DC and two relay outputs You can also add up to four...

Page 20: ...gnostic Station contains a display and navigation buttons that allows you to view and edit parameters in the base relay The Diagnostic Station requires Control Module firmware v3 000 or higher Optiona...

Page 21: ...ce 46 Undercurrent load loss 37 Overcurrent load jam 48 Overcurrent load stall Start Inhibit 66 Ground Fault Current based Protection The E300 Electronic Overload Relay sensing modules and control mod...

Page 22: ...load Relay can be used with the following across the line starter applications Non reversing starter Reversing starter Wye Star Delta starter Two speed motors Low and medium voltage with two or three...

Page 23: ...uring unpacking it is again your responsibility to notify the freight agent The shipping container must be left intact and the freight agent should be requested to make a visual inspection of the equi...

Page 24: ...incorrectly applied or installed E300 Electronic Overload Relay can result in damage to the components or reduction in product life Wiring or application errors for example incorrectly calculating the...

Page 25: ...on and Wiring Chapter 2 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 mak...

Page 26: ...stallation and Wiring 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 t...

Page 27: ...nsion module number must be set to terminated Color Status LED Off Blinking Green No power applied Description Module OK with no connection Green Module OK and active Red Error Detected Digital Module...

Page 28: ...ator Station Installation Figure 11 Expansion Bus Operator Station Expansion Bus Network Installation The E300 Electronic Overload Relay supports up to 4 Expansion Digital I O modules 4 Expansion Anal...

Page 29: ...to the value that enables the internal terminating resistor A1T A4T A power cycle is required when changes are made to the module number dial Connect the E300 Base Relay to the Expansion Module s Inpu...

Page 30: ...Overload Relay as a motor starter with an Allen Bradley Bulletin 100 C contactor 100 C09 C55 Starter Assembly Installation The starter assembly installation instructions are for use with E300 Sensing...

Page 31: ...00 C09 C23 Contactor Figure 15 E300 Sensing Module 193 ESM ___ __ C55 with 100 C30 C37 Contactor 45 1 76 87 3 40 60 2 3 35 1 37 n 5 0 18 190 7 49 37 1 47 122 4 81 29 1 14 122 4 78 152 5 98 67 2 65 FRO...

Page 32: ...100 C60 C97 Contactor 54 2 12 45 1 76 190 7 49 107 4 21 60 2 45 1 75 n 5 0 18 37 1 48 34 1 34 122 4 82 152 5 98 67 2 65 FROM CONTACTOR MTG HOLE FROM CONTACTOR MTG HOLE ADD 5 mm 0 19 in FOR CONTACTOR C...

Page 33: ...E300 Sensing Module 592 ESM ___ __ S2 with NEMA Contactor Size 0 and Size 1 Figure 19 E300 Sensing Module 592 ESM ___ __ S2 with NEMA Contactor Size 2 180 7 06 157 6 17 249 9 78 35 1 38 70 2 75 12 0...

Page 34: ...00 Sensing Module 193 ESM ___ 30A E3T and 193 ESM ___ 60A E3T Figure 21 E300 Sensing Module 193 ESM ___ 30A T and 193 ESM ___ 60A T 45 1 764 135 5 32 30 1 18 n 5 0 17 6 0 24 6 0 217 9 0 33 148 5 83 4...

Page 35: ...Peripherals Dimensions Approximate dimensions are shown in millimeters Dimensions are not intended to be used for manufacturing purposes Figure 23 E300Digital Expansion Module 193 EXP DIO ___ 2 82 71...

Page 36: ...apter 2 Installation and Wiring Figure 24 E300 Expansion Analog Module 193 EXP AIO Figure 25 E300 Expansion Power Supply 193 EXP PS ___ 2 x 4 5 0 18 dia 22 5 0 89 80 75 3 18 120 4 73 98 3 86 87 3 43 1...

Page 37: ...a 18 5 0 73 13 5 0 53 100 3 94 70 2 76 Wire Type Conductor Torque Cat No 193 ESM _ _ _ 30A _ _ _ 193 ESM _ _ _ 60A _ _ _ 592 ESM _ _ _ 30A _ _ _ 592 ESM _ _ _ 60A _ _ _ 193 ESM _ _ _ 100A _ _ _ 592 ES...

Page 38: ...3 EIOGP 42 _ _ _ 193 EIOGP 22 _ _ _ Sensing Module Latch Power PTC Terminals Expansion Bus Connector Relay Ground Fault Terminals R13R14 S1 S2 A1 A1 A2IN2IN3IT1 IT2 R13R14 S1 S2 193 EIO 63 _ _ _ 193 E...

Page 39: ...randed only 24 16 AWG 4 lb in Flexible Stranded with Ferrule Metric Single 0 25 2 5 mm2 0 45 N m Multiple 0 5 0 75 mm2 0 45 N m Coarse Stranded Solid Metric Single 0 2 2 5 mm2 0 45 N m Multiple 0 2 1...

Page 40: ...igital Module Wire Size and Torque Specifications Wire Type Conductor Torque Cat No 193 EXP DIO 42 _ _ _ Stranded Solid AWG Single 24 12 AWG 5 lb in Multiple stranded only 24 16 AWG 5 lb in Flexible S...

Page 41: ...41 Installation and Wiring Chapter 2 Figure 31 E300 Expansion Digital Module Wiring Diagram Expansion Analog Module Figure 32 E300 Expansion Analog Module Terminal Designations R04 R14 RC3 IN0 INC IN...

Page 42: ...31 Stranded Solid AWG Single 24 12 AWG 5 lb in Multiple stranded only 24 16 AWG 5 lb in Flexible Stranded with Ferrule Metric Single 0 25 2 5 mm2 0 55 N m Multiple 0 5 0 75 mm2 0 55 N m Coarse Strande...

Page 43: ...n Power Supply Wire Size and Torque Specifications Wire Type Conductor Torque Cat No 193 EXP PS _ _ Stranded Solid AWG Single 24 12 AWG 5 lb in Multiple stranded only 24 16 AWG 5 lb in Flexible Strand...

Page 44: ...onic Overload Relay The PTC thermistor cable shield shall be grounded at the E300 Electronic Overload Relay with no connection made at the opposite end Short Circuit Ratings The E300 Electronic Overlo...

Page 45: ...193 ESM ___ 30A E3T 193 ESM ___ 30A P 193 ESM ___ 30A T 193 ESM VIG 30A CT 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 __...

Page 46: ...C A Max Available Fault Current A Max Voltage V Max Circuit Breaker Cat No 140U D6D3 193 ESM ___ 30A C23 100 C09 9 65 000 480Y 277V C30 30 A 100 C12 12 100 C16 16 100 C23 23 193 ESM ___ 30A C23 100 C0...

Page 47: ...Type II Class J or CC Fuse A 193 ESM ___ 30A C23 100 C09 9 1000 100 000 600 20 15 100 C12 12 20 20 100 C16 16 30 30 100 C23 23 3 000 40 40 193 ESM ___ 30A C55 193 ESM ___ 60A C55 100 C30 30 50 50 100...

Page 48: ...30A E3T 193 ESM IG 30A T 193 ESM IG 30A P 193 ESM I 30A E3T 193 ESM I 30A T 193 ESM I 30A P 193 ESM VIG 30A CT CT Primary Parameter 263 and CT Secondary Parameter 264 allows you to identify the turns...

Page 49: ...l 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 CT Primary Parameter 263 Default Value 5...

Page 50: ...er can result in the E300ElectronicOverloadRelayreportinginaccuratemotoroperationaldataand possible motor damage The selected current transformer must be rated for protective relaying applications NEM...

Page 51: ...down potential voltage transformers in use The E300 Electronic Overload Relay will automatically adjust the measured voltage based on these two configuration parameters Use the primary voltage for you...

Page 52: ...nfigured to be a normally closed Trip Relay Full Voltage Non Reversing Starter with Network Control Figure 38 NEMA Nomenclature ATTENTION Do not exceed the ratings of the E300 Electronic Overload Rela...

Page 53: ...ltage Reversing Starter with Network Control Figure 40 NEMA Nomenclature L1 Relay 1 R13 R14 R03 R04 A1 A2 K N Relay 0 Configured as a Trip Relay 2 2 Contact shown with supply voltage applied Relay 1 R...

Page 54: ...M015D EN P February 2015 Chapter 2 Installation and Wiring Figure 41 CENELEC Nomenclature L1 Relay 0 Configured as a Trip Relay 2 R03 R04 R13 R23 Relay 2 R14 R24 K2 K1 A1 A1 K1 K2 A2 A2 N Contact show...

Page 55: ...parameters Displaying a Parameter 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 y...

Page 56: ...lect the Groups navigation method and press Use the or keys to select the parameter group to display and press Use the or keys to view the parameters that are associated with that group When viewing a...

Page 57: ...urns to its programmable display sequence Linear List Navigation To start the navigation menu press the key Use the or keys to select the Linear List navigation method and press Use the or and keys to...

Page 58: ...Station can display firmware revision information view the time and date of the E300 virtual clock and edit the time and date of the E300 virtual clock To view E300 system information start the naviga...

Page 59: ...t To start the navigation menu press the key You will be prompted to view parameters by groups parameters in a linear list or E300 system information Choose the appropriate method and navigate to the...

Page 60: ...riod 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 sequen...

Page 61: ...by Display Timeout Parameter 436 then the Diagnostic Station will automatically cancel any editing modifications restore the previous value and return to its programmable display sequence Stopping th...

Page 62: ...ress any of the navigation keys or to return to the automatic display sequence When the trip or warning event clears the E300 Diagnostic Station automatically returns to its programmable display seque...

Page 63: ...on Mode Run Mode Test Mode Invalid Configuration Mode Administration Mode Administration Mode is a maintenance mode for the E300 Electronic Overload Relay which allows you to configure parameters modi...

Page 64: ...ter 20 Run Mode Run Mode is an active mode for the E300 Electronic Overload Relay in which the E300 is sensing electrical current and is actively protecting an electric motor Only non motor protection...

Page 65: ...ly with the motor starter without energizing power to the motor If the E300Electronic Overload Relay senses current or voltage in Test Mode the E300 Electronic Overload Relay will generate a Test Mode...

Page 66: ...on the Communication Module via network communications with the internal web server of the EtherNet IP communications module or by an assigned digital input Option Match Due to the modular nature of t...

Page 67: ...f Parameter 186 Control Trip Enable You can select the specific option match features to cause a protection trip in Parameter 233 Option Match Action Table 23 Enable Option Match Protection Trip Bit F...

Page 68: ...o Parameter 221 A value of 0 disables the Option Match feature for the control module Table 25 Control Module Type Parameter 221 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function Reserved Reserved X...

Page 69: ...rrent 0 5 30 A Ground Fault 193 ESM VIG 30A __ or 592 ESM VIG 30A __ 2 Voltage Current 6 60 A Ground Fault 193 ESM VIG 60A __ or 592 ESM VIG 60A __ 3 Voltage Current 10 100 A Ground Fault 193 ESM VIG...

Page 70: ...three different types of Digital I O expansion modules Place the value of the expected Digital I O expansion module set to Digital Module 1 into Parameter 225 A value of 0 disables the Option Match f...

Page 71: ...hree different types of Digital I O expansion modules Place the value of the expected Digital I O expansion module set to Digital Module 3 into Parameter 227 A value of 0 disables the Option Match fea...

Page 72: ...ure for the Analog I O expansion module set to Analog Module 1 There is one type of Analog I O expansion module Place the value of the expected Analog I O expansion module set to Analog Module 1 into...

Page 73: ...ameter 231 The E300 Electronic Overload Relay supports up to four additional Analog I O expansion modules This parameter configures the Option Match feature for the Analog I O expansion module set to...

Page 74: ...odule 4 Type Parameter 232 Option Match Action Parameter 233 The Option Match feature for the E300 Electronic Overload Relay allows you to specify an action when there is an option mismatch Protection...

Page 75: ...configuration parameters When this policy is disabled all external message instructions with configuration data will return a communications error when the E300 Electronic Overload Relay is in Operat...

Page 76: ...functions the following sections list the function assignments for the available Control Module I O Input Pt00 Assignment Parameter 196 Input Pt00 Assignment Parameter 196 allows you to assign this di...

Page 77: ...rm Activate L2 Line Loss Protection 9 L3 Line Loss Arm Activate L3 Line Loss Protection 10 L1 L2 Line Loss Arm Activate L1 andL2 Line Loss Protection 11 L2 L3 Line Loss Arm Activate L2 andL3 Line Loss...

Page 78: ...ctivate L2 Line Loss Protection 9 L3 Line Loss Arm Activate L3 Line Loss Protection 10 L1 L2 Line Loss Arm Activate L1 andL2 Line Loss Protection 11 L2 L3 Line Loss Arm Activate L2 andL3 Line Loss Pro...

Page 79: ...d state 3 Activate FLA2 UsethevalueinFLA2Setting Parameter177 forthecurrent basedprotection algorithms 4 Force Snapshot Force the E300 to update its Snapshot log 5 Emergency Start Issue an Emergency S...

Page 80: ...6 Monitor L2 Trip Relay 1 Function as a normally closed contact until the E300 is in a tripped state for a L2 Under Current L2 Over Current or L2 Line Loss in which the relayopens The Trip Relay remai...

