Hitachi SJ700 User's Manual
Contents
1. 1 gt 171 T2 T3 G TERMINA LS Control Circuit Terminals Terminal Description Symbol Name J Explanation of Terminals Ratings Common Orne Common terminal for H O O2 Ol AM and AMI Do not ground Power Source Power Supply Power Source for Frequency Setting Power supply for frequency command input DC 10V 20mA max Frequency Command Terminal Maximum frequency is attained at DC 10V in DC 0 10V range Set the voltage at A014 to command maximum frequency below DC 10V Input impedance 10kQ Allowable input voltage range DC 0 3 12V Frequency Setting Monitor Output Frequency Command Extra Terminal Frequency Command Terminal Analog Output Monitor Voltage Analog Output Monitor Current O2 signal is added to the frequency command of O or Ol in DC 0 10V range By changing configuration frequency command can be input also at O2 terminal Maximum frequency is attained at DC 20mA in DC 4 20mA range When the intelligent terminal configured as AT is on OI signal is enabled Selection of one function from Output frequency output current torque output voltage input power electronic thermal load ratio and LAD frequency Input impedance 10kO Allowable input voltage range DC 0 12V Input impedance 1000 Allowable input voltage range DC 0 24mA DC 0 10V 2mA max DC 4 20mA 2500 max Monitor2. C168 Input terminal response time setting FW 0 to 200 x2ms 1 1 1 1 X z C169 Multistage speed position determination time 0 to 200 x10ms 0 0 0 0 X H GROUP MOTOR CONSTANTS FUNCTIONS O Allowed X Not permitted Default Setting Setting Change Monitored data or setting SJ700 during operation during operation FE CE FU UL SJ700B allowed or not allowed or not Function Name H001 Auto tuning Setting P e o 00 00 00 x x H002 Motor data selection 1st motor 26 an oe ea Voca ipd TUNER 00 00 00 00 x x 00 Hitachi standard data 01 auto tuned data H202 Motor data selection 2nd motor 02 auto tuned data with online auto tuning function 00 00 00 00 X x H003 Motor capacity 1st motor SJ700 0 20 to 400 0 kW SJ700B 0 20 to 160 kW EO X X H203 Motor capacity 2nd motor SJ700 0 20 to 400 0 kW SJ700B 0 20 to 160 kW X x H004 Motor poles setting 1st motor 2 4 6 8 10 poles 4 4 X X H204 Motor poles setting 2nd motor 2 4 6 8 10 poles 4 4 X X H005 Motor speed constant 1st motor 0 001 to 9 999 10 00 to 80 00 10 000 to 80 000 1 590 1 590 1 590 1 590 O O H205 Motor speed constant 2nd motor 0 001 to 9 999 10 00 to 80 00 10 000 to 80 000 1 590 1 590 1 590 1 590 H006 Motor stabilization constant 1st motor
3. EI LU new 5J700B NR ES For More Precise Control For General Purpose Use Hitachi Industrial Equipment Systems Co Ltd J700 For More Precise Control High starting Torque Powerful Drive and easy setting Trip avoidance function High starting Torque Improved Sensorless Vector Control and Auto Tuning produce high starting torque of 200 or more at 0 3Hz Easy setup of motor constants Ideal for applications which need high torque such as cranes extruders and lifts Motor Torque vs Speed Speed min 1 Starting torque Series Applicable motor 0 4 to 55kW 0 3Hz 200 SJ700 75 to 132kW 0 3Hz 180 185 to 400kW 0 3Hz 150 11 to 75kW 0 5Hz 150 B 90 to 160kW 0 5Hz 12096 Starting torque Possible with SJ700 Series Hitachi exclusive 0Hz Domain sensorless vector control Develops 150 SJ700B 120 2 torque at OHz speed reference Ideal for cranes and other applications that require high torque at starting 2 when inverter is one frame size larger than motor Position Control Function The SJ700 with optional feedback board installed together with an encoder equipped motor can perform position control For many applications suitable performance can be achieved at a lower cost than servo systems Based on your four motion parameters position command speed command acceleration time and deceleration time the SJ700 will move an object from original posit
4. Manual torque boost value 0 0 to 20 0 1 0 1 0 1 0 QO A242 Manual torque boost value 2nd motor 0 0 to 20 0 1 0 1 0 1 0 Q Q A342 Manual torque boost value 3rd motor 0 0 to 20 0 96 1 0 1 0 1 0 f A043 Manual torque boost frequency adjustment 0 0 to 50 0 5 0 5 0 A243 Manual torque boost frequency adjustment 2nd motor 0 0 to 50 0 5 0 5 0 9 A343 Manual torque boost frequency adjustment 3rd motor 0 0 to 50 0 96 5 0 5 0 Q o AT 00 VO 01 VP 02 free V f 03 Sensorless vector control g A044 V F characteristic curve selection 1st motor 0 i DUE ded Er 05 1 vector with Em 00 00 00 x x A244 V F characteristic curve selection 2nd motor 00 VC 01 VP 02 free V f 03 sensorless vector control 04 0Hz range sensorless vector 00 00 00 X x 5 A344 V F characteristic curve selection 3rd motor 00 VC 01 VP 00 00 00 x x A045 V f gain setting 20 to 100 100 100 100 O A046 Voltage no a aion gain setting 0 to 255 100 O for automatic torque boost 1st motor anon gan ng 0 to 255 100 100 100 100 O O for automatic torque boost 2nd motor ENE Page compensation gain setting 0 to 255 100 100 100 100 O O for automatic torque boost 1st motor EE page compensation gain setting 0 to 255 100 100 100 100 O O for automatic torque boost 2nd motor A051 DC braking enable 00 disabling O1 enabling O2 set frequency only 00 Coo A x
5. OPE SR O WOP SRW 0EX 1 Production has been stopped ICS 1 1m CS 3 3m SJ200 Standard for SJ700 SJ700B SJ700 SJ700B SJ700 SJ700B SJ300 L300P SJ300 L300P 4X KlTmini For combination with OPE SR mini Screw T d p Panel _ External Gasket Front Cover Internal You can mount the keypad with the potentiometer for a NEMA1 rated installation The kit also provides for removing the potentiometer knob to meet NEMA 4X requirements as shown part no 4X KlTmini OG Cable Gasket 1 E Seal Cable lt ICS 1 3 gt gt gt EE i Internal ED em 72 on C Model Cable Length t Gasket 2 ICS 1 1m 3 3ft VA L ICS 3 3m 9 8ft Rear Cover HOperator lt OPE SR mini gt lt OPE SBK SR gt lt SRW 0J SRW 0EX gt lt WOP gt HITACHI HE POWER ALARM HITACHI ALARM PAG HITACHI RUN WARNING POWER RUN EL ajv E LIII Ey EALE For Furthermore Operation Main Features for WOP Large LCD screen Real time clock Copy function Storing parameter settings of a total 4 units of inverters Multi language Japanese English and Chinese Planning to expand to 10 languages SJ700 and SJ700B is English only Selectable display contents Use option as WOP Dimentions Unit mm inch Inches for reference only lt OPE SR mini gt lt OPE SBK SR gt lt
6. Q A052 DC braking frequency setting 0 00 to 99 99 100 0 to 400 0 Hz 2 0 50 0 50 A053 DC braking wait time 0 0 to 5 0 s 0 0 0 0 O A054 oC braking toroo duning deceleration STONO 1 100 idem TSH 10 80 EK and over 10 35 gt 0 o s A055 DC braking time for deceleration 0 0 to 60 0 s 0 0 A056 DC braking edge or level detection for DB input 00 edge operation 01 level operation 01 B 1057 DO braking farce tor startin See eee eevee es o o A058 DC braking time for starting 0 0 to 60 0 s 0 0 Q 2059 oc erating oanieriequeno ating Mann eu D TENG ANNO 100 0809 so x amp A061 Frequency upper limit setting 0 00 or 1st minimum frequency limit to maximum frequency Hz 0 00 X A261 Frequency upper limit setting 2nd motor 0 00 or 2nd minimum frequency limit to maximum frequency 2nd motor Hz 0 00 X Q A062 Frequency lower limit setting 0 00 or start frequency to maximum frequency limit Hz 0 00 X Q 5 A262 Frequency lower limit setting 2nd motor 0 00 or start frequency to maximum frequency 2nd motor limit Hz 0 00 X 2 A063 Jump center frequency setting 1 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x O E A064 Jump hysteresis frequency width setting 1 0 00 to 10 00 Hz 0 50 0 50 O 5 A065 Jump center frequency setting 2 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x A066 Jump hysteresis freq
7. iN u i I 1 1 Air intake 5 41 1 61 Wiring Hole 250 9 84 Please refer to page 30 for detailed information about compatibility with SJ300 8J700 055 110 LFUF2 LFF2 HFEF2 HFUF2 HFF2 SJ700B 110 150HFF 210 8 27 189 7 44 Digital Operator Air intake 3 33x28 1 30x1 10 Wiring Hole 13 6 0 25 8J700 300 LFUF2 LFF2 HFEF2 HFUF2 HFF2 SJ700B 370HFF Digital Operator Exhaust Ke TE Air intake 265 10 43 5 p25 p0 98 310 12 20 92310 Wiring Hole SJ700 550 LFUF2 LFF2 Digital Operator 2 p12 p0 47 125 4 92 80 3 15 9 3 11 7 Wall 670 26 38 700 27 56 352 13 87 Air intake 380 14 96 480 18 90 2 12 0 47 6 641 1 61 Wiring Hole 250 9 84 Unit mm inch Inches for reference only SJ700 750 900HFEF2 HFUF2 HFF2 SJ700B 900 1100HFF 32 5 80 2 p12 0 47 12 8 3 15 670 26 38 79 3 11 e 9 2 12 0 47 300 11 81 270 10 63 8J700 1100HFEF2 HFUF2 HFF2 1320HFEF2 HFF2 1500HFUF2 SJ700B 1320 160
8. 00 00 00 00 x O x C153 Logical output signal 4 operator selection 00 AND 01 OR 02 XOR 00 00 00 00 X Q So C154 Logical output signal 5 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X O E C155 Logical output signal 5 selection 2 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X C156 Logical output signal 5 operator selection 00 AND 01 OR 02 XOR 00 00 00 00 X C157 Logical output signal 6 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 x C158 Logical output signal 6 selection 2 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X O O C159 Logical output signal 6 operator selection 00 AND 01 OR 02 XOR oom 00 00 00 X O D C160 Input terminal response time setting 1 0 to 200 x2ms 1 1 1 1 X Q 5 C161 Input terminal response time setting 2 0 to 200 x2ms 1 1 1 1 x a C162 Input terminal response time setting 3 0 to 200 x2ms 1 1 1 1 X gt C163 Input terminal response time setting 4 0 to 200 x2ms 1 1 1 1 x g C164 Input terminal response time setting 5 0 to 200 x2ms 1 1 1 1 X C165 Input terminal response time setting 6 0 to 200 x2ms 1 1 X C166 Input terminal response time setting 7 0 to 200 x2ms 1 1 X Q C167 Input terminal response time setting 8 0 to 200 x2ms 1 1 X Q
9. 100 0 100 0 O H072 Terminal selection P proportional gain setting 0 00 to 10 00 1 00 1 00 1 00 O O H073 Gain switching time 0 to 9999 ms 100 100 100 5 O 1 1850HF 2200HF 3150HF and 4000HF 0 1 to 999 9 1000 to 6553 mQ Not available 2 1850HF 2200HF 3150HF and 4000HF 0 001 to 9 999 10 00 to 65 53 mH 3 1850HF 2200HF 3150HF and 4000HF 0 01 to 0 35 rated current A 18 Function Name OP GROUP EXPANSION CARD FUNCTIONS Monitored data or setting O Allowed X Not permitted Default Setting Setting Change SJ700 s J700B during operation during operation FE CE FU UL allowed or not allowed or not P001 Operation mode on expansion card 1 error 00 tripping 01 continuing operation 00 EAKA 00 X o P002 Operation mode on expansion card 2 error 00 tripping 01 continuing operation 00 el O PO11 Encoder pulse per revolution PPR setting 128 to 9999 1000 to 6500 10000 to 65000 pulses 1024 1024 1024 x P012 Control pulse setting 00 ASR 01 APR 02 APR2 03 HAPR E 00 00 oo x x PO13 Pulse input mode setting 00 mode 0 01 mode 1 02 mode 2 T T x x P014 Home search stop position setting 0 to 4095 x Q P015 Home search speed setting start frequency to maximum frequency up to 120 0 Hz E E
10. 3 phase 400V HFUF2 ee 9 00 0 0000 09 0 HFF2 o 9 9 06 o 00000 0 09 O0 3 phase 400V HFF SPECIFICATIONS General Specifications Items General Specifications Control Control method Line to line sine wave pulse width modulation PWM control Output frequency range 6 0 1 400 0Hz 400kW 0 1 120Hz Frequency accuracy Frequency resolution V f characteristics Digital 0 01 of the maximum frequency Analog 0 2 25 10 C Digital setting 0 01Hz Analog setting Maximum frequency 4 000 O terminal 12bit 0 10V O2 terminal 12bit 10 10V V f optionally variable 30 400Hz of base frequency V f control constant torque reduced torque Sensorless vector control OHz domain sensorless vector control vector control SJ FB card option Speed fluctuation 0 5 sensorless vector control Acceleration deceleration time 0 01 3 600sec Linear curve accel decel selection Two stage accel decel Starting Torque Carrier frequency range DC braking SJ700 Sensorless vector control 200 at 0 3Hz 75kW to 150kW 180 at 0 3Hz 185kW and over 150 at 0 3Hz SJ700B Sensorless vector control 15096 at 0 5Hz 90kW and over 120 at 0 5Hz SJ700 0Hz domain with motor one frame size down 150 at around OHz 75kW and over 13096 at around OHz SJ700 0 5 15 0kHz 185kW and over 0 5 3 0kHz SJ700B 0 5 12 0kHz 90kW and over 0 5 8 0kHz Performs at start under set frequency at d
