Ge 339 User manual

Instruction manual

339 revision: 2.3x

Manual P/N: 1601-9103-AG

GE publication code: GEK-113562Q

*1601-9103-AG*

339

Motor Protection System

Motor protection and control

Grid Solutions

LISTED

52TL

IND.CONT. EQ.

E83849

GE Multilin 339 Motor Protection System instruction manual for revision 2.3x.

339 Motor Protection System, EnerVista, EnerVista Launchpad, and EnerVista 3 Series

Setup are trademarks or registered trademarks of GE Multilin Inc.

The contents of this manual are the property of GE Multilin Inc. This documentation is

furnished on license and may not be reproduced in whole or in part without the permission

of GE Multilin. The content of this manual is for informational use only and is subject to

change without notice.

Part number: 1601-9103-AG (March 2017)

Storage

Store the unit indoors in a cool, dry place. If possible, store in the original packaging. Follow

the storage temperature range outlined in the Specifications.

To avoid deterioration of electrolytic capacitors, power up units that are stored in a de-

energized state once per year, for one hour continuously.

This product cannot be disposed of as unsorted municipal waste in the European

Union. For proper recycling return this product to your supplier or a designated

collection point. For more information go to www.recyclethis.info.

Note GENERAL SAFETY PRECAUTIONS - 339

• Failure to observe and follow the instructions provided in the equipment manual(s)

could cause irreversible damage to the equipment and could lead to property

damage, personal injury and/or death.

• Before attempting to use the equipment, it is important that all danger and caution

indicators are reviewed.

• If the equipment is used in a manner not specified by the manufacturer or

functions abnormally, proceed with caution. Otherwise, the protection provided by

the equipment may be impaired and can result in Impaired operation and injury.

• Caution: Hazardous voltages can cause shock, burns or death.

• Installation/service personnel must be familiar with general device test practices,

electrical awareness and safety precautions must be followed.

• Before performing visual inspections, tests, or periodic maintenance on this device

or associated circuits, isolate or disconnect all hazardous live circuits and sources

of electric power.

• Failure to shut equipment off prior to removing the power connections could

expose you to dangerous voltages causing injury or death.

• All recommended equipment that should be grounded and must have a reliable

and un-compromised grounding path for safety purposes, protection against

electromagnetic interference and proper device operation.

• Equipment grounds should be bonded together and connected to the facility’s

main ground system for primary power.

• Keep all ground leads as short as possible.

• At all times, equipment ground terminal must be grounded during device

operation and service.

• In addition to the safety precautions mentioned all electrical connections made

must respect the applicable local jurisdiction electrical code.

• Before working on CTs, they must be short-circuited.

• LED transmitters are classified as IEC 60825-1 Accessible Emission Limit (AEL) Class

1M. Class 1M devices are considered safe to the unaided eye. Do not view directly

with optical instruments.

This product cannot be disposed of as unsorted municipal waste in the European

Union. For proper recycling return this product to your supplier or a designated

collection point. For more information go to www.recyclethis.info.

Safety words and definitions

The following symbols used in this document indicate the following conditions

Note Indicates a hazardous situation which, if not avoided, will result in death or serious

injury.

Note Indicates a hazardous situation which, if not avoided, could result in death or serious

injury.

Note Indicates a hazardous situation which, if not avoided, could result in minor or

moderate injury.

Note Indicates practices not related to personal injury.

For further assistance

For product support, contact the information and call center as follows:

GE Grid Solutions

650 Markland Street

Markham, Ontario

Canada L6C 0M1

Worldwide telephone: +1 905 927 7070

Europe/Middle East/Africa telephone: +34 94 485 88 54

North America toll-free: 1 800 547 8629

Fax: +1 905 927 5098

Worldwide e-mail: multilin.tech@ge.com

Europe e-mail: multilin.tech[email protected]

Website: http://www.gegridsolutions.com/multilin

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL TOC–1

Table of Contents

1.INTRODUCTION Overview ................................................................................................................................1 - 1

Description of the 339 Motor Protection System................................................1 - 2

339 order codes..................................................................................................................1 - 6

Specifications.......................................................................................................................1 - 8

Password security....................................................................................................................1 - 8

Protection.....................................................................................................................................1 - 8

Metering........................................................................................................................................1 - 12

Data capture ..............................................................................................................................1 - 13

Control...........................................................................................................................................1 - 14

Monitoring....................................................................................................................................1 - 15

Inputs .............................................................................................................................................1 - 15

Outputs..........................................................................................................................................1 - 17

Power supply..............................................................................................................................1 - 17

Communications ......................................................................................................................1 - 18

Testing and certification .......................................................................................................1 - 19

Physical.........................................................................................................................................1 - 20

Environmental............................................................................................................................1 - 21

2.INSTALLATION Mechanical installation ...................................................................................................2 - 1

Dimensions..................................................................................................................................2 - 1

Product identification .............................................................................................................2 - 3

Mounting ......................................................................................................................................2 - 4

Standard panel mount.........................................................................................................2 - 4