Page 81: ...6 Monitor L2 Trip Relay 1 Function as a normally closed contact until the E300 is in a tripped state for a L2 Under Current L2 Over Current or L2 Line Loss in which the relayopens The Trip Relay remai...

Page 82: ...remains closed until the protection warning clears 5 Monitor L1 Trip Relay 1 Function as a normally closed contact until the E300 is in a tripped state for a L1 Under Current L1 Over Current or L1 Li...

Page 83: ...tripped state in which the Trip Warn LED on the Communication Module and Operator station will blink a red 3 long and 11 short blinking pattern Table 50 Expansion Bus Trip Bit Function Detail Control...

Page 84: ...te of the E300 Electronic Overload Relay will automatically clear Emergency Start In an emergency it may be necessary to start a motor even if a protection fault or a communication fault exists The tr...

Page 85: ...munications When the Emergency Start feature is active the following actions occur in the E300 Electronic Overload Relay Protection trips are ignored Output relays configured as Trip Relays are put in...

Page 86: ...ilable E300 Electronic Overload Relay parameters Table 55 Screen 1 Parameter 1 Parameter 428 User definedScreen1 Parameter2 User defined Screen 1 Parameter 2 Parameter 429 is the E300 parameter number...

Page 87: ...2 Parameter 1 Parameter 430 User definedScreen2 Parameter2 User defined Screen 2 Parameter 2 Parameter 431 is the E300 parameter number to display for the second parameter in user defined screen 2 You...

Page 88: ...efined screen 3 You can select one of the 560 available E300 Electronic Overload Relay parameters Table 60 Screen 3 Parameter 2 Parameter 433 User defined Screen 4 User definedScreen4 Parameter1 User...

Page 89: ...435 Display Timeout Display Timeout Parameter 436 defines the time duration in which there is no display navigation activity and the E300 Diagnostic Station returns to its normal display sequence Any...

Page 90: ...10 Cu 426 100 Ni 618 120 Ni 672 604 NiFe 518 Resistance 0 150 0 750 0 3000 0 6000 PTC and NTC Sensors The analog inputs can report data in four different formats Table 63 through Table 66 display the...

Page 91: ...83 200 0 C Low Range 2000 200 32768 0 200 0 C Low Limit 2000 200 32768 0 1562 0 F High Limit 15620 1562 32767 16383 1562 0 F High Range 15620 1562 32767 16383 328 0 F Low Range 3280 328 32768 0 328 0...

Page 92: ...Low Limit 1000 100 32768 0 392 0 F High Limit 3920 392 32767 16383 392 0 F High Range 3920 392 32767 16383 148 0 F Low Range 1480 148 32768 0 148 0 F Low Limit 1480 148 32768 0 Input Range Input Valu...

Page 93: ...present 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 Output Range Output S...

Page 94: ...onversion time 153 ms Channel 02 is configured for 62Hz current conversion time 65 ms Output Selection Low Range High Range Average FLA 0 100 Scaled Average FLA 0 200 TCU 0 100 Ground Fault Current In...

Page 95: ...current signal from 4 20 mA 2 0To20mA Read an analog current signal from 0 20 mA 3 0To10Volts Read an analog voltage signal from 0 10 V DC 4 1To5Volts Read an analog voltage signal from 1 5 V DC 5 0To...

Page 96: ...d for this input channel Table 75 Analog Module 1 Input Channel 00 Open Circuit State Parameter 441 AnalogModule1 InputChannel00RTDTypeEnable Analog Module 1 Input Channel 00 RTD Type Enable Parameter...

Page 97: ...ignal from 0 20 mA 3 0To10Volts Read an analog voltage signalfrom 0 10V DC 4 1To5Volts Read an analog voltage signal from 1 5 V DC 5 0To5Volts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Re...

Page 98: ...nel01RTDTypeEnable Analog Module 1 Input Channel 01 RTD Type Enable Parameter 451 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 82 Analog Mod...

Page 99: ...ts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385 RT...

Page 100: ...460 Analog Module 1 Output Channel 00 Type Analog Module 1 Output Channel 00 Type Parameter 464 defines the type of analog signal that Output Channel 00 of Analog Module 1 will be providing Table 89...

Page 101: ...tate Table 92 Analog Module 1 Output Channel 00 Protection Fault Action Parameter 467 Value Assignment Description 0 AveragePCTFLA Average FLA 0 100 1 ScaledAvgPctFLA Scaled Average FLA 0 200 2 Percen...

Page 102: ...To10Volts Read an analog voltage signal from 0 10 V DC 4 1To5Volts Read an analog voltage signal from 1 5 V DC 5 0To5Volts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD...

Page 103: ...ype Enable Parameter 473 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 98 Analog Module 2 Input Channel 00 RTD Type Enable Parameter 473 Anal...

Page 104: ...lts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385 R...

Page 105: ...Input Channel 01 RTD Type Enable Parameter 482 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 104 Analog Module 2 Input Channel 01 RTD Type En...

Page 106: ...lts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385 R...

Page 107: ...eter 491 AnalogModule2 OutputChannel00Type Analog Module 2 Output Channel 00 Type Parameter 464 defines the type of analog signal that Output Channel 00 of Analog Module 2 will be providing Table 111...

Page 108: ...state Table 114 Analog Module 2 Output Channel 00 Protection Fault Action Parameter 498 Value Assignment Description 0 AveragePCTFLA Average FLA 0 100 1 ScaledAvgPctFLA Scaled Average FLA 0 200 2 Perc...

Page 109: ...0To10Volts Read an analog voltage signal from 0 10 V DC 4 1To5Volts Read an analog voltage signal from 1 5 V DC 5 0To5Volts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD...

Page 110: ...Type Enable Parameter 504 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 120 Analog Module 3 Input Channel 00 RTD Type Enable Parameter 504 An...

Page 111: ...lts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385 R...

Page 112: ...Input Channel 01 RTD Type Enable Parameter 513 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 126 Analog Module 3 Input Channel 01 RTD Type En...

Page 113: ...olts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385...

Page 114: ...eter 522 AnalogModule3 OutputChannel00Type Analog Module 3 Output Channel 00 Type Parameter 526 defines the type of analog signal that Output Channel 00 of Analog Module 3 will be providing Table 133...

Page 115: ...state Table 136 Analog Module 3 Output Channel 00 Protection Fault Action Parameter 529 Value Assignment Description 0 AveragePCTFLA Average FLA 0 100 1 ScaledAvgPctFLA Scaled Average FLA 0 200 2 Perc...

Page 116: ...0To10Volts Read an analog voltage signal from 0 10 V DC 4 1To5Volts Read an analog voltage signal from 1 5 V DC 5 0To5Volts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD...

Page 117: ...Type Enable Parameter 535 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sensor Table 142 Analog Module 4 Input Channel 00 RTD Type Enable Parameter 535 An...

Page 118: ...lts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor 9 1000Pt385 Read a 1000 Pt 385 R...

Page 119: ...pen Circuit State Parameter 543 AnalogModule4 InputChannel01RTDTypeEnable Analog Module 4 Input Channel 01 RTD Type Enable Parameter 544 defines the type of RTD to monitor when the input channel type...

Page 120: ...ge signal from 1 5 V DC 5 0To5Volts Read an analog voltage signal from 0 5 V DC 6 100Pt385 Read a 100 Pt 385 RTD Sensor 7 200Pt385 Read a 200 Pt 385 RTD Sensor 8 500Pt385 Read a 500 Pt 385 RTD Sensor...

Page 121: ...nalogModule4 InputChannel02RTDTypeEnable Analog Module 4 Input Channel 02 RTD Type Enable Parameter 556 defines the type of RTD to monitor when the input channel type is configured to scan an RTD sens...

Page 122: ...when the E300 is in a tripped state Value Assignment Description 0 Disabled Disable the analog input 1 4To20mA Provide an analog current signal from 4 20 mA 2 0To20mA Provide an analog current signal...

Page 123: ...Relay or Control Relay You can use network commands to control any output relays that are assigned as Normal output relays or Control Relays For Control Module firmware v1 000 and v2 000 one output re...

Page 124: ...124 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 4 System Operation and Configuration Notes...

Page 125: ...rameter 195 is Overload Network in which the E300 Electronic Overload Relay operates as a traditional overload relay with one output relay that is assigned as a normally closed Trip Relay You can use...

Page 126: ...that is controlled by the communications network opens when a trip event is present Figure 44 is a wiring diagram of a Non Reversing Starter with Relay 0 configured as a Control Relay Relay 0 receives...

Page 127: ...e No configuration rules apply in this operating mode if the motor protection features are disabled Rules 1 If any protection trips are enabled excluding Configuration NVS and Hardware Fault trip then...

Page 128: ...128 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 5 Operating Modes...

Page 129: ...pter explains the trip and warning protection features of the E300 Electronic Overload Relay and the associated configuration parameters Current based Protection The E300 Electronic Overload Relay dig...

Page 130: ...p X Stall Trip X Jam Trip X Underload Trip X Current Imbalance Trip X L1 Under Current Trip X L2 Under Current Trip X L3 Under Current Trip X L1 Over Current Trip X L2 Over Current Trip X L3 Over Curr...

Page 131: ...ip X Stall Trip X Jam Trip X Underload Trip X Current Imbalance Trip X L1 Under Current Trip X L2 Under Current Trip X L3 Under Current Trip X L1 Over Current Trip X L2 Over Current Trip X L3 Over Cur...

Page 132: ...p Relay open 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...

Page 133: ...the full load current rating on the printed nameplate Motor Service Factor 1 15 For motors with a service factor rating less than 1 15 program the FLA setting to 90 of the full load current rating on...

Page 134: ...ectronic Overload Relay s thermal capacity utilization algorithm Trip class is defined as the maximum time in seconds for an overload trip to occur when the motor s operating current is six times its...

Page 135: ...ted the E300 Electronic 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...

Page 136: ...Level Table 166 Overload Reset Mode Parameter 173 Table 167 Overload Reset Level Parameter 174 Overload Reset Mode Parameter 173 Default Value 0 Manual Minimum Value 0 Manual Maximum Value 1 Automatic...

Page 137: ...n 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...

Page 138: ...the Overload Time to Trip value is reported as 9 999 seconds Table 169 Overload Time to Trip Parameter 2 TimeToReset After an overload trip the E300 Electronic Overload Relay reports the time remaini...

Page 139: ...s Protection A high current imbalance or phase failure can be caused by defective contacts in a contactor or circuit breaker loose terminals blown fuses sliced wires or faults in the motor When a phas...

Page 140: ...transitions from 0 A to 30 of the minimum FLA setting of the device The E300 Electronic Overload Relay does not begin monitoring for a phase loss condition until the Phase Loss Inhibit Time expires IM...

Page 141: ...e personnel to perform timely maintenance The E300 Electronic Overload Relay provides core balanced ground fault current detection capability with the option of enabling Ground Fault Trip Ground Fault...

Page 142: ...roper rating to interrupt the ground fault When enabled Ground Fault Maximum Inhibit Parameter 248 inhibits a ground fault trip from occurring when the ground fault current exceeds the maximum range o...

Page 143: ...rameter 247 This filter only disables the effects of the ground fault current from the current based motor protection trip and warning functions Current based diagnostic data is reported unfiltered wh...

Page 144: ...Trip Delay 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 Ground Fault Inhibit...

Page 145: ...e 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fa...

Page 146: ...present Ground Fault Inhibit Time has expired Ground Fault Trip Delay Parameter 243 Default Value 0 5 Minimum Value 0 0 Maximum Value 25 0 Parameter Type USINT Size Bytes 1 Scaling Factor 10 Units Sec...

Page 147: ...l Parameter 246 allows you to define the ground fault current at which the E300 Electronic Overload Relay indicates a warning and is adjustable from 0 20 5 00 A Table 181 Ground Fault Warning Level Pa...

Page 148: ...e and loss of production can occur StallTrip The E300 Electronic Overload Relay trips with a Stall Trip indication when No trip currently exists Stall protection is enabled Current is present The maxi...

Page 149: ...ters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310 Output PT01 Protection Fault Value Parameter 3...

Page 150: ...and warning from occurring during the motor starting sequence It is adjustable from 0 250 s Table 185 Jam Trip Inhibit Time Parameter 251 Stall Trip Level Parameter 250 Default Value 600 Minimum Value...

Page 151: ...ne the time period a jam condition must be present before a trip occurs It is adjustable from 0 1 25 0 s IMPORTANT TheProtection FaultStateofRelay0 Relay1 Relay2 DigitalModule1Output Relays Digital Mo...

Page 152: ...to or greater than the Jam Warning Level When the Jam Warning conditions are satisfied the TRIP WARN LED flashes a yellow 5 short blink pattern Bit 4 in Current Warning Status Parameter 10 sets to 1 B...

Page 153: ...tion helps to minimize damage and loss of production The E300 Electronic Overload Relay can monitor for this condition with its Underload Trip and Warning function to detect for a rapid underload faul...

Page 154: ...arameter 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 IMPORTANT TheProtection FaultStateofRelay0 Relay1 Relay2...

Page 155: ...expired The minimum phase current is less than the Underload Warning Level Default Value 5 0 Minimum Value 0 1 Maximum Value 25 0 Parameter Type USINT Size Bytes 1 Scaling Factor 10 Units Seconds Def...