11. 370 450LFF2 LFUF2 370 550HFF2 HFEF2 HFUF2 450 750HFF 550LFF2 LFUF2 750 900HFF2 HFEF2 HFUF2 1100HFF2 HFEF2 HFUF2 1320HFF2 HFEF2 1500HFUF2 900 1100HFF 1320 1600HFF 1850 2200HF2 HFE2 HFU2 3150HF2 HFE2 HFU2 4000HF2 HFE2 HFU2 RoTo terminals All models LFF2 007 037 HFEF2 HFUF2 HFF2 RiSITIU VIW Ro To L1 2 13 Tf 72 T3 PDPN RBOI 1 RB G G MM SJ700 055 220LFUF2 LFF2 HFEF2 HFUF2 HFF2 MM SJ700B 110 300HFF Ro To RB D G RISITIPDIPINIUIVIW L1 L2 L3 1 T1 T2 T3 QD G i SJ700 300 370LFUF2 LFF2 300 550HFEF2 HFUF2 HFF2 li SJ700B 370 750HFF Ro To Ro To GO RI SITIPDP NJU VW G G L1 L2 L3 1 T1 T2 T3 G ll SJ700 450 550LFUF2 LFF2 750 1100HFEF2 HFUF2 HFF2 1320HFEF2 HFF2 1500HFUF2 HN SJ700B 550 750LFF 900 1600HFF Ro To Ro To RIS T PDP P NIU VW L1 L2 L3 1 11 T2 T3 G 21 G MM SJ700 1850 2200HFE2 HFU2 HF2 Ro To Ro To R S TPDP NU VW G L1 L2 L3 1 T1 T2 T3 G P i SJ700 3150HFE2 HFU2 HF2 Ro To Ro To P S PD N V ala ar G L1 L3 T T3 6 i SJ700 4000HFE2 HFU2 HF2 Ro To Ro To P DIR SIT IPD P NU V Ww G L1 L2 L3
12. Q Q w w as as T XT c c o o E E 3 3 o o 3 2 Q Q 2 O O Carrier frequency KHz Carrier frequency KHz SJ700B Ev ES ERS Output current Ratio to the rating 8 Carrier frequency kHz 29 DIFFERENCE and COMPATIBILITY of SJ300 series and SJ700 series 0 mem so so O You can copy the parameter settings from the SJ300 series into the SJ700 series Copying the parameter settings You cannot copy the parameter settings from the SJ700 series to the SJ300 series because the SJ700 series has many new functions and additional parameters No display mode selection Basic display mode Data comparison function addition Parameter display mode full display Note basic display mode factory setting To display all parameters specify 00 for b037 Instantaneous power failure under voltage Instantaneous power failure under voltage lt sets Retry or trip parameter overvoltage overcurrent lt sets up by b001 up by b001 overvoltage overcurrent lt sets up by b008 d001 Output frequency monitoring You can not change the output frequency You can not change the output frequency 4007 setting by using the and or V key setting by using the and or V key Scaled output frequency monitoring TIL aem R bl Removable Control UN Removable You can mount the SJ300 series into the SJ700 series Circuit Other model same position 055L H 5mm upper part from SJ30
13. SRW 0J SRW 0EX WOP gt S co om 2 o Q HITACHI 1 HITACHI o Q e e RUN WARNING ALARM o POWER SL m o x O REMOTE OPERATOR 123 4 84 Potentiometer is installed only in OPE SR 26 5 1 04 6 Ts N IE i l 1 1 2 M3 depth5 Reverse side 1 K N 1 18 o a l 0 71 5 I LO 1 1 et n B Mounting holes o 8 Mounting holes OSG 20 TERMINALS Main Circuit Terminals Terminal Description R L1 S L2 T L3 Terminal Symbol Terminal Name Main power supply input terminals Terminal Symbol Terminal Name P NC External braking unit connection terminals U T1 V T2 W T3 PD 1 P Inverter output terminals DC reactor connection terminals G Ground connection terminal Ro Ro To To Control power supply input terminals P RB RB O Screw Diameter and Terminal Width W W Terminal width Terminal Arrangement MM SJ700 004 037LFUF2 External braking resistor connection terminals Model Screw Ground Screw Terminal SJ700 SJ700B diameter diameter width mm 004 037LFF2 LFUF2 007 037HFF2 HFEF2 HFUF2 055 075LFF2 LFUF2 HFF2 HFEF2 HFUF2 M4 M4 110HFF 110LFF2 LFUF2 HFF2 HFEF2 HFUF2 150HFF 150 185LFF2 LFUF2 150 300HFF2 HFEF2 HFUF2 220 300LFF2 LFUF2 185 370HFF
14. to 100 20 20 20 20 E 8 SJ700 0 0 to 2 00 x rated current A lt 75kW and over 0 0 to 1 80 x rated current gt Rated current of 5 C111 Overload setting 2 SJ700B 0 0 to 1 50 x rated san inverterx 1 0 O 5 C121 O input zero calibration 0 to 9999 1000 to 6553 10000 to 65530 C122 Ol input zero calibration 0 to 9999 1000 to 6553 10000 to 65530 Factory set O C123 O2 input zero calibration 0 to 9999 1000 to 6553 10000 to 65530 Q Q C130 Output 11 on delay time 0 0 to 100 0 s 0 0 00 00 00 O O C131 Output 11 off delay time 0 0 to 100 0 s 0 0 x C132 Output 12 on delay time 0 0 to 100 0 s 0 0 x c C133 Output 12 off delay time 0 0 to 100 0 s 0 0 x C134 Output 13 on delay time 0 0 to 100 0 s 0 0 x O S C135 Output 13 off delay time 0 0 to 100 0 s 0 0 x C136 Output 14 on delay time 0 0 to 100 0 s SORS SESS C137 Output 14 off delay time 0 0 to 100 0 s Gon oom SENS 5 C138 Output 15 on delay time 0 0 to 100 0 s QUON Eo om Roc oan eae ENT S C139 Output 15 off delay time 0 0 to 100 0 s 0 0 0 0 00 x G C140 Output RY on delay time 0 0 to 100 0 s 0 0 0 0 0 0 x Q C141 Output RY off delay time 0 0 to 100 0 s 0 0 0 0 0 0 x 9 C142 Logical output signal 1 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 X O 2 C143 Logical output signal 1 selection 2 Same as
15. 0 to 255 100 100 100 100 Q Q H206 Motor stabilization constant 2nd motor 0 to 255 100 100 100 100 C Q 4 H306 Motor stabilization constant 3rd motor 0 to 255 100 100 100 100 O O S H020 Motor constant R1 1st motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X 2 H220 Motor constant R1 2nd motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X 8 H021 Motor constant R2 1st motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X g H221 Motor constant R2 2nd motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X 5 H022 Motor constant L 1st motor 0 01 to 99 99 100 0 to 655 3 mH 2 X X O H222 Motor constant L 2nd motor 0 01 to 99 99 100 0 to 655 3 mH 2 X X H023 Motor constant lo 0 01 to 99 99 100 0 to 655 3 A 3 X X H223 Motor constant lo 2nd motor 0 01 to 99 99 100 0 to 655 3 A 3 X X HO24 Motor constant J 0 001 to 9 999 10 00 to 99 99 100 0 to 999 9 1000 to 9999 X X H224 Motor constant J 2nd motor 0 001 to 9 999 10 00 to 99 99 100 0 to 999 9 1000 to 9999 X X H030 Auto constant R1 1st motor 0 001 to 9 999 10 00 to 65 53 Q 1 sped ida x x H230 Auto constant R1 2nd motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X H031 Auto constant R2 1st motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X H231 Auto constant R2 2nd motor 0 001 to 9 999 10 00 to 65 53 Q 1 X X H032 Auto constant L 1st motor 0 01 to 99 99 100 0 to 655 3 mH 2 X X H232 Auto consta
16. 03 OL 03 OL X operation result 2 35 LOGS logical operation result 3 36 LOG4 logical operation result 4 37 LOGS logical operation result 5 38 LOG6 logical operation result 6 39 WAC capacitor life warning 2 40 WAF cooling fan speed drop 41 FR starting contact signal 42 OHF heat sink 07 OTO overheat warning 43 LOC low current indication signal 44 M01 general purpose output 1 07 0TO 07 OTO 07 OTO X m 45 M02 general purpose output 2 46 M03 general purpose output 3 47 M04 general purpose output 4 48 M05 general purpose output 5 49 M06 general purpose output 6 50 IRDY inverter AO WAF ready 51 FWR forward rotation 52 RVR reverse rotation 53 MJA major failure 54 WCO window comparator O 55 WCOI window comparator Ol 56 WCO2 window comparator O2 When alarm code output is selected for C062 functions ACO to AC2 or ACO to AC3 ACn alarm code output are forcibly assigned to intelligent output terminals 11 to 13 05 AL 05 AL or 11 to 14 respectively 40 WAF 40 WAF 40 WAF x O 05 AL 05 AL x O C027 C028 FM signal selection AM signal selection 00 output frequency 01 output current 02 output torque 03 digital output frequency 04 output voltage 05 input power 06 electronic thermal overload 07 LAD frequency 08 digital current 00 00 monitoring 09 motor temperature 10 heat sink t
17. 20mA mate a RS 485 L Serial communication port DC0 10V iobi mm k I Expansion card 1 AM monitor output i LAM c Analog output HEN AM monitor output ws M d m i Expansion card 2 Analog output DC4 20mA 10bit oe Option FW 1 2 3 4 5 6 7 8 FM TH H O O2 Ol AM AMI 11 12 13 14 15 Customer wiring CM1 CM2 Outside the inverter Note1 Please be sure to connect DC reactor attached to 1850HF 2200HF 3150HF and 4000HF 24 CONNECTING DIAGRAM Sink type logic 200V class 200V 240V 10 15 50 60HZ 5 400V class 380V 480V 10 15 50 60HZ 5 R L1 SJ700 SJ700B T1 EE TX T2 V Cm AUTRES i co m 1 PD DC link choke Note 1 2 Remove connection with J51 D when RoTo power is supplied t lt I T J51 externally d RO Control power source Be P24 Short circuit bar um cU SJ700 For 30kKW 40HP and over Forward command T SJ700B For 37kW 50HP and over xc usse uer duc SJ700 For up to 22KW 30HP CR ALO J SJ700B For up to 30kW 40HP 18 T mM 2O8HmD 3 11 47 MEE AL2 Intelligent relay a e AI SE output contacts g ntelligent input 06 default alarm output 9 terminals 8 terminals EN t z BE f D EN u E NA L1 wea 15 9fa ing reSIStO Rb z oil The alarm relay contacts ALO and AL2 AB lE eo when it is in Trip Mode or when input FM monitor eh i Lp AME Power is OF
18. 40 50 22 80 6 133 50 60 30 40 3 267 50 70 37 50 1 424 SS 60 oo 400V 48 60 1 424 9 9000 79 125 55 75 20 674 90 125 75 100 1 0X2 53 5X2 225 225 90 125 900HFEF2 HFUF2 HFF2 900HFF 1 0X2 53 5X2 1 0X2 53 5X2 225 225 110 150 1100HFEF2 HFUF2 HFF2 1100HFF 3 0X2 85 0X2 3 0X2 85 0X2 300 300 132 175 1320HFEF2 HFF2 1320HFF 3 0X2 85 0X2 3 0X2 85 0X2 300 300 150 200 1500HFUF2 3 0X2 85 0X2 300 160 220 1600HFF 3 0X2 85 0X2 300 185 250 1850HFE2 HFU2 HF2 300X2 152X2 700 220 300 2200HFE2 HFU2 HF2 350X2 177X2 5 700 315 400 3150HFE2 HFU2 HF2 500X2 253X2 700 400 550 4000HFE2 HFU2 HF2 800X2 405X2 5 1000 Note 1 Field wiring connection must be made by a UL and c UL listed closed loop terminal connector sized for the wire gauge involved Connector must be fixed using the crimping tool specified by the connector manufacture Note 2 Be sure to use large wire gauges for power wiring if the distance exceeds 20m 66ft 27 Input side AC reactor EMI filter Radio noise filter This is useful in suppressing harmonics induced on the power supply lines or when the main power voltage imbalance exceeds 3 and power source capacity is more than 500kVA or to smooth out line fluctuations It also improves the power factor Reduces the conducted noise on the power supply wiring generated by the inverter Connect to the inverter input side El
19. E 5 00 X P016 Home search direction setting 00 forward 01 reverse x x P017 Home search completion range setting 0 to 9999 1000 10000 pulses X P018 Home search completion delay time setting 0 00 to 9 99 s 0 T ER PO19 Electronic gear set position selection 00 feedback side 01 commanding side E p99 ges x O PO20 Electronic gear ratio numerator setting 0 to 9999 x P021 Electronic gear ratio denominator setting 0 to 9999 X X P022 Feed forward gain setting 0 00 to 99 99 100 0 to 655 3 X e P023 Position loop gain setting 0 00 to 99 99 100 0 X PO24 Position bias setting 204 2048 999 to 2048 0 0 0 X P025 Temperature compensation thermistor enable 00 no compensation 01 compensation 00 lel E 6 P026 Overspeed error detection level setting 0 0 to 150 0 135 0 135 0 135 0 O 9 P027 Speed deviation error detection level setting 0 00 to 99 99 100 0 to120 0 Hz 7 50 7 T X P028 Numerator of motor gear ratio 0 to 9999 1 x O 6 P029 Denominator of motor gear ratio 0 to 9999 ji X O T P031 Accel decel time input selection 00 digital operator 01 option 1 02 option 2 03 easy sequence 00 X X o P032 Positioning command input selection 00 digital operator 01 option 1 02 option 2 00 x z P033 Torque command input selection 00 O terminal 01 Ol terminal 02 O2 terminal 03 digital operator 00 x i x x P034 Torque co
20. E z Vent Holes A 1 s 9 mer 15 0 59 Tu 450 17 71 50 196 290 11 41 290 11 41 50 1 96 Air Intake 680 26 77 al 4 M12 Screw Holes For Eyebolts 1 Vent Holes A are formed on both right and left side portions 4 15 0 59 2 M16 Eyebolts 2 M16 Screw Holes Exhaust f Digital Oprator Wall t bog oe 7 450 17 71 LE a am 75 2 95 T aoou 1 81 300 11 81 300 11 81 Jy pele Arinak 1050 41 33 J CE 4 M16 Screw Holes For Eyebolts 1850H 2200H 3150H and 4000H of US JP Version Please contact Hitachi sales office 460 285 365 Downward details drawing Unit mm inch Inches for reference only 10 OPERATION and PROGRAMMING SJ700 and SJ700B Series can be easily operated with the digital operator provided as standard The digital operator can also be detached and can be used for remote control Operator with copy function WOP and digital operator with potentiometer are also available as options Parameter Display Power LED Lights when the power input to the drive is ON Displays frequency motor current rotational speed of the motor and an alarm code POWER AER ALARM LED Hz Lights to indicate that t