Drawout unit withdrawal and insertion.........................................................................2 - 9

IP20 Cover (optional) ...............................................................................................................2 - 10

Electrical installation ........................................................................................................2 - 11

Typical Wiring Diagrams ......................................................................................................2 - 12

339 terminals .............................................................................................................................2 - 15

Terminal identification - Input/Output “E”...................................................................2 - 17

Terminal identification - Input/Output “R”...................................................................2 - 21

Wire range...................................................................................................................................2 - 23

RMIO module installation......................................................................................................2 - 23

Internal RTD installation........................................................................................................2 - 26

Phase sequence and transformer polarity ..................................................................2 - 26

Current inputs ............................................................................................................................2 - 27

Ground and CBCT inputs.......................................................................................................2 - 27

Zero sequence CT installation ............................................................................................2 - 28

Voltage inputs............................................................................................................................2 - 28

Control power ............................................................................................................................2 - 28

Contact inputs ...........................................................................................................................2 - 29

Trip and Close output relays...............................................................................................2 - 30

Serial communications..........................................................................................................2 - 33

IRIG-B .............................................................................................................................................2 - 34

3.INTERFACES Front control panel interface........................................................................................3 - 2

Description ..................................................................................................................................3 - 3

Display...........................................................................................................................................3 - 4

Working with the Keypad...................................................................................................3 - 4

LED status indicators - Front panel with non-programmable LEDs ................3 - 5

LED status indicators - Front panel with programmable LEDs ..........................3 - 7

TOC–2 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

Relay messages........................................................................................................................ 3 - 8

Default message .....................................................................................................................3 - 8

Target messages.....................................................................................................................3 - 8

Self-test errors..........................................................................................................................3 - 9

Flash messages .......................................................................................................................3 - 11

Software setup....................................................................................................................3 - 12

Quick setup - Software interface......................................................................................3 - 12

EnerVista 3 Series Setup Software...................................................................................3 - 12

Hardware and software requirements.........................................................................3 - 13

Installing the EnerVista 3 Series Setup software......................................................3 - 13

Upgrading the software.......................................................................................................3 - 16

Connecting EnerVista 3 Series Setup to the relay ...................................................3 - 16

Configuring serial communications...............................................................................3 - 16

Using the Quick Connect feature ....................................................................................3 - 17

Configuring Ethernet communications ........................................................................3 - 18

Connecting to the relay .......................................................................................................3 - 19

Working with setpoints and setpoint files....................................................................3 - 20

Engaging a device..................................................................................................................3 - 20

Entering setpoints...................................................................................................................3 - 20

Setting programmable LEDs..............................................................................................3 - 22

File support ................................................................................................................................3 - 23

Using setpoint files.................................................................................................................3 - 23

Downloading and saving setpoint files ........................................................................3 - 24

Adding setpoint files to the environment ....................................................................3 - 24

Creating a new setpoint file...............................................................................................3 - 25

Upgrading setpoint files to a new revision .................................................................3 - 26

Printing setpoints and actual values .............................................................................3 - 27

Printing actual values from a connected device .....................................................3 - 27

Loading setpoints from a file.............................................................................................3 - 28

Uninstalling files and clearing data................................................................................3 - 28

Upgrading relay firmware ................................................................................................... 3 - 29

Loading new relay firmware .............................................................................................3 - 29

Advanced EnerVista 3 Series Setup features.............................................................. 3 - 31

Flexcurve editor .......................................................................................................................3 - 31

Data logger................................................................................................................................3 - 32

Motor start data logger........................................................................................................3 - 34

Transient recorder (Waveform capture).......................................................................3 - 35

Protection summary .............................................................................................................3 - 38

Password security..................................................................................................................3 - 40

4.ACTUAL VALUES Actual values overview ...................................................................................................4 - 1

A1 Status................................................................................................................................4 - 3

Motor status ...............................................................................................................................4 - 3

Clock............................................................................................................................................... 4 - 5

Contact inputs...........................................................................................................................4 - 5

Output relays .............................................................................................................................4 - 6

Output relays - Breaker .......................................................................................................4 - 6

Output relays - Contactor...................................................................................................4 - 6

Logic elements ..........................................................................................................................4 - 6

Virtual inputs ..............................................................................................................................4 - 7

Remote inputs ...........................................................................................................................4 - 7

Remote outputs ........................................................................................................................ 4 - 7

Contact inputs summary .....................................................................................................4 - 7

Output relays summary .......................................................................................................4 - 8

Logic elements summary ....................................................................................................4 - 8

GOOSE status.............................................................................................................................4 - 8

GOOSE HDR status ..................................................................................................................4 - 8

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL TOC–3

61850 status...............................................................................................................................4 - 8

RTD temp summary................................................................................................................4 - 9

A2 Metering...........................................................................................................................4 - 10

Current...........................................................................................................................................4 - 10

Voltage ..........................................................................................................................................4 - 10

Power .............................................................................................................................................4 - 12

Energy ...........................................................................................................................................4 - 12