Page 156: ...ance in the voltage supply unequal motor winding impedance or long and varying wire lengths When a current imbalance exists the motor can experience an additional temperature rise resulting in degrada...

Page 157: ...bit Time has expired The Current Imbalance parameter 52 is greater than the Current Imbalance Trip Level for a time period greater than the Current Imbalance Trip Delay If the E300 Electronic Overload...

Page 158: ...Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310 Ou...

Page 159: ...ce Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes CurrentImbalanceWarningLevel Current Imbalance Warning Level Parameter 262 allows you to define the percentage...

Page 160: ...ws you to inhibit an L1 L2 and L3 Under Current trip and warning from occurring during a load starting sequence It is adjustable from 0 250 seconds Table 197 Under Current Inhibit Time Parameter 265 L...

Page 161: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 162: ...yellow 8 short blink pattern Bit 7 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 L1UnderCurren...

Page 163: ...If the E300 Electronic Overload Relay trips on a L2 Under Current the TRIP WARN LED status indicator flashes a red 9 short blink pattern Bit 8 in Current Trip Status Parameter 4 sets to 1 Bit 0 in De...

Page 164: ...tal Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Acti...

Page 165: ...as a Warning Alarm close L2UnderCurrentWarningLevel L2 Under Current Warning Level Parameter 271 allows you to define the current at which the E300 Electronic Overload Relay indicates a L2 Under Curre...

Page 166: ...on a L3 Under Current the TRIP WARN LED status indicator flashes a red 10 short blink pattern Bit 9 in Current Trip Status Parameter 4 sets to 1 Bit 0 in Device Status 0 Parameter 20 sets to 1 Any re...

Page 167: ...tion Parameter 310 Output PT01 Protection Fault Value Parameter 311 Output PT02 Protection Fault Action Parameter 316 Output PT02 Protection Fault Value Parameter 317 Output Digital Module 1 Protectio...

Page 168: ...d as a Warning Alarm close L3UnderCurrentWarningLevel L3 Under Current Warning Level Parameter 274 allows you to define the current at which the E300 Electronic Overload Relay indicates a L3 Under Cur...

Page 169: ...ze damage and loss of production OverCurrentInhibitTime Over Current Inhibit Time Parameter 275 allows you to inhibit an L1 L2 and L3 Over Current trip and warning from occurring during a load startin...

Page 170: ...condition must be present before a trip occurs It is adjustable from 0 1 25 0 seconds IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digital Module 1 Output Relays Digital Module 2 Ou...

Page 171: ...ercent FLA Parameter 47 is greater than the L1 Over Current Warning Level When the L1 Over Current Warning conditions are satisfied the TRIP WARN LED flashes a yellow 11 short blink pattern Bit 10 in...

Page 172: ...r Current Trip Level for a time period greater than the L2 Over Current Trip Delay If the E300 Electronic Overload Relay trips on a L2 Over Current the TRIP WARN LED status indicator flashes a red 12...

Page 173: ...Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action...

Page 174: ...1 Any relay outputs configured as a Warning Alarm closes L2OverCurrentWarningLevel L2 Over Current Warning Level Parameter 281 allows you to define the current at which the E300 Electronic Overload R...

Page 175: ...rent Warning function does not include a time delay feature Once the Over Current Inhibit Timer has expired the L2 Over Current Warning indication is instantaneous IMPORTANT The Protection Fault State...

Page 176: ...el Parameter 283 L3OverCurrentWarning The E300 Electronic Overload Relay indicates an L3 Over Current warning if No warning currently exists L3 Over Current Warning is enabled Current is present The O...

Page 177: ...ecific phase this may indicate an electrical malfunction such as bad resistive heater element or non operating incandescent light bulb Such conditions may not harm the power system but it can lead to...

Page 178: ...eter 47 is equal to 0 for a time period greater than the L1 Line Loss Trip Delay If the E300 Electronic Overload Relay trips on a L1 Line Loss the TRIP WARN LED status indicator flashes a red 14 short...

Page 179: ...10 Output PT01 Protection Fault Value Parameter 311 Output PT02 Protection Fault Action Parameter 316 Output PT02 Protection Fault Value Parameter 317 Output Digital Module 1 Protection Fault Action P...

Page 180: ...Trip is enabled L2 Line Loss is activated via the appropriately programmed digital input see Input Assignments Parameters 196 201 in Chapter 4 Line Loss Inhibit Timer has expired L2 Percent FLA Parame...

Page 181: ...10 Output PT01 Protection Fault Value Parameter 311 Output PT02 Protection Fault Action Parameter 316 Output PT02 Protection Fault Value Parameter 317 Output Digital Module 1 Protection Fault Action P...

Page 182: ...Trip is enabled L3 Line Loss is activated via the appropriately programmed digital input see Input Assignments Parameters 196 201 in Chapter 4 Line Loss Inhibit Timer has expired L3 Percent FLA Parame...

Page 183: ...10 Output PT01 Protection Fault Value Parameter 311 Output PT02 Protection Fault Action Parameter 316 Output PT02 Protection Fault Value Parameter 317 Output Digital Module 1 Protection Fault Action P...

Page 184: ...ality You can prevent a contactor from energizing if the voltage is either too high too low or wrong rotation The following E300 Sensing Modules provide voltage monitoring capabilities Table 221 Volta...

Page 185: ...15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under Voltage Trip X Over Voltage Trip X Voltage Imbalance Trip X Phase Rotation Mismatch Trip X Under Frequency Trip X Over Frequency Trip Reserved Re...

Page 186: ...X Voltage Imbalance Trip X Phase Rotation Mismatch Trip X Under Frequency Trip X Over Frequency Trip Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Bit 15 1...

Page 187: ...ime Parameter 355 UnderVoltageTrip The E300 Electronic Overload Relay trips with an undervoltage indication if No trip currently exists Under Voltage Trip is enabled Voltage is present Under Voltage I...

Page 188: ...elays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310 Outp...

Page 189: ...1 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close UnderVoltageWarnLevel Under Voltage Warn Level Parameter 358 allows you to define the...

Page 190: ...E300 Electronic Overload Relay trips with an Over Voltage indication if No trip currently exists Over Voltage Trip is enabled Voltage is present Over Voltage Inhibit Time has expired The minimum phase...

Page 191: ...Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault...

Page 192: ...Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes OverVoltageWarnLevel Over Voltage Warn Level Parameter 362 allows you to define the voltage at w...

Page 193: ...ce can be defined by the following equation VImb 100 Vd Va where VImb Percent Voltage Imbalance Vd Maximum Deviation from the Average Voltage Va Average Voltage VoltageImbalanceInhibitTime Voltage Imb...

Page 194: ...fine the time period a voltage imbalance condition must be present before a trip occurs It is adjustable from 0 1 25 0 seconds IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digital M...

Page 195: ...red The Voltage Imbalance Parameter 61 is greater than the Voltage Imbalance Warning Level When the Voltage Imbalance Warning conditions are satisfied the TRIP WARN LED flashes a yellow red 1 long 3 s...

Page 196: ...oper direction ABC or ACB to prevent equipment from being damaged PhaseRotationInhibitTime Phase Rotation Inhibit Time Parameter 359 allows you to inhibit a phase rotation mismatch trip and warning fr...

Page 197: ...se 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 IMPORTANT The Protection F...

Page 198: ...yInhibitTime Under Frequency Inhibit Time Parameter 369 allows you to inhibit an under frequency trip and warning from occurring during the motor starting sequence It is adjustable from 0 250 seconds...

Page 199: ...greater than the Under Frequency Trip Delay If the E300 Electronic Overload Relay trips on an under frequency the TRIP WARN LED status indicator flashes a red 1 long 5 short blink pattern Bit 4 in Vo...

Page 200: ...ut Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310...

Page 201: ...1 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close UnderFrequencyWarnLevel Under Frequency Warn Level Parameter 372 allows you to define...

Page 202: ...ncy 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 IMPORTANT The Protection Fault...

Page 203: ...he voltage frequency is equal to or greater than the Over Frequency Warning Level When the Over Frequency Warning conditions are satisfied the TRIP WARN LED flashes a yellow 1 long 6 short blink patte...

Page 204: ...ensing Modules provide power monitoring capabilities Table 247 Power Capabilities This power information is used for the following protective trip and warning functions Under Real Power kW Trip Warnin...

Page 205: ...3 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under kW Trip X Over kW Trip X Under kVAR Consumed Trip X Over kVAR Consumed Trip X Under kVAR Generated Trip X Over kVAR Generated Trip X Under kVA Trip X Ov...

Page 206: ...3 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under kW Trip X Over kW Trip X Under kVAR Consumed Trip X Over kVAR Consumed Trip X Under kVAR Generated Trip X Over kVAR Generated Trip X Under kVA Trip X Ov...

Page 207: ...382 UnderkWTrip The E300 Electronic Overload Relay trips with an Under kW indication if No trip currently exists Under kW Trip is enabled Current is present Voltage is present Under kW Inhibit Time h...

Page 208: ...ay 2 Digital Module 1 Output Relays Digital Module 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fau...

Page 209: ...tus Parameter 12 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close UnderkWWarnLevel Under kW Warn Level Parameter 381 allows you to define...

Page 210: ...er kW the TRIP WARN LED status indicator flashes a red 2 long 2 short blink pattern Bit 1 in Power Trip Status Parameter 6 sets to 1 Bit 0 in Device Status 0 Parameter 20 sets to 1 Any relay outputs c...

Page 211: ...ined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310 Output PT01 Prote...

Page 212: ...ny relay outputs configured as a Warning Alarm close OverkWWarnLevel Over kW Warn Level Parameter 385 allows you to define the real power kW at which the E300 Electronic Overload Relay indicates a war...

Page 213: ...ng the motor starting sequence It is adjustable from 0 250 seconds Table 260 Under kVAR Consumed Inhibit Time Parameter 386 OverkVARConsumedInhibitTime Over kVAR Consumed Inhibit Time Parameter 390 al...

Page 214: ...s adjustable from 0 250 seconds Table 263 Over kVAR Generated Inhibit Time Parameter 398 UnderkVARConsumedTrip The E300 Electronic Overload Relay trips with an Under kVAR Consumed indication if No tri...

Page 215: ...1 Relay 2 Digital Module 1 Output Relays Digital Module 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protectio...

Page 216: ...e Under kVAR Consumed Warning conditions are satisfied the TRIP WARN LED flashes a yellow 2 long 3 short blink pattern Bit 2 in Power Warning Status Parameter 12 sets to 1 Bit 1 in Device Status 0 Par...

Page 217: ...s on an over reactive power kVAR consumed the TRIP WARN LED status indicator flashes a red 2 long 4 short blink pattern Bit 3 in Power Trip Status Parameter 6 sets to 1 Bit 0 in Device Status 0 Parame...

Page 218: ...Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01...

Page 219: ...utputs configured as a Warning Alarm close OverkVARConsumedWarnLevel Over kVAR Consumed Warn Level Parameter 393 allows you to define the reactive power kVAR consumed at which the E300 Electronic Over...

Page 220: ...Delay If the E300 Electronic Overload Relay trips on an under reactive power kVAR generated the TRIP WARN LED status indicator flashes a red 2 long 5 short blink pattern Bit 4 in Power Trip Status Par...

Page 221: ...ule 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Outpu...

Page 222: ...wer Warning Status Parameter 12 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes UnderkVARGeneratedWarnLevel Under kVAR Generated Warn L...

Page 223: ...ips on an over reactive power kVAR generated the TRIP WARN LED status indicator flashes a red 2 long 6 short blink pattern Bit 5 in Power Trip Status Parameter 6 sets to 1 Bit 0 in Device Status 0 Par...

Page 224: ...le 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output...

Page 225: ...utputs configured as a Warning Alarm close OverkVARGeneratedWarnLevel Over kVAR Generated Warn Level Parameter 401 allows you to define the reactive power kVAR generated at which the E300 Electronic O...

Page 226: ...stable from 0 250 seconds Table 276 Under kVA Inhibit Time Parameter 402 OverkVAInhibitTime Over kVA Inhibit Time Parameter 406 allows you to inhibit an over apparent power kVA trip and warning from o...

Page 227: ...time period an under apparent power kVA condition must be present before a trip occurs It is adjustable from 0 1 25 0 seconds IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digital M...

Page 228: ...The total apparent power kVA is equal to or less than the Under kVA Warning Level When the Under kVA Warning conditions are satisfied the TRIP WARN LED flashes a yellow 2 long 7 short blink pattern Bi...

Page 229: ...reater than the Over kVA Trip Level for a time period greater than the Over kVA Trip Delay If the E300 Electronic Overload Relay trips on an over apparent power kVA the TRIP WARN LED status indicator...

Page 230: ...put Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output PT01 Protection Fault Action Parameter 310...

Page 231: ...puts configured as a Warning Alarm close OverkVAWarnLevel Over kVA Warn Level Parameter 409 allows you to define the apparent power kVA at which the E300 Electronic Overload Relay indicates a warning...

Page 232: ...starting sequence It is adjustable from 0 250 seconds Table 284 Under Power Factor Lagging Inhibit Time Parameter 410 OverPowerFactorLaggingInhibitTime Over Power Factor Lagging Inhibit Time Parameter...

Page 233: ...ng the motor starting sequence It is adjustable from 0 250 seconds Table 287 Over Power Factor Leading Inhibit Time Parameter 422 UnderPowerFactorLaggingTrip The E300 Electronic Overload Relay trips w...

