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IB02602004E

For more information visit: www.eaton.com

Instructional Literature

Effective: May 2008

Page

 

45

Instructions for the FP-6000 Protective Relay

4.6.2.3 Logging

“Logging” Display:

4.6.2.4 Contact Input CFG

“ Input CFG” Display:

Current Demand

Interval (m):

15

Data Logger

Mode:

Cont.

Trigger:

A

uto

Interval (s):

900

V

alue 1:

I

A

V

alue

2

:

IB

V

alue 3:

IC

V

alue 4:

I

X

V

alue 5:

VA

V

alue

6

:

V

B

V

alue

7

:

V

C

V

alue 8:

VX

Event Log Enable

I Pickup:

Y

es

V

Pickup: No

Freq Pickup: No

PF Pickup:

No

Unbal Pickup: No

SYSA

LM Pickup: No

Power Pickup: No

Logic Pickup: No

RTD Pickup: No
  

V

ar Pickup: No

Cin1:    No

Cin3:

No

Cin4: No

Cin5: No

Cin

6

: No

Cin

7

: No

Cin8: No

Comm: No

Power Demand

Window:

Fixed

Interval (m):

15

Waveform Capture

Records:

1

6

*1

6

PreTrigger:

2

O

S

C Trigger

OSC Trig Enable

TRIP

2

:

Overwrite

d

V

/dl:

Disable

Logic LG

6

:

Overwrite

Cntrl PB:

Overwrite

Comm:

Overwrite

Logging

Current Demand

Power Demand

Event Log Enable

Data Logger

Waveform Capture

Cin

2

:    No

TRIP 1:

   Locked

Contact Input CFG

Cin1:

5

2

a

Cin

2

:

5

2

b

Cin3:

BFI

Cin4:

Bkr Trouble

Cin5:

Remote Open

Cin

6

:

Remote Close

Cin

7

:

Remote Reset

Cin8:

user defined

BFI- “Breaker Fail Initiate”

Input Config

Contact Input CFG

RTD Config

“RTD Config” Display:

RTD Config

RTD1

Disable

RTD2

Disable

RTDx

Disable

RTD11

Disable

Note: 

 x 3 to 10

Summary of Contents for Cutler-Hammer FP-6000 Series

Page 1: ...e New Information Description Page Product Overview 2 Quick Start 9 Specifications 18 Front Panel Operation 23 Setting the FP 6000 58 Installation and Wiring 130 Startup 145 Application and Settings 1...

Page 2: ...e of the Eaton FP 6000 Protective Relay It is provided as a guide for authorized and qualified personnel only in the selection and application of the FP 6000 Protective Relay Please refer to the speci...

Page 3: ...rent measuring inputs four voltage measuring inputs eight contact inputs seven contact output relays communications and a front panel user interface Based upon the firmware loaded into the flash memor...

Page 4: ...2 P 2 50 P 3 50 R 1 50 R 2 50 R 3 50 M 1 59 M 2 59 M 1 27 M 2 27 U 1 81 U 2 81 O 1 81 O 2 81 X 1 50 X 2 50 X 3 50 A 2 27 A 1 27 A 2 59 A 1 59 52 CB 3Io IR CALC METERING V I F PF W VARS VA ENERGY DEMA...

Page 5: ...rcurrent 50P 3 50X 3 50R 3 B Under overvoltage 27M 2 59M 2 27A 2 59A 2 C Power 32 Var 32V D Under over frequency 81U 2 810 2 E Current unbalance 46 2 F Voltage unbalance 47 2 G Neutral voltage 59N 2 H...

Page 6: ...nput circuitry Application A Comparison of current flow with apparent state of breaker B Comparison of apparent and set phase sequence C Determination of correct voltage or current phasor relationship...

Page 7: ...nt with Directional Supervision 67 Protection Phase Overcurrent Menu 63 51R Residual Ground Inverse Time Overcurrent with Directional Supervision 67 Protection IR Residual OC Menu 65 51V 51P2 Phase In...

Page 8: ...T 11 RTD thermal protections based on RTD direct temperature measurements Thermal Protection menu under Protection 73 49DA 1 to 49DA 11 RTD thermal alarm based on RTD direct temperature measurements T...

Page 9: ...XX and MP3XXX drawout designs However it differs from most Eaton IQ style panel mounts in that The panel cutout is slightly larger The enclosure is mounted from the front user side of the panel Four m...

Page 10: ...terature Page 10 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 4 FP 6000 Simple Wye Connected Application FP 6000 100 250...

Page 11: ...ormation visit www eaton com Instructional Literature Effective May 2008 Page 11 Instructions for the FP 6000 Protective Relay Figure 5 FP 6000 Simple Wye Connected Application with Sync Check 100 250...

Page 12: ...iterature Page 12 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 6 FP 6000 Simple Open Delta Application FP 6000 100 250 V...

Page 13: ...formation visit www eaton com Instructional Literature Effective May 2008 Page 13 Instructions for the FP 6000 Protective Relay Figure 7 FP 6000 Simple Open Delta Application with Sync Check FP 6000 1...

Page 14: ...rd display unchanged Each character in the Password may be modified to any of the characters 0 9 and A Z within program mode If the password has not been changed previously press enter the password de...

Page 15: ...functions which the user must program in order to handle the specific characteristics of your system Since only one protection setting Group is enabled we need only program the one group of protection...

Page 16: ...o 9999 cycles 50X 1 IX IOC 2 Direction Both List Forward Reverse Both IR Residual Overcurrent 51R IR TOC Shape XTRM List IT I2T I4T FLAT MOD VERY XTRM IECA IECB IECC 51R IR TOC Reset Calc List Inst Ca...

Page 17: ...mming consists of selecting System Config or Protection from the Setting Main list For the System Config items simply scroll to the item select with Enter vary with Up Down and select with Enter For P...

Page 18: ...A 1 A CT Rating Steady State Maximum Transient 2 x Inom 10 A 80 x Inom 400 A for 1 sec 3 x Inom 3 A 100 x Inom 100 A for 1 sec CT Burdens 0 25 VA 5 A Nominal 0 05 VA 1 A Nominal CONTACT INPUTS TB201 2...

Page 19: ...hield J2 3 Filter Referenced to Chassis dc input impedance 2 ohms ac Input impedance 100 kHz 100 ohms Permanent Termination Resistor ZONE INTERLOCK TB3 J3 Zone Out J3 1 Open Collector Output 4 5 V to...