Current Demand.......................................................................................................................4 - 13

Power Demand..........................................................................................................................4 - 13

RTD temperature ......................................................................................................................4 - 14

Clear energy ...............................................................................................................................4 - 14

Clear current demand ...........................................................................................................4 - 14

Clear power demand..............................................................................................................4 - 14

A3 Records ............................................................................................................................4 - 15

Datalogger...................................................................................................................................4 - 15

Motor start data logger .........................................................................................................4 - 15

Event records .............................................................................................................................4 - 15

Transient records .....................................................................................................................4 - 17

Fault report..................................................................................................................................4 - 17

Learned data..............................................................................................................................4 - 18

Learned data recorder...........................................................................................................4 - 20

Clear learned data ...................................................................................................................4 - 20

Clear event record ...................................................................................................................4 - 20

Clear transient record ............................................................................................................4 - 20

Clear fault report ......................................................................................................................4 - 20

A4 Target messages.........................................................................................................4 - 21

5.QUICK SETUP -

FRONT CONTROL

PANEL

Quick Setup settings.........................................................................................................5 - 2

6.SETPOINTS Setpoints Main Menu........................................................................................................6 - 1

Setpoint entry methods ........................................................................................................6 - 3

Common setpoints .................................................................................................................6 - 3

Logic diagrams..........................................................................................................................6 - 4

Setting text abbreviations ....................................................................................................6 - 5

S1 Relay setup.....................................................................................................................6 - 6

Clock...............................................................................................................................................6 - 6

Password security....................................................................................................................6 - 8

Access passwords..................................................................................................................6 - 9

Communications ......................................................................................................................6 - 11

RS485 interface .......................................................................................................................6 - 11

Ethernet.......................................................................................................................................6 - 11

Modbus........................................................................................................................................6 - 12

IEC 60870-5-103 serial communication ......................................................................6 - 13

IEC60870-5-104 protocol....................................................................................................6 - 13

DNP communication.............................................................................................................6 - 13

3 Series IEC 61850 GOOSE details...................................................................................6 - 14

Event recorder ...........................................................................................................................6 - 15

Transient recorder ...................................................................................................................6 - 16

Fault report..................................................................................................................................6 - 18

Datalogger...................................................................................................................................6 - 19

Front panel with non-programmable LEDs .................................................................6 - 20

Front panel with programmable LEDs ...........................................................................6 - 20

TOC–4 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

Installation...................................................................................................................................6 - 22

Preset statistics.........................................................................................................................6 - 23

S2 System Setup ................................................................................................................6 - 24

Current sensing.........................................................................................................................6 - 24

Voltage sensing ........................................................................................................................6 - 26

Power system............................................................................................................................6 - 26

Motor.............................................................................................................................................. 6 - 27

Switching device ......................................................................................................................6 - 28

Contactor current supervision..........................................................................................6 - 28

FlexCurves ................................................................................................................................... 6 - 30

VFD..................................................................................................................................................6 - 32

S3 Protection........................................................................................................................6 - 34

Motor Thermal Model.............................................................................................................6 - 34

Total Capacity Used register (TCU).................................................................................6 - 35

Start protection........................................................................................................................6 - 36

Thermal overload curves.....................................................................................................6 - 36

Flexcurves...................................................................................................................................6 - 44

Thermal protection setpoints............................................................................................6 - 45

Short circuit (50P) .....................................................................................................................6 - 49

Mechanical Jam (51R)............................................................................................................6 - 51

Undercurrent (37).....................................................................................................................6 - 53

Current unbalance (46)..........................................................................................................6 - 56

Load increase alarm (50L)....................................................................................................6 - 60

Ground fault (50G/SG)............................................................................................................6 - 61

Neutral instantaneous overcurrent (50N).....................................................................6 - 64

Time overcurrent curves.......................................................................................................6 - 66

Phase timed overcurrent (51P) ..........................................................................................6 - 70

Neutral timed overcurrent (51N).......................................................................................6 - 73

Phase undervoltage (27P) ....................................................................................................6 - 76

Phase overvoltage (59P) .......................................................................................................6 - 79

Negative sequence overvoltage (59_2).........................................................................6 - 81

Positive sequence undervoltage (27_1).........................................................................6 - 83

Underfrequency (81U) ........................................................................................................... 6 - 86

Overfrequency (81O) ..............................................................................................................6 - 88

Underpower (37)....................................................................................................................... 6 - 90

Phase reversal (47) ..................................................................................................................6 - 93

Acceleration protection (48)................................................................................................6 - 94

RTD protection (38/49T) ........................................................................................................ 6 - 96

Two-speed motor ....................................................................................................................6 - 102

Two-speed motor setup ......................................................................................................6 - 103

High speed thermal protection ........................................................................................6 - 104

High speed short circuit settings.....................................................................................6 - 104

High speed acceleration......................................................................................................6 - 107

High speed undercurrent....................................................................................................6 - 107

Neutral directional overcurrent (67N).............................................................................6 - 110

Directional power (32)............................................................................................................6 - 114