Page 234: ...T The Protection Fault State of Relay 0 Relay 1 Relay 2 Digital Module 1 Output Relays Digital Module 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by t...

Page 235: ...ing Level When the Under Power Factor Lagging Warning conditions are satisfied the TRIP WARN LED flashes a yellow 2 long 9 short blink pattern Bit 8 in Power Warning Status Parameter 12 sets to 1 Bit...

Page 236: ...onic Overload Relay trips on an over power factor lagging the TRIP WARN LED status indicator flashes a red 2 long 10 short blink pattern Bit 9 in Power Trip Status Parameter 6 sets to 1 Bit 0 in Devic...

Page 237: ...le 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output...

Page 238: ...0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close OverPowerFactorLaggingWarnLevel Over Power Factor Lagging Warn Level Parameter 417 allows you to define the power factor...

Page 239: ...ading Trip Delay If the E300 Electronic Overload Relay trips on an under power factor leading the TRIP WARN LED status indicator flashes a red 2 long 11 short blink pattern Bit 10 in Power Trip Status...

Page 240: ...dule 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Outp...

Page 241: ...blink pattern Bit 10 in Power Warning Status Parameter 12 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes UnderPowerFactorLeadingWarnLe...

Page 242: ...nic Overload Relay trips on an over power factor leading the TRIP WARN LED status indicator flashes a red 2 long 12 short blink pattern Bit 11 in Power Trip Status Parameter 6 sets to 1 Bit 0 in Devic...

Page 243: ...le 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protection Fault Value Parameter 305 Output...

Page 244: ...Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes OverPowerFactorLeadingWarnLevel Over Power Factor Leading Warn Level Parameter 425 allows you to define the power factor...

Page 245: ...respective control based protective trip and warning functions Table 300 Control Trip Enable Parameter 186 IMPORTANT TheOverPowerFactorLeadingWarningfunctiondoesnotincludeatimedelay feature Once the...

Page 246: ...served X DeviceLogix Warning Enable X Operator Station Warning Enable Reserved Reserved Reserved Reserved X Option Match Warning Enable X Feedback Timeout Warning Enable X Expansion Bus Warning Enable...

Page 247: ...mmunication Module for more than 3 seconds If the E300 Electronic Overload Relay trips on a test trip the following occurs The TRIP WARN LED flashes a red 3 long 1 short blink pattern Bit 0 in Control...

Page 248: ...p 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 IMPORTANT TheProte...

Page 249: ...owing occurs The TRIP WARN LED flashes a red 3 long 5 short blink pattern 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 configure...

Page 250: ...uals the value set in Starts Per Hour Parameter 205 The time between starts is less than the value set in Starts Interval Parameter 206 IMPORTANT TheProtection FaultStateofRelay0 Relay1 Relay2 Digital...

Page 251: ...DigitalModule1Output Relays Digital Module 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Acti...

Page 252: ...ting events Table 306 Starts Available Parameter 30 TimetoStart Time to Start Parameter 31 reports the amount of the time remaining until a new start can be issued If the Time to Start time has elapse...

Page 253: ...meter 29 is greater than the value set in Total Starts Parameter 207 If the E300 Electronic Overload Relay warns on a number of starts warning the following occurs The TRIP WARN LED flashes a red 3 lo...

Page 254: ...12 in Control Warning Status Parameter 13 sets to 1 Bit 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close TotalOperatingHours Total Operating Hours Para...

Page 255: ...indication if No trip currently exists Hardware Fault Trip is enabled An issue exists between the Control Module Sensing Module and or Communication Module If the E300 Electronic Overload Relay trips...

Page 256: ...StateofRelay0 Relay1 Relay2 DigitalModule1Output Relays Digital Module 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output...

Page 257: ...ning staff to verify that the motor starter is mechanically working and communications are established with the automation control system The E300 Electronic Overload Relay provides the capability to...

Page 258: ...ced in their Protection Fault state if so programmed IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digital Module 1 Output Relays Digital Module 2 Output Relays Digital Module 3 Outp...

Page 259: ...oring a potentiometer Monitoring PTC or NTC thermistor sensors Analog Trip Enable Parameter 187 and Analog Warning Enable Parameter 193 are used to enable the respective analog based protective trip a...

Page 260: ...alog Module 2 Input Channel 02 Warning X Analog Module 3 Input Channel 00 Warning X Analog Module 3 Input Channel 01 Warning X Analog Module 3 Input Channel 02 Warning X Analog Module 4 Input Channel...

Page 261: ...he TRIP WARN LED status indicator flashes a red 4 long 1 short blink pattern Bit 0 in Analog Trip Status Parameter 8 sets to 1 Bit 0 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configu...

Page 262: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 263: ...t 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close AnalogModule1 Channel00WarningLevel Analog Module 1 Channel 00 Warning Level Parameter 445 allows yo...

Page 264: ...iod 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 IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digit...

Page 265: ...ing is enabled The maximum phase current is equal to or greater than the Analog Module 1 Channel 01 Warning Level When the Analog Module 1 Channel 01 Over Level Warning conditions are satisfied the TR...

Page 266: ...iod greater than the Analog Module 1 Channel 02 Over Level Trip Delay If the E300 Electronic Overload Relay trips on an Analog Module 1 Channel 02 Over Level the TRIP WARN LED status indicator flashes...

Page 267: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 268: ...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 closes AnalogModule1 Channel02WarningLevel Analog Module 1 Channel 02 Warn...

Page 269: ...f so programmed AnalogModule2 Channel00OverLevelTripDelay 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 I...

Page 270: ...00 Over Level warning if No warning currently exists Analog Module 2 Channel 00 Over Level Warning is enabled The maximum phase current is equal to or greater than the Analog Module 2 Channel 00 Warni...

Page 271: ...Analog Module 2 Channel 01 Trip Level for a time period greater than the Analog Module 2 Channel 01 Over Level Trip Delay If the E300 Electronic Overload Relay trips on an Analog Module 2 Channel 01 O...

Page 272: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 273: ...t 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm closes AnalogModule2 Channel01WarningLevel Analog Module 2 Channel 01 Warning Level Parameter 485 allows y...

Page 274: ...e 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 IMPORTANT TheProtection FaultStateofRelay0 Relay1 Relay2 Digital...

Page 275: ...ning is enabled The maximum phase current is equal to or greater than the Analog Module 2 Channel 02 Warning Level When the Analog Module 2 Channel 02 Over Level Warning conditions are satisfied the T...

Page 276: ...signal is greater than the Analog Module 3 Channel 00 Trip Level for a time period greater than the Analog Module 3 Channel 00 Over Level Trip Delay If the E300 Electronic Overload Relay trips on an A...

Page 277: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 278: ...t 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close AnalogModule3 Channel00WarningLevel Analog Module 3 Channel 00 Warning Level Parameter 507 allows yo...

Page 279: ...iod 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 IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digit...

Page 280: ...ning is enabled The maximum phase current is equal to or greater than the Analog Module 3 Channel 01 Warning Level When the Analog Module 3 Channel 01 Over Level Warning conditions are satisfied the T...

Page 281: ...iod greater than the Analog Module 3 Channel 02 Over Level Trip Delay If the E300 Electronic Overload Relay trips on an Analog Module 3 Channel 02 Over Level the TRIP WARN LED status indicator flashes...

Page 282: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 283: ...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 AnalogModule3 Channel02WarningLevel Analog Module 3 Channel 02 Warn...

Page 284: ...f so programmed AnalogModule4 Channel00OverLevelTripDelay 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 I...

Page 285: ...0 Over Level warning if No warning currently exists Analog Module 4 Channel 00 Over Level Warning is enabled The maximum phase current is equal to or greater than the Analog Module 3 Channel 00 Warnin...

Page 286: ...nalog Module 4 Channel 01 Trip Level for a time period greater than the Analog Module 4 Channel 01 Over Level Trip Delay If the E300 Electronic Overload Relay trips on an Analog Module 4 Channel 01 Ov...

Page 287: ...odule 2 Output Relays Digital Module 3 Output Relays and Digital Module 4 Output Relays are defined by the respective parameters Output PT00 Protection Fault Action Parameter 304 Output PT00 Protectio...

Page 288: ...it 1 in Device Status 0 Parameter 20 sets to 1 Any relay outputs configured as a Warning Alarm close AnalogModule4 Channel01WarningLevel Analog Module 4 Channel 01 Warning Level Parameter 547 allows y...

Page 289: ...riod 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 IMPORTANT The Protection Fault State of Relay 0 Relay 1 Relay 2 Digi...

Page 290: ...rload Relay indicates an Analog Module 4 Channel 02 Over Level warning if No warning currently exists Analog Module 4 Channel 02 Over Level Warning is enabled The maximum phase current is equal to or...

Page 291: ...l Parameter 556 allows you to define the magnitude of the analog signal in which the E300 Electronic Overload Relay trips on an Analog Module 4 Channel 02 Over Level warning It is user adjustable from...

Page 292: ...292 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 6 Protective Trip and Warning Functions...

Page 293: ...in the consumed output assemblies of a communications network A trip reset can only be performed when all conditions for the trip event have been cleared For an overload trip event the Thermal Capaci...

Page 294: ...307 OutPt00ComFltVal Open 431 Screen2Param2 3 143 TripHistoryMaskA 0x0FFF 308 OutPt00ComIdlAct Goto Value 432 Screen3Param1 51 145 WarnHistoryMaskI 0xFFFF 309 OutPt00ComIdlVal Open 433 Screen3Param2 5...

Page 295: ...mFltAct Goto Value 460 InAnMod1Ch2RTDEn 3 Wire 201 InPt05Assignment Normal 337 OutDig3ComFltVal Open 461 InAMod1C2TripDly 1 0 Second s 202 OutPt0Assignment Trip Relay 338 OuDig3ComIdlAct Goto Value 46...

Page 296: ...2Format Eng Units 233 MismatchAction 0x0000 367 VIBTripLevel 15 488 InAMod2C2TmpUnit Degrees C 239 PLInhibitTime 0 Second s 368 VIBWarningLevel 10 489 InAMod2C2FiltFrq 17 Hz 240 PLTripDelay 1 Second s...

Page 297: ...rees C 261 CITripLevel 35 390 OVARCInhibitTime 10 Second s 511 InAMod3C1FiltFrq 17 Hz 262 CIWarningLevel 20 391 OVARCTripDelay 1 0 Second s 512 InAMod3C1OpCktSt Upscale 263 CTPrimary 5 392 OVARCTripLe...

Page 298: ...vel 100 412 UPFLagTripLevel 90 533 InAMod4C0FiltFrq 17 Hz 284 L3OCWarningLevel 90 413 UPFLagWarnLevel 95 534 InAMod4C0OpCktSt Upscale 285 LineLossInhTime 10 Second s 414 OPFLagInhibTime 10 Second s 53...

Page 299: ...0 InAMod4C2TmpUnit Degrees C 551 InAMod4C2FiltFrq 17 Hz 552 InAMod4C2OpCktSt Upscale 553 InAnMod4Ch2RTDEn 3 Wire 554 InAMod4C2TripDly 1 0 Second s 555 InAMod4C2TripLvl 0 556 InAMod4C2WarnLvl 0 557 Out...

Page 300: ...eter 127 Trip History 1 Parameter 128 Trip History 2 Parameter 129 Trip History 3 Parameter 130 Trip History 4 Parameter 131 Warning History 0 Parameter 132 Warning History 1 Parameter 133 Warning His...

Page 301: ...1 kVARh Generated x 103 Parameter 92 kVARh Generated x 100 Parameter 93 kVARh Generated x 10 3 Parameter 94 kVARh Net x 109 Parameter 95 kVARh Net x 106 Parameter 96 kVARh Net x 103 Parameter 97 kVARh...

Page 302: ...zero 0 Thermal Capacity Utilized Parameter 1 Operating Time Parameter 28 Starts Counter Parameter 29 kWh x 109 Parameter 80 kWh x 106 Parameter 81 kWh x 103 Parameter 82 kWh x 100 Parameter 83 kWh x 1...

Page 303: ...meter 104 Max kW Demand Parameter 106 Max kVAR Demand Parameter 108 Max kVA Demand Parameter 110 Trip History 0 Parameter 127 Trip History 1 Parameter 128 Trip History 2 Parameter 129 Trip History 3 P...

Page 304: ...304 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 7 Commands Notes...

Page 305: ...evice monitor diagnostics provides information on the status of the device which includes Thermal overload protection Trip and warning protection functions Digital inputs and relay outputs Operator st...

Page 306: ...e To Reset After an overload trip the E300 Electronic Overload Relay reports the time remaining until the device can be reset through Overload Time to Reset Parameter 3 When the Thermal Capacity Utili...

Page 307: ...able 358 Current Trip Status Parameter 4 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Overload Trip X Phase Loss Trip X Ground Fault Current Trip X Stall Trip X Jam Trip X Underload Trip X Cur...

Page 308: ...of the voltage based protective trip functions Table 359 Voltage Trip Status Parameter 5 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under Voltage Trip X Over Voltage Trip X Voltage Imbalance...

Page 309: ...1 0 Function X Under kW Trip X Over kW Trip X Under kVAR Consumed Trip X Over kVAR Consumed Trip X Under kVAR Generated Trip X Over kVAR Generated Trip X Under kVA Trip X Over kVA Trip X Under PF Lag...