Page 20: ...1 of Nominal Aux Voltage 0 to 250 V 1 of Nominal Phase Angle for I V 0 to 360 1 at Nominal Voltage System Frequency 45 to 65 Hz 0 02 Hz Ampere Demand 0 02 to 20 per Unit 0 5 Watt Demand 0 to 4000 MW 1...

Page 21: ...Cycles or 0 1 Whichever Is Greater 32 1 Power 1 0 to 2 Cycles or 0 1 Whichever Is Greater 32 2 Power 1 0 to 2 Cycles or 0 1 Whichever Is Greater 59A 1 Voltage Aux Over 0 5 4 0 to 2 Cycles or 0 1 Which...

Page 22: ...withstand all ports ANSI C37 90 2 1995 RF withstand Emissions EN 50081 2 EN 50011CISPR 11 Class A CFR 47 FCC Part 15 Subpart b Class A Immunity EN 61000 6 2 ENV 61000 4 2ESD Immunity ENV 61000 4 3RF...

Page 23: ...splay mode pushbuttons with integral LEDs 9 status LEDs 6 pushbuttons for display menu navigation a Reset pushbutton 2 pushbuttons for breaker control DB 9 communication port and a battery for trip in...

Page 24: ...ushed again once the unit shows the Default Display screen to do its pushbutton function 4 2 3 Self Check Failure Upon initialization the FP 6000 performs a series of hardware and software checks to e...

Page 25: ...current and voltage display screen from any display menu when the relay is in normal monitoring mode The FP 6000 has a Reset menu which is accessed by pressing the Reset pushbutton when the unit is in...

Page 26: ...view the Boot Code and Application Code versions by selecting the Version sub menu Refer to Section 4 6 to see all status and control displays and options Refer to Section 5 for programming the contro...

Page 27: ...ves communications on pin 3 making it a Data Set or Data Communication Equipment DSE DCE under the definitions of the RS 232 standard The FP 6000 does not use the RS 232 hardware control lines Althoug...

Page 28: ...r modes are freely accessed and cannot change or cause operation of the relay 4 6 1 Monitor The Monitor Mode is entered by pushing the Monitor pushbutton which allows the user to view metered quantiti...

Page 29: ...nts IA Percent IB Percent IC Percent THD L N Voltages VA Percent VB Percent VC Percent Mag THD L N Voltages VA Magnitude VB Magnitude VC Magnitude Clock Time HH MM SS Date MM DD YY Current Phasors IA...

Page 30: ...er Quadrant diagram in Figure 12 A lagging power factor is displayed as a positive value and a leading power factor is displayed as a negative value The maximum power factor is the most lagging power...

Page 31: ...f system current over time which can be set from 1 to 60 minutes For example if the range is set for 30 minutes the FP 6000 calculates the average current over the past 30 minutes and updates the valu...

Page 32: ...mum Power Watt Var VA Maximum Frequency Maximum Power Factor Apparent Displacement Maximum Reset Date Time Display 9 Maximum Sub menu Table 8 Maximum Sub menu The Date and Time Stamp is also recorded...

Page 33: ...Settings Mode has no effect on the settings The user cannot change the settings in this mode this mode is for viewing the settings only Display 10 View Settings Main Select one of the Setting Main sub...

Page 34: ...S Thermal Current Type Therm Model User Thermal Model Type I2 Multi K 6 0 Negative Sequence Current Multiplier FLA 500 Full Load Ampere LockRotor I 300 Locked Rotor Current MaxStall Tc 1 Maximum Allow...

Page 35: ...rent Display Protection Setting Group 1 Setting Group 2 Setting Group 3 Setting Group 4 Setting Group 1 Phase Overcurrent IX Measured OC IR Residual OC Unbalance Settings Main V Protection Aux V Prote...

Page 36: ...Shape XTRM Reset Calc Direction Both 51X IX TOC Setting Pickup pu 50 Time Mult 1 00 50X 2 IX IOC 2 Pickup pu 2 00 Delay c 600 Direction Both 50X 1 IX IOC 1 Pickup pu 2 00 Delay c 60 Direction Both IR...

Page 37: ...Undervoltgage 59M 1 Overvoltgage LOP Block Alarm 27M 1 Undervoltgage Phases Any One Threshold V Disable Delay 1200 59M 1 Overvoltgage Phases Any One Threshold V Disable Delay 1200 LOP Block Alarm LOP...

Page 38: ...sable Delay c 1200 Freq Protection 81U 1 Underfreq 81O 1 Overfreq 81U 1 Underfreq Threshold Disable Delay c 60 81O 1 Overfreq Threshold Disable Delay c 60 Power Protection 32 1 Power Definition 32 1 P...

Page 39: ...ocking Zone Interlock Trip Zone Interlock Out Zone Interlock Trip Phase or Ground Disable Direction Both Zone Interlock Out Phase or Ground Disable Direction Both Synch Check 25 Synch Check Hot Dead V...

Page 40: ...Prot RTD1 Protection Threshold Disable Delay s 10 RTD2 Protection Threshold Disable Delay s 10 RTD3 Protection Threshold Disable Delay s 10 RTD4 Protection Threshold Disable Delay s 10 RTD5 Protectio...

Page 41: ...m 27M 2 Under V Alarm 59A 2 Over V Alarm 27A 2 Under V Alarm 59N 2 OV Definition 59N 2 OV Alarm 81O 2 Over Freq Alm 81U 2 Under Freq Al 32 3 Pwr Definition 32 3 Power Alarm 32V 3 Var Alarm 59M 2 Over...

Page 42: ...Disable Delay s 30 RTD2 1 Pickup Alarm Pickup Disable Delay m 30 RTD2 1 Dropout Alarm Threshold Disable Delay s 30 RTD2 2 Pickup Alarm Pickup Disable Delay m 30 RTD2 2 Dropout Alarm Threshold Disable...

Page 43: ...ut Alarm Threshold Disable Delay s 30 RTD11 2 Pickup Alarm Pickup Disable Delay m 30 RTD11 2 Dropout Alarm Threshold Disable Delay s 30 RTD49M 1 Threshold 1Thres FLA 110 RTD49M 1 Pickup Alarm Pickup D...

Page 44: ...ts kvar Threshold Disable Delay m 0 VAR Demand Alarm Units kvar Threshold Disable Delay m 0 VA Demand Alarm Units kVA Threshold Disable Delay m 0 Current Demand Alm Threshold Disable Delay m 0 I THD A...

