Hitachi SJ300-037HFE manuals
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Hitachi SJ300-037HFE Manual
289 pages 7.11 Mb
1 SJ300 Series Inverter Instruction ManualThree-phaseInput 200V Class 400V Class UL Version Models CE Version ModelsManual Number: NB613XH After reading this manual December keep it handy for future reference 2 Safety Messages16 Table of Contents20 Getting Started38 Inverter Mountingand Installation 68 Configuring 3 Drive Parameters137 Operationsand Monitoring 210 Inverter SystemAccessories212 AC Reactors, Input SideAC Reactor or LCR Filter, Output Side •If the unbalanced factor of the power supply is 3% or higher •If abrupt power supply changes are expected Examples of these situations include: 1.Several inverters are connected in parallel, sharing the same power bus An installed VRS = 205V, VST = 203V, VTR = 197V where VRS is R-Sline voltage, VST is S-Tline voltage, VTR is T-Rline voltage Meanline voltage ) ⁄ ⋅ 100 205 – ⋅ 100 = 1.5% Control Motor 213 Zero-phaseReactor (RF Noise Filter) EMI Filter Ferrite Core RF Noise Filter (Capacitive) DC Link Choke 214 Expansion Cards215 Dynamic Braking Usage Ratio216 SJ300Selection Tables 1/2 to 15 hp (0.4 to 11 kW) 217 Braking Unitinverter models and their applicable braking unitsPerformance Versus External Braking Units 20 to 200 hp (15 to 1500 kW) Without Braking With Braking Unit Unit Braking Unit 218 Selecting aBraking Resistor200V Class Dynamic Braking Resistor Selection 400V Class Selection Dynamic 219 externalExample configuration x (quantity) 222 Troubleshooting 6 and Maintenance240 Glossary and Bibliography241 AmbientTemperature Arrival Frequency Auto-tuning Base Frequency Break-away Carrier Choke DC Braking DC Link Deadband Panel 242 DiodeDuty Cycle Error EMI Four-quadrantoperation Free-runStop Setting Harmonics Horsepower IGBTInsulated Gate Bipolar Transistor Inertia 243 IsolationTransformer Jump Frequency Line Reactor Momentum Multi-speed Motor Load NEC NEMA Open-collectorOutputs Orientation Power Factor PID Loop Process Variable PWM 244 ReactanceRectifier Regenerative Braking Regulation Reverse Torque Rotor Saturation Sensorless Vector Control Setpoint (SP) Single-phasePower Slip Squirrel Cage Stator Start Frequency Tachometer 245 TitleAuthor and Publisher Variable Speed Drive Fundamentals, 2nd Ed Phipps, Clarence A The Fairmont Press, Inc. / Prentice-Hall,Inc ISBN Electronic Variable Speed Drives Brumbach, Michael E Delmar Publishers Hitachi Inverter Technical Guide Book Published by Hitachi, Ltd. Japan Publication SIG-E002 246 SerialB Communications265 Drive ParameterSettings Tables266 Output frequency settingAcceleration (1) time setting Acceleration (1) time setting, 2nd Acceleration (1) time setting, 3rd Deceleration (1) time setting Deceleration (1) time setting, 2nd Deceleration (1) time setting, 3rd Keypad Run key routing 267 Frequency source settingRun command source setting Base frequency setting Base frequency setting, 2nd motor Base frequency setting, 3rd motor Maximum frequency setting Maximum frequency setting, 2nd Maximum frequency setting, 3rd [AT] selection [O2] selection [O]–[L]input active range start [O]–[L]input active range end [O]–[L]input start frequency enable External frequency filter time const Multi-speedoperation selection Multi-speedfrequency setting Multi-speedfrequency setting, 2nd Multi-speedfrequency setting, 3rd Multi-speed1 setting Multi-speed2 setting Multi-speed3 setting Multi-speed4 setting Multi-speed5 setting Multi-speed6 setting Multi-speed7 setting 268 Multi-speed8 settingMulti-speed9 setting Multi-speed10 setting Multi-speed11 setting Multi-speed12 setting Multi-speed13 setting Multi-speed14 setting Multi-speed15 setting Jog frequency setting Jog stop mode Torque boost method selection, 2nd Manual torque boost value Manual torque boost value, 2nd Manual torque boost value, 3rd Manual torque boost frequency adjustment adjustment, 2nd motor adjustment, 3rd motor V/F characteristic curve selection 1st motor V/f gain setting DC braking enable DC braking frequency setting DC braking wait time DC braking force during deceleration DC braking time for deceleration 269 DC braking / edge or level detectionfor [DB] input DC braking force for starting DC braking time for starting DC braking carrier frequency setting Frequency upper limit setting Frequency upper limit setting, 2nd Frequency lower limit setting Frequency lower limit setting, 2nd Jump (center) frequency setting Jump (hysteresis) frequency width Acceleration stop frequency setting Acceleration stop time frequency PID Function Enable PID proportional gain PID integral time constant PID derivative gain PV scale conversion PV source setting AVR function select AVR voltage select Operation mode selection Energy saving mode tuning Acceleration (2) time setting Acceleration (2) time setting, 2nd Acceleration (2) time setting, 3rd Deceleration (2) time setting 270 Deceleration (2) time setting, 2ndDeceleration (2) time setting, 3rd Select method to switch to Acc2 Dec2 profile Dec2, 2nd motor Acc1 to Acc2 frequency transition point point, 2nd motor Dec1 to Dec2 frequency transition Acceleration curve selection Deceleration curve setting [OI]–[L]input active range start [OI]–[L]input active range end [OI]–[L]input start frequency enable [O2]–[L]input active range start [O2]–[L]input active range end Acceleration curve constants setting Deceleration curve constants setting 271 Selection of restart modeAllowable under-voltagepower failure time Retry wait time before motor restart Instantaneous power failure / under voltage trip alarm enable under-voltagetrip events Electronic thermal setting (calcu output), 2nd motor output), 3rd motor Electronic thermal characteristic Electronic thermal characteristic Free setting, electronic thermal frequency (1) current (1) frequency (2) current (2) frequency (3) current (3) Overload restriction operation mode Overload restriction setting 272 Deceleration rate at overload restricOverload restriction setting (2) Deceleration rate at overload restriction (2) Software lock mode selection Run/power-onwarning time Rotational direction restriction Reduced voltage start selection Function code display restriction Torque limit selection Torque limit (1) (forward-drivingin 4-quadrantmode) Torque limit (2) (reverse-regenerat ing in 4-quadrantmode) Torque limit (3) (reverse-drivingin Torque limit (4) (forward-regenerat Torque limit LADSTOP enable Reverse Run protection enable Controller deceleration and stop on power loss DC bus voltage trigger level during loss Deceleration time setting during Initial output frequency decrease during power loss [AM] terminal analog meter adjust ment [FM] terminal analog meter adjust Start frequency adjustment Carrier frequency setting 273 Initialization mode (parameters ortrip history) Country code for initialization Frequency scaling conversion factor STOP key enable Restart mode after FRS Dynamic braking usage ratio Stop mode selection Cooling fan control Dynamic braking control Dynamic braking activation level Thermistor for thermal protection control Thermal protection level setting Free-settingV/f frequency (1) Free-settingV/f voltage (1) Free-settingV/f frequency (2) Free-settingV/f voltage (2) Free-settingV/f frequency (3) Free-settingV/f voltage (3) Free-settingV/f frequency (4) Free-settingV/f voltage (4) Free-settingV/f frequency (5) Free-settingV/f voltage (5) Free-settingV/f frequency (6) Free-settingV/f voltage (6) Free-settingV/f frequency (7) Free-settingV/f voltage (7) Brake Control Enable Brake Wait Time for Release Brake Wait Time for Acceleration Brake Wait Time for Stopping Brake Wait Time for Confirmation Brake Release Frequency Setting 274 Brake Release Current SettingTerminal [1] function Terminal [2] function Terminal [3] function Terminal [4] function Terminal [5] function Terminal [6] function Terminal [7] function Terminal [8] function Terminal [1] active state Terminal [2] active state Terminal [3] active state Terminal [4] active state Terminal [5] active state Terminal [6] active state Terminal (7) active state Terminal [8] active state Terminal [FW] active state Terminal [11] function Terminal [12] function Terminal [13] function Terminal [14] function Terminal [15] function Alarm relay terminal function [FM] signal selection [AM] signal selection [AMI] signal selection 275 Terminal [11] active stateTerminal [12] active state Terminal [13] active state Terminal [14] active state Terminal [15] active state Alarm relay active state Overload signal output mode Overload level setting Frequency arrival setting for accel Arrival frequency setting for decel PID deviation level setting Frequency arrival setting for deceleration (2) Over-torque (forward-driving)level Over-torque(reverse regenerating) level setting Over-torque(reverse driving) level Over-torque(forward regenerating) Electronic thermal warning level Alarm code output Zero speed detection level Data command method Communication speed selection Node allocation Communication data length selec Communication parity selection Communication stop bit selection Communication wait time [O] input span calibration 276 [OI] input span calibration[O2] input span calibration Thermistor input tuning [AM] terminal offset tuning [AMI] terminal meter tuning [AMI] terminal offset tuning Debug mode enable edit Up/Down memory mode selection Reset mode selection Restart mode after reset Overload setting (2) [OI] input zero calibration [O2] input zero calibration 277 Auto-tuningSettingMotor data selection, 1st motor Motor data selection, 2nd motor Motor capacity, 1st motor Motor capacity, 2nd setting Motor poles setting, 1st motor Motor poles setting, 2nd motor Motor stabilization constant, 1st Motor stabilization constant, 2nd Motor stabilization constant, 3rd Motor constant R1, 1st motor Motor constant R1, 2nd motor Motor constant R2, 1st motor Motor constant R2, 2nd motor Motor constant L, 1st motor Motor constant L, 2nd motor Motor constant Io Motor constant Io, 2nd motor Motor Constant J Motor constant J, 2nd motor Auto constant R1, 1st motor Auto constant R1, 2nd motor 278 Auto constant R2, 1st motorAuto constant R2, 2nd motor Auto constant L, 1st motor Auto constant L, 2nd motor Auto constant Io, 1st motor Auto constant Io, 2nd motor Auto constant J, 1st motor Auto constant J PI proportional gain for 1st motor PI proportional gain for 2nd motor PI integral gain for 1st motor PI integral gain for 2nd motor P proportional gain setting for 1st P proportional gain setting for 2nd Zero LV limit for 1st motor Zero LV limit for 2nd motor Terminal selection PI proportional gain setting Terminal selection PI integral gain Terminal selection P proportional 279 Operation mode on expansion cardFeedback option enable Encoder pulse-per-revolution(PPR) Control pulse setting Home search speed setting Home search direction setting Home search completion range Home search completion delay time Electronic gear set position selection Electronic gear ratio numerator Electronic gear ratio denominator Feed-forwardgain setting Position loop gain setting Temperature compensation thermistor enable Over-speederror detection level Speed deviation error detection level Accel/decel time input selection Positioning command input selec DeviceNet comm watchdog timer Inverter action on DeviceNet comm DeviceNet polled I/O: Output instance number 280 DeviceNet polled I/O: Input instancenumber Inverter action on DeviceNet idle mode Motor poles setting for RPM 281 CE–EMCInstallation Guidelines 285 Index
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