Page 310: ...7 6 5 4 3 2 1 0 Function X Overload Warning Reserved X Ground Fault Warning Reserved X Jam Warning X Underload Warning X Current Imbalance Warning X L1 Under Current Warning X L2 Under Current Warning...

Page 311: ...5 4 3 2 1 0 Function X Under kW Warning X Over kW Warning X Under kVAR Consumed Warning X Over kVAR Consumed Warning X Under kVAR Generated Warning X Over kVAR Generated Warning X Under kVA Warning X...

Page 312: ...2 1 0 Function X Input Pt00 X Input Pt01 X Input Pt02 X Input Pt03 X Input Pt04 X Input Pt05 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Bit 15 14 13 12 11 10 9 8 7 6 5 4 3...

Page 313: ...al Expansion Modules Table 368 Output Status Parameter 18 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Output Pt00 X Output Pt01 X Output Pt02 X Digital Module 1 Output Pt00 X Digital Module 1...

Page 314: ...buttons and output LEDs Table 369 Operator Station Status Parameter 19 Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Operation Station I X Operation Station II X Operation Station Local Remote...

Page 315: ...ad 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 a...

Page 316: ...Parameter 22 Control Module ID Control Module ID Parameter 23 identifies which specific Control Module is present in the E300 Electronic Overload Relay system Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0...

Page 317: ...Expansion Bus of the E300 Electronic Overload Relay system Default Value 0 Range 0 Unknown 1 193 EIO 63 24D 2 193 EIO 43 120 3 193 EIO 43 240 4 193 EIOGP 42 24D 5 193 EIOGP 22 120 6 193 EIOGP 22 240...

Page 318: ...This value can be reset to zero using the Clear Command Parameter 165 function Clear Operating Statistics Default Value 0 Range 0 Unknown 1 None 2 193 EOS SCS 3 193 EOS SDS Parameter Type USINT Size...

Page 319: ...available based on the blocked start settings and the actual motor starting events Table 379 Starts Available Parameter 30 Time to Start Time to Start Parameter 31 reports the amount of time remaining...

Page 320: ...e virtual real time clock of the E300 Electronic Overload Relay Table 382 Month Parameter 33 Day Day Parameter 34 reports the day in the virtual real time clock of the E300 Electronic Overload Relay D...

Page 321: ...35 Minute 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 0 Minimum Value 0 Maximum Value 31 Par...

Page 322: ...id Configuration Parameter Parameter 38 Invalid Configuration Cause Invalid Configuration Cause Parameter 39 reports the reason for the configuration trip in the E300 Electronic Overload Relay See Cha...

Page 323: ...vides diagnostics for a three phase current system including imbalance and ground fault current L1 Current L1 Current Parameter 43 reports the current in Amperes flowing through the L1 and T1 power te...

Page 324: ...Sensing Module Table 392 L3 Current Parameter 45 Average Current Average Current Parameter 46 reports the average current of the monitored current When single or three phase Parameter 176 is set to t...

Page 325: ...L1 Current Full Load Amps Table 394 L1 Percent FLA Parameter 47 L2 Percent FLA L2 Percent FLA Parameter 48 reports the L2 current in comparison to the active Full Load Amps programmed in FLA Parameter...

Page 326: ...ge Percent FLA Average Current Full Load Amps Table 397 Average Percent FLA Parameter 50 Ground Fault Current Ground Fault Current Parameter 51 reports the ground fault current measured by the interna...

Page 327: ...The E300 Electronic Overload Relay s voltage monitor diagnostics provides information on the voltage being supplied to the load The voltage diagnostics include three phase voltage phase imbalance phas...

Page 328: ...the average voltage of the monitored L L voltages When Single or Three Phase Parameter 176 is set to Three Phase Average L L Voltage is calculated as follows Average L L Voltage L1 L2 Voltage L2 L3 Vo...

Page 329: ...c Overload Relay Sensing Module Table 406 L2 N Voltage Parameter 58 L3 N Voltage L3 N Voltage Parameter 59 reports the voltage in volts in reference to the T3 power terminal of the E300 Electronic Ove...

Page 330: ...as follows Average L N Voltage L1 N Voltage L2 N Voltage 2 Table 408 Average L N Voltage Parameter 60 Voltage Imbalance Voltage Imbalance Parameter 61 reports the percentage of uneven voltage being s...

Page 331: ...ad Relay s power monitor diagnostics provides information on the power being supplied to the load The power diagnostics include real power kW reactive power kVAR apparent power kVA and power factor Po...

Page 332: ...ter 377 When Voltage Mode Parameter 352 is set to any Delta base setting L2 Real Power is set to 0 Table 414 L2 Real Power Parameter 65 L3 Real Power L3 Real Power Parameter 66 reports the real power...

Page 333: ...2 Real Power L3 Real Power When Single or Three Phase Parameter 176 is set to Single Phase Total Real Power is calculated as follows Total Real Power L1 Real Power L2 Real Power Table 416 Total Real P...

Page 334: ...When Voltage Mode Parameter 352 is set to any Delta base setting L3 Reactive Power is set to 0 When Single or Three Phase Parameter 176 is set to Single Phase L3 Reactive Power is set to 0 Table 419...

Page 335: ...ports the apparent power for line 1 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 L1 Apparent Power...

Page 336: ...arameter 75 reports the total apparent power of the monitored power conductors in kVA or MVA depending on the configuration value for Power Scale Parameter 377 When Single or Three Phase Parameter 176...

Page 337: ...base setting L2 Power Factor is set to 0 Table 426 L2 Power Factor Parameter 77 L3 Power Factor L3 Power Factor Parameter 78 reports the power factor for line 3 in percentage When Voltage Mode Parame...

Page 338: ...ted as follows Total Power Factor L1 Power Factor L2 Power Factor 2 Table 428 Total Power Factor Parameter 79 Energy Monitor The E300 Electronic Overload Relay s energy monitor diagnostics provides in...

Page 339: ...ter 81 kWh 103 kWh 103 Parameter 82 reports a component of total real energy kWh Multiply this value by 103 and add to the other kWh parameters Represents 000 000 XXX 000 000 kWh Table 431 kWh x 10E3...

Page 340: ...gy kWh Multiply this value by 10 3 and add to the other kWh parameters Represents 000 000 000 000 XXX kWh Table 433 kWh x 10 3 Parameter 84 kVARh Consumed 109 kVARh Consumed 109 Parameter 85 reports a...

Page 341: ...arameter 86 kVARh Consumed 103 kVARh Consumed 103 Parameter 87 reports a component of total reactive energy consumed kVARh Multiply this value by 103 and add to the other kVARh Consumed parameters Rep...

Page 342: ...t of total reactive energy consumed kVARh Multiply this value by 10 3 and add to the other kVARh Consumed parameters Represents 000 000 000 000 XXX kVARh Table 438 kVARh Consumed x 10 3 Parameter 89 k...

Page 343: ...arameter 91 kVARh Generated 103 kVARh Generated 103 Parameter 92 reports a component of total reactive energy generated kVARh Multiply this value by 103 and add to the other kVARh Generated parameters...

Page 344: ...rts a component of total reactive energy generated kVARh Multiply this value by 10 3 and add to the other kVARh Generated parameters Represents 000 000 000 000 XXX kVARh Table 443 kVARh Generated x 10...

Page 345: ...ameter 96 kVARh Net 103 kVARh Net 103 Parameter 97 reports a component of total reactive energy net kVARh Multiply this value by 103 and add to the other kVARh Net parameters Represents 000 000 XXX 00...

Page 346: ...s a component of total reactive energy net kVARh Multiply this value by 10 3 and add to the other kVARh Net parameters Represents 000 000 000 000 XXX kVARh Table 448 kVARh Net x 10 3 Parameter 99 kVAh...

Page 347: ...ter 101 kVAh 103 kVAh 103 Parameter 102 reports a component of total apparent energy kVAh Multiply this value by 103 and add to the other kVAh parameters Represents 000 000 XXX 000 000 kVAh Table 451...

Page 348: ...this value by 10 3 and add to the other kVAh parameters Represents 000 000 000 000 XXX kVAh Table 453 kVAh x 10 3 Parameter 104 kW Demand kW Demand Parameter 105 reports the average real energy usage...

Page 349: ...ter 108 reports the maximum kVAR Demand since the last Max kVAR Demand Reset command Table 457 Max kVAR Demand Parameter 108 kVA Demand kVA Demand Parameter 109 reports the average reactive energy usa...

Page 350: ...be used to monitor the following analog applications Motor winding and bearing temperatures that are measured by RTD sensors Liquid air or steam flow Temperature Weight Vessel level Potentiometer PTC...

Page 351: ...Module 1 Input Channel 02 Parameter 113 reports the monitored value of Analog Module 1 Input Channel 02 Table 462 Analog Module 1 Input Channel 02 Parameter 113 AnalogModule1Status Analog Module 1 St...

Page 352: ...nel 01 Bit Function 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 X Input Channel 00 Open Circuit X Input Channel 00 Over Range X Input Channel 00 Under Range X Input Channel 01 Open Circuit X Input Channel 0...

Page 353: ...32767 Parameter Type INT Size Bytes 2 Scaling Factor 1 Units Default Value 0 Minimum Value 32768 Maximum Value 32767 Parameter Type INT Size Bytes 2 Scaling Factor 1 Units Bit Function 15 14 13 12 11...

Page 354: ...og Module 3 Input Channel 01 Parameter 118 AnalogModule3 InputChannel02 Analog Module 3 Input Channel 02 Parameter 119 reports the monitored value of Analog Module 3 Input Channel 02 Table 470 Analog...

Page 355: ...nel 01 Bit Function 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 X Input Channel 00 Open Circuit X Input Channel 00 Over Range X Input Channel 00 Under Range X Input Channel 01 Open Circuit X Input Channel 0...

Page 356: ...32767 Parameter Type INT Size Bytes 2 Scaling Factor 1 Units Default Value 0 Minimum Value 32768 Maximum Value 32767 Parameter Type INT Size Bytes 2 Scaling Factor 1 Units Bit Function 15 14 13 12 11...

Page 357: ...longer than Trip Delay 10 L3Current was below L3 Undercurrent Level longer than Trip Delay 11 L1 Currentwas over L1 OvercurrentLevel longer than TripDelay 12 L2 Currentwas over L2 OvercurrentLevel lon...

Page 358: ...nput Channel 02 on Analog Module 1 exceeded its Trip Level 68 Input Channel 00 on Analog Module 2 exceeded its Trip Level 69 Input Channel 01 on Analog Module 2 exceeded its Trip Level 70 Input Channe...

Page 359: ...event 95 Analog Module installed does not match the expected type 96 Test Mode is engaged and current voltage was detected 97 Heap memory could not be allocated 98 Vendor ID hardware fault Trip Histo...

Page 360: ...load Relay s trip history by using the Trip History Masks CurrentTripHistoryMask Current Trip History Mask Parameter 139 allows you to select which current based trip events are recorded in the trip h...

Page 361: ...ded in the trip history Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Overload Trip X Phase Loss Trip X Ground Fault Trip X Stall Trip X Jam Trip X Underload Trip X Current Imbalance Trip X L1...

Page 362: ...2 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under kW Trip X Over kW Trip X Under kVAR Consumed Trip X Over kVAR Consumed Trip X Under kVAR Generated Trip X Over kVAR Generated Trip X Under kVA Trip X Over...

Page 363: ...ondition 3 Power conductor or motor winding is shorting to ground 5 Motor current has exceed the programmed jam warning level 6 Motor current has fallen below normal operating levels 7 Phase to phase...

Page 364: ...ded its Warning Level 70 Input Channel 02 on Analog Module 2 exceeded its Warning Level 71 Input Channel 00 on Analog Module 3 exceeded its Warning Level 72 Input Channel 01 on Analog Module 3 exceede...

Page 365: ...tory2 Warning History 2 Parameter 135 reports the third most recent warning event Warning History 0 Parameter 133 Default Value 0 Minimum Value 0 Maximum Value 99 Parameter Type UINT Size Bytes 2 Scal...

Page 366: ...are recorded into the E300 Electronic Overload Relay s warning history by using the Warning History Masks CurrentWarningHistoryMask Current Warning History Mask Parameter 145 allows you to select whic...

Page 367: ...orded in the warning history Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Overload Warning Reserved X Ground Fault Warning Reserved X Jam Warning X Underload Warning X Current Imbalance Warnin...

Page 368: ...Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Function X Under kW Warning X Over kW Warning X Under kVAR Consumed Warning X Over kVAR Consumed Warning X Under kVAR Generated Warning X Over kVAR Generated...

Page 369: ...t recent trip event Table 489 Trip Snapshot L2 L3 Voltage Parameter 157 Bit Function 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 X Analog Module 1 Input Channel 00 Warning X Analog Module 1 Input Channel 01...

Page 370: ...ime of the most recent trip event Table 491 Trip Snapshot Total Real Power Parameter 159 Trip Snapshot Total Reactive Power Trip Snapshot Total Reactive Power Parameter 160 reports the total Reactive...

Page 371: ...Apparent Power Parameter 161 Trip Snapshot Total Power Factor Trip Snapshot Total Power Factor Parameter 162 reports the total power factor of the monitored power conductors in percentage at the time...