Page 45: ...No Logic Pickup No RTD Pickup No Var Pickup No Cin1 No Cin3 No Cin4 No Cin5 No Cin6 No Cin7 No Cin8 No Comm No Power Demand Window Fixed Interval m 15 Waveform Capture Records 16 16 PreTrigger 2 OSC T...

Page 46: ...ip 3 Function OR Dropout Latched Off Delay c 0 IN1 Trip BF IN2 Unused IN3 Unused IN4 Unused Output Trip2 Monitor Off Function Disable Dropout Unlatched Off Delay c 5 IN1 Unused IN2 Unused IN3 Unused I...

Page 47: ...r Gate 6 Logic Latch 1 Logic Latch 2 Block 50X 1 IOC Block 50X 2 IOC Block 50X 3 IOC Block 50R 1 IOC Block 50R 2 IOC Block 50R 3 IOC Block 50P 1 IOC Block 50P 2 IOC Block 50P 3 IOC Block 51P TOC Block...

Page 48: ...Ph TOC Block Ix IOC Block Ir IOC Block Phase IOC Block I Unbal 46 Block Power 32 Desensitize Gnd TOC 51X Pickup 1 00 51R Pickup 1 00 Desensitize Ph TOC 51P 1 Pickup 2 00 51P 2 Pickup 2 00 Block Ix IO...

Page 49: ...Var 32V 32V Trip Yes 32V Alarm Yes Shot 1 PLC Lockout Function Disable IN1 Unused IN2 Unused IN3 Unused IN4 Unused Autoreclose Block L3 ExtBlockAR Disable ExtCloseDly 10 PLC BlockAR Disable UnderVolt...

Page 50: ...W Alarm Yes AR Block 50Q 50Q 1 Trip Yes 50Q 2 Trip Yes 50Q 3 Trip Yes AR Block Var 32V 32V Trip Yes 32V Alarm Yes Shot 3 PLC Lockout Function Disable IN1 Unused IN2 Unused IN3 Unused IN4 Unused Phase...

Page 51: ...up Active AR Block 50X 50X 1 Trip Yes 50X 2 Trip Yes 50X 3 Trip Yes AR Block 50R 50R 1 Trip Yes 50R 2 Trip Yes 50R 3 Trip Yes AR Block 50P 50P 1 Trip Yes 50P 2 Trip Yes 50P 3 Trip Yes AR Block I Unbal...

Page 52: ...4 Function OR Dropout UnLatched IN1 CNTL 79RUN IN2 Unused IN3 Unused IN4 Unused Programmable LED 5 Function OR Dropout UnLatched IN1 CNTL 79RUN IN2 Unused IN3 Unused IN4 Unused Programmable LED 6 Fun...

Page 53: ...og Event Log History Log Trip Log 1 50P IOC 1 19 01 2 Relay Test 10 25 00 3 0 0 00 50P IOC 1 19 01 Display Meanings Trip Time Event 2 13 36 06 109 27 Trip Time of trip Event Cause Flt Type Set Seq Num...

Page 54: ...utputs and setting changes The data logged for each event includes the event number event I D a time stamp and an optional 2 byte parameter The user may disable logging of any event category except a...

Page 55: ...display gives the user access to view the version of the product s boot code and application code Total History Log Display Meanings Operate Hours 00 00 00 Number of hours of operation Power Up 0 Numb...

Page 56: ...pushbutton can be accessed through the security door on the front panel see Figure 8 Once the Test pushbutton is activated a password screen will show up on the display The default password is 0000 P...

Page 57: ...ates that a ground overcurrent trip condition has occurred if the 50X 1 50X 2 50R 1 50R 2 51X or 51R protective functions operate Other Trip LED The red Other Trip LED indicates that a trip condition...

Page 58: ...shipped with a default password 0000 Every time the Password Window appears the password is initialized to 0000 If the password has not been changed or set then you simply press the Enter button to b...

Page 59: ...password is 0000 A password of 0000 will always be accepted during the first 2 minutes after the FP 6000 is powered up See Sec 5 4 11 for changing the password Press the Enter pushbutton to advance t...

Page 60: ...s calculated 3 wire 4CT In 4CT Ig 3 wire 5 4 1 8 2 3 wire 4th CT is independent 4CT Ig 4 wire system with 4th CT on ground con ductor PH CT Ratio CT ratio of the phase current CTs Inom to 6000 Increme...

Page 61: ...o Seq Impendance Ang Select the zero sequence line impedance angle 0 to 90 degrees 70 5 4 1 IR Dir Cntrl Select the residual ground polarizing method Off dual 3V0 Ipol Neg Off 5 4 1 Gnd Dir V 3V0 Sour...

Page 62: ...of the time overcurrent Reset setting See TOC Curve settings for 51P 51R and 51X elements Table 11 System Configuration continued DISPLAY SETTING DESCRIPTION SETPOINT RANGE VALUE SELECTION DEFAULT SET...

Page 63: ...urve Phase Time Overcurrent Curve Element 2 Set tings 5 4 2 1 8 3 13 4 Shape Select curve characteristic shape IT I2T I4T FLAT MOD VERY XTRM IECA IECB IECC MOD Reset Select curve reset characteristics...

Page 64: ...th Both 51X IX TOC Setting Fourth CT Time Overcurrent Pickup and Time Multiplier Settings 5 4 2 2 8 3 Pickup Select current pickup value in per unit values x Inom 0 02 to 4 0pu or Disable 0 01 increme...

Page 65: ...c Select delay time in cycles 0 to 9999 cycles 1 cycle increments 60 Direction Select direction Forward Reverse Both Both 50R 2 IR IOC 2 Residual CT Overcurrent Element 2 Setting 5 4 2 2 8 3 Pickup Se...

Page 66: ...able Alarm Delay Select LOP alarm delay in cycles 0 to 9999 cycles or disable Increments of 1 10000 disable 5 Aux V Protection Select undervoltage 27A 1 and overvoltge 59A 1 device settings DISPLAY SE...

Page 67: ...r under power Over Under Over 32 1 Pwr Trip 5 4 2 6 Threshold Select the magnitude of the power required 0 02 to 4 00pu or Disable Disable Delay c Select delay time in cycles 0 to 65535 cycles 1 cycle...

Page 68: ...PF Displacement Power Factor Settings 5 4 2 9 Trigger PF Select power factor to trigger on 0 50to1 00 lag 0 50to 99 lead disable 0 01pu increments Disable Reset PF Select power factor to reset on 0 5...

