Multilin 469 Motor Management Relay ... - GE Digital Energy

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CHAPTER 5: SETTINGS Overload Curve feature is tailored to protect these types of motors. Voltage is continually monitored during motor starting and the acceleration thermal limit curve is adjusted accordingly. The Voltage Dependent Overload Curve is comprised of the three characteristic shapes of thermal limit curves as determined by the stall or locked rotor condition, acceleration, and running overload. The curve is constructed by entering a custom curve shape for the running overload protection curve. Next, a point must be entered for the acceleration protection curve at the point of intersection with the custom curve, based on the minimum allowable starting voltage as defined by the minimum allowable line voltage. The locked rotor current and safe stall time must also be entered for that voltage. A second point of intersection must be entered for 100% line voltage. Once again, the locked rotor current and the safe stall time must be entered, this time for 100% line voltage. The protection curve created from the safe stall time and intersection point will be dynamic based on the measured line voltage between the minimum allowable line voltage and the 100% line voltage. This method of protection inherently accounts for the change in motor speed as an impedance relay would. The change in impedance is reflected by motor terminal voltage and line current. For any given speed at any given line voltage, there is only one value of line current. 5–48 469 MOTOR MANAGEMENT RELAY – INSTRUCTION MANUAL
CHAPTER 5: SETTINGS TIME TO TRIP (SECONDS) 1000 900 800 700 600 500 400 300 200 100 90 80 70 60 50 40 30 20 10 9 8 7 6 5 4 3 2 1 GE Multilin HIGH INERTIA LOAD OVERLOAD CURVES 8800 HP, 13.2 kV, REACTOR COOLANT PUMP 1 2 3 4 5 6 7 8 MULTIPLES OF FULL LOAD AMPS FIGURE 5–8: Thermal Limits for High Inertial Load To illustrate the Voltage Dependent Overload Curve feature, the thermal limits of FIGURE 5–8: Thermal Limits for High Inertial Load will be used. 1. Construct a custom curve for the running overload thermal limit. If the curve does not extend to the acceleration thermal limits, extend it such that the curve intersects the acceleration thermal limit curves (see the Custom Curve below). 2. Enter the per unit current value for the acceleration overload curve intersect with the custom curve for 80% line voltage. Also enter the per unit current and safe stall protection time for 80% line voltage (see the Acceleration Curves below). 3. Enter the per unit current value for the acceleration overload curve intersect with the custom curve for 100% line voltage. Also enter the per unit current and safe stall protection time for 100% line voltage (see the Acceleration Curves below). 469 MOTOR MANAGEMENT RELAY – INSTRUCTION MANUAL 5–49 1 g 2 1- Running Overload Thermal Limit 2- Acceleration Thermal Limit @ 80%V 3- Acceleration Thermal Limit @ 100%V 4- Locked Rotor Thermal Limit 5- Motor Acceleration Curve @ 80% V 6- Motor Acceleration Curve @ 100%V 3 5 6 4 806821A4.CDR
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Software Revision: 5.1x Manual P/N:
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TOC TABLE OF CONTENTS Table of Cont
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TOC TABLE OF CONTENTS LOADING NEW F
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TOC TABLE OF CONTENTS LAST TRIP DAT
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Digital Energy Multilin 1.1 Importa
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CHAPTER 1: GETTING STARTED 1.2 Usin
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CHAPTER 1: GETTING STARTED To enter
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CHAPTER 1: GETTING STARTED Press t
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CHAPTER 1: GETTING STARTED 1.3 Chan
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CHAPTER 1: GETTING STARTED 1.3.4 En
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CHAPTER 1: GETTING STARTED SETTING
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CHAPTER 1: GETTING STARTED 1.3.5 Ou
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CHAPTER 1: GETTING STARTED 1.4 Appl
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CHAPTER 1: GETTING STARTED To begin
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CHAPTER 1: GETTING STARTED FIGURE 1
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CHAPTER 1: GETTING STARTED • Powe
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CHAPTER 1: GETTING STARTED • RTDs
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CHAPTER 1: GETTING STARTED 469 Moto
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CHAPTER 1: GETTING STARTED • Star
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CHAPTER 1: GETTING STARTED For curr
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CHAPTER 1: GETTING STARTED 1.4.6 S5
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CHAPTER 1: GETTING STARTED 1.4.8 S7
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CHAPTER 1: GETTING STARTED if the m
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2.1 Overview Digital Energy Multili
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CHAPTER 2: INTRODUCTION 51 Overload
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CHAPTER 2: INTRODUCTION 2.1.3 Order
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CHAPTER 2: INTRODUCTION 2.2.2 Outpu
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CHAPTER 2: INTRODUCTION Timing accu
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CHAPTER 2: INTRODUCTION 2.2.4 Digit
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CHAPTER 2: INTRODUCTION Note 2.2.6
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CHAPTER 2: INTRODUCTION 2.2.10 Cert
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Digital Energy Multilin 3.1 Mechani
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CHAPTER 3: INSTALLATION 3.1.3 Insta
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CHAPTER 3: INSTALLATION 3.1.4 Unit
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CHAPTER 3: INSTALLATION 3.1.5 Ether
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CHAPTER 3: INSTALLATION 3.1.7 Termi
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CHAPTER 3: INSTALLATION 3.2 Electri
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CHAPTER 3: INSTALLATION 3.2.4 Curre
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CHAPTER 3: INSTALLATION FIGURE 3-15
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CHAPTER 3: INSTALLATION 3.2.5 Volta
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CHAPTER 3: INSTALLATION 3.2.7 Analo
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CHAPTER 3: INSTALLATION Hot Compens
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CHAPTER 3: INSTALLATION relays, bei