S4 Controls............................................................................................................................6 - 118

Virtual inputs ..............................................................................................................................6 - 118

Logic elements ..........................................................................................................................6 - 119

Breaker control ......................................................................................................................... 6 - 128

Breaker failure / Welded contactor (50BF)................................................................... 6 - 130

CT failure (60CTS)......................................................................................................................6 - 132

Start inhibit.................................................................................................................................. 6 - 135

Emergency restart ..................................................................................................................6 - 139

Lockout reset (86).....................................................................................................................6 - 139

Reset .............................................................................................................................................. 6 - 139

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL TOC–5

VT fuse fail (VTFF or 60VTS) ..................................................................................................6 - 140

S5 Inputs/Outputs..............................................................................................................6 - 142

Contact inputs ...........................................................................................................................6 - 145

Output relays - Input/Output “E”.......................................................................................6 - 146

Output Relays - Breaker - Input/Output “E” ...............................................................6 - 147

Output Relays - Contactor - Input/Output “E”...........................................................6 - 155

Output relays Input/Output “R” .........................................................................................6 - 158

Output Relays - Breaker - Input/Output “R”...............................................................6 - 159

Output Relays - Contactor - Input/Output “R” ..........................................................6 - 165

Virtual inputs...............................................................................................................................6 - 168

S6 Monitoring.......................................................................................................................6 - 170

Demand ........................................................................................................................................6 - 170

Current demand......................................................................................................................6 - 171

Real Power .................................................................................................................................6 - 172

Reactive Power ........................................................................................................................6 - 174

Apparent Power.......................................................................................................................6 - 176

7.MAINTENANCE M1 Relay information.......................................................................................................7 - 2

M2 Motor maintenance...................................................................................................7 - 4

M3 Breaker maintenance...............................................................................................7 - 5

Trip coil ..........................................................................................................................................7 - 5

Close coil.......................................................................................................................................7 - 9

Breaker trip counter................................................................................................................7 - 12

Breaker health ...........................................................................................................................7 - 14

Reset counters...........................................................................................................................7 - 17

M4 Breaker monitor..........................................................................................................7 - 18

M5 Relay maintenance ...................................................................................................7 - 19

Ambient temperature.............................................................................................................7 - 19

M6 Factory service............................................................................................................7 - 21

M7 Testing .............................................................................................................................7 - 22

Force LEDs ...................................................................................................................................7 - 22

Force output relays .................................................................................................................7 - 23

General maintenance ......................................................................................................7 - 24

In-service maintenance ........................................................................................................7 - 24

Out-of-service maintenance...............................................................................................7 - 24

Unscheduled maintenance (system interruption) ....................................................7 - 24

A.APPENDIX Warranty................................................................................................................................A - 1

Repairs ....................................................................................................................................A - 2

Change notes.......................................................................................................................A - 3

Manual Revision history........................................................................................................A - 3

TOC–6 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL 1–1

339 Motor Protection System

Chapter 1: Introduction

Grid Solutions

Introduction

Overview

The 339 Motor Protection System is a microprocessor based relay providing suitable

protection of medium voltage motors. The small footprint and the withdrawable option

make the 339 relay ideal for panel mounting on either new or retrofit installations. The

combination of proven hardware, a variety of protection and control features, and

communications, makes the relay ideal for total motor protection and control. Equipped

with serial (RS485), USB, and Ethernet ports, and a wide selection of protocols such as

Modbus, DNP3.0, IEC 60870-5-103, 60870-5-104, GOOSE, the 339 relay is the best-in-class

for MCCs, SCADA and inter-relay communications. The 339 relay provides excellent

transparency with respect to power system conditions and events, through its four-line

20-character display, as well as the EnerVista 3 Series Setup program. Conveniently

located LEDs provide indication of overall relay operation, as well as alarm, pickup, and

motor status.

The 339 relay provides the following key benefits:

• Withdrawable small footprint – saves on rewiring and space.

• Fast setup (Quick Setup) menu provided, to guide users through a wide range of motor

management applications.

• Large four-line LCD display, LEDs, and an easy-to-navigate keypad.

• Multiple communication protocols for simultaneous access when integrated into

monitoring and control systems.

1–2 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

DESCRIPTION OF THE 339 MOTOR PROTECTION SYSTEM CHAPTER 1: INTRODUCTION

Description of the 339 Motor Protection System

CPU

Relay functions are controlled by two processors: a Freescale MPC5554 32-bit

microprocessor measures all analog signals and digital inputs and controls all output

relays; a Freescale MPC520B 32-bit microprocessor controls all the Ethernet

communication protocols.

Analog Input and Waveform Capture

Magnetic transformers are used to scale-down the incoming analog signals from the

source instrument transformers. The analog signals are then passed through a 960 Hz low

pass anti-aliasing filter. All signals are then simultaneously captured by sample and hold

buffers to ensure there are no phase shifts. The signals are converted to digital values by a

12-bit A/D converter before finally being passed on to the CPU for analysis.