Page 69: ...of 1 65 Max Dead Voltage Maximum dead voltage 1 to 150 Volts Increments of 1 3 Volt Dead Time Voltage dead time 0 to 9999 cycles 1 cycle increments 10 25 In Synch Characteristic Voltage Angle Slip Dif...

Page 70: ...Direction Select direction Forward Reverse Both Both 46 2 I Unbal Alarm Current Unbalance Alarm Settings 5 4 2 12 5 4 2 4 Threshold Select magnitude of unbalance required either I1 or I2 0 1 to 20 0...

Page 71: ...VT Undervoltage Alarm Setting 5 4 2 12 5 4 2 5 8 6 2 Threshold V Select magnitude of undervoltage required 10 to 250 Volts disable 1 Volt increments Disable Delay c Select delay time in cycles 0 to 99...

Page 72: ...Trip Delay 0 to 65535c 10c 32V 2 Var Trip L3 32V 2 Var Protection Settings Direction 32V 2Var Trip Direction FWD REV Both REV Criteria 32V 2 Var Trip Criterion Under Over Under Threshold 32V 2 Var Tri...

Page 73: ...ion Settings Function RTD Group 1 Voting Function Disable Any 1 2 11 Disable RTD1 Group 1 Member RTD1 No Yes No RTD2 Group 1 Member RTD2 No Yes No RTD3 Group 1 Member RTD3 No Yes No RTD4 Group 1 Membe...

Page 74: ...2 Pickup Alarm L3 RTD1 2 Pickup Alarm Settings Pickup RTD 1 Alarm 2 Pickup Disable 0 to 199 C or 0 to 390 F Disable Delay min RTD 1 Alarm 2 Pickup Delay 1 to 3600 min 10 min RTD1 2 Dropout Alarm L3 RT...

Page 75: ...TD 11 Alarm 2 Pickup Delay 1 to 3600 min 10 min RTD11 2 Dropout Alarm L3 RTD11 2 Dropout Alarm Settings Threshold RTD 11 Alarm 2 Dropout 0 to 199 C or 0 to 390 F Disable Delay min RTD 11 Alarm 2 Dropo...

Page 76: ...nits 1 to 40 000 Disable incre ments of 1 Disable Delay m Select delay time in minutes 0 to 60 minutes increments of 1 0 VAR Demand Alarm System VAR Demand Alarm Setting 5 4 3 Units Select units for V...

Page 77: ...EFER TO SEC Breaker Alarm Breaker alarm of operations sum of interrupting amps 5 4 3 of Operation of breaker operations based on the 52a and 52b contacts 1 to 9999 increments of 1 9999 Isum INTR Amp C...

Page 78: ...No RTD Pickup Select thermal pickup to be logged No Yes No Var Pickup Select var pickup to be logged No Yes No Cin1 Set Cin1 event to be logged No Yes No Cin2 Set Cin2 event to be logged No Yes No Cin...

Page 79: ...igger Comm Select how to trigger wave form capture on communication command Disable Overwrite or Lock Overwrite Table 15 Input Configuration Settings Contact Input and RTD Configuration Settings Input...

Page 80: ...t logic input IN3 for Output Trip2 See Logic Input Options Table 18 Unused IN4 Select logic input IN4 for Output Trip2 See Logic Input Options Table 18 Unused Output Rly3 Output Relay 3 Settings 5 4 6...

Page 81: ...ction Select logic output function for Output Alarm Rly6 OR AND NOR NAND disable OR Dropout Select relay state after trip occurs Latched unlatched off delay Unlatched Off Delay c Select delay for Rela...

Page 82: ...le 18 Unused IN2 Select logic type for logic input 2 See Logic Input Options Table 18 Unused IN3 Select logic type for logic input 3 See Logic Input Options Table 18 Unused IN4 Select logic type for l...

Page 83: ...t if the delay is based on cycles or seconds Cycle Second Cycle On Delay c Select timer gate on delay 0 to 9999 cycles second 1 cycle second increments 0 Off Delay c Select timer gate off delay 0 to 9...

Page 84: ...nused IN2 Select logic type for logic input 2 See Logic Input Options Table 18 Unused IN3 Select logic type for logic input 3 See Logic Input Options Table 18 Unused IN4 Select logic type for logic in...

Page 85: ...18 Unused IN2 Select logic type for logic input 2 See Logic Input Options Table 18 Unused IN3 Select logic type for logic input 3 See Logic Input Options Table 18 Unused IN4 Select logic type for logi...

Page 86: ...E SETTING OPTIONS SETPOINT RANGE VALUE SELECTION Unused Unused Direct or Negated Pickup PH OC G OC IOC TOC OC All Alm Volt Freq AllProt 50X 1 50X 2 50X 3 50R 1 50R 2 50R 3 50P 2 50P 3 51P 1 51P 2 51P...

Page 87: ...ettings 5 4 8 50X 1 Select to block the CT overcurrent 1 while in cold load condition Yes No Yes 50X 2 Select to block the CT overcurrent 2 while in cold load condition Yes No Yes 50X 3 Select to bloc...

Page 88: ...0 5 4 9 Update Clock Press the Enter pushbutton after setting clock to update the clock Table 21 Communications DISPLAY SETTING DESCRIPTION SETPOINT RANGE VALUE SELECTION DEFAULT SETTING SELECTED VALU...

Page 89: ...O refers to the contact inputs and output relays Choosing customized I O allows the user to freely program the contact inputs and relay outputs See Table 15 Input Configuration Settings Table 16 Outp...

Page 90: ...hange the active setting group To set the FP 6000 to its factory default settings see Section 5 3 for details Set Ctrl This setting allows the user to select the means of control for selecting the act...

Page 91: ...ervise the ground overcurrent elements This setting effects the characteristics of 67V and 67VIX IR Gnd Dir Cntrl This setting allows the user to select the IRGround Polarizing Method Ground direction...

Page 92: ...nimum current limit a reverse direction may be assumed The memory voltage will be used no longer than 200 milliseconds see Figure 16 Figure 17 Negative Zero Sequence Voltage Polarized Ground Direction...

Page 93: ...e accumulator reaches 100 For example if the current is at level 1 for 40 of the total trip time based on level 1 current then the accumulator will be at 40 If the current now changes to level 2 with...

Page 94: ...f the CT is an 800 5 multi ratio CT connected at 600 5 then a setting of 0 7 will represent a primary current pickup of 420 A 0 7 times 600 In terms of the relay current used for bench testing use the...