21. EXTERNAL USP OH stFAN_ OH FIN GA COM PH Fail rm UN ee m When the DC bus voltage exceeds a threshold due to regenerative energy from the motor the inverter trips and turns off its output Over voltage protection When the built in EEPROM memory has problems due to noise or excessive temperature the inverter trips and turns off its output rm nfl EEPROM error 2 A decrease of internal DC bus voltage below a threshold results in a control circuit fault This condition can also generate excessive motor heat or cause low torque The inverter trips and turns off its output gm n ju C3 La Under voltage error If a strong source of electrical interference is close to the inverter or abnormal operations occur in the built in CT the inverter trips and turns off its output r1 gum CT Current transformer error n Pn CPU error When a malfunction in the built in CPU has occurred the inverter trips and turns off its output When a signal to an intelligent input terminal configured as EXT has occurred the inverter trips and turns off its output mr m ju nu External trip An error occurs when power is cycled while the inverter is in RUN mode if the Unattended Start Protection USP is enabled The inverter trips and does not go into RUN mode until the error is cleared USP error mm m Let The inverter is protected by the detection of ground faults
22. between the inverter output and the motor during power up tests This feature protects the inverter only mm EUN Ground fault When the input voltage is higher than the specified value it is detected 60 seconds after power up and the inverter trips and turns of its output m 11 A Ln Input over voltage protection When power is cut for more than 15ms the inverter trips and turns off its output If power failure continues the error will be cleared The inverter restarts if it is in RUN mode when power is cycled Fh umm mm Instantaneous power failure Temperature error due to low The inverter will display the error code shown on the right if the lowering of cooling fan speed is detected at cooling fan speed the occurrence of the temperature error described below gum r1 Lt l i n end When the inverter internal temperature is higher than the specified value the thermal sensor in the inverter module detects the higher temperature of the power devices and trips turning off the inverter output Gate array error Communication error has occurred between CPU and gate array Phase loss detection One of three lines of 3 phase power supply is missing The inverter will trip if the gate array cannot confirm the on off state of IGBT because of a malfunction due to noise or damage to the main circuit element mm re Vel Inverter thermal trip P nu 4 m
23. cumulative power clearance 54 SON servo on 55 FOC pre excitation 56 MI1 general purpose input 1 57 MI2 general purpose input 03 CF2 2 58 MIS general purpose input 3 59 MI4 general purpose input 4 60 MI5 general purpose input 5 61 MI6 general purpose input 6 62 MI7 general purpose input 7 63 MI8 general purpose input 8 64 EMR Emergency stop 1 65 AHD analog command i CF1 0 holding 66 CP1 multistage position settings selection 1 67 CP2 multistage position settings selection 2 68 CP3 multistage position settings selection 3 69 ORL Zero return limit function 70 ORG Zero return trigger function 71 FOT forward drive stop 72 ROT reverse drive stop 73 SPD speed position switching 74 PCNT pulse counter 75 PCC 1 RV 01 RV pulse counter clear no NO no assignment 13 USP 03 CF2 03 CF2 x Se 02 CF1 02 CF1 x 01 RV O1 RV x C011 C012 C013 Terminal 1 active state Terminal 2 active state Terminal 3 active state 00 00 0 00 00 00 eo Z C C C zz 00 00 00 00 00 00 C014 00 Zz C 00 00 C015 Terminal 5 active state zZ O 00 00 C016 Terminal 6 active state 01 Z C 00 00 C017 C018 C019 Intelligent input terminals C021 Terminal 4 active state Terminal 7 active state Terminal 8 active state Term
24. external trip 13 USP unattended start protection 14 CS commercial power source enable 15 SFT software 16 lock 16 AT analog input voltage current select 17 SET3 3rd motor control 18 RS reset 20 STA starting by 3 wire input 21 STP stopping by 3 wire input 22 F R forward reverse switching by 3 wire input 23 PID PID disable 24 PIDC PID reset 26 CAS control gain setting 27 UP remote control UP function 28 DWN remote control DOWN function 29 DWN remote control data clearing 31 OPE forcible operation 32 SF1 multispeed bit 1 33 SF2 multispeed bit 2 34 SF3 multispeed bit AT JG 06 F JP 18 RS 18 RS x 16 AT 16 AT x m 06 JG 06 G x 3 35 SF4 multispeed bit 4 36 SF5 multispeed bit 5 37 SF6 multispeed bit 6 38 SF7 multispeed bit 7 39 OLR overload restriction selection 40 TL torque limit enable 41 TRQ1 torque limit selection bit 1 42 TRQ2 torque limit selection bit 2 43 PPI P PI mode selection 44 BOK braking confirmation 45 ORT orientation 46 LAC LAD cancellation 47 PCLR clearance of position deviation 48 STAT pulse train 09 2CH position command input enable 50 ADD trigger for frequency addition A145 51 F TM forcible terminal operation 52 ATR permission of torque command input 53 KHC 11 FRS 1 09 2CH 09 1 FRS 11 FRS x 2CH 09 2CH x O
25. frequency rate to 100 100 100 x O A131 Acceleration curve constants setting 01 smallest swelling to 10 largest swelling 02 02 02 02 x O 88 A132 Deceleration curve constants setting 01 smallest swelling to 10 largest swelling 02 02 02 02 x Q e digital operator 01 keypad potentiometer 02 input via O 03 input via OI g A141 Operation target frequency selection 1 04 a es aes 1 nri e 07 ae M ee input 02 02 02 02 O digital operator 01 keypad potentiometer 02 input via O 03 input via OI E A142 Operation target frequency selection 2 04 Mons mind ena 05 pote 1 Sa a 07 ae m cee input 03 03 03 03 e O 5 A143 Operator selection 00 addition A141 A142 01 subtraction A141 A142 02 multiplication A141 x A142 00 oo 00 00 x O g A145 Frequency to be added 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 0 00 X O S A146 Sign of the frequency to be added 00 frequency command A145 01 frequency command A145 00 00 X lt A150 EL S curve acceleration ratio 1 0 to 50 25 25 x x Bs A151 EL S curve acceleration ratio 2 0 to 50 96 29 25 x x po A152 EL S curve deceleration ratio 1 0 to 50 956 25 25 x x T5 A153 EL S curve deceleration ratio 2 0 to 50 26 25 25 x x 1 4000HF 0 00 to 99 99 100 0 to 120 0 Hz 2 120 to 100 99 9 to 0 00 to 99 99 100 0 to 120 0 Hz B GROUP FINE TUNING FUNCTIONS Oz Allowed X Not permitted De
26. monitoring 0 0 to 999 9 V d103 BRD load factor monitoring 0 0 to 100 0 d104 Electronic thermal overload monitoring 0 0 to 100 0 a ee F001 Output frequency setting 0 0 start frequency to nad frequency or maximum frequency 2nd 3rd motors Hz 0 00 0 00 6 O 0 0 to 100 0 when PID function is enabled gt F002 Acceleration 1 time setting 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 lt F202 Acceleration 1 time setting 2nd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 O F302 Acceleration 1 time setting 3rd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 O F003 Deceleration 1 time setting 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 Q Q d F203 Deceleration time setting 2nd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 30 00 O F303 Deceleration time setting 3rd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 30 00 30 00 30 00 O F004 Keypad Run key routing 00 forward rotation 01 reverse rotation ecm o0 00 00 x x A A Group Standard functions b b Group Fine tuning functions C C Group Intelligent terminal functions H H Group Motor constants functions amp P P Group Expansion card functions DES u Group User selectable menu functions Not available O Allowed X Not permitte
27. with compatibility SJ DN SJ DN2 SJ LW 85 to 300H RB there is a terminal Those with compatibility Note Since the SJ700B series has many new functions and additional parameters some functions of the Option boards SJ DN SJ LW and SJ PBT option boards conforming to the open network specifications cannot be SJ PBT implemented on the SJ700B series SJ DN2 has compatibility to SJ700 Bas 370L H 97mm upper part from L300P P P Other model same position Note1 Since a response falls the V F characteristic curve selection SLV should make this setup small Note2 450 550L H and 750H Metal fittings differ 3l 32 FOR CORRECT OPERATION Application to Motors Application to general purpose motors The overspeed endurance of a general purpose motor is 120 of the rated speed for 2 minutes JIS C4 004 For operation at higher Operating frequency than 60Hz it is required to examine the allowable torque of the motor useful life of bearings noise vibration etc In this case be sure to consult the motor manufacturer as the maximum allowable rpm differs depending on the motor capacity etc The torque characteristics of driving a general purpose motor with an inverter differ from those of driving it using commercial power Torque characteristics starting torque decreases in particular Carefully check the load torque characteri
28. 0 300L H 97mm upper part from SJ300 110L H M6 Ground Screw M5 Ground Screw 300L M8 Ground Screw M6 Ground Screw Screw diameter Mai in it P 055 to 110L H 10mm upper part from SJ300 Sd Position 150 to 300L H 20mm upper part from SJ300 550L 30mm upper part from SJ300 Other model same position 150 to 220L H RB there is a terminal Easy removable Dc bus Capacitor 15kW or more is possible up to 22kW 16 10 mu da ie id 055L H SJ700 is in next larger enclosure vs SJ300 All other models are the same enclosure size 055L H Those with no compatibility 075 to 550L H Those with compatibility Note 2 ae X 055L H 5mm upper part from SJ300 300L H 97mm upper part from SJ300 Digital operator position x Other model same position SJ DG Those with compatibility SJ FB SJ DN SJ DN2 Those with compatibility Option boards EY Note Since the SJ700 series has many new functions and additional parameters Terminal O1 some functions of the SJ DN SJ LW and SJ PBT option boards conforming to the open network specifications cannot be implemented on the SJ700 series SJ DN2 has compatibility to SJ700 SJ PBT Option position Other model same position 055L H 5mm upper part from SJ300 300L H 97mm upper part from SJ300 Note1 Since a response falls the V F characteristic curve selection SLV should make this setup small Note2 370 450L H and 550H Metal fittings differ 30 DIFFERENCE and COMP
29. 0 00 X X E A295 Acc1 to Acc2 frequency transition point 2nd motor 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 X X EI A096 Dec1 to Dec2 frequency transition point 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 x x R A296 Dec1 to Dec2 frequency transition point 2nd motor 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 X X A097 Acceleration curve selection 00 linear 01 S curve 02 U curve 03 inverted U curve 04 EL S curve 00 x x o A098 Deceleration curve selection 00 linear O1 S curve 02 U curve 03 inverted U curve 04 EL S curve 00 X X F A101 Ol L input active range start frequency 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 x x A102 Ol L input active range end frequency 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 x E A103 OI L input active range start current 0 to Ol L input active range end current 96 20 x A104 OI L input active range end current IOI L input active range start current to 100 96 100 X Q t A105 OI L input start frequency enable 00 external start frequency 1 0 Hz 00 x A111 O2 L input active range start frequency 400 to 100 99 9 to 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 x A112 O2 L input active range end frequency 400 to 100 99 9 to 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 X A113 O2 L input active range start voltage 100 to 02 end frequency rate 100 100 x O A114 O2 L input active range end voltage 02 start