Both current and voltage are sampled thirty-two times per power frequency cycle. These

‘raw’ samples are scaled in software, then placed into the waveform capture buffer, thus

emulating a fault recorder. The waveforms can be retrieved from the relay via the

EnerVista 3 Series Setup software for display and diagnostics.

Frequency

Frequency measurement is accomplished by measuring the time between zero crossings

of the Bus VT phase A voltage. The signals are passed through a low pass filter to prevent

false zero crossings. Sampling is synchronized to the Va-x voltage zero crossing which

results in better co-ordination for multiple 339 relays on the same bus.

Phasors, Transients, and Harmonics

Current waveforms are processed four times every cycle with a DC Offset Filter and a

Discrete Fourier Transform (DFT). The resulting phasors have fault current transients and all

harmonics removed. This results in an overcurrent relay that is extremely secure and

reliable; one that will not overreach.

Processing of AC Current Inputs

The DC Offset Filter is an infinite impulse response (IIR) digital filter, which removes the DC

component from the asymmetrical current present at the moment a fault occurs. This is

done for all current signals used for overcurrent protection; voltage signals bypass the DC

Offset Filter. This filter ensures no overreach of the overcurrent protection.

The Discrete Fourier Transform (DFT) uses exactly one sample cycle to calculate a phasor

quantity which represents the signal at the fundamental frequency; all harmonic

components are removed. All subsequent calculations (e.g. RMS, power, etc.) are based

upon the current and voltage phasors, such that the resulting values have no harmonic

components.

Protection Elements

Protection elements are processed up to four times every cycle to determine if a pickup

has occurred or a timer has expired. The protection elements use RMS current/voltage,

based on the magnitude of the phasor. Hence, protection is impervious to both harmonics

and DC transients.

CHAPTER 1: INTRODUCTION DESCRIPTION OF THE 339 MOTOR PROTECTION SYSTEM

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL 1–3

Figure 1-1: Functional block diagram

Table 1-1: ANSI device numbers and functions

896814A4.CDR

37 46 48 50P

50N

MOTOR

LOAD

Stator RTDs

Bearing RTDs

Phase CT 3

Ground CT 1

BUS

339

MOTOR PROTECTION SYSTEM

Ambient air

RTD

Optional RTD

51N

START

51P

TRIP

START INHIBIT

27P 59P

59_2

59_2 81O 81U

50G/SG

67N

27_1

VTFF 50BF

60CTS 66

49T

50L

51R

METERING

TRANSIENT RECORDER

EVENT RECORDER

FAULT REPORT

222

ANSI Code 61850 Logical Node Description

27_1 psseqPTUV1,

psseqPTUV2 Positive Sequence Undervoltage

27P phsPTUV1, phsTUV2 Phase Undervoltage

32 PDOP1, PDOP2 Directional Power

37 PTUC1 Undercurrent

37P PDUP1 Underpower

38/49T rtdGGIO6 Bearing RTD

Stator/Ambient/Other

RTD Trouble Alarm

46 unbalPTOC1 Current Unbalance

47 phsrevPTOV1 Voltage Phase Reversal

48 accelPTOC1 Acceleration Time

49 PTTR1 Thermal Protection/Stall Protection

50BF RBRF1 Breaker Failure / Welded Contactor

50G/SG gndPIOC1 Ground Fault/Sensitive Ground Fault (CBCT)

50L ldincPTOC1 Load Increase Alarm

50N ndPIOC1 Neutral Instantaneous Overcurrent

50P scPIOC1 Short Circuit

51N ndPTOC1 Neutral Timed Overcurrent

51P phsPTOC1 Phase Timed Overcurrent

51R jamPTOC1 Mechanical Jam

59_2 ngseqPTOV Negative Sequence Overvoltage

59P phsPTOV1, phsPTOV2 Phase Overvoltage

1–4 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

DESCRIPTION OF THE 339 MOTOR PROTECTION SYSTEM CHAPTER 1: INTRODUCTION

Table 1-2: Other device functions

60CTS - CT Supervision

66 PMRI1 Starts per Hour & Time Between Starts

Restart Block

Thermal Inhibit

67N ndRDIR1 Neutral Directional Element

81O PTOF1, PTOF2 Overfrequency

81U PTUF1, PTUF2 Underfrequency

86 - Lockout

VTFF (60VTS) - VT Fuse Failure

- MMXU1 Voltage, Power, Energy Metering

- MSQI1 Current, Voltage Sequences

Description

2nd Harmonic Blocking

2-speed Motor (thermal, short circuit, undercurrent, acceleration)

Ambient Temperature

Breaker Control

Breaker Health

Breaker Maintenance

CT Failure Detection

Data Logger

Demand (in metering)

Digital Counters

DNP 3.0 Communications

Event Recorder

Fault Report

Flexcurves

IEC 60870-5-103 Communications

IEC 60870-5-104 Communications

IEC 61850 Communications

IEC 61850 GOOSE Communications

Logic Elements

Metering: current, voltage, power, PF, energy, frequency, harmonics, THD

Modbus User Map

Modbus RTU Communications

Modbus TCP Communications

Non-volatile Latches

Output Relays

PRP Communications

Relay Maintenance

Remote Inputs (32)