Page 95: ...put The user selects the pickup and the time multiplier of the TOC curve The available settings and setting ranges are the same as the 51P PH TOC Settings shown above The pickup settings are in per un...

Page 96: ...current unbalance The current unbalance pickup and trip functions are reset when the positive and negative sequence current I1 and I2 drop below the Threshold setting or I2 I1 drops below the I2 I1 s...

Page 97: ...bove the underfrequency set threshold Note Phase A voltage must be greater than 10 V for this function to oper ate 81O 1 Overfreq This is the 81O device Overfrequency setting This function consists of...

Page 98: ...ndamental watts by the fundamental volt amperes as shown below This definition is only valid at the system fundamental operating frequency The Displacement Power Factor isolates the fundamental portio...

Page 99: ...range and a closing command has been presented but their magnitude or angle difference has been out of their range for the specified Timeout The Sync failure flag is one of the control options for us...

Page 100: ...the thermal threshold based on the thermal capacity TC which can be obtained with the settings Locked Rotor Current ILR and Maximum Allowable Stall Time TLR When any phase current exceeds the thermal...

Page 101: ...ed trip output occurs VA Power Alarm Units Sets the units for VA measurement kVA or MVA Threshold Sets the VA threshold level in units specified at or above which the power pickup event occurs After p...

Page 102: ...he Logging functions Current Demand Interval m Sets the interval in number of minutes from 1 to 60 minutes in 1 minute intervals After each specified interval the average current for that period is ca...

Page 103: ...ts the buffer to be overwritten or locked The dV dI looks for approximately 17 change in either the voltage or current signals and can be used to record waveforms for any disturbance greater than 17 L...

Page 104: ...h the FP 6000 it can be used for not only a motor but also a generator transformer cable and etc The FP 6000 treats all the RTD channels as general use inputs Therefore care must be taken to make sure...

Page 105: ...energize the Breaker Trip coil The Trip1 relay is set per the settings described below Monitor Set to On or Off If set to on the Breaker Trip coil circuit will be monitored by the FP 5000 for continu...

Page 106: ...so linked to the System Config settings which is where the total number of settings groups 1 to 4 is programmed In This setting defines the logic input to Timer Gates 1 through 6 See the settings tabl...

Page 107: ...ct the clock setting in the Setting Main display window Configure the settings below to set the clock Date Mode Sets the mode for the date used in all time stamp displays Time Mode Sets the mode for t...

Page 108: ...nterrupted current is less than or equal to the interrupt current at the last point the FP 6000 will interpolate the allowed operation counts based on the breaker wear curve When the interrupted curre...

Page 109: ...40 pu 18 Count 3 Open Counts Allowed 3 1 to 0xFFFF 20 Point 4 L2 Point 4 Settings Cur 4 pu Interrupted Current Level 4 0 to 40 pu 24 Count 4 Open Counts Allowed 4 1 to 0xFFFF 15 Point 5 L2 Point 5 Set...

Page 110: ...or disable The indicator is active when the Healthy Alarm is de energized to report a failure The default configuration sets the Dropout to Latched and enables the Trip Indication when Trip1 or Trip2...

Page 111: ...2 See Logic Input Options Table 26 Unused Programmable LED 3 L2 Programmable LED 3 Menu Function Select Logic Output Function for LED 3 Disable OR AND NOR NAND OR Dropout Select LED 3 State After It I...

Page 112: ...Select Logic Output Function for LED 8 Disable OR AND NOR NAND Disable Dropout Select LED 8 State After It Is Lit Unlatched Latched Unlatched IN1 Select Logic Input IN1 for LED 8 See Logic Input Opti...

Page 113: ...P 3 51P 1 51P 2 51P 51X 51R 59A 1 59A 2 27A 1 27A 2 59M 1 59M 2 27M 1 27M 2 46 1 46 2 47 1 47 2 81U 1 31U 2 81O 1 81O 2 BF 55A 55D 55N 1 59N 2 32 1 32 2 32 3 LOP LOPB 49DTG1 49DTG2 49DT1 49DT2 48DT3 4...

Page 114: ...ifting the trip curve left or right of the normal trip curve To coordinate with the down stream relay or recloser all shot protection groups can be based on one normal setting group or multiple groups...

Page 115: ...an the sum of four shot breaker off times four longest protection trip times at least one Run to Ready reset time and a safety margin SyncControl Sync Supervision If it is enabled an autoreclose is pe...

Page 116: ...to several aspects such as the circuit breaker characteristic the protection functions used the power system protected voltage level overhead or cable stability and etc and impacts on loads Set Group...

Page 117: ...zone coordination process 51Q Pickup Shot x 51Q Pickup This setting is reserved for the 51Q negative sequence time inverse overcurrent 51P Pickup Shot x 51P Pickup This setting allows the relay to mod...

Page 118: ...Autoreclose Failure Time T3 0 to 65535c 3000 c AR Sync Control L3 Autoreclose Sync check Supervision Enable SyncControl Sync Supervision Disable Enable Disable AutoReclose Block L3 Autoreclose Block S...

Page 119: ...0P 2 Trip Shot 1 Block 50P 2 Yes No Accelerate 0 to 60c Yes 50P 3 Trip Shot 1 Block 50P 3 Yes No Accelerate 0 to 60c Yes AR Block I Unbal L4 Autoreclose Block Unbalance Current Functions 46 1 Trip Sho...

Page 120: ...ickup Settings 51X Pickup Shot 2 51X Pickup 0 1 to 4 pu Disable 1 00 pu 51R Pickup Shot 2 51R Pickup 0 1 to 4 pu Disable 1 00 pu 51Q Pickup Shot 2 51Q Pickup 0 1 to 4 pu Disable 1 00 pu Phase TOC Pick...

Page 121: ...s AR Block 50Q L4 Autoreclose Block Negative Sequence Overcur rent Functions 50Q 1 Trip Shot 3 Block 50Q 1 Yes No Accelerate 0 to 60c Yes 50Q 2 Trip Shot 3 Block 50Q 2 Yes No Accelerate 0 to 60c Yes 5...

Page 122: ...up Shot 4 51R Pickup 0 1 to 4 pu Disable 1 00 pu 51Q Pickup Shot 4 51Q Pickup 0 1 to 4 pu Disable 1 00 pu Phase TOC Pickup L4 Phase Time Inverse Overcurrent Pickup Settings 51P Pickup Shot 4 51P Picku...