30. 00 X X A019 Multispeed operation selection 00 binary 16 speeds selectable with 4 terminals 01 bit 8 speeds selectable with 7 terminals 00 00 00 00 X x 9 A020 Multispeed frequency setting 0 0 or start frequency to maximum frequency Hz 0 00 0 00 0 00 0 00 O Q S A220 Multispeed frequency setting 2nd motor 0 0 or start frequency to maximum frequency 2nd motor Hz 0 00 000 000 000 O A320 Multispeed frequency setting 3rd motor 0 0 or start frequency to maximum frequency 3rd motor Hz 0 00 0 00 0 00 0 00 O E M Multispeed 1 15 setting 0 0 or start frequency to n th maximum frequency Hz 0 00 0 00 0 00 0 00 O O z A038 Jog frequency setting Start frequency to 9 99 Hz 1 00 1 00 1 00 1 00 g 00 free running after jogging stops disabled during operation 01 deceleration and stop D after jogging stops disabled during operation 02 DC braking after jogging stops 2 A039 Jog stop mode disabled during operation 03 free running after jogging stops enabled during 00 00 00 00 X O operation 04 deceleration and stop after jogging stops enabled during operation 05 DC braking after jogging stops enabled during operation A041 Torque boost method selection 00 Manual torque boost 01 Automatic torque boost 00 00 00 X X A244 Torque boost method selection 2nd motor 00 Manual torque boost 01 Automatic torque boost 00 00 00 X x A042
31. 0HF2 3150HF2 4000HF2 Applicable motor 4 pole kW HP 2 Rated capacity 400V kVA Output Ratings 75 100 103 2 90 125 110 150 121 9 150 3 132 175 185 250 180 1 256 220 300 305 315 400 416 400 550 554 480V Rated output current A 123 8 149 146 3 180 4 176 217 216 1 308 260 370 366 440 499 600 665 800 Overload capacity output current Rated output voltage 3 150 60sec 200 0 5sec 150 60sec 180 0 5sec 3 phase 3 wire 380 to 480V corresponding to input voltage Rated input voltage V Input Rating Rated input current A 164 3 phase 380 to 480V 10 15 50 60HZ 5 194 239 286 389 455 630 840 Dynamic braking Short time 4 Braking Minimum value of resistor Q External dynamic braking unit option Vibration 5 2 9m s 0 3G 10 55Hz 1 96m s 0 2G 10 55Hz EMC filter Built in EN61800 3 category C3 External Option Zero phase Reactor Built in External Option Weight kg Ibs 60 132 140 308 145 319 210 462 360 792 STANDARD SPECIFICATIONS SJ700B Series 3 phase 400V class Model SJ700B Enclosure 1 IP20 MOHFF 150HFF IPOO Applicable motor 4 pole KW HP 2 15 20 18 5 25 22 30 30 40 37 50 45 60 55 75 75 100 90 125 110 150 132 150 160 220 Rate
32. 0HFF 357 14 06 625 80 2 46 3 15 740 29 13 710 27 95 79 3 11 9 Digital Operator 480 18 90 12 0 47 me pasy 270 10 63 Inches for reference only Attachment DCreactor DCL H 185 H R DCL H 220 H R 305 230 Model H W X DCL H 185 H R 350 305 5 DCL H 220 H R 395 315 6 325 365 lw i z i ke Downward details drawing Vent Holes B are just on right side Attachment DC reactor DCL H 400 H R 09 SJ700 1850 2200HFE2 3 p15 0 59 2 Mi2Eyebols amp Exhaust z Digital Operator I 2 o 2 Y o Wall o e e N hl rr TA y 15 0 59 w Air Intake 57 5 2 370 14 56 22 63 E 290 11 41 290 11 41 k 37 5 2 26 695 27 36 4 M12 Screw Holes For Eyebolts 2 M12 Eyebolts A 3 p15 0 59 g 2 M12 Screw Holes Exhaust 4 se Digital Operator Vent Holes B 1 Q CO EN t 5 Iss Wall S 2 i5 eum 4
33. 0HFUF2 IP20 11 15 15 20 17 3 22 1 20 7 26 6 25 32 150 60sec 200 3sec JP Version European Version US Version 3 7 5 4 0 5 6 2 7 4 9 0 1 5 2 2 6 3 1 3 8 2 2 3 3 6 4 4 5 3 5 5 7 5 9 7 11 6 14 7 5 10 13 1 15 8 19 18 5 25 26 3 31 5 38 22 30 33 2 39 9 48 30 40 40 1 48 2 58 37 50 51 9 62 3 75 Rated capacity 400V KVA 480V Rated output current A Output Ratings Overload capacity output current Rated output voltage 3 3 phase 3 wire 380 to 480V corresponding to input voltage 3 phase 380 to 480V 10 15 50 60Hzt5 30 Rated input voltage V Input Rating Rated input current A Dynamic braking Short time 4 Built in BRD circuit optional resistor 35 35 E 5 9m s2 0 6G 10 55Hz 2 9m s2 0 3G 10 55Hz Built in EN61800 3 category C3 External dynamic braking unit option Braking Minimum value of resistor Q Vibration 5 EMC filter Zero phase Reactor Built in Weight kg Ibs Model SJ700 Enclosure 1 European Version 750HFEF2 900HFEF2 1100HFEF2 1320HFEF2 1850HFE2 2200HFE2 6 13 2 3150HFE2 14 30 8 4000HFE2 US Version 750HFUF2 900HFUF2 1100HFUF2 1500HFUF2 1850HFU2 2200HFU2 3150HFU2 4000HFU2 JP Version 750HFF2 900HFF2 1100HFF2 1320HFF2 1850HF2 IPOO 220
34. 1 4 20mA OI terminal XA 2 0 10V O2 terminal Maximum of 8 point Y 00 Y 05 External analog output YA 0 Setup for FM terminal is possible YA 1 Setup for AM terminal is possible YA 2 Setup for AMI terminal is possible Programmable flow control Loop Unconditional jump conditional jump Time control Sub routine Others Operation command lt t substitution mod abs I O control Bit input Word input Bit output Word output Timer control on delay off delay Inverter parameter setting Variable User Timer U 00 U 31 82 point UL 00 UL 07 8 point Set frequency SET Freq Acceleration time ACCEL Deceleration time DECEL Monitor General purpose input contact Output frequency Output current Rotative direction PID feedback Converted frequency Output torque Output voltage Power Cumulative RUN time Cumulative power on time trip X 00 X 07 8 point General purpose output contact Y 00 Y 05 6 point 1 point is relay output Internal user Internal timer contact Inverter input and output UB 00 UB 07 8 point TD 0 TD 7 8 point In a remote operator display code Windows is a registered trademark of Microsoft Corporation U S A and other countries 130 120 100 90 80 70 60 50 40 30 20 10 0 Level db 150k200k 500k EN61800 3 2nd Envinment C3 QP Limit Level
35. 1M 2M 5M 7M 10M 20M 30M Fr ncy Hz equency Hz QP Quasi Peak Ease of Maintenance Easy Operation Easy removable construction for maintenance Field replacement of cooling fan s and DC bus capacitors can be accomplished in a fraction of the time Using Logic terminal move to SJ700 without wiring change Read SJ300 Parameter by SRW remote operator and write them in to SJ700 Easy removable DC bus Capacitors SJ700 above 15kW SJ700B above 18 5kW Easy removable Cooling Fan SJ300series SJ700series Parameter read write Removable Control circuit terminals Move to SJ700 without rewiring 1 Control circuit terminals comparison table Series Input terminals Output terminals SJ700 SJ700B 9terminals 5terminals SJ300 Intelligent 8terminals FW Open collector outputs L300P 6terminals 2terminals 300 Intelligent 5terminals FW Relay outputs Long life time components amp Life time warning function Long life time components Design lifetime 10 Years or more for DC bus capacitors amp Cooling Fan Cooling Fan ON OFF control function for longer fan life Ambient temperature Average 40 deg C SJ700B 30 deg C no corrosive gases oil mist or dust Design lifetime is calculated and not guaranteed Life time warning function Perform preventive maintenance before a failure occurs using the Lifetime Warning function DC bus capacitor cooling fan heat sink temperature and motor temp
36. 2 4000HF 0 00 to 99 99 100 0 to 120 0 Hz 3 4000HF 0 to 120 Hz 14 O Allowed X Not permitted Default Setting Setting Change during operation during operation allowed or not allowed or not E CB Function Name Monitored data or setting SJ700B Se SJ700 0 20 x rated current to 2 00 x rated current A lt 75kW and over 0 20 x 1 50 gt F b028 Active frequency matching scan start frequency SJ700B 0 20 x rated current to 1 50 x rated current A Rated current of inverterx 1 0 x E 5 b029 Active frequency matching scan time constant 0 10 to 30 00 s 0 50 0 50 0 50 X O ss b030 Active frequency matching restart frequency select 00 frequency at the last shutoff 01 maximum frequency 02 set frequency 00 00 00 00 X C o 00 disabling change of data other than b031 when SFT is on 01 disabling change B b031 Software lock mode selection TN Wee e 2 frequency settings 10 enabling data changes during operation b034 RUN power on warning time 0 to 9999 0 to 99990 1000 to 6553 10000 to 655300 hr 0 0 0 0 x b035 Rotational direction restriction is ind a dus iii 00 00 00 00 X x S b036 Reduced voltage start selection O minimum reduced voltage start time to 255 maximum reduced volta
37. 4mm Contacting Maximum Rate AC250V DC30A DC1V Contacting Minimum Rate Decrease in voltage between each terminal and CM2 4V max during ON Allowable maximum voltage DC 27V Allowable maximum current 50mA Allowable input voltage range DCO 8V DC8V Input Circuit 10kQ TH WThermistor CM1 1kQ Maximum capacity of relays AL1 ALO AC 250V 2A R load 0 2A L load DC 30V 8A R load 0 6A L load AL2 ALO AC 250V 1A R load 0 2A L load DC 30V 1A R load 0 2A L load Minimum capacity of relays AL1 ALO AL2 ALO AC 100V 10mA DC5V 100mA 22 PROTECTIVE FUNCTIONS Display Display on remote on digital operator copy unit operator ERR1 While at constant speed The inverter output was short circuited or the motor shaft is locked or has a Over current protection heavy load These conditions cause excessive current for the inverter so the inverter output is turned off During acceleration Others When a motor overload is detected by the electronic thermal function the inverter trips and turns off its output During deceleration Pr rr a we gm C3 IL ry Overload protection 1 Braking resistor When the regenerative braking resistor exceeds the usage time allowance or an over voltage caused by the overload protection stop of the BRD function is detected the inverter trips and turns off its output 1 m L OLBRD EEPROM
38. 720 0 x x SS b053 Deceleration time setting during power loss 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 1 00 1 00 1 00 X x 5 E b054 Initial output frequency decrease during power loss 0 00 to 10 00 Hz 0 00 0 00 0 00 0 00 x x E b055 Proportional gain setting for nonstop operation at power loss 0 00 to 2 55 0 20 0 20 0 20 b056 Integral time setting for nonstop operation at power loss 0 0 to 9 999 10 00 to 65 55 0 100 0 100 0 100 0 100 Q O b060 Maximum limit level of window comparators O 0 to 100 lower limit b061 b062 2 os 100 Q b061 Minimum limit level of window comparators O O to 100 lower limit b060 b062 2 0 CJ Q 2 b062 Hysteresis width of window comparators O O to 10 lower limit b061 b062 2 0 b063 Maximum limit level of window comparators Ol O to 100 lower limit b064 b066 2 E E 0 100 O E b064 Minimum limit level of window comparators OI O to 100 lower limit b063 b066 2 96 0 Q 8 b065 Hysteresis width of window comparators Ol 0 to 10 lower limit b063 b064 2 0 b066 Maximum limit level of window comparators Ol 100 to 100 lower limit b067 b068 2 100 100 100 9 O b067 Minimum limit level of window comparators O OVO2 100 to 100 lower limit b066 b068 2 100 O O b068 Hysteresis width of window comparators O OI O2 O to 10 lower limi
39. 9 9 24 7 5 10 11 0 13 3 19 1 26 6 32 46 64 15096 60sec 200 3sec 3 phase 3 wire 200 to 240V corresponding to input voltage 3 phase 200 to 240V 10 15 50 60Hzx596 18 26 35 51 70 84 105 15 20 22 1 18 5 25 22 30 26 3 329 31 5 394 76 95 30 40 41 9 50 3 121 37 50 50 2 60 2 145 45 60 63 0 75 6 182 55 75 76 2 91 4 220 Rated capacity KVA Output Ratings Overload capacity output current Rated output voltage 3 Rated input voltage V Input Rating Rated input current A 8 3 12 133 160 200 242 Dynamic braking Short time 4 Built in BRD circuit optional resistor 35 16 10 10 Vibration 5 5 9m s 0 6G 10 55Hz Built in EN61800 3 category C3 EMC filter Zero phase Reactor Built in Q9 3 phase 400V class Model SJ70 0 Enclosure 1 Applicable motor 4 pole KW HP 2 External dynamic braking unit option 7 5 a 2 9m s 0 3G 10 55Hz Braking Minimum value of resistor Q 007HFF2 015HFF2 022HFF2 037HFF2 055HFF2 075HFF2 110HFF2 150HFF2 185HFF2 220HFF2 300HFF2 370HFF2 450HFF2 550HFF2 007HFEF2 015HFEF2 022HFEF2 040HFEF2 055HFEF2 075HFEF2 110HFEF2 150HFEF2 185HFEF2 220HFEF2 300HFEF2 370HFEF2 450HFEF2 550HFEF2 007HFUF2 015HFUF2 022HFUF2 040HFUF2 055HFUF2 075HFUF2 110HFUF2 150HFUF2 185HFUF2 220HFUF2 300HFUF2 370HFUF2 450HFUF2 55
40. 99 99 100 0 to 120 0 Hz 2 4000HF 120 to 100 99 9 to 0 00 to 99 99 100 0 to 120 0 Hz QA GROUP STANDARD FUNCTIONS Function Name Monitored data or setting d001 Output frequency monitor 0 00 to 99 99 100 0 to 400 0 Hz 1 a O d002 Output current monitor 0 0 to 999 9 1000 to 9999 A bo E dOOS Rotation direction minitoring F forward rotation o stopped r reverse rotation ES d004 Process variable PV PID feedback monitor 0 00 to 99 99 100 0 to 999 9 1000 to 9999 1000 to 9999 10000 to 99990 100 to 999 10000 to 999000 FW i IL 11 L1 LI ON Example FW 7 2 1 d005 Intelligent input terminal status m m 4 L I OFF ple e d006 Intelligent output terminal status i 4 I ius po ALG 1813 1211 AL 15 14 13 OFF d007 Scaled output frequency monitoring 0 00 to 99 99 100 0 to 999 9 1000 to 9999 1000 to 3996 10000 to 39960 Poe O d008 Actual frequency monitoring 400 to 100 99 9 to 0 00 to 99 99 100 0 to 400 0 Hz 2 ee Se ae d009 Torque command monitoring 0 to 200 x d010 Torque bias monitoring 200 to 200 x d012 Torque monitoring 200 to 200 d013 Output voltage monitoring 0 0 to 600 0 V d014 Power monitoring 0 0 to 999 9 kW bo z H z o d015 Cumulative power monitoring 0 0 to 999 9 1000 to 9999 1000 to 9999 10000