Setpoint Groups (2)

Test Mode

Transient Recorder (Oscillography)

Trip and Close Coil Monitoring

User Curves

ANSI Code 61850 Logical Node Description

CHAPTER 1: INTRODUCTION DESCRIPTION OF THE 339 MOTOR PROTECTION SYSTEM

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL 1–5

Figure 1-2: Main Menu structure

User-programmable LEDs

Virtual Inputs (32)

Virtual Outputs (32)

Description

ACTUAL VALUES

COMMANDS

QUICK SETUP

SETPOINTS

MAINTENANCE

ACTUAL VALUES

A1 STATUS

A2 METERING

A3 RECORDS

A4 TARGET MESSAGES

QUICK SETUP

RELAY STATUS

NOMINAL FREQUENCY

PHASE CT PRIMARY

GROUND CT TYPE

VT CONNECTION

VT SECONDARY

VT RATIO

MOTOR FLA

SWITCHING DEVICE

52a CONTACT

52b CONTACT

THERMAL O/L FUNC

S/C FUNC

MECH JAM FUNC

U/CURR TRIP FUNC

GND TRIP FUNC

PH UV FUNC

SETPOINTS

S1 RELAY SETUP

S2 SYSTEM SETUP

S3 PROTECTION

S4 CONTROLS

S5 INPUTS/OUTPUTS

S6 MONITORING

MAINTENANCE

M1 RELAY INFO

M2 MOTOR MAINTEN

M3 BKR MAINTENANCE

M4 BKR MONITOR

M5 RELAY MAINTENANCE

M6 FACTORY SERVICE

M7 TESTING

896756A1.cdr

1–6 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

339 ORDER CODES CHAPTER 1: INTRODUCTION

339 order codes

The information to specify a 339 relay is provided in the following order code table.

Figure 1-3: Order Codes

NOTE

NOTE: Features related to each order number are subject to change without notice.

Empty chassis

The 339 protection relay chassis used with a drawout relay is available separately, for use

as a partial replacement or in test environments. Many features are supported by the

cards and ports within the chassis, as is reflected in the chassis order code.

896800A7.fm

339  * * * * * S N * * * * *

Interface 339 || | | | | | | | | | 339 Motor Protection System

User

Interface

E||||| ||||| English without programmable LEDs

L||||| ||||| English with programmable LEDs

Phase Currents

a. Phase current option P0 and Ground current option G0 is only available on the non-drawout version

(Case Design option N)

P0 | | | | | | | | | 1 A and 5 A configurable phase current inputs

P1 | | | | | | | | | 1 A 3-phase current inputs

P5 | | | | | | | | | 5 A 3-phase current inputs

Ground Currents

b. Ground current options G0/G1/G5 must match the corresponding P0/P1/P5 Phase currents

G0||| ||||| 1 A and 5 A configurable ground current input

G1||| ||||| 1 A ground current input

G5||| ||||| 5 A ground current input

H | | | | | | | 110 to 250 V DC/110 to 230 V AC

Input/Output

c. The Input/Output option R is only available on the drawout version (Case Design option D). The 339 does not support both

internal RTDs and RMIO RTDs simultaneously.

E| ||||| 10 Contact Inputs, 7 Outputs (2 Form A, 5 Form C)

|10 Contact Inputs, 4 Outputs (1 Form A, 3 Form C),

3 100 Ohm Platinum RTD Inputs

Current Protection S|

|Standard configuration: 37, 46, 48, 49, 50P(1), 50G/SG(1),

50N(1), 50L,51R, 66, 86, 51N(1), 51P(1), 50BF

Other Options N | | | | No Selection

M| | | | Voltage, Power, Energy Metering, VTFF (1), 60CTS

|Voltage Protection: 37P, 27P(2), 27P_1(2), 47(1), VTFF(1),

59P(2), 81O(2), 81U(2), 59_2(1), 67N(1), 32(2), 60CTS

Communications S N |

|Standard: Front USB, Rear RS485: Modbus RTU, DNP3.0,

IEC60870-5-103

1 E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104

2 E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104, IEC 61850 GOOSE

3 E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104, IEC 61850

Case Design D | Protection Relay with drawout design

N| Protection Relay with non-drawout design

X| Protection Relay (drawout design) with no chassis

Harsh Environment NNone

HHarsh Environment Conformal Coating

CHAPTER 1: INTRODUCTION 339 ORDER CODES

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL 1–7

NOTE

NOTE: The chassis order code and drawout relay order code must match exactly.

FAST PATH: A drawout relay cannot be used in a chassis with different order code options.

Figure 1-4: 350 chassis order codes

Remote Module I/O

The remote RTD Module provides additional protection.