Page 123: ...ULT SETTING Frequency 60 Phase Seq ABC CT Connect 3 wire PH CT Ratio 500 5 IX CT Ratio 500 5 VT Connect Wye VTRatio Exp 2 Main VTR 100 Aux VTR 100 VT Secondary Rating 69 28 Prim Units No I O Config De...

Page 124: ...irection Both IX OVERCURRENT IX SETTINGS DEFAULT SETTING 51X IX TOC Shape XTRM Reset Calc Direction Both Pickup 0 50 Time Mult 1 00 50X 1 IX OC 1 Pickup 1 00 Delay c 60 Direction Both 50X 1 IX OC 2 Pi...

Page 125: ...LOG ENABLE SETTINGS DEFAULT SETTING I Pickup Yes DATA LOGGER DATA LOGGER SETTINGS DEFAULT SETTING Mode Trigger Interval s Value 1 Value 2 Value 3 Value 4 Value 5 Value 6 Value 7 Value 8 Cont Auto 900...

Page 126: ...ALARM SETTINGS DEFAULT SETTINGS Function Dropout IN1 IN2 IN3 IN4 OR Unlatched Trip Allprot Trip All Alarms Sys Alm All Alarm Breaker All Alm TRIP INDICATOR TRIP INDICATOR SETTINGS DEFAULT SETTING Drop...

Page 127: ...36 Breaker Curve Configuration Default Settings BREAKER CURVE CURVE SETTINGS DEFAULT SETTING Point 1 Cur pu 6 Count 40 Point 2 Cur pu 12 Count 30 Point 3 Cur pu 18 Count 20 Point 4 Cur pu 24 Count 15...

Page 128: ...CNTL 79Lock IN3 Unused IN4 Unused Programmable LED 2 L2 Function OR Dropout Unlatched IN1 79RUN IN2 Unused IN3 Unused IN4 Unused Programmable LED 3 L2 Function OR Dropout Unlatched IN1 79SH1 IN2 Unuse...

Page 129: ...r the FP 6000 Protective Relay Table 37 LED Configuration Default Settings continued LED CONFIG LED SETTINGS DEFAULT SETTING Programmable LED 7 L2 Function OR Dropout Unlatched IN1 79Lock IN2 Unused I...

Page 130: ...footprint outline is equivalent to the Eaton DT3XXX and MP3XXX draw out designs However it differs from most Eaton IQ style panel mounts in that The panel cutout is slightly larger The enclosure is mo...

Page 131: ...n 3 18 mm thick and distortion free Insure that there are no mechanical problems that could effect the overall mounting thickness of the outer chassis from the termination back to the front of the lat...

Page 132: ...0 rear terminal connections Connect ground terminal shown in lower left hand corner of rear panel see Figure 30 to the closest solid electrical safety grounding point with a heavy wire or braid 14 AWG...

Page 133: ...d is not provided to the user see Figure 35 The wetting voltage and current requirements of the external contacts should be reviewed for compatibility with the FP 6000 s 40 Vdc source voltage and 2mA...

Page 134: ...ng rules and details J2 INCOM AB this is an INCOM type interface reserved for future design features The hardware is identical to J1 accept that there is a non switch selectable 100 ohm termination re...

Page 135: ...he case care must be taken as many electronic components and circuits are exposed Service personnel should use electrostatic wrist straps to avoid damage due to electrostatic discharge ESD Touching th...

Page 136: ...age 136 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 34 Voltage Wye Input Wiring Options and Connection Schematics FP 60...

Page 137: ...mation visit www eaton com Instructional Literature Effective May 2008 Page 137 Instructions for the FP 6000 Protective Relay Figure 35 Voltage Wye Input Wiring Options and Connection Schematics 100 2...

Page 138: ...ge 138 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 36 Voltage Delta Input Wiring Options and Connection Schematics FP 6...

Page 139: ...sit www eaton com Instructional Literature Effective May 2008 Page 139 Instructions for the FP 6000 Protective Relay Figure 37 Voltage Delta Input Wiring Options and Connection Schematics with Sync Ch...

Page 140: ...eassembled plastic optical fibers with connectors can be ordered from Eaton Cutler Hammer or from any distributor of Agilent Technologies optical fiber products In addition these same distributors off...

Page 141: ...ber to set the URTD module DIP switches according to the types of RTDs in each of the winding motor bearing load bearing and auxiliary groups see IL 17367 Figure 38 Universal RTD Module Mounting Dimen...

Page 142: ...Instructional Literature Page 142 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 39 URTD Wiring to URTD Module F...

Page 143: ...Instructional Literature Effective May 2008 Page 143 Instructions for the FP 6000 Protective Relay Figure 40 Typical ac Supply and URTD Wiring UNIVERSAL RTD MODULE J1 J2 J3 J5 J4 URTD FO OPTICAL FIBER...

Page 144: ...Instructional Literature Page 144 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 41 Common CT Wiring Configurations 6...

Page 145: ...125 Vdc or control power transformer 100 120 Vac De energize the power supply source For 250 Vdc power supply board nominal ranges 100 to 240 Vac or 100 to 250 Vdc Verify trip relay control voltage Co...

Page 146: ...d read Off Verify that the healthy relay is in the energized state Removing power to the FP 6000 power supply should disengage the healthy relay closing the NC contacts TB105 which should drive an Ala...

Page 147: ...ed by the application engineer or equipment manufacturer verify that the breaker is operating properly and the load is energized With a load on the breaker use a clamp on type ammeter to measure the a...

Page 148: ...panel The phase angle for voltages and currents is computed from the one cycle voltage and current phasor values every 32 cycles for updating the current phasor angle displays 8 1 2 Frequency Measurem...

Page 149: ...l tiplier setting The ground trip time at 1 per unit current is 5 D ANSI IEC The ANSI Moderately Inverse Very Inverse and Extremely Inverse curves are defined by ANSI C37 112 The IEC curves are define...

Page 150: ...coordination potential and permits curve shaping over a wide range The available pickup settings which are inverse time overcurrent time multiplier settings and inverse time overcurrent phase and grou...

Page 151: ...nce The tolerances are usually stated in terms of the relay s accuracy and frequently highlighted on the actual working curves Accuracy is stated in terms of a plus or minus percentage and represents...

Page 152: ...can be adjusted from 0 10 to 4 00 times Inom Figure 47 graphically illustrates how the beginning of the Thermal Inverse Time Overcurrent Pickup portion of the overall curve can be moved horizontally o...

Page 153: ...stment Table 40 Negative Sequence Current Protection Settings 8 4 Curve Overlapping Issues Several calculations are performed simultaneously for the determination of trip and alarm conditions Each of...