41. ATIBILITY of L300P series and SJ700B series tem op SB You can copy the parameter settings from the L300P series into the SJ700B series Copying the parameter settings You cannot copy the parameter settings from the SJ700B series to the L300P series because the SJ700B series has many new functions and additional parameters No display mode selection Basic display mode Data comparison function addition Parameter display mode full display Note basic display mode factory setting To display all parameters specify 00 for b037 Instantaneous power failure under voltage Instantaneous power failure under voltage lt sets Retry or trip parameter overvoltage overcurrent It sets up by b001 up by b001 overvoltage overcurrent lt sets up by b008 d001 Output frequency monitoring You can not change the output frequency setting You can not change the output frequency setting d007 Scaled output frequency monitoring by using the up and or down key by using the up and or down key A001 Default 00 Default 02 Frequency source setting Keypad potentiometer on digital operator Digital operator A016 External frequency filter time const Default Default 31 Note 1 i i Setting range Ch unci QUSS e could Eng Tange Oso ee 0 01 to 999Hz OHZz setup is impossible ange function 2 A105 Ol L input start frequency enable Default 01 external start frequency Default 00 0Hz b012 b212 b312 a T Electronic t
42. C S09 Py ED ec OK LUI LU LL LU m UL AL es o 15 HN lt EE mn irr Output frequency Motor current Voltage between Cumulative inverter Cumulative power on e Error code Status at trip point at trip point at trip point P and N at trip point RUN time at trip point time at trip point CONNECTING DIAGRAM Source type logic 200V class 200V 240V 10 15 50 60Hz 5 400V class 380V 480V 10 15 50 60Hz 5 R LI SJ700 SJ700B T1 LY T2 V I 1 raw b ome es 1 PD DC link choke Note1 2 Remove connection with J51 c Ee when RoTo power is supplied T J51 externally dH RO Control power source io P Short circuit RB 0 P RB 9 oAL1 RB i OAL2 P bar Forward command MUN SJ700 For 30kKW 40HP and over SJ700B For 37KW 50HP and over 1 pe SJ700 For up to 22kW 30HP in ALO SJ700B For up to 30kW 40HP 1 FE uaa 5 1 Y 2 Lie AL2 Intelligent relay T ane it E L Output contacts 2 ntelligent inpu 06 default alarm output 2 terminals 8 terminals EM 4 L D b O 1 O O ED Li UNE NIRE SUE E E aul The alarm relay contacts ALO and AL2 EE d 1 when it is in Trip Mode or when input FM monitor output uz DC24V E Power is OFF by factory default setting PWM Ep b 11 E Intelligent output terminals en p L CM2 setting device 1H SE E DC0 10V SP 12bit DC0 10V E ut D sn DC4
43. F by factory default setting CM1 Lo 11 17 Kl Intelligent output terminals Thermistor jaa 5 terminals Frequency setting device H o CM2 500 2kO puse DCO 10V SP 12bit mw het Sn 40kO e S emat eee eee M Serial communication port 10kQ P AM monitor output n Analog output 7 AM monitor output Analog output DC4 20mA 10bit Expansion card 1 Expansion card 2 Option Terminal Name Common terminal FW 1 2 3 4 5 6 7 8 FM TH CM1 H O O2 Ol AM AMI CM2 11 12 13 14 15 Customer wiring Note1 Please be sure to connect DC reactor attached to 1850HF 2200HF 3150HF and 4000HF 25 Outside the inverter CONNECTING TO PLC G Connection with Input Terminals 1 Using Internal Power Supply of The Inverter 1 Sink type logic 2 Source type logic COM P24 LE ee eee J Hitachi EH 150 series PLC Inverter Output Module Poa ess 6 Note Place short circuit bar between PLC and CM1 instead of P24 and PLC 2 Using External Power Supply 1 Sink type logice z 2 Source type logic P24 ne y DC24V S MEM S S S S S I LLLI LAEuumuuunnnnn 1 EE LLLLLGLAUI GO E Hitachi EH 150 series PLC Inverter Hitachi EH 150 series PLC Inverter Output Module Note Remove short circuit bar Output Module Note Remove short circuit EH YT16 between P24 and PLC EH YTP16 bar between P24 and PLC Note Be sur
44. Output Digital Monitor Voltage DCO 10V output PWM output Selection of one function from Output frequency output current torque output voltage input power electronic thermal load ratio and LAD frequency Digital pulse output Pulse voltage DC 0 10V Outputs the value of output frequency as digital pulse duty 50 Digital output frequency range 0 3 6kHz 1 2mA max Power Supply Run Command Power Terminal for Interface Common Terminal for Interface Forward Command Input Internal power supply for input terminals common terminal for contact input terminals In the case of source type logic Common terminal for P24 TH and FM In the case of sink type logic common terminal for contact input terminals Do not ground The motor runs forward when FW terminal is ON and stops when FW is OFF Functions ONOaRWN Contact Intelligent Input Terminals Assign 8 functions to terminals Refer to the standard specifications for the functions Input Common Terminal Common Terminal for Intelligent Input Terminals Common Terminal for External Power Supply for PLCs etc Select sink or source logic with the short circuit bar on the control terminals Sink logic Short P24 to PLC Source logic Short CM1 to PLC When applying external power source remove the short circuit bar and connect PLC terminal to the external device DC 24V 100mA max Input ON condition V
45. Voltage suppress function Hitachi original PWM control method limits motor terminal voltage to less than two of inverter DC bus voltage Lower than Hitachi motor Max insulation voltage 1 250V During regeneration the motor terminal voltage may exceed the motor maximum insulation voltage 1 250V Motor terminal voltage E 650V cable 100m EU RoHS compliant EU RoHS compliant except solder in power module Improvement of environment Varnish coating of internal PC board amp plating of main circuit copper bus bar are standard SJ7008SJ700B Versatile Functions Instantaneous Power Failure Disregard Function The SJ700 ignores instantaneous power failure when power fluctuation happens frequently as long as DC bus voltage remains higher than under voltage trip level Emergency stop Shuts down the inverter by hardware bypassing the CPU to achieve a reliable emergency stop function Intelligent input terminal and output terminal ON OFF delay function Helps simplify external circuits Active frequency matching function Motor frequency match restart function operates effectively even without motor residual voltage Controlled deceleration and stop on power loss Analog Input Disconnection Detection Function The SJ700 SJ700B outputs a disconnection signal when frequency command through analog input is lost Acceleration Deceleration curve functions The curve shape five kinds such
46. age the capacitor High frequency Noise and Leakage Current If the earth leakage relay or earth leakage breaker is used it should have a sensitivity level of 15 mA or more per inverter 1 High frequency components are included in the input output of the inverter main circuit and they may cause interference in a transmitter radio or sensor if used near the inverter The interference can be minimized by attaching noise filters option in the inverter circuitry 2 The switching action of an inverter causes an increase in leakage current Be sure to ground the inverter and the motor Lifetime of Primary Parts Because a DC bus capacitor deteriorates as it undergoes internal chemical reaction it should normally be replaced every five years Be aware however that its life expectancy is considerably shorter when the inverter is subjected to such adverse factors as high temperatures or heavy loads exceeding the rated current of the inverter The approximate lifetime of the capacitor is as shown in the figure at the right when it is used 12 hours daily according to the Instructions for Periodic Inspection of General Purpose Inverter JEMA Also such moving parts as a cooling fan should be replaced Maintenance inspection and parts replacement must beperformed by only specified trained personnel Please plan to replace new INV depends on the load ambient condition in advance 10 Capacitor lifetime years Ambient temp
47. as S curve etc can be chosen according to the application requirements Analog Command Holding Function AHD Output frequency can be changed with UP DOWN Function or with an analog signal as reference value The set frequency at power shutdown can be saved too Pulse train input function Pulse train input for Frequency reference or PID feed back signal with SJ FB speed feed back card option Integrated Input Electric Power monitor Input electric power kW and Integrated input electric power for monitoring energy saving Automatic Carrier Frequency Adjustment Function The SJ700 detects motor current and automatically reduces carrier frequency according to the current The resolution of analog outputs voltage current is improved to 10 bits STANDARD SPECIFICATIONS SJ700 Series 3 phase 200V class JP Version US Version 004LFF2 004LFUF2 007LFF2 007LFUF2 015LFF2 022LFF2 015LFUF2 022LFUF2 037LFF2 O55LFF2 037LFUF2 055LFUF2 075LFF2 075LFUF2 110LFF2 150LFF2 110LFUF2 150LFUF2 IP20 11 15 15 9 185LFF2 220LFF2 185LFUF2 220LFUF2 300LFF2 300LFUF2 370LFF2 450LFF2 550LFF2 370LFUF2 450LFUF2 550LFUF2 Model SJ700 Enclosure 1 Applicable motor 4 pole kW HP 2 0 4 1 2 200V 1 0 1 7 240V 1 2 2 0 Rated output current A 3 5 0 75 1 1 5 2 2 6 3 1 7 5 2 2 3 3 6 4 8 10 5 3 7 5 5 7 6 8 16 5 5 5 7 5 8 3
48. bus 3 An installed phase advance capacitor opens and closes In cases A B and C it is recommended to install an AC reactor on the main power supply side Note Example calculation with Vrs 205V Vsr 201V V r 200V Vas R S line voltage Vs S T line voltage Vir T R line voltage Max line voltage min Mean line voltage Mean line voltage Vhs Vhs Vsr VTrR 3 205 202 E Vns4 Vera Vra 3 x100 555 X100 1 5 Unbalance factor of voltage x100 Using a private power generator An inverter run by a private power generator may overheat the generator or suffer from a deformed output voltage waveform of the generator Generally the generator capacity should be five times that of the inverter kVA in a PWM control system or six times greater in a PAM control system Notes on Peripheral Equipment Selection Wiring connections Wiring between inverter and motor Electromagnetic contactor 1 Be sure to connect main power wires with R L1 S L2 and T L3 terminals input and motor wires to U T1 V T2 and W T3 terminals output Incorrect connection will cause an immediate failure 2 Be sure to provide a grounding connection with the ground terminal When an electromagnetic contactor is installed between the inverter and the motor do not perform on off switching during running operation Thermal relay Installing a circuit breaker Wiring distance When used with sta
49. cy setting Z Multi speed 1 setting O 690 FUNC STR Press key to store the value 6 Returns to FUL and the setting is complete CD Multi speed 2 setting m Multi speed 3 setting 1st control method Press AY until F A appears V f gain setting Operation mode selection Selection of restart mode o M OJO Allowable under voltage power failure time N eo Retry after trip selection N Retry wait time after trip N N Function code display restriction N CD Carrier frequency setting N AR Initialization mode selection N O1 Selection of overvoltage suppression function SOO FUNG STR N O Setting of overvoltage suppression level N N To run the motor go back to Setting of intelligent output terminal 11 monitor mode or basic setting mode Setting of intelligent output terminal 12 Alarm relay active state 11 FUNCTION LIST MONITORING FUNCTIONS and MAIN PROFILE PARAMETERS Code Function Name Monitored data or setting Default Setting O Allowed X Not permitted Setting Change SJ700 SJ700B during operation during operation FU UL F UP allowed or not allowed or not 1 4000HF 0 00 to