Other Accessories

• 18L0-0075 3 Series Depth reducing collar - 1.375”

• 18L0-0076 3 Series Depth reducing collar - 3.00”

• 18L0-0080 3 Series IP20 Kit

• 3S-NDO-STCONKIT 3 Series NDO straight terminal block kit

• 0804-0458 USB A-B configuration cable - 6’

NOTE

NOTE: Refer to the 3 Series Retrofit Instruction Manual for the retrofit of Multilin MI, MII, MLJ, and

TOV relays.

896800CH-A1.fm

339  CH  * * S N * * * *

P5 | | | | | 5 A 3-phase current inputs

Ground Currents

a. Ground current options G1/G5 must match the corresponding P1/P5 Phase currents

G1 | | | | 1 A ground current input

G5 | | | | 5 A ground current input

Other Options N | | | No Selection

M | | | Voltage, Power, Energy Metering, VTFF (1), 60CTS

|Voltage Protection: 37P, 27P(2), 27P_1(2), 47(1), VTFF(1),

59P(2), 81O(2), 81U(2), 59_2(1), 67N(1), 32(2), 60CTS

Communications SN |

|Standard: Front USB, Rear RS485: Modbus RTU, DNP3.0,

IEC60870-5-103

1E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104

2E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104, IEC 61850 GOOSE

3E |

|Standard + Ethernet (Copper + Fiber - MTRJ) Modbus TCP/IP,

DNP3.0, IEC 60870-5-104, IEC 61850

Harsh Environment NNone

HHarsh Environment Conformal Coating

896800RMIO-A1.fm

RMIO  * G G * *

Power Supply L | | | | 24 - 48 V DC

H | | | | 110 - 250 V DC / 110 - 230 V AC

I/O Module 1 G | | | Remote Module I/O (3 - 100 Ohm Platinum RTDs)

I/O Module 2 G | | Remote Module I/O (3 - 100 Ohm Platinum RTDs)

I/O Module 3

a. RMIO comes standard with 6 RTDs (Modules 1 and 2). The 9 and 12 RTD options (Modules 3 and 4)

require firmware 1.40 or greater.

G| Remote Module I/O (3 - 100 Ohm Platinum RTDs)

X| None

I/O Module 4 G Remote Module I/O (3 - 100 Ohm Platinum RTDs)

XNone

1–8 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

SPECIFICATIONS CHAPTER 1: INTRODUCTION

Specifications

NOTE

NOTE: Specifications are subject to change without notice.

NOTE

NOTE: To obtain the total element operating time, i.e. from the presence of a trip condition to

initiation of a trip, add 8 ms output relay time to the operate times listed below.

NOTE

NOTE: For multi-phase protection elements, the trip delay setting applies to the first trip phase.

The remaining phases trip instantaneously if the first phase is tripped.

NOTE

NOTE: Specifications are subject to the VFD function being disabled or bypassed.

Password security

PASSWORD SECURITY

Master Password:...............................................8 to 10 alpha-numeric characters

Settings Password:............................................. 3 to 10 alpha-numeric characters for local and remote

access

Control Password: .............................................. 3 to 10 alpha-numeric characters for local and remote

access

Protection

PHASE/NEUTRAL TIMED OVERCURRENT (51P/51N)

Pickup Level: ......................................................... 0.05 to 20.00 x CT in steps of 0.01 x CT

Dropout Level:...................................................... 97% of Pickup @ I > 1 x CT

Pickup - 0.02 x CT @ I < 1 x CT

Curve Shape:......................................................... ANSI Extremely/Very/Moderately/Normally Inverse

Definite Time (0.1 s base curve)

IEC Curve A/B/C and Short Inverse

IAC Extremely/Very/-/Short Inverse

Curve Multiplier: .................................................. 0.05 to 50.00 in steps of 0.01

Reset Time:............................................................ Instantaneous, Linear

Curve Timing Accuracy:.................................. ±3% of expected inverse time or 1 cycle, whichever is

greater, from pickup to operate

Level Accuracy: ................................................... per CT input

DIRECTIONAL POWER (32)

Measured power:................................................ 3-phase

Characteristic angle:......................................... 0º to 359º in steps of 1°

Power pickup range: ......................................... -1.200 to 1.200 x Rated Power in steps of 0.001

Pickup level accuracy:...................................... 2.5% or 0.01 pickup, whichever is greater

Hysteresis: ............................................................. 2% of pickup

Pickup time delay:.............................................. 0.0 to 600.0 s in steps of 0.1 s

Operate time:........................................................ < 55 ms at 1.1 x pickup at 60 Hz

< 65 ms at 1.1 x pickup at 50 Hz

Timer accuracy:.................................................. ± 3% of delay setting or ± ¼ cycle (whichever is greater)

from pickup to operate

CHAPTER 1: INTRODUCTION SPECIFICATIONS

339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL 1–9

NEUTRAL INSTANTANEOUS OVERCURRENT (50N)

Pickup Level:.......................................................... 0.05 to 20.00 x CT in steps of 0.01 x CT

Dropout Level: ...................................................... 97% of Pickup @ I > 1 x CT

Pickup - 0.02 x CT @ I <1 x CT

Time Delay:............................................................ 0.00 to 300.00 sec in steps of 0.01