Page 372: ...372 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 8 Metering and Diagnostics...

Page 373: ...d 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...

Page 374: ...for more information The E300 Electronic Overload Relay EtherNet IP Communication Module also supports an ethernet Ring topology in which all ethernet nodes are wired in series with one another until...

Page 375: ...to redivide the IP address into a custom network ID portion and host ID portion NOTE If you change the subnet mask of an already configured module you must cycle power to the module for the change to...

Page 376: ...E300 Electronic Overload Relay EtherNet IP Communication Module comes with three node address selection switches that allow you to select the last octet for the IP address 192 168 1 xxx When the node...

Page 377: ...tware 2 Choose Tool Network Settings 3 If appropriate for the network type the subnet mask gateway address primary secondary server addresses and domain name in their respective fields 4 Click OK The...

Page 378: ...power to the E300 Electronic Overload Relay EtherNet IP Communication Module 9 To permanently assign this configuration to the module Select the module in the Relation List panel and click Disable BOO...

Page 379: ...Select the appropriate subnet to scan for available MAC addresses 5 Scan the Subnet for all available MAC addresses 6 Identify the IP address assigned to the MAC ID of the E300 Electronic Overload Rel...

Page 380: ...ration Mode To do this set the rotary dials that are located underneath the front cover of the E300 Electronic Overload Relay EtherNet IP Communication Module to 000 and cycle power The device will th...

Page 381: ...default password is the serial number of the E300 EtherNet IP Communication Module which can be found on the home page of the E300 web server It is recommended that you change the password for user na...

Page 382: ...nd E300 configuration parameters back to the factory default values Permanently Enabling the Web Server In Administrative Mode you can change any configuration parameter of the E300 Electronic Overloa...

Page 383: ...etwork Status LED indicator is solid red To resolve this conflict use the following instructions to change the IP address of the module Then cycle power to the module or reset the modules by disconnec...

Page 384: ...herNet IP network it must be registered to the software that configures the network for example Rockwell Automation RSLinx Classic and RSNetWorx for EtherNet IP software Register the module by install...

Page 385: ...install the E300 Electronic Overload Relay EtherNet IP Communication Module s EDS file from the RSLinx Classic RSWho screen using these steps 1 Open RSLinx Classic and browse the EtherNet IP network...

Page 386: ...E300 Electronic Overload Relay EtherNet IP Communication Module can also be downloaded from the Allen Bradley EDS File download site Using a web browser on the personal computer that is connected to...

Page 387: ...lectronic Overload Relay EtherNet IP Communication Module and download it to the personal computer 4 Start the EDS Hardware Installation Tool located at Start Programs Rockwell Software RSLinx Tools a...

Page 388: ...Module when enabled is able to view and configure parameters for the E300 Electronic Overload Relay You can use the web interface to edit parameters for E300 Electronic Overload Relay if it is not be...

Page 389: ...e data being viewed enter a faster update time in the refresh rate box shown below 4 E300 Electronic Overload Relay EtherNet IP Communication Module web page displays up to 17 parameters per web page...

Page 390: ...ck the Edit button The value options appears 2 Click the down arrow on the pull down boxes to adjust fixed values and or enter numerical values in the fields without an arrow to adjust the values 3 Cl...

Page 391: ...d and write I O data for control purposes It can also be used for Automatic Device Configuration in which an automation controller manages device configuration parameters Explicit Messaging Used for n...

Page 392: ...th a Generic Profile 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 Autom...

Page 393: ...ocessor using module discovery and retain all of the E300 Electronic Overload Relay s configuration settings Module discovery is only available for ControlLogix processors CompactLogix users must manu...

Page 394: ...erNet IP scanner s scan list and press Create 4 You will be prompted whether you would like to upload the configuration settings from the E300 Electronic Overload Relay Press Upload to read the config...

Page 395: ...that the profile will use default settings Press OK to continue and press Cancel to abort the Module Discovery process Repeat steps 1 5 ATTENTION If an Upload command is not successful during Module...

Page 396: ...ead parameters 38 and 39 from the E300 Electronic Overload Relay to determine the reason for the configuration trip Fix the issue and repeat steps 1 5 ATTENTION If an Upload command is not successful...

Page 397: ...Rockwell Automation Publication 193 UM015D EN P February 2015 397 EtherNet IP Communications Chapter 9 6 Enter a name for the E300 Electronic Overload Relay...

Page 398: ...ying to create the module online Press Yes to add the preconfigured E300 Electronic Overload Relay to the Ethernet tree and communications between the E300 Electronic Overload Relay and the ControlLog...

Page 399: ...nfigured E300 Electronic Overload Relay offline to any Logix processor or you can manually add a preconfigured E300 Electronic Overload Relay online to a ControlLogix processor You can perform an uplo...

Page 400: ...ject and verify that the Logix controller is offline For ControlLogix users who want to manually add an E300 Electronic Overload Relay online go online with the ControlLogix controller using RSLogix 5...

Page 401: ...a name for the E300 Electronic Overload Relay and press Change to update the module definition 5 Press Upload to read the configuration settings from the E300 Electronic Overload Relay ATTENTION If an...

Page 402: ...y 2015 Chapter 9 EtherNet IP Communications 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...

Page 403: ...appear indicating that the profile will use its existing settings Press OK to continue Read parameters 38 and 39 from the E300 Electronic Overload Relay to determine the reason for the configuration t...

Page 404: ...g an E300 Electronic Overload Relay failure to cancel the new module addition process will result in the loss of any preconfigured E300 Electronic Overload Relay configurationdata Default valueswill b...

Page 405: ...nic Overload Relay can be made Press OK when finished making all module definition changes 9 Press Yes to apply these changes to the module definition and to update the configuration parameters with t...

Page 406: ...ronic Overload Relay offline in an RSLogix 5000 or Studio 5000 project download the updated project to the Logix controller to establish communications between the E300 Electronic Overload Relay and t...

Page 407: ...verload Relay and the ControlLogix controller will begin The E300 Electronic Overload Relay s configuration data will be retained and stored in the ControlLogix controller and in the RSLogix 5000 or S...

Page 408: ...Electronic Overload Relay offline in a new or existing project You can take advantage of copying and pasting an offline configured E300 Electronic Overload Relay to quickly configure multiple E300 Ele...

Page 409: ...ofile to a Logix controller offline 1 Create a new or open an existing RSLogix 5000 or Studio 5000 project and verify that the Logix controller is offline 2 Right click on the EtherNet IP scanner with...

Page 410: ...data from the E300 Electronic Overload Relay EtherNet IP Communication Module 5 Select Change to select the modules and accessories of the E300 Electronic Overload Relay system 6 Select the specific...

Page 411: ...ut assignments See Chapter 5 for more information about Operating Modes 9 The E300 Electronic Overload Relay allows you to configure up to eight Datalinks Select the parameters for the additional data...

Page 412: ...a Control Module with firmware v3 000 or higher navigate to the proper display and make the appropriate adjustments To configure the other configuration parameters for Control Modules with firmware v...

Page 413: ...control based protection functions of the E300 Electronic Overload Relay 12 When finished press OK to complete the addition of the E300 Electronic Overload Relay to the Logix system 13 Download the p...

Page 414: ...verload Relay navigate to the output tags created by the Add on Profile Offline E300 Electronic Overload Relay Integration with a Generic Profile For users who would like to establish communications b...

Page 415: ...eate a new or open an existing RSLogix 5000 or Studio 5000 project and verify that the Logix controller is offline 2 Right click on the EtherNet IP scanner within the I O Configuration folder then sel...

Page 416: ...the E300 Electronic Overload Relay EtherNet IP Communication Module 5 Select Data DINT for the Comm Format The Data DINT format represents the data from the EtherNet IP Communications Auxiliary E300 E...

Page 417: ...8 7 6 5 4 3 2 1 0 0 0 Reserved for Logix 1 2 1 DeviceStaus0 3 DeviceStaus1 4 2 InputStatus0 5 InputStatus1 6 3 OutputStatus 7 OpStationStatus 8 4 TripStsCurrent 9 WarnStsCurrent 10 5 TripStsVoltage 1...

Page 418: ...link2 49 50 25 Datalink3 51 52 26 Datalink4 53 54 27 Datalink5 55 56 28 Datalink6 57 58 29 Datalink7 59 60 30 PtDeviceOuts 61 AnDeviceOuts 62 31 InAnMod1Ch00 63 InAnMod1Ch01 64 32 InAnMod1Ch02 65 Rese...

Page 419: ...s created by the Generic Profile Table 499 represents the Input Assembly data Table 499 Instance 144 Output Consumed Assembly For example E300_Overload O Data 0 0 represents Relay Output Pt00 as shown...

Page 420: ...contents in the e mail message is created from the Type of trip or warning that is detected Device name Device description Device location Contact information The first word in the e mail subject is...

Page 421: ...ttings Device Identity 3 Type the Device Identity information into the fields as described below and press Apply 4 Select Administrative Settings E Mail Configuration 5 Type the information into the e...

Page 422: ...lay event occurs the e mail message will look like the following E mail Recipient The e mail address of the person who will receive the notifications E Mail Sender The e mail address from which the no...

Page 423: ...t e mail has previously been sent Troubleshooting The following table identifies possible causes and corrective actions when troubleshooting the E300 Electronic Overload Relay EtherNet IP Communicatio...

Page 424: ...cated to its master No action is required Red Flashing One or more EtherNet IP connections timed out Reset the E300 EtherNet IP Communication Module The E300 Overload Relay is in a fault state Reset t...

Page 425: ...controller Table 500 shows the specific firmware revisions for all E300 Electronic Overload Relay modules and subsystems for the three system releases Table 500 E300 System Revision Table Table 501 s...

Page 426: ...page E300 Control Module 193 EIO Application 1 002 1 003 2 002 2 003 3 001 193 EIO Boot Code 1 005 1 005 1 006 1 006 1 007 193 EIO EDS Files 3 001 E300 Communication Module 193 ECM ETR Application 1...

Page 427: ...After the firmware has been downloaded and installed run the ControlFLASH application by selecting ControlFLASH from the Start menu located at Start FLASH Programming Tools ControlFlash as shown below...

Page 428: ...428 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 10 Firmware Updates Select the module update file and press Next...

Page 429: ...ckwell Automation Publication 193 UM015D EN P February 2015 429 Firmware Updates Chapter 10 Select the specific device to update and press OK Select the specific module subsystem to update and press O...

Page 430: ...on 193 UM015D EN P February 2015 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...

Page 431: ...nd of the download the device will automatically reset When the device finishes its power cycle sequence a successful firmware update message is displayed Press OK to finish the firmware update proces...

Page 432: ...502 E300 Firmware v3 033 Files The firmware for the EtherNet IP communication and sensing module did not change in the update for an E300 Electronic Overload Relay with firmware v2 034 to v3 033 No f...

Page 433: ...DeviceNet EDS File 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 Selec...

Page 434: ...434 Rockwell Automation Publication 193 UM015D EN P February 2015 Chapter 10 Firmware Updates 4 Select firmware revision 1 007 1 to update to...

Page 435: ...UM015D EN P February 2015 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 succe...

Page 436: ...dule 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...

Page 437: ...ation 193 UM015D EN P February 2015 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 updatin...

Page 438: ...are Updates 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...

Page 439: ...l Automation Publication 193 UM015D EN P February 2015 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 p...

Page 440: ...ation 193 UM015D EN P February 2015 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 up...

Page 441: ...e firmware update is successful the following display appears Control Module Compressed EtherNet IP EDS File Firmware Update 1 To update the embedded compressed EtherNet IP EDS file start the ControlF...

Page 442: ...15D EN P February 2015 Chapter 10 Firmware Updates 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...

Page 443: ...irmware updating process by pressing Yes When the firmware update is successful the following display appears Control Module Compressed DeviceNet EDS File Firmware Update 1 To update the embedded comp...

Page 444: ...kwell Automation Publication 193 UM015D EN P February 2015 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 p...

Page 445: ...n 193 UM015D EN P February 2015 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 up...

Page 446: ...pter 10 Firmware Updates 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...

Page 447: ...dustrial equipment may cause death or serious injury For safety of maintenance personnel and others who may be exposed to electrical hazards associatedwiththemaintenanceactivities followthelocalsafety...

Page 448: ...ronic Overload Relay trip and warning events Table 505 Blink Patterns for Trip Warn Events Blinking Red Trip Event Blinking Yellow Warning Event Code Long Blink Pattern Short Blink Pattern Current Ove...

Page 449: ...iguration 3 8 Option Match 3 9 Feedback Timeout 3 10 Expansion Bus 3 11 Number Of Starts 3 12 Operating Hours 3 13 Nonvolatile Memory 3 14 Test Mode 3 15 Analog Analog Module 1 Input Channel 00 4 1 An...

Page 450: ...et Level Parameter 174 Trip Description Possible Cause Corrective Action Test Trip 1 Operation of the Test Reset 1 Operate the Test Reset button to clear Overload 1 Motor overloaded 1 Check and correc...

Page 451: ...ult the factory Hardware Fault 1 Firmware of sensing module is not compatible with control module firmware 1 Verify firmware revisions of control module and sensing module 2 Update firmware of control...

Page 452: ...er 205 1 Check Time to Start Parameter 31 andwait that amount of time or change the configuration to allow more starts hour 2 The time expired since the most recent start is less than the value set in...