50. d Default Setting Setting Change SJ700B during operation during operation FU UL allowed or not allowed or not 1 This setting is valid only when the OPE SR is connected 2 4000HF 30 to 120 Hz 0 keypad potentiometer 1 01 control circuit terminal block A001 Frequency source setting 02 digital operator O3 RS485 04 option 1 05 option 2 02 01 x x a 6 pulse string input 07 easy sequence 10 operation function result D A002 Run command source setting 01 control circuit terminal block 02 digital operator O3 RS485 04 option 1 05 option 2 02 01 x x A003 Base frequency setting 30 to maximum frequency Hz J T 60 50 x x o A208 Base frequency setting 2nd motor 30 to maximum frequency 2nd motor Hz 50 60 60 50 X X S A303 Base frequency setting 3rd motor 30 to maximum frequency 3rd motor Hz 50 60 60 50 X X A004 Maximum frequency setting 30 to 400 Hz 2 50 60 60 50 X X A204 Maximum frequency setting 2nd motor 30 to 400 Hz 2 50 60 60 50 x x A304 Maximum frequency setting 3rd motor 30 to 400 Hz 2 50 60 60 50 x X zr 00 switching between O and OI terminals 01 switching between O and O2 terminals 2 A005 AT selection 02 switching between O terminal and keypad potentiometer 1 03 switching between OI terminal 00 00 00 00 x x pmi and keypad potenti
51. d capacity 400V 20 0 25 6 29 7 39 4 48 4 58 8 72 7 93 5 110 8 135 1 159 3 200 9 kVA 480V 24 1 30 7 35 7 47 3 58 1 70 6 87 2 112 2 133 162 1 191 2 241 1 Output Ratings Rated output current A 29 37 43 57 70 85 105 135 160 195 230 290 Overload capacity output current 120 60sec Rated output voltage 3 3 phase 3 wire 380 to 480V corresponding to input voltage Rated input voltage V 3 phase 380 to 480V 10 15 50 60Hz 5 Input Rating Rated input current A 32 41 47 63 77 94 116 149 176 199 253 300 Dynamic braking Short time 4 ilt in BRD circuit optional resistor External dynamic braking unit option Braking Minimum value of resistor Q 35 24 24 20 Vibration 5 5 9m s 0 6G 10 55Hz 2 9m s 0 3G 10 55Hz EMC filter Zero phase Reactor Built in Built in EN61800 3 category C3 Weight Ibs 14 30 8 14 30 8 14 30 8 22 48 4 30 66 1 The protection method conforms to JEM 1030 55 121 55 121 70 154 70 154 2 The applicable motor refers to Hitachi standard 3 phase motor 4 pole To use other motors be sure to prevent the rated motor current 50Hz from exceeding the rated output current of the inverter 8 The output voltage decreases as the main power supply voltage decreases except for the use of AVR function 4 Braking resistor is not integrated in the inverter Plea
52. drive stop ROT Speed position switching SPD Pulse counter PCNT Pulse counter clear PCC Emergency stop EMR no assignment no 1 terminal PTC characteristics 5 open collector output terminals NO NC switchable sink logic source logic switchable 1 relay 1c contact output terminal NO NC switchable Running RUN constant speed reached FA1 set frequency overreached FA2 overload notice advance signal 1 OL output deviation for PID control OD alarm signal AL set frequency reached FA3 over torque OTQ instantaneous power failure IP undervoltage UV torque limited TRQ operation time over RNT plug in time over ONT thermal alarm signal THM brake release BRK braking error BER OHz detection signal ZS speed deviation maximum DSE positioning completed POK set frequency overreached 2 FA4 set frequency reached 2 FA5 overload notice advance signal 2 OL2 PID feedback comparison FBV communication line disconnection NDc logical operation result 1 LOG1 logical operation result 2 LOG2 logical operation result 3 LOG3 logical operation result 4 LOG logical operation result 5 LOG5 logical operation result 6 LOG6 capacitor life warning WAC 11 cooling fan speed drop WAF starting contact signal FR heat sink overheat warning OHF low current indication signal LOC general purpose output 1 M01 general purpose output 2 M02 general purpose output 3 M03 general
53. e to turn on the inverter after turning on the PLC and its external power source to prevent the parameters in the inverter from being modified Connection with Output Terminals 1 Sink type logic a KRAFA EE ee ae E Inverter Hitachi EH 150 series PLC Inverter Hitachi EH 150 series PLC Input Module Input Module EH XD16 EH XD16 26 WIRING and ACCESSORIES Power Supply Wiring Input Motor Output Si a Voltage KW HP AWG mm AWG mm Tines SJ700 SJ700 SJ700B 0 4 1 2 004LFUF2 LFF2 14 2 1 5 0 75 1 O007LFUF2LFF2 14 21 10 eee 1 53 15 2 2 3 20 8 7 5 30 pure d ET ue 7 5 10 z 0 75mm 40 200V 11 15 110LFUF2 LFF2 shielded 60 C JK 15 20 150LFUF2 LFF2 wire 80 18 5 25 185LFUF2 LFF2 100 22 30 220LFUF2 LFF2 125 30 40 300LFUF2 LFF2 150 37 50 370LFUF2 LFF2 175 45 60 450LFUF2 LFF2 225 55 75 550LFUF2 LFF2 250 75 100 l 0 75 1 OO7HFEF2 HFUF2 HFF2 5 1 5 2 015HFEF2 HFUF2 HFF2 10 2 2 3 022HFEF2 HFUF2 HFF2 10 3 7 5 037HFEF2 HFUF2 HFF2 15 5 5 7 5 055HFEF2 HFUF2 HFF2 15 7 5 10 075HFEF2 HFUF2 HFF2 15 11015 8 84 20 30 15 20 6 133 30 40 18 5 25 6 133
54. e withstand pressure test as mention of the instruction manual 33 Installation location and operating environment Avoid installation in areas of high temperature excessive humidity or where moisture can easily collect as well as areas that are dusty subject to corrosive gasses mist of liquid for grinding or salt Install the inverter away from direct sunlight in a well ventilated room that is free of vibration The inverter can be operated in the ambient temperature range from 10 to 50 C Carrier frequency and output current must be reduced in the range of 40 to 50 C Main power supply Installation of an AC reactor on the input side In the following examples involving a general purpose inverter a large peak current flows on the main power supply side and is able to destroy the converter module Where such situations are foreseen or the connected equipment must be highly reliable install an AC reactor between the power supply and the inverter Also where influence of indirect lightning strike is possible install a lightning conductor A The unbalance factor of the power supply is 3 or higher Note B The power supply capacity is at least 10 times greater than the inverter capacity the power supply capacity is 500 kVA or more C Abrupt power supply changes are expected Examples 1 Several inverters are interconnected with a short bus 2 A thyristor converter and an inverter are interconnected with a short
55. eceleration via an external input braking force time and operating frequency Input signal Output signal Frequency setting Operator Up and Down keys External signal 8 DC 0 10V 10 10V input impedance 10kO 4 20mA input impedance 1000 External port Setting via RS485 communication Forward reverse Start stop Operator External signal External port Start stop commands forward reverse switching by parameter setting Forward operation start stop commands reverse operation start stop possible when relevant commands are assigned to intelligent input terminals 3 wire input possible when relevant commands are assigned to control circuit terminals Setting via RS485 communication Intelligent input terminals Thermistor input Intelligent output terminals Terminals 8 terminals NO NC switchable sink logic source logic switchable Functions Terminals Functions Monitor output terminals Reverse operation RV Multi speed 1 setting CF1 Multi speed 2 setting CF2 Multi speed 3 setting CF3 Multi speed 4 setting CF4 Jogging JG external DC braking DB 2nd motor control SET 2 stage acceleration deceleration 2CH free run stop FRS external trip EXT unattended start protection USP commercial power supply switching CS software lock SFT analog input switching AT 3rd motor control SETS reset RS starting by 3 wire input STA stopping b
56. ectrical noise interference may occur on nearby equipment such as a radio receiver This magnetic choke filter helps reduce radiated noise can also be used on output Radio noise filter Capacitor filter This capacitor filter reduces radiated noise from the main power wires in the inverter input side DC link choke Suppresses harmonics generated by the inverter Braking resistor Braking unit Output side noise filter This is useful for increasing the inverter s control torque for high duty cycle on off applications and improving the decelerating capability Reduces radiated noise from wiring in the inverter output side Radio noise filter Electrical noise interference may occur on nearby equipment such as a radio receiver This magnetic choke filter helps reduce radiated noise can also be used on input This reactor reduces the vibration in the motor caused by the inver ter s switching waveforms by smoothing the waveforms to approxi mate Ce commercial power quality It is also useful when wiring from the inverter Motor to the motor is more than 10m in length to reduce harmonics LCR filter Sine wave shaping filter for the output side Note An EMI filter is required for European EMC directive and C Tick but the others are not for this purpose TORQUE CHARACTORISTIC SJ700 Series Maximum Torque with Short Time Rating Sensorless vector control V control maximum torque boos
57. emperature 12 general purpose output YAO 00 output frequency 01 output current 02 output torque 04 output voltage 05 input power 06 electronic thermal overload 07 LAD frequency 09 motor temperature 10 heat sink temperature 11 00 00 output torque signed value 13 general purpose output YA1 00 00 x Q 00 00 x Analog monitoring C029 AMI signal selection 00 output frequency 01 output current 02 output torque 04 output voltage 05 input power 06 electronic thermal overload 07 LAD frequency 09 motor temperature 10 heat sink temperature 14 00 00 general purpose output YA2 00 00 x 1 When the emergency stop function is enabled SW1 ON 18 RS and 64 EMR are forcibly written to parameters C001 and C003 respectively You cannot arbitrarily write 64 to C001 If the SW1 signal is turned off and then turned on no no assignment is set in parameter C003 6 2 1850HF 2200HF 3150HF and 4000HF The function is not provided Function Name OC GROUP INTELLIGENT TERMINAL FUNCTIONS Monitored data or setting SJ700 0 20 x rated current to 2 00 x rated current A SJ700B 0 20 x rated current to 1 50 x rated current A FE CE FU UL F JP Rated current of Oz Allowed X Not permitted Default Setting Setting SJ700 SJ700B Change during l during operation allowed or not allowed
58. erature C Precaution for Correct Usage Before use be sure to read through the Instruction Manual to insure proper use of the inverter Note that the inverter requires electrical wiring a trained specialist should carry out the wiring e The inverter in this catalog is designed for general industrial applications For special applications in fields such as aircraft outer space nuclear power electrical power transport vehicles clinics and underwater equipment please consult with us in advance e For application in a facility where human life is involved or serious losses may occur make sure to provide safety devices to avoid a serious accident e The inverter is intended for use with a three phase AC motor For use with a load other than this please consult with us Information in this brochure is subject to change without notice 34 Printed in Japan T SM E268P 0712
59. erature can be monitored in order to replace components prior to failure User selection of Displayed Parameters Data comparison function Allows display of only parameters changed from default User selected function Display of up to 12 User Defined Parameters U001 to U012 Basic mode default Basic display mode for commonly used parameters lm e Indication only Basic Parameter Chose Basic Parameter Other Functions The direct input of function code selection is possible rather than scrolling through the list Holding down the function key for 3 seconds causes the display to jump to output frequency monitor d001 mode from any menu location Network compatibility A serial RS 485 Modbus RTU port is standard The SJ700 can communicate with DeviceNet PROFIBUS DP and other networks with communication options DeviceNet is a trade mark of Open DeviceNet Vender Association Inc PROFIBUS DP is a registered trade mark of PROFIBUS Nutzer Organization Simple amp Low cost wiring Ease of installation and replacement Global standards Conformity to global standards CE UL c UL C Tick approvals CE Ex y LISTED Logic input amp output Terminal apply sink amp source logic Wide Input power voltage range Input voltage 240V for 200V class and 480V for 400V class as standard Environmental Friendliness Micro Surge