Operate Time:....................................................... <30 ms @ 60Hz (I > 2.0 x PKP), 0 ms time delay

<35 ms @ 50Hz (I > 2.0 x PKP), 0 ms time delay

Time Delay Accuracy: ...................................... 1% to 1 cycle, whichever is greater

Level Accuracy:.................................................... per CT input

Elements: ................................................................ Trip or Alarm

NEUTRAL DIRECTIONAL OVERCURRENT (67N)

Directionality: ....................................................... Co-existing forward and reverse

Polarizing: ............................................................... Voltage, Current, Dual

Polarizing Voltage:.............................................. -V0calculated using phase voltages (VTs must be connected

in "Wye")

Polarizing Current:.............................................. IG

MTA:........................................................................... From 0oto 359oin steps of 1o

Angle Accuracy: ..................................................±4o

Operation Delay:................................................. 20 to 30 ms

NOTE

NOTE: The selection of “P” option from “339 OTHER OPTIONS” in the Order Code table, will enable

the Neutral Directional element with voltage polarizing V0computed from the measured

phase voltage inputs.

UNDERCURRENT (37)

Pickup Level:.......................................................... 0.1 to 0.95 x FLA in steps of 0.01 x FLA

Dropout Level: ...................................................... 102% of Pickup

Time Delay:............................................................ 1.00 to 60.00 s in steps of 0.01 s

Block from Start:.................................................. 0 to 600 s in steps of 1 s

Pickup Accuracy:................................................. as per phase current inputs

Timing Accuracy:................................................±0.5 s or ±0.5% of total time

Elements: ................................................................ Trip and Alarm

CURRENT UNBALANCE (46)

Unbalance:............................................................. See equations below

Unbalance Pickup Level:.................................. 4.00 to 40.00% in steps of 0.01%

Trip Curves: ............................................................ Definite time, Inverse time (see equations below)

Trip TDM: ................................................................. 1.00 to 100.00 s in steps of 0.01 s

Trip Maximum Time:.......................................... 1.00 to 1000.00 s in steps of 0.01 s

Trip Minimum Time:........................................... 1.00 to 1000.00 s in steps of 0.01 s

Trip Reset Time: ................................................... 1.00 to 1000.00 s in steps of 0.01 s

Alarm Time Delay:.............................................. 1.00 to 60.00 s in steps of 0.01 s

Single Phasing Pickup Level:.......................... unbalance level > 40% or when Iavg ≥25%FLA and current

in any phase is less than the cutoff current

Single Phasing Time Delay:............................ 2 sec

Dropout Level: ...................................................... Pickup - 1

Pickup Accuracy:................................................. ±2%

Timing Accuracy:................................................±0.5 s or ±0.5% of total time

Unbalance Elements: ........................................ Trip and Alarm

Single Phasing Elements: ................................ Trip

1–10 339 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL

SPECIFICATIONS CHAPTER 1: INTRODUCTION

Table 1-3: Current Unbalance equations

RTD (38/49T)

Pickup:...................................................................... 1 to 250oC in steps of 1oC

Pickup Hysteresis: .............................................. 2oC

Time Delay: ........................................................... 3 sec

Elements:................................................................ Trip and Alarm

RTD TROUBLE ALARM (38/49T)

RTD Trouble Alarm: ............................................ <-50oC or >250oC

LOAD INCREASE ALARM

Pickup Level: ......................................................... 50 to 150% FLA in steps of 1% FLA

Dropout Level:...................................................... Pickup - 2

Alarm Time Delay:.............................................. 1.00 to 60.00 s in steps of 0.01 s

Pickup Accuracy: ................................................ as per phase current inputs

Timing Accuracy:................................................ ±0.5 s or ±0.5% of total time

SHORT CIRCUIT

Pickup Level: ......................................................... 1.00 to 20.00 x CT in steps of 0.01 x CT

Dropout Level:...................................................... 97% of Pickup @ I > 1 x CT

Pickup - 0.02 x CT @ I < 1 x CT

Alarm Time Delay:.............................................. 0.00 to 60.00 s in steps of 0.01 s

Pickup Accuracy: ................................................ as per phase current inputs

Operate Time: ...................................................... <30 ms @ 60Hz (I > 2.0 x PKP), 0 ms time delay

<35 ms @ 50Hz (I > 2.0 x PKP), 0 ms time delay

Timer Accuracy:.................................................. 0 to 1 cycle

Elements:................................................................ Trip or Alarm

MECHANICAL JAM TRIP (50R)

Pickup Level: ......................................................... 1.01 to 4.50 x FLA in steps of 0.01 x FLA, blocked from start

Dropout Level:...................................................... 98% of pickup (pickup > 0.50)

Pickup - 0.01 (pickup ≤0.50)

Trip Time Delay: .................................................. 0.10 to 30.00 s in steps of 0.01 s

Pickup Accuracy: ................................................ as per phase current inputs

Timing Accuracy:................................................ ±0.5 s or ±0.5% of total time

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