Page 453: ...4V DC 120V AC 240V AC Operating Range 11 30V DC 85 132V AC 159 265V AC Maximum Inrush Current 3 A for 30 ms 10 A for 1 ms 8 A for 3 ms Maximum Power Consumption E300 E300 with expansion 6 W 8 W Maximu...

Page 454: ...State Current turn on 2 mA 5 mA 5 mA Off State Voltage 5V DC 20V AC 40V AC Off State Current 1 5 mA 2 5 mA 2 5 mA Transition Voltage 5 11V DC 20 74V AC 40 159V AC Transition Current 1 5 2 0 mA 2 5 5 m...

Page 455: ...or PTC Input Ratings PTC only Terminals IT1 IT2 Type of Control Unit Mark A Maximum Number of Sensors 6 Maximum Cold Resistance of PTC Sensor Chain 1500 Trip Resistance 3400 150 Reset Resistance 1600...

Page 456: ...rrent N A Protection Against Short Circuits N A Utilization Category N A Pollution Degree 3 Table 514 Environmental Specifications Ambient Temperature Storage Operating Open Enclosed 40 85 C 40 185 F...

Page 457: ...2 Table 516 Electromagnetic Compatibility Specifications Electrostatic Discharge Immunity Test Level Performance Criteria 8kV Air Discharge 6kV Contact Discharge 1 RF Immunity Test Level Performance C...

Page 458: ...s Yes Over Real Power kW Yes Yes Under Reactive Power Consumed kVAR Yes Yes Over Reactive Power Consumed kVAR Yes Yes Under Reactive Power Generated kVAR Yes Yes Over Reactive Power Generated kVAR Yes...

Page 459: ...resolution of 0 1 s or 0 1 s 25 s whichever is greater Table 519 Ground Fault Protection External Ground Fault Module Type Core Balanced Intended Use EquipmentProtection Classification Per UL 1053 Cla...

Page 460: ...460 Rockwell Automation Publication 193 UM015D EN P February 2015 Appendix A Specifications Notes...

Page 461: ...TripStsCurrent I Protection OverloadTrip I Protection PhaseLossTrip I Protection GroundFaultCurrentTrip I Protection StallTrip I Protection JamTrip I Protection UnderloadTrip I Protection CurrentImba...

Page 462: ...p Bit8 InAnMod3Ch02Trip Bit9 InAnMod4Ch00Trip Bit10 InAnMod4Ch01Trip Bit11 InAnMod4Ch02Trip 0 9 Reserved 10 WarnStsCurrent I Protection OverloadWarning I Protection GroundFaultCurrentWarning I Protect...

Page 463: ...ta I Digital2Pt01Data I Digital2Pt02Data I Digital2Pt03Data I Digital3Pt00Data I Digital3Pt01Data I Digital3Pt02Data I Digital3Pt03Data I Digital4Pt00Data I Digital4Pt01Data I Digital4Pt02Data I Digit...

Page 464: ...se30A Bit4 CurrentSense60A Bit5 CurrentSense100A Bit6 CurrentSense200A Bit7 DigitalModule1 Bit8 DigitalModule2 Bit9 DigitalModule3 Bit10 DigitalModule4 Bit11 AnalogModule1 Bit12 AnalogModule2 Bit13 An...

Page 465: ...L3 Phase Current DINT 4 100 0 2000000000 0 Amps 46 AverageCurrent I AvgCurrent Average of Phase Currents DINT 4 100 0 2000000000 0 Amps 47 L1PercentFLA L1 Current in FLA UINT 2 10 0 10000 0 48 L2Perc...

Page 466: ...000000000 0 kVA 73 L2ApparentPower Phase L2Apparent Power DINT 4 1000 0 2000000000 0 kVA 74 L3ApparentPower Phase L3Apparent Power DINT 4 1000 0 2000000000 0 kVA 75 TotalApparentPwr I TotalApparentPow...

Page 467: ...ctive Energy Net kVARh Word 10 0 INT 2 1 999 999 0 99 kVARhNet10E 3 Total Reactive Energy Net kVARh Word 10 3 INT 2 1 999 999 0 100 kVAhTimes10E9 Total Apparent Energy kVAh Word 10 9 INT 2 1 999 999 0...

Page 468: ...ange I Analog1 Ch00InputUnderrange I Analog1 Ch01InputOpenWire I Analog1 Ch01InputOverrange I Analog1 Ch01InputUnderrange I Analog1 Ch02InputOpenWire I Analog1 Ch02InputOverrange I Analog1 Ch02InputUn...

Page 469: ...cond last trip to occur UINT 2 1 See Trip History Codes 0 129 TripHistory2 Third last trip to occur UINT 2 1 See Trip History Codes 0 130 TripHistory3 Fourth last trip to occur UINT 2 1 See Trip Histo...

Page 470: ...8 InAnMod3Ch02Trip Bit9 InAnMod4Ch00Trip Bit10 InAnMod4Ch01Trip Bit11 InAnMod4Ch02Trip 0xFFF 144 Reserved 145 WarnHistoryMaskI C History OverloadWarningEn C History GroundFaultCurrentWarningEn C Histo...

Page 471: ...n Bit6 InAnMod3Ch00Warn Bit7 InAnMod3Ch01Warn Bit8 InAnMod3Ch02Warn Bit9 InAnMod4Ch00Warn Bit10 InAnMod4Ch01Warn Bit11 InAnMod4Ch02Warn 0xFFF 150 Reserved Trip Snapshot 151 TSL1Current Snapshot of the...

Page 472: ...Device Setup 183 TripEnableI C Protection OverloadTripEnEn C Protection PhaseLossTripEn C Protection GroundFaultCurrentTripEn C Protection StallTripEn C Protection JamTripEn C Protection UnderloadTri...

Page 473: ...it8 InAnMod3Ch02Trip Bit9 InAnMod4Ch00Trip Bit10 InAnMod4Ch01Trip Bit11 InAnMod4Ch02Trip 0 188 Reserved 189 WarningEnableI C Protection OverloadWarningEn C Protection GroundFaultCurrentWarningEn C Pro...

Page 474: ...InAnMod2Ch02Warn Bit6 InAnMod3Ch00Warn Bit7 InAnMod3Ch01Warn Bit8 InAnMod3Ch02Warn Bit9 InAnMod4Ch00Warn Bit10 InAnMod4Ch01Warn Bit11 InAnMod4Ch02Warn 0 194 Reserved 195 SetOperatingMode Logic persona...

Page 475: ...1 0 Normal 1 TripReset 2 RemoteTrip 3 ActivateFLA2 4 ForceSnapshot 5 EmergencyStart 6 TestMode 7 L1LossArm 8 L2LossArm 9 L3LossArm 10 L1L2LossArm 11 L2L3LossArm 12 L1L3LossArm 13 L1L2L3LossArm 0 202...

Page 476: ...imer Timeout UINT 2 1 0 65535 500 214 TransitionDelay Motor Contactor Transition Delay UINT 2 1 0 65535 10000 215 InterlockDelay Motor Contactor Interlock Delay UINT 2 1 1 65535 100 216 EmergencyStart...

Page 477: ...lect Analog I O Expansion Module 3 Type USINT 1 1 0 IgnoreType 1 NoModule 2 3In1OutAnalog 0 232 AnalogMod4Type Select Analog I O Expansion Module 4 Type USINT 1 1 0 IgnoreType 1 NoModule 2 3In1OutAnal...

Page 478: ...ipLevel C GroundFaultTripLimit Ground Fault Trip Level UINT 2 100 2 500 200 Amps 245 GFWarningDelay C GroundFaultWarnDelay Ground Fault Warning Delay USINT 1 10 0 250 0 Second s Group Param No Paramet...

Page 479: ...InhibitTime Current Imbalance Inhibit Time USINT 1 1 0 250 10 Second s 260 CITripDelay C CurrentImbalanceTripDelay Current Imbalance Trip Delay USINT 1 10 1 250 50 Second s 261 CITripLevel C CurrentIm...

Page 480: ...Delay C L2OverCurrentWarnLimit L3 Over Current Trip Delay USINT 1 10 0 250 10 Second s 283 L3OCTripLevel C L3OverCurrentTripDelay L3 Over Current Trip Level USINT 1 1 10 200 100 284 L3OCWarningLevel C...

Page 481: ...Datalink2 Produced I O Assembly Datalink2 Parameter Number UINT 2 1 0 560 0 294 Datalink3 Produced I O Assembly Datalink3 Parameter Number UINT 2 1 0 560 0 295 Datalink4 Produced I O Assembly Datalink...

Page 482: ...1 IgnoreIfPossible 0 317 OutPt02PrFltVal C Pt02OutputProtectionFaultValue Output Pt02 value on protection fault BOOL 1 1 0 Open 1 Closed 0 318 OutPt02ComFltAct C Pt02OutputFaultMode OutputPt02action o...

Page 483: ...C Digital3ProgMode Digital Expansion Module 3 Outputs action on comms idle BOOL 1 1 0 GoToCommIdlValue 1 HoldLastState 0 339 OutDig3ComIdlVal C Digital3ProgValue Digital Expansion Module 3 Outputs va...

Page 484: ...ceOut Bit15 Pt15DeviceOut 0 349 Reserved 350 PtDevOutCOSMask When bit is set the network output will trigger a COS message UINT 2 1 Bit0 Pt00DeviceOut Bit1 Pt01DeviceOut Bit2 Pt02DeviceOut Bit3 Pt03De...

Page 485: ...50 10 Second s 364 PhaseRotTripType C PhaseRotationTripType_0 C PhaseRotationTripType_1 VoltagePhase Rotation Trip Type USINT 1 1 1 0 NoRotation 1 ABC 2 ACB 1 365 VIBInhibitTime C VoltageImbalanceInhi...

Page 486: ...DINT 4 1000 0 2000000000 0 kW 385 OWWarningLevel C OverRealPowerWarnLimit Over Total Real Power Warning Level DINT 4 1000 0 2000000000 0 kW 386 UVARCInhibitTime C UnderReactivePowerConsumedInhibitTim...

Page 487: ...0000 0 0 kVAR 401 OVARGWarnLevel C OverReactivePowerGeneratedWarnLimit OverTotalReactive Power Generated kVAR Warning Level DINT 4 1000 2000000000 0 0 kVAR 402 UVAInhibitTime C UnderApparentPowerInhib...

Page 488: ...PF Warning Level USINT 1 1 0 100 95 422 OPFLeadInhibTime C OverPowerFactorLeadingInhibitTime Over Total Power Factor Leading PF Inhibit Time USINT 1 1 0 250 10 Second s 423 OPFLeadTripDelay C OverPowe...

Page 489: ...426 15 120Ni618 16 120Ni672 17 604NiFe518 18 150ohm 19 1000ohm 20 3000ohm 21 6000ohm 0 438 InAMod1Ch0Format C Analog1 Ch00InputFormat_0 C Analog1 Ch00InputFormat_1 C Analog1 Ch00InputFormat_2 Assignme...

Page 490: ...4 PercentRange 0 448 InAMod1C1TmpUnit C Analog1 Ch01InputTempMode Assignment for Analog Module 1 Input Channel 01 Temperature Units USINT 1 1 0 DegreesC 1 DegreesF 0 449 InAMod1C1FiltFrq C Analog1 Ch...

Page 491: ...Analog Module 1 Input Channel 02 Open Circuit State USINT 1 1 0 Upscale 1 Downscale 2 Zero 0 460 InAnMod1Ch2RTDEn C Analog1 Ch02InputTwoWireRTD Enable Analog Module 1 Input Channel 02 to function wit...

Page 492: ...Times10 2 RawProportional 3 ScaledForPID 0 470 InAMod2C0TmpUnit C Analog2 Ch00InputTempMode Assignment for Analog Module 2 Input Channel 00 Temperature Units USINT 1 1 0 DegreesC 1 DegreesF 0 471 InAM...

Page 493: ...1 1 0 17Hz 1 4Hz 2 62Hz 3 470Hz 0 481 InAMod2C1OpCktSt C Analog2 Ch01InputOpenWire_0 C Analog2 Ch01InputOpenWire_1 Indicates Analog Module 2 Input Channel 01 Open Circuit State USINT 1 1 0 Upscale 1...

Page 494: ...nalog2 Ch02InputTripDelay Analog Module 2 Input Channel 02 Trip Delay USINT 1 10 0 250 10 Second s 493 InAMod2C2TripLvl C Analog2 Ch02InputTripLimit Level in selected Units where Analog Input generate...

Page 495: ...2 RawProportional 3 ScaledForPID 0 501 InAMod3C0TmpUnit C Analog3 Ch00InputTempMode Assignment for Analog Module 3 Input Channel 00 TemperatureUnits USINT 1 1 0 DegreesC 1 DegreesF 0 502 InAMod3C0Filt...

Page 496: ...1 0 17Hz 1 4Hz 2 62Hz 3 470Hz 0 512 InAMod3C1OpCktSt C Analog3 Ch01InputOpenWire_0 C Analog3 Ch01InputOpenWire_1 Indicates Analog Module 3 Input Channel 01 Open Circuit State USINT 1 1 0 Upscale 1 Do...