60. ervoltage 00 16 times 01 unlimited 00 x Selection of retry count after overvoltage X s b010 or overcurrent Tto meS 3 O b011 Retry wait time after tripping 0 3 to 100 0 s 1 0 1 1 0 x O b012 Electronic thermal setting calculated within BE ap TA S O the inverter from current output 20 x rated current to 1 00 x rated current A Electronic thermal setting calculated within a j Rated current of 6 P212 ine inverter from current output 2nd motor a inverterx 1 0 O c Electronic thermal setting calculated within E P 2 BER iho inverter from current output 3rd motor 0 20 x rated current to 1 00 x rated current A x b013 Electronic thermal characteristic 00 reduced torque characteristic 01 constant torque characteristic 02 free setting 01 x 9 b213 Electronic thermal characteristic 2nd motor 00 reduced torque characteristic O1 constant torque characteristic 02 free setting 01 x Q Lb313 Electronic thermal characteristic 3rd motor 00 reduced torque characteristic O1 constant torque characteristic 02 free setting 01 X S b015 Free setting electronic thermal frequency 1 0 to 400 Hz 3 0 x b016 Free setting electronic thermal current 1 0 00 to rated current A 0 0 X Su b017 Free setting electronic thermal frequency 2 0 to 400 Hz 3 0 X Q b018 Free setting electronic thermal current 2 0 00 to rated current A 0 0 X b019 F
61. fault Setting Setting Change SJ700 SJ700B during operation during operation Function Name ng E CE FU UL F J allowed or not allowed or not Monitored data or setting ge 00 tripping 01 starting with O Hz 02 starting with matching frequency 03 tripping after E a 6001 Selection of restart mode deceleration and stopping with matching frequency 04 restarting with active matching frequency O m b002 Allowable under voltage power failure time 0 3 to 25 0 s 1 a 1 F 1 pr 1 0 X Q o b003 Retry wait time before motor restart 0 3 to 100 0 s 1 0 1 1 0 1 1 0 1 0 X 2 failure vol S b004 ee power tailureunger voltage 00 disabling 01 enabling 02 disabling during stopping and decelerating to stop 00 00 00 00 X m 5 trip alarm enable Number of restarts on power b005 failure under voltage trip events 00 16 times 01 unlimited 00 00 00 00 x 2 b006 Phase loss detection enable 00 disabling 01 enabling 00 00 00 00 x S b007 Restart frequency threshold 0 00 to 99 99 100 0 to 400 0 Hz 2 eee 0 00 0 00 x O amp 00 tripping 01 starting with O Hz 02 starting with matching frequency 03 tripping after e b008 Selection of retry after tripping deceleration and stopping with matching frequency 04 restarting with active matching frequency 00 O 3 b009 Selection of retry after und
62. g 01 tripping after decelerating and stopping the motor 02 ignoring errors i C076 Selection of the operation after communication error 03 a ie Fi a and El rie Hic j 02 O C077 Communication timeout limit before tripping 0 00 to 99 99 s 0 00 000 000 1000 x O G C078 Communication wait time 0 to 1000 ms 0 0 0 0 x C079 Communication mode selection OO ASCII 01 Modbus RTU 00 00 00 00 x Q C081 O input span calibration 0 to 9999 1000 to 6553 10000 to 65530 x C082 Olinput span calibration 0 to 9999 1000 to 6553 10000 65530 Factory Sel x E C083 O2 input span calibration 0 to 9999 1000 to 6553 10000 65530 x O gt C085 Thermistor input tuning 0 0 to 999 9 1000 x C091 Debug mode enable Do not change this parameter which is intended for factory adjustment 00 ern oon on ae X C101 UP DOWN memory mode selection 00 not storing the frequency data 01 storing the frequency data 00 eva e rcm Q 0 00 resetting the trip when RS is on 01 resetting the trip when RS is off C102 Reset mode selection 02 a dent only upon ind Fen tl oan Te is on 00 O O cas Restart mode atter res creber eee SN C105 FM gain adjustment 50 to 200 96 100 100 100 O amp C106 AM gain adjustment 50 to 200 26 100 100 O C107 AMI gain adjustment 50 to 200 26 100 100 O 3 C109 AM bias adjustment 0 to 100 96 C110 AMI bias adjustment 0
63. g control while the motor is topped 02 enabling enabling 00 00 00 00 x O b096 Dynamic braking activation level 330 to 380 660 to 760 V 360 720360 720 X OQ b098 Thermistor for thermal protection control edu Ms ses NO IG he es OL TEC 00 x Q b099 Thermal protection level setting 0 to 9999 Q 3000 x b100 Free setting V f frequency 1 0 to free setting V f frequency 2 Hz 0 X x 2 b101 Free setting V voltage 1 0 0 to 800 0 V 0 0 x x 2 b102 Free setting V f frequency 2 0 to free setting V f frequency 3 Hz 0 x x b103 Free setting V voltage 2 0 0 to 800 0 V 0 0 x X S b104 Free setting V frequency 3 0 to free setting V f frequency 4 Hz 0 x x S b105 Free setting V f voltage 3 0 0 to 800 0 V 0 0 x x 5 b106 Free setting V frequency 4 0 to free setting V f frequency 5 Hz 0 x x gt b107 Free setting V f voltage 4 0 0 to 800 0 V 0 0 x x b108 Free setting V f frequency 5 0 to free setting V f frequency 6 Hz 0 x x b109 Free setting V f voltage 5 0 0 to 800 0 V 0 0 x x b110 Free setting V frequency 6 0 to free setting V f frequency 7 Hz Sor EON 0 x x L b111 Free setting V voltage 6 0 0 to 800 0 V 0 0 0 0 0 0 0 0 x x 1 Over current protection Overload restriction Over current limiting and Electronic thermal protection might operate from the set value when Carrier frequenc
64. ge start time 06 06 06 06 x e b037 Function code display restriction eo i E GIS IBY QE UBS Sening Ge gara colppallee 04 04 04 04 x Q b038 Initial screen selection ie ed piede ES Reus a E ae cece 01 01 O1 O1 x O b039 Automatic user parameter setting function enable 00 disabling 01 enabling 00 00 00 00 X Q BU Torque limit selection ead setting 01 switching by terminal 02 analog input 03 option 1 00 00 00 00 O imi 700 0 to 200 i i imitati 0 es SR LE E imi 700 O to 200 96 i i imitati 0 j E b042 in 4 quadrant mode Reds ju MED TENET E Roues Mt 190 150 150 120 a O Torque limit 3 SJ700 0 to 200 96 no disabling torque limitation lt 75kW and over 0 to 180 gt S b043 PR in 4 quadrant mode SJ700B 0 to a a SA Eeh 150 150 150 120 d O m Torque limit 4 0 96 isabli imitati 0 b044 in 4 quadrant mode Space Dus Te GA NE EST E 190 120 O b045 Torque limit LADSTOP enable 00 disabling 01 enabling 00 00 00 00 x O 8 b046 Reverse RUN protection enable 00 disabling 01 enabling 00 00 X so b050 Controlled deceleration and stop on power loss 00 disabling 01 enabling 00 00 X X E z b051 DC bus voltage trigger level during power loss 0 0 to 999 9 1000 V 220 0 440 0 220 0 440 0 220 0 440 0 220 0 440 0 x x 8 b052 Over voltage threshold during power loss 0 0 to 999 9 1000 V 360 0 720 0 360 0 720 0 360 0 720 0 360 0
65. h the motor manufacturer about the maximum allowable rotation speed 7 Storage temperature refers to the temperature in transportation 8 The frequency command is the maximum frequency at 9 8V for input voltage 0 to 10VDC or at 19 6mA for input current 4 to 20mA If this characteristic is not satisfactory for your application contact your Hitachi representative 9 SJ700B series is 10 to 45 C 10 Please be sure to connect DC reactor attached to 1850HF 2200HF 3150HF and 4000HF 11 1850HF 2200HF 3150HF and 4000HF The function is not provided EMI filters input output reactors radio noize filters braking resistors braking units LCR filter communication cables SJ700 004 037 LFUF2 LFF2 SJ700 007 040HFEF2 HFUF2 007 037HFF2 150 5 91 130 5 12 80 15 Digital Operator Exhaust 3 22x25 0 87x0 98 O Wiring Hole Air intake t 143 5 63 a 8J700 150 220 LFUF2 LFF2 HFEF2 HFUF2 HFF2 SJ700B 185 300HFF 250 9 84 2 67 0 28 229 9 02 24 5 0 97 Digital Operator EX Wall Air intake 3 42x42 5 1 65x1 67 Wiring Hole SJ700 370 450 LFUF2 LFF2 SJ700 370 550 HFEF2 HFUF2 HFF2 SJ700B 450 750HFF Digital Operator 2 p12 p0 47 32 5 1 28 80 3 15 Wall HT
66. he inverter has tripped Monitor LEDs Shows drive status RUN key enable LED Lights up when the inverter is ready to respond to the RUN key RUN Key Press to run the motor Display Unit LEDs Indicates the unit associated with the parameter display Store Key STOP RESET Key Press to write the new value Press to stop the drive or to the EEPROM reset an alarm Function Key Up Down Keys Press to set or monitor a Press up or down to sequence parameter value through parameters and functions shown on the display and increment decrement values Setting the output frequency The contents of a basic mode display default If a desired parameter is not displayed check the setting of function b037 function code display restriction To display all parameters specify OO for HITACHI Saam b037 Power on 1 li or the value previously monitored is displayed 4 Preset value is displayed Display code Item d001 to d104 Monitor display F001 Output frequency setting exe Q 0G QC Press Fu key 2 Function code appears Acceleration 1 time setting Deceleration 1 time setting to set desired value Operation direction setting Frequency source setting Run command source setting 5 Newly set value is displayed Base frequency setting A004 Maximum frequency setting an o gag ov AT selection 0 Multi speed frequen
67. hermal function Setting upper limit 120 Setting upper limit 100 characteristic Default 00 reduced torque characteristic Default 01 constant torque characteristic Default 01 operating the fan only during inverter b092 Cooling fan control Default 00 always operating the fan operation including 5 minutes after power on and power off b095 Dynamic braking control Default 00 disabling tea 1 enabling disabling while the motor is R bl Removable ea oa Removable You can mount the L300P into the SJ700B Control Intelligent input terminals circuit Intelligent output terminals 2 terminals Relay 5 terminals Open collector 370L H 97mm upper part from L300P Fo ten Other model same position 150L H M6 Ground Screw M5 Ground Screw Terminal Screw diameter 370L M8 Ground Screw M6 Ground Screw 550L 450H ME Main circuit 110 150LF HF 10mm upper part from L300P Bos 185 to 370L H 20mm upper part from L300P 750L 30mm upper part from L300P Other model same position 185 to 300L H RB there is not a terminal Easy removable Dc bus Capacitor All the models are possible 8 5kW or more is possible Dynamic Brake circuit Up to 15kW Up to 30kW 110L 10 Minimum value of 150L 10 resistor 110H 35 150H 35 Installation All models are the same enclosure size Dimensions External radiating fin Those with compatibility Note 2 E s 300L H 97mm upper part from L300P PII essem eee um Other model same position SJ DG Those
68. horized modification Typical Example Replacing External Relay Circuit Standard Inverter Programming Programming Window Download Operation circuit Cost and space reduction compared with external EMC Filter Reduces electromagnetic noise Meets EN61800 3 2nd Environment SJ700 European Version and Japanese Version does not have 150 kW SJ700B All models Brake circuit up to 22kW Cost and Space reduction compared with external Braking Controller SJ700B Up to 30kW Built in EMC Filter up to 150kW Language Spec I O function Reserved word Item Description Language type BASIC Like Supported Device Windows DOS V OS Windows2000 WindowsXP Memory area 1 024 steps or 6k byte Smaller of these Program is stored in internal of inverter Programming environment Editor Windows Display Windows Grammar check Windows Program download upload All clear Executable format External input External output Command Interpreter 2 0ms command Sub routine supported 8 nested External digital contact input Contact signal Open collector signal input Internal DC24V power supply available Program RUN FW terminal is reserved command General purpose input Maximum of 8 point X 00 X 07 External analog input General purpose output terminal XA 0 0 10V O terminal XA
69. ide forward side O O P067 upper 4 digits including 2 P068 Zero return mode selection OO Low 01 Hi1 00 Hi2 O P069 Zero return direction selection 00 FW 01 RV Q Q 2 P070 Low speed zero return frequency 0 00 10 00 Hz 0 00 0 00 0 00 0 00 O Q S P071 High speed zero return frequency 0 00 99 99 100 0 Maximum frequency setting 1st motor Hz 0 00 0 00 0 00 10 00 C O P072 Position range specification forward 0 268435455 when P012 202 0 1073741823 When P012 03 upper 4 digits 268435455 x O 2 P073 Position range specification reverse 268435455 0 when P012 02 1073741823 0 When P012 03 upper 4 digits 268435455 x O lt P074 Teaching selection 00 X00 01 X01 02 X02 03 X03 04 X04 05 X05 06 X06 07 X07 00 00 00 009 O O i i Easy sequence user parameter U 00 31 0 to 9999 1000 to 6553 10000 to 65535 0 0 0 0 Q U001 P012 parameters Function Name User selected functions 1 12 QU GROUP USER SELECTABLE MENU FUNCTIONS Monitored data or setting no d001 to P131 Not available for SJ700B Oz Allowed X Not permitted Default Setting SJ700 SJ700B FE CE Setting Change 19 OPERATOR HOperator Cable Operator Remote Control Copy function Applied Cable Applied Model for Built in Model Potentiometer OPE SR mini O OPE SBK