Page 154: ...ound then any directional permissive ground or residual current IOC or TOC pickup will cause activation of zone out signal Phase current IOC or TOC will not activate the signal If the Zone Out setpoin...

Page 155: ...voltage unbalance pickup occurs when V2 V1 exceeds the VUB Unbalance setting and the V1 or the V2 magnitude exceeds the VUB Threshold setting The Voltage Unbalance trip is set when the pickup conditi...

Page 156: ...the programmable logic input All the current elements can be blocked through their block gate logic and other functions may be blocked through the programmable logic if the user desires The LOP logic...

Page 157: ...hreshold setting The overfrequency trip is set when the overfrequency condition exists for the delay time specified The overfrequency pickup and trip are reset when the frequency drops below the overf...

Page 158: ...FP 6000 has been designed to issue a close breaker signal from one of its programmable contact outputs The default configuration maps the Close Breaker function to contact output relay 5 see Figure 5...

Page 159: ...sensed across the Trip 1 relay output contacts whenever the breaker state is closed and the Trip 1 relay is open Since the state of the breaker must be known this function is operational only if at l...

Page 160: ...ithout delay If after Breaker Failure Delay cycles the current is above BF Phase or BF Ground current limits then the Breaker Failure BF Trip indication is given along with the BF lockout indication B...

Page 161: ...on 9 Programmable Logic and Section 5 Table 17 for LG6 programming is used to cause a waveform trigger This logic gate can be used to trigger on any combination of trip pickup and alarm events It is a...

Page 162: ...Pass then a trigger will not be recognized until the data logger is reset The data logger can have its data reset in one of the following ways Front Panel Reset Press the reset button until the Reset...

Page 163: ...al However if there is either an external lockout command or a general programmable lockout logic active or both the autoreclose logic will go to Lockout mode Figure 58 Autoreclose Control Blocking Lo...

Page 164: ...condition exists such as External lockout command General programmable lockout logic active Autoreclose blocking timeout Autoreclose failure Breaker wear lockout Not enough breaking capacity lockout E...

Page 165: ...logic will increment to next shot stage and wait for next reclose initiate If the fault persists the autoreclose logic will go all reclose shots allowed and eventually go into Lockout mode The reclos...

Page 166: ...ickup or a manual remote closing is performed 2 1 0 3 4 AR Initiate Setting 52CSa52b 52b ProtTrip ProtTrip 52b PLC79RI Ext Initiate Enable 52b 79 Blocking 79 Lockout 52CSa Protection Trip S R Q 5c 0 P...

Page 167: ...ble Current Max Shots Setting Run S R Q Lockout Max_Shot Breaker Wear Lockout AR Block Timeout Breaker Not Enough Capacity External Lockout PLC SH1 3 Lockout 79RL Reset AR Lockout T4 10c 52a OC Pickup...

Page 168: ...es may be enabled or disabled If the maximum shots per hour feature is disabled there will be no time limit on how many shots can be performed If the maximum shot adjustment feature is enabled the max...

Page 169: ...pumping logic the autoreclose logic will switch the settings from the shot protection settings to the normal settings after the Run to Ready timer is expired but it will not reset from Run mode to Rea...

Page 170: ...p 8 13 Thermal Protection and Alarm The FP 6000 provides the thermal protections and alarms that are based on the direct temperature measurement through the URTD device offered by Eaton Corporation an...

Page 171: ...given the current threshold of 1 0FLA and 2 0FLA of the stator phase current the thermal model will use the full thermal capacity in 139 54 seconds However if the stator temperature is known of 100 C...

Page 172: ...f equipment to be protected The negative sequence current will generate significantly more heat on a rotating machine but has the same effect as the positive sequence current for stationary equipment...

Page 173: ...es the same as the MP 3000 With current harmonics the FP 6000 thermal model tends to be less sensitive Therefore depending on the nature of currents measured the thermal threshold may need to be set a...

Page 174: ...The FP 6000 Protective Relay includes programmable logic for programming inputs outputs blocking of protective functions and custom logic functions in the relay The logic provides control of the outpu...

Page 175: ...electromechanical output relays The relays include five Form A output relays Trip1 Trip2 Rly3 Rly4 Rly5 one Form C Alarm output relay and a Form C Relay Healthy Alarm relay The functionality of the R...

Page 176: ...d operation See Default settings in Table 51 Table 51 LED Configuration Default Indicator Settings Note Relay K7 is always Relay Healthy It is energized when all internal diagnostics pass and de energ...

Page 177: ...off delay timers The setting range on the timers is 0 to 9999 cycles with 1 cycle resolution The latches include a set input and a reset input The reset input has the highest priority If both the set...

Page 178: ...c input from a particular Data Store The computed outputs of the logic elements are also saved The stored results may be directed to additional logic gate inputs until an output is directed to an outp...

Page 179: ...8 to enable or disable the High Load Alarm at the user s discretion A Timer Gate has an On Delay and or an Off Delay that can be set for up to 9999 cycles 166 minutes at 60 Hz Use 60 cycles for an On...

Page 180: ...direction Reverse 67X F Fourth CT fault current direction Forward 67X R Fourth CT fault current direction Reverse 67X F Fourth CT fault current direction Forward 67VIXF Fourth CT Zero sequence voltage...

Page 181: ...Blocking flag caused by LOP condition BF Breaker failure flag 59N 1 2 Neutral or zero sequence voltage elements 32 1 2 3 Real power protection elements PhZone Phase zone interlock trip LOPA LOP Alarm...

Page 182: ...oint Group Control is set to Local Remote the active setpoint group is selected using either a sub menu option of the Status Control PB or the PowerNet slave action command 3 D 0 The active setpoint g...

Page 183: ...the cable leads to minimize frayed connections and add stress release Always follow the National Electrical and local codes for cable routing When leaving a building lightening surge protection is re...

Page 184: ...el RS 232 connector on the front panel of the FP 6000 using a standard DTE to DSE cable The FP 6000 front panel RS 232 connector is wired as a 9 socket female Data Set DSE D Subminiature under the RS...

Page 185: ...e networked location via an intranet or the Internet 10 4 3 Licensing PowerNet Software uses a floating license system to license the PowerNet Software applications Each copy of a PowerNet Software ap...

Page 186: ...communication NetPower Monitor PowerNet Monitor is a PowerNet Software application used to monitor and control devices on PowerNet DeviceServers With PowerNet Monitor you can view all the detailed de...