Page 497: ...d3C2TripLvl C Analog3 Ch02InputTripLimit Level in selected Units where Analog Input generates a trip UINT 2 1 32768 32767 0 525 InAMod3C2WarnLvl C Analog3 Ch02InputWarnLimit Level in selected Units wh...

Page 498: ...0 17Hz 1 4Hz 2 62Hz 3 470Hz 0 534 InAMod4C0OpCktSt C Analog4 Ch00InputOpenWire_0 C Analog4 Ch00InputOpenWire_1 Indicates Analog Module 4 Input Channel 00 Open Circuit State USINT 1 1 0 Upscale 1 Downs...

Page 499: ...UINT 2 1 32768 32767 0 548 InAnMod4Ch02Type C Analog4 Ch02InputRangeType_0 C Analog4 Ch02InputRangeType_1 C Analog4 Ch02InputRangeType_2 C Analog4 Ch02InputRangeType_3 C Analog4 Ch02InputRangeType_4 A...

Page 500: ...SINT 1 1 0 Disabled 1 4To20mA 2 0To20mA 3 0To10Volts 4 1To5Volts 5 0To5Volts 0 558 OutAnMod4Select C Analog4 Ch00OutputMode Assignment of parameter data value to drive Analog Module 4 Output USINT 1 1...

Page 501: ...Rockwell Automation Publication 193 UM015D EN P February 2015 501 Parameter List AppendixB Notes...

Page 502: ...502 Rockwell Automation Publication193 UM015D EN P November 2013 Appendix B Parameter List...

Page 503: ...s Object 0x0001 Identity 0x0002 Message Router 0x0003 DeviceNet 0x0004 Assembly 0x0005 Connection 0x0008 Discrete Input Point 0x0009 Discrete Output Point 0x000A Analog Input Point 0x000F Parameter Ob...

Page 504: ...Value 1 Get Revision UINT 1 Attribute ID Access Rule Name Data Type Value 1 Get Vendor UINT 1 Allen Bradley 2 Get Device Type UINT 3 3 Get Product Code UINT 651 4 Get Revision Major Revision Minor Re...

Page 505: ...ndor UINT 1 Allen Bradley 2 Get Device Type UINT 3 3 Get Product Code UINT 651 4 Get Revision Major Revision Minor Revision Structure of USINT USINT Firmware revision of the Boot Code 5 Get Status WOR...

Page 506: ...4 Get Revision Major Revision Minor Revision Structure of USINT USINT Firmware revision of the Sensing Module firmware 5 Get Status WORD Bit 0 0 not owned 1 owned by master Bit 2 0 Factory Defaulted...

Page 507: ...ta Type Value 1 Get NumberofMembersin Member List UINT 2 Get Member List Array of STRUCT Array of CIP paths Member Data Description UINT Size of Member Data in bits Member Path Size UINT Size of Membe...

Page 508: ...Value 1 Get Number of Members in Member List UINT 2 2 Get Member List Array of STRUCT 0 Member Data Description UINT 2 Member Path Size UINT 0 Member Path Packed EPATH 1 Member Data Description UINT 1...

Page 509: ...leC 16 192 16 8 TripEnableA 16 187 17 WarningEnableA 16 193 18 9 TripHistoryMaskI 16 139 19 WarnHistoryMaskI 16 145 20 10 TripHistoryMaskV 16 140 21 WarnHistoryMaskV 16 146 22 11 TripHistoryMaskP 16 1...

Page 510: ...nDelay 16 214 41 InterlockDelay 16 215 42 21 GroundFaultType 8 241 GFInhibitTime 8 242 43 GFTripDelay 8 243 GFWarningDelay 8 245 44 22 GFTripLevel 16 244 45 GFWarningLevel 16 246 46 23 PLInhibitTime 8...

Page 511: ...el 8 277 L1OCWarningLevel 8 278 65 L2OCTripDelay 8 279 L2OCTripLevel 8 280 66 33 L2OCWarningLevel 8 281 L3OCTripDelay 8 282 67 L3OCTripLevel 8 283 L3OCWarningLevel 8 284 68 34 LineLossInhTime 8 285 L1...

Page 512: ...322 OutDig1PrFltVal X 1 323 OutDig1ComFltAct X 1 324 OutDig1ComFltVal X 1 325 OutDig1ComIdlAct X 1 326 OutDig1ComIdlVal X 1 327 X OutDig2PrFltAct 1 328 X OutDig2PrFltVal 1 329 X OutDig2ComFltAct 1 33...

Page 513: ...TripLevel 8 371 UFWarningLevel 8 372 95 OFInhibitTime 8 373 OFTripDelay 8 374 96 48 OFTripLevel 8 375 OFWarningLevel 8 376 97 DemandPeriod 8 426 NumberOfPeriods 8 427 98 49 UWInhibitTime 8 378 UWTripD...

Page 514: ...AWarningLevel 32 409 137 138 69 UPFLagInhibTime 8 410 UPFLagTripDelay 8 411 139 UPFLagTripLevel 8 412 UPFLagWarnLevel 8 413 140 70 OPFLagInhibTime 8 414 OPFLagTripDelay 8 415 141 OPFLagTripLevel 8 416...

Page 515: ...441 166 83 InAMod1Ch1Format X X X 3 447 InAMod1C1FiltFrq X X X 3 449 InAMod1C1OpCktSt X X 2 450 X X X InAMod1Ch2Format 3 456 X X X InAMod1C2FiltFrq 3 458 X X InAMod1C2OpCktSt 2 459 167 InAMod1C0TmpUn...

Page 516: ...AMod2C1TmpUnit X 1 479 InAnMod2Ch1RTDEn X 1 482 InAMod2C2TmpUnit X 1 488 InAnMod2Ch2RTDEn X 1 491 OutAnMod2FltActn X X 2 497 X X OutAnMod2dlActn 2 498 X X X X OutAnMod2Type 4 495 X X Reserved 2 1101 1...

Page 517: ...6 537 195 InAMod4C0WarnLvl 16 538 196 98 InAMod4C1TripLvl 16 546 197 InAMod4C1WarnLvl 16 547 198 99 InAMod4C2TripLvl 16 555 199 InAMod4C2WarnLvl 16 556 200 100 InAnMod4Ch00Type 5 530 InAnMod4Ch01Type...

Page 518: ...1 0 Size bits Param 0 0 ConfigAssyRev 1 Reserved 16 1002 1 Reserved 16 N A 2 1 FLASetting 32 171 3 4 3 TripClass 8 172 X OLPTCResetMode 1 173 X SingleOrThreePh 1 176 X X X X X X Reserved 6 N A 5 OLRe...

Page 519: ...Reserved 16 1103 19 MismatchStatus 16 40 20 10 ThermUtilizedPct 8 1 CurrentImbal 8 52 21 AvgPercentFLA 16 50 22 11 AverageCurrent 32 46 23 24 12 L1Current 32 43 25 26 13 L2Current 32 44 27 28 14 L3Cur...

Page 520: ...ed 16 1103 INT DINT 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Size bits Param INT DINT 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 Size bits Param 0 0 Reserved for Logix 32 1104 1 2 1 DeviceStaus0 16 20 3 Devic...

Page 521: ...4 Datalink2 32 1293 49 50 25 Datalink3 32 1294 51 52 26 Datalink4 32 1295 53 54 27 Datalink5 32 1296 55 56 28 Datalink6 32 1297 57 58 29 Datalink7 32 1298 59 60 30 PtDeviceOuts 16 348 61 AnDeviceOuts...

Page 522: ...ributes Attribute ID Access Rule Name Data Type Value 1 Get State USINT 0 nonexistant 1 configuring 3 established 4 timed out 2 Get Instance Type USINT 0 Explicit Message 3 Get Transport Class Trigger...

Page 523: ...nsport Class 2 If alloc_choice polled and ack suppression is enabled then value 0x80 4 Get Produced Connection ID UINT 01111xxxxxx xxxxxx node address 5 Get Consumed Connection ID UINT 10xxxxxx101 xxx...

Page 524: ...wledged 0x03 Cyclic acknowledged 0x10 COS unacknowledged 0x13 COS acknowledged 4 Get Produced Connection ID UINT 01101xxxxxx xxxxxx node address 5 Get Consumed Connection ID UINT 10xxxxxx101 xxxxxx no...

Page 525: ...out 2 Get Instance Type USINT 0 Explicit Message 3 Get Transport Class Trigger USINT 0x83 Server Transport Class 3 4 Get Produced Connection ID UINT Depends on message group and Message ID 5 Get Consu...

Page 526: ...Digital Expansion Module 1 Input 1 9 InputDigMod1Pt02 Digital Expansion Module 1 Input 2 10 InputDigMod1Pt03 Digital Expansion Module 1 Input 3 11 InputDigMod2Pt00 Digital Expansion Module 2 Input 0 1...

Page 527: ...2Pt01 Digital Expansion Module 2 Output 1 8 OutDigMod3Pt00 Digital Expansion Module 3 Output 0 9 OutDigMod3Pt01 Digital Expansion Module 3 Output 1 10 OutDigMod4Pt00 Digital Expansion Module 4 Output...

Page 528: ...ribute_Single 0x10 No Yes Set_Attribute_Single Attribute ID Access Rule Name Data Type Value 1 Get Revision UINT 2 2 Get Max Instance UINT 1 Instance Name Description 1 InAnMod1Ch00 Analog Expansion M...

Page 529: ...tance UINT 0 10 Get Native Language UINT 1 English Attribute ID Access Rule Name Data Type Value 1 Get Set Value Specified in Descriptor 2 Get Link Path Size USINT 08 3 Get Link Path Array of BYTE EPA...

Page 530: ...the Parameter Group Object Table 564 Parameter Group Object Common Services Discrete Output Group Object CLASS CODE 0x001E No class attributes are supported for the Discrete Output Group Object Five...

Page 531: ...INT 1 2 3 4 5 6 7 8 9 10 11 6 Get Set Command BOOL 0 idle 1 run 104 Get Set Network Status Override BOOL 0 No Override go to safe state 1 Override run local logic 105 Get Set Comm Status Override BOOL...

Page 532: ...d for the Base Energy Object Attribute ID Access Rule Name Data Type Value 10 Get Tripped BOOL 0 No Fault present 1 Fault Latched 11 Get Warning BOOL 0 No Warning present 1 Warning present not latched...

Page 533: ...xxx kW TBD 7 Get Consumed Energy Odometer ODOMETER Returns params 80 84 values 9 Get Total Energy Odometer SIGNED ODOMETER Returns params 80 84 values 10 Get Total Real Power REAL Param 67 value conv...

Page 534: ...Get Reactive Energy Consumed Odometer ODOMETER Returns params 85 89 values 5 Get Reactive Energy Generated Odometer ODOMETER Returns params 90 94 values 6 Get Reactive Energy Net Odometer SIGNED ODOME...

Page 535: ...r REAL Param 75 value converted to a REAL 36 Get L1 True Power Factor REAL Param 76 value converted to a REAL 37 Get L2 True Power Factor REAL Param 77 value converted to a REAL 38 Get L3 True Power F...

Page 536: ...28 Value 29 REAL L2 Reactive Power Attribute 29 Value 30 REAL L3 Reactive Power Attribute 30 Value 31 REAL Total Reactive Power Attribute 31 Value 32 REAL L1 Apparent Power Attribute 32 Value 33 REAL...

Page 537: ...SV Time Zone String Struct of UDINT SINT Length This string specifies the time zone where the controller is located and ultimately the adjustment in hours and minutes applied to the UTC value to gener...

Page 538: ...INT The total number of parameters instances stored when a fault occurs Parameter Instances UINT x An array of parameters instance numbers 6 Get Number of Recorded Faults UINT The number of Faults rec...

Page 539: ...15 L2LineLossTrip L2 Current Lost for longer than the L2 Loss Trip Delay 16 L3LineLossTrip L3 Current Lost for longer than the L3 Loss Trip Delay 17 UnderVoltageTrip Line to Line Under Voltage conditi...

Page 540: ...le 3 exceeded its Trip Level 72 InAnMod3Ch01Trip Input Channel 01 on Analog Module 3 exceeded its Trip Level 73 InAnMod3Ch02Trip Input Channel 02 on Analog Module 3 exceeded its Trip Level 74 InAnMod4...

Page 541: ...ue 4 Get Warning Instance Read UINT The instance of the Warning Queue Entry containing information about the most recent warning 6 Get Number of Recorded Faults UINT The number of Warning recorded in...

Page 542: ...Warning Level 11 L1OverCurrenWarn L1 Current was over L1 Overcurrent Warning Level 12 L2OverCurrenWarn L2 Current was over L2 Overcurrent Warning Level 13 L3OverCurrenWarn L3 Current was over L3 Over...

Page 543: ...vel 66 InAnMod1Ch01Warn Input Channel 01 on Analog Module 1 exceeded its Warning Level 67 InAnMod1Ch02Warn Input Channel 02 on Analog Module 1 exceeded its Warning Level 68 InAnMod2Ch00Warn Input Chan...

Page 544: ...e 94 DigModMismatch Digital Module installed does not match the expected type 95 AnModMismatch Analog Module installed does not match the expected type 96 Warning96 97 Warning97 98 HardwareFltWarn A h...

Page 545: ......

Page 546: ...this manual You can contact Customer Support for initial help in getting your product up and running New Product Satisfaction Return Rockwell Automation tests all of its products to help ensure that t...

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