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CHAPTER 3: INSTALLATION 3.2.13 Diel
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CHAPTER 3: INSTALLATION 3.2.14 2-Sp
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Digital Energy Multilin 4.1 Facepla
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CHAPTER 4: INTERFACES 4.1.4 RS232 P
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CHAPTER 4: INTERFACES The MESSAGE
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CHAPTER 4: INTERFACES 4.1.7 Diagnos
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CHAPTER 4: INTERFACES 4.1.9 Flash M
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CHAPTER 4: INTERFACES 4.2.2 Hardwar
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CHAPTER 4: INTERFACES 4.2.3 Install
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CHAPTER 4: INTERFACES Click on Nex
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CHAPTER 4: INTERFACES Select “Se
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CHAPTER 4: INTERFACES 4.3.4 Connect
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CHAPTER 4: INTERFACES Note The fron
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CHAPTER 4: INTERFACES 4.4.3 File Su
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CHAPTER 4: INTERFACES Note The Open
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CHAPTER 4: INTERFACES Note For fut
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CHAPTER 4: INTERFACES Note Click F
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CHAPTER 4: INTERFACES Enter the ap
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CHAPTER 4: INTERFACES Click OK. Th
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CHAPTER 4: INTERFACES 4.5 Upgrading
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CHAPTER 4: INTERFACES Note Cycling
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CHAPTER 4: INTERFACES The waveform
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CHAPTER 4: INTERFACES The EnerVista
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CHAPTER 4: INTERFACES With EnerVist
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CHAPTER 4: INTERFACES 4.6.5 Event R
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CHAPTER 4: INTERFACES • Active al
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Page 143 and 144: 5.1 Overview Digital Energy Multili
Page 145 and 146: CHAPTER 5: SETTINGS SETTINGS [ MES
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Page 181 and 182: CHAPTER 5: SETTINGS 5.6.3 Overload
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Page 187 and 188: CHAPTER 5: SETTINGS Note TIME TO TR
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CHAPTER 5: SETTINGS 5.14.2 Pre-Faul
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CHAPTER 5: SETTINGS 5.14.4 Test Out
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CHAPTER 5: SETTINGS 5.15 S14 Two-Sp
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CHAPTER 5: SETTINGS MESSAGE MESSAGE
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CHAPTER 5: SETTINGS 5.15.2 Speed2 U
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CHAPTER 6: ACTUAL VALUES 6.1.2 Desc
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CHAPTER 6: ACTUAL VALUES 6.2.2 Moto
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CHAPTER 6: ACTUAL VALUES 6.2.4 Alar
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CHAPTER 6: ACTUAL VALUES 6.2.5 Star
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CHAPTER 6: ACTUAL VALUES 6.3 A2 Met
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CHAPTER 6: ACTUAL VALUES 6.3.3 Volt
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CHAPTER 6: ACTUAL VALUES 6.3.6 Dema
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CHAPTER 6: ACTUAL VALUES FIGURE 6-1
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CHAPTER 6: ACTUAL VALUES The ACTUAL
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CHAPTER 6: ACTUAL VALUES The EnerVi
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CHAPTER 6: ACTUAL VALUES When the r
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CHAPTER 6: ACTUAL VALUES Pressing t
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CHAPTER 6: ACTUAL VALUES 6.4 A3 Lea
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CHAPTER 6: ACTUAL VALUES 6.4.4 Anal
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CHAPTER 6: ACTUAL VALUES 6.5.2 Gene
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CHAPTER 6: ACTUAL VALUES 6.6 A5 Eve
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CHAPTER 6: ACTUAL VALUES Underpower
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CHAPTER 6: ACTUAL VALUES 6.8 Diagno
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CHAPTER 6: ACTUAL VALUES forgotten,
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CHAPTER 6: ACTUAL VALUES PASSCODE
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CHAPTER 7: TESTING 7.2 Hardware Fun
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CHAPTER 7: TESTING 7.2.4 GE Multili
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CHAPTER 7: TESTING APPLIED RESISTAN
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CHAPTER 7: TESTING ANALOG OUTPUT FO
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CHAPTER 7: TESTING 7.3 Additional F
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CHAPTER 7: TESTING Symmetrical comp
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Digital Energy Multilin 469 Motor M
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A: APPENDIX Once again, if the pola
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A: APPENDIX • Programming the STA
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A: APPENDIX HGF5C HGF8 808841A1 808
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A: APPENDIX 808712A1.CDR 469 MOTOR
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A: APPENDIX A.5 Change Notes A.5.1
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A: APPENDIX PAG E (A3) PAG E (A4) T
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CHAPTER I: Index Numerics 0 to 1mA
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CHAPTER I: B BAUD RATE setpoints ..
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CHAPTER I: pressure switch alarm ..
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CHAPTER I: analog current .........
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CHAPTER I: NAMEPLATE VOLTAGE.......
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CHAPTER I: POWER FACTOR setpoints .
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CHAPTER I: RTD BIAS curve .........
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CHAPTER I: see 5 START BLOCK RELAY
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CHAPTER I: U description...........
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