Page 187: ...ed up and protection is active If the power source goes out or if the FP 6000 senses an internal error this relay will open This is a Form C relay and the NO contact can be used for example to drive a...

Page 188: ...nd overvoltage protection If the settings are not as desired then modify it in the setting s menu under Protection Main V Protection Set the undervoltage to 60 volts and then the overvoltage to 120 vo...

Page 189: ...r once again to confirm With an ohmmeter measure between pins 113 and 114 of connector TB1 to verify that Relay 3 is closed The resistance should be close to zero ohms Now press the Previous button to...

Page 190: ...hat an FP 6000 critical failure is detected the protection functions of the FP 6000 are disabled and all output relays except relay healthy will remain in their current state The relay healthy output...

Page 191: ...ly Protection Disabled Setting Failure Settings Disabled If Fail the setpoints have been corrupted The circuit is not protected replace FP 6000 immediately Display Warning Display Enabled The display...

Page 192: ...ing of input states and the changing of a communication driven logic variable must be enabled by programming setpoints see Section 5 The ability to ignore particular types of events is given so that e...

Page 193: ...use SetChange The program settings are changed and saved The Setpoint Sequence number PRSetGrpCh The protection active setting group is changed The new active setting group number 1 4 SetRTC The real...

Page 194: ...be all unbalance frequency breaker failure power factor power and zone interlocking pickups 81 OF Overfrequency has picked up or dropped out Miscellaneous Pickup Status contains the status flags that...

Page 195: ...quency breaker failure power factor power and zone interlocking trips 81 OF Overfrequency has operated Miscellaneous Trip Status contains the status flags that describe all unbalance frequency breaker...

Page 196: ...3 Rly4 Rly5 or Alarm has changed state Output Status contains the status flag for all contact outputs Healthy State The Relay Healthy contact output has changed state Output Status contains the status...

Page 197: ...ring after the event has been cleared the FP 6000 Active Alarm setting must be set to Unlatched To do this simply press Set enter the password scroll to Output Config and press Enter Scroll to Alarm I...

Page 198: ...the FP 6000 Scroll to the History Log and press Enter Scroll to Bkr History and press the Enter pushbutton two times LOP ALARM Condition must be cleared externally away from the FP 6000 unit CONDITION...

Page 199: ...taneous Over Current operation 50R IOC A Residual current Instantaneous Over Current operation 50X IOC An IX ground current Instantaneous Over Current operation 51P TOC A Phase current Time Over Curre...

Page 200: ...Status A group of status flags detailing miscellaneous protective function pickups at the time of the trip 18 OC Trip Status A group of status flags detailing Over Current protective function operati...

Page 201: ...on of the firmware This S Record file contains all the information necessary to upgrade your FP 6000 firmware The FlashLoader program must be installed on your PC and your PC must have RS 232 serial c...

Page 202: ...in the RAM This command should ONLY be used when upgrading the firmware Eaton recommends executing this command before and after the firmware has been updated Before you execute this command make sur...

Page 203: ...en S Record File Figure 83 Flash Loader Open the selected file Once this has been accomplished this screen will automatically close and the next screen will appear asking the user to verify the select...

Page 204: ...he Enter Flash Load Mode pushbutton switches the relay from normal mode to flash load mode see Figure 87 Figure 87 Flash Programmer The recommended procedure is to first erase the memory by pushing th...

Page 205: ...structions to Click Program to download the application code see Figure 90 Figure 90 Flash Program Operation The FP 6000 will display Flash Loader Mode BlankCheck Pass A complete bar will appear at th...

Page 206: ...se the FP 6000 and reprogram following the above steps 12 4 5 Upgrading Firmware Upgrading Phase 1 firmware Version 1 0 or 1 03 to Phase 2 or later will not be possible directly A two step process mus...

Page 207: ...Frequency Shift Keying is encoding typically used by a MODEM HMI Human Machine Interface is also called MMI or Man Machine Interface Ia Ib Ic Phase currents for phases a b and c respectively Icon A pi...

Page 208: ...ciated current samples taken 90 earlier Thus a leading power factor will follow the convention of being positive Real Power Watts Real power is computed by summing the product of the individual curren...

Page 209: ...s below a programmed value 32 Power Protection Functions on a desired value of power flow in a given direction or upon reverse power 46 Reverse Phase or Phase Balance Current Relay Relay which functio...

Page 210: ...008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E 13 4 Time Current Curves A variety of inverse time overcurrent curves for the FP 6000 are shown i...

Page 211: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 211 Instructions for the FP 6000 Protective Relay Figure 95 ANSI Very Inverse...

Page 212: ...Instructional Literature Page 212 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 96 ANSI Extremely Inverse...

Page 213: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 213 Instructions for the FP 6000 Protective Relay Figure 97 IEC A...

Page 214: ...Instructional Literature Page 214 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 98 IEC B...

Page 215: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 215 Instructions for the FP 6000 Protective Relay Figure 99 IEC C...

Page 216: ...Instructional Literature Page 216 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 100 IEC...

Page 217: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 217 Instructions for the FP 6000 Protective Relay Figure 101 ANSI...

Page 218: ...Instructional Literature Page 218 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 102 Thermal...

Page 219: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 219 Instructions for the FP 6000 Protective Relay Figure 103 Phase I4t...

Page 220: ...Instructional Literature Page 220 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 104 I2t...

Page 221: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 221 Instructions for the FP 6000 Protective Relay Figure 105 It...

Page 222: ...Instructional Literature Page 222 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 106 Ground I4t...

Page 223: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 223 Instructions for the FP 6000 Protective Relay Figure 107 Ground I2t...

Page 224: ...Instructional Literature Page 224 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Figure 108 Ground IT...

Page 225: ...thstand to 35 V M 27 1000 MHz UL CUL FP 6000 UL Compliance is covered under UL File Number E154862 Catalog FP 6000 00 5 Amp Version only FP5100 00 1 Amp version pending UL 1053 Ground Fault Interrupti...

Page 226: ...Instructional Literature Page 226 Effective May 2008 Instructions for the FP 6000 Protective Relay For more information visit www eaton com IB02602004E Notes...

Page 227: ...IB02602004E For more information visit www eaton com Instructional Literature Effective May 2008 Page 227 Instructions for the FP 6000 Protective Relay Notes...

Page 228: ...poration All Rights Reserved Printed in USA Publication No IB02602004E TBG00196 May 2008 Instructions for the FP 6000 Protective Relay Eaton Corporation Electrical Group 1000 Cherrington Parkway Moon...

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