70. inal FW active state Terminal 11 function C022 C023 Terminal 12 function Terminal 13 function C024 Terminal 14 function Intelligent output terminals C025 C026 Terminal 15 function Alarm relay terminal function 00 00 00 00 00 00 Z C NC m LL LR 00 00 00 ER running 01 FA1 constant speed reached 02 FA2 set frequency overreached 03 OL overload notice advance signal 1 04 OD output deviation for PID control 05 AL alarm signal 06 FA3 set frequency reached 07 OTQ over torque 08 IP instantaneous power failure 09 UV 01 FA1 00 00 00 00 00 00 ISIS SII QUK CONOCE 01 FA1 O1 FA1 x undervoltage 10 TRQ torque limited 11 RNT operation time over 12 ONT plug in time over 13 THM thermal alarm signal 19 BRK brake release 20 BER braking error 21 ZS 0 Hz detection signal 22 DSE speed deviation maximum 23 POK positioning completed 24 FA4 set frequency overreached 2 25 FA5 set frequency reached 2 26 OL2 overload notice advance signal 2 27 Odc Analog O disconnection detection 28 OIDc Analog OI disconnection detection 29 O2Dc Analog O2 disconnection detection 31 FBV PID feedback comparison 32 NDc communication line disconnection 33 LOG1 logical operation result 1 34 LOG2 logical 00 RUN 03 OL QO RUN OO RUN x O
71. ion A to target position B After the movement the inverter keeps servo lock status Starting point A Target point B A Derating is applied for SJ700B Please consult technician at Hitachi or its distributor before use Over current amp voltage suppress function Higher internal calculation speed improves current control performance Over current suppress and Over voltage suppress functions avoid inverter trip during acceleration and deceleration Over current suppress OFF Over current suppress ON DC Bus AVR Function During Deceleration The SJ700 controls deceleration time so that the DC bus voltage does not exceed the over voltage trip level providing trip less operation during deceleration Motor current Voltage of the main circuit DC Output frequency SJ 0085J 00B High performance powerful functions yet user friendly Programming EzSQ Easy Sequence function Inverter control by Built in Programming function Sequence operation is realized by downloading to an inverter a program created with Hitachi s EzSQ software Tailor inverter operation to meet changing process requirements and replace separate PLCs in some cases By simplifying or eliminating external hardware signficant cost savings can be achieved Password function is incorporated to provide security for proprietary program data against loss or unaut
72. leration Room 00 00 00 X O b131 Overvoltage suppression level 330 to 390 V 200 V class model 660 to 780 V 400 V class model 380 760 380 760 380 760 X O Acceleration an leration r b132 Mes RL SEA zu 0 10 to 30 00 s 1 00 1 00 1 00 1 00 x O b133 Overvoltage suppression propotional gain 0 00 to 2 55 0 50 0 50 0 50 0 50 b134 Overvoltage suppression Integral time 0 000 to 9 999 10 00 to 63 53 s 0 060 0 060 0 060 0 060 1 4000HF 0 0 to 120 0 Hz 2 4000HF 0 00 to 99 99 100 0 to 120 0 H2 Function Name OC GROUP INTELLIGENT TERMINAL FUNCTIONS Not available O Allowed X Not permitted Default Setting Setting Bt Monitored data or setting SJ700 SJ700B during operation during operation allowed or not allowed or not C001 C002 C003 Terminal 1 function 1 Terminal 2 function Terminal 3 function 1 C004 C005 Terminal 4 function Terminal 5 function Intelligent input terminals C006 C007 C008 Terminal 6 function Terminal 7 function Terminal 8 function FE CE FU UL 01 RV Reverse RUN 02 CF1 Multispeed 1 setting 03 CF2 Multispeed 2 setting 04 CF3 Multispeed 3 setting 05 CF4 Multispeed 4 setting 06 JG Jogging 07 DB 18 RS 18 RS external DC braking 08 SET Set 2nd motor data 09 2CH 2 stage acceleration deceleration 11 FRS free run stop 12 EXT
73. m ro Li Main circuit error 3 If the rotation speed of the internal cooling fan decreases so that the cooling effect decreases inverter output turns OFF for protection available only for SJ700 1850 4000 IGBT error When an instantaneous over current has occurred the inverter trips and turns off its output to protect main circuit element When the thermistor inside the motor detects temperature higher than the specified value the inverter trips and turns off its output The inverter turns off its output when it can not detect whether the braking is ON or OFF within waiting time set at b024 after it has released the brake When braking is enabled at b120 BRAKE If the EMR signal on three terminals is turned on when the slide switch SW1 on the logic board is set to EMR ON the inverter hardware will shut off the inverter output and display the error code shown on the right A E Vl gu Le Cooling fan speed drop signal gu 1 LI ul Vu Thermistor error F V Lut Lt Qum Ln Li Braking error Emergency stop 4 If overload occurs during the motor operation at a very low speed at 0 2 Hz or less the electronic thermal protection Low speed overload protection circuit in the inverter will detect the overload and shut off the inverter output 2nd electronic thermal control OL LowSP Note that a high frequency may be recorded as the error history data If timeout occu
74. manufacturer Gear motor Particularly in case of oil lubrication pay attention to the low frequency range Brake equipped motor For use of a brake equipped motor be sure to connect the braking power supply from the primary side of the inverter There are different kinds of pole change motors constant output characteristic type constant torque characteristic type etc with Pole change motor different rated current values In motor selection check the maximum allowable current for each motor of a different pole count At the time of pole changing be sure to stop the motor Also see Application to the 400V class motor The rated current of a submersible motor is significantly larger than that of the general purpose motor In inverter selection be sure Submersible motor to check the rated current of the motor Inverter drive is not suitable for a safety enhanced explosion proof type motor The inverter should be used in combination with a Explosion proof motor pressure proof explosion proof type of motor Explosion proof verification is not available for SJ700 SJ700B Series Synchronous MS motor In most cases the synchronous MS motor and the high speed HFM motor are designed and manufactured to meet the High speed HFM motor specifications suitable for a connected machine As to proper inverter selection consult the manufacturer Single phase motor A single phase motor is not suitable for variable speed operatio
75. mmand setting 0 to 200 0 Lakes he em O P035 Riss eset mg 00 as indicated by the sign 01 depending on the operation direction 00 oo oo X a P036 Torque bias mode 00 disabling the mode 01 digital operator 02 input via O2 terminal 00 X 6 P037 Torque bias value 200 to 200 96 0 o P038 Torque bias polarity selection 00 as indicated by the sign 01 depending on the operation direction 00 X P039 a ee ER 0 00 to maximum frequency Hz 0 00 Q P040 Mo SU SER 0 00 to maximum frequency Hz 0 00 O P044 DeviceNet comm watchdog timer 0 00 to 99 99 s 1 00 1 00 1 00 x x rippin 1 trippin r lerating an ing the motor 02 ignoring error Po45 mvereracionon DeviceNet comm enor or ol of x P046 DeviceNet polled I O Output instance number 20 21 100 21 21 21 X X P047 DeviceNet polled I O input instance number 70 71 101 71 71 71 X X PO4 inventer action on DeviceNetidemode Gs eng me morior teeming Of sing an spn eme ol OF Ci P049 DeviceNet motor poles setting for RPM O 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 poles X X P055 Pulse string frequency scale 1 0 to 50 0 kHz x PO56 Time constant of pulse string frequency filter 0 01 to 2 00 s X P057 Pulse string frequency bias 100 to 100 x O P058 Pulse string frequency limit 0 to 100 x Q 5 Pepe Multistage position setting 0 7 Position setting range reverse s
76. n by an inverter drive Therefore use a three phase motor Application to the 400V class motor A system applying a voltage type PWM inverter with IGBT may have surge voltage at the motor terminals resulting from the cable constants including the cable length and the cable laying method Depending on the surge current magnification the motor coil insulation may be degraded In particular when a 400V class motor is used a longer cable is used and critical loss can occur take the following countermeasures 1 install the LCR filter between the inverter and the motor 2 install the AC reactor between the inverter and the motor or 3 enhance the insulation of the motor coil Notes on Use Drive Run or stop of the inverter must be done with the keys on the operator panel or through the control circuit terminal Do not operate Run Stop by installing a electromagnetic contactor MC in the main circuit When the protective function is operating or the power supply stops the motor enters the free run stop state When an emergency Emergency motor stop stop is required or when the motor should be kept stopped use of a mechanical brake should be considered A max 400Hz can be selected on the SJ700 SJ700B Series However a two pole motor can attain up to approx 24 000 rpm which is extremely dangerous Therefore carefully make selection and settings by checking the mechanical strength of the motor and connected machines Consul
77. ndard applicable output motors standard three phase squirrel cage four pole motors the NE S1 Series does not need a thermal relay for motor protection due to the internal electronic protective circuit A thermal relay however should be used e during continuous running outside a range of 30 to 60 Hz e for motors exceeding the range of electronic thermal adjustment rated current e when several motors are driven by the same inverter install a thermal relay for each motor e The RC value of the thermal relay should be more than 1 1 times the rated current of the motor Where the wiring length is 10 m or more the thermal relay tends to turn off readily In this case provide an AC reactor on the output side or use a current sensor Install a circuit breaker on the main power input side to protect inverter wiring and ensure personal safety Choose an inverter compatible circuit breaker The conventional type may malfunction due to harmonics from the inverter For more information consult the circuit breaker manufacturer The wiring distance between the inverter and the remote operator panel should be 20 meters or less Shielded cable should be used on thewiring Beware of voltage drops on main circuit wires A large voltage drop reduces torque Earth leakage relay Do not use a capacitor for power factor Improvement between the inverter and the motor because the high frequency components x of the inverter output may overheat or dam
78. nt L 2nd motor 0 01 to 99 99 100 0 to 655 3 mH 2 X X H033 Auto constant lo 1st motor 0 01 to 99 99 100 0 to 655 3 A 3 X X H233 Auto constant lo 2nd motor 0 01 to 99 99 100 0 to 655 3 A 3 X X H034 Auto constant J 1st motor 0 001 to 9 999 10 00 to 99 99 100 0 to 999 9 1000 to 9999 X x H234 Auto constant J 2nd motor 0 001 to 9 999 10 00 to 99 99 100 0 to 999 9 1000 to 9999 X X H050 PI proportional gain for 1st motor 0 0 to 999 9 1000 100 0 100 0 100 0 100 0 H250 PI proportional gain for 2nd motor 0 0 to 999 9 1000 100 0 100 0 100 0 100 0 Q H051 Pl integral gain for 1st motor 0 0 to 999 9 1000 100 0 100 0 100 0 100 0 Q H251 Pl integral gain for 2nd motor 0 0 to 999 9 1000 100 0 100 0 100 0 100 0 Q Q H052 P proportional gain setting for 1st motor 0 01 to 10 00 1 00 1 00 1 00 H252 P proportional gain setting for 2nd motor 0 01 to 10 00 1 00 1 00 1 00 O S H060 Zero LV Imit for 1st motor 0 0 to 100 0 100 100 70 9 O 5 H260 Zero LV Imit for 2nd motor 0 0 to 100 0 100 70 9 Q H061 Zero LV starting boost current for 1st motor 0 to 50 50 50 Q Q G H261 Zero LV starting boost current for 2nd motor 0 to 50 50 50 x Q Q H070 Terminal selection PI proportional gain setting 0 0 to 999 9 1000 100 0 100 0 100 0 100 0 Q H071 Terminal selection PI integral gain setting 0 0 to 999 9 1000 100 0
79. oltage between each terminal and PLC DC 18V min Input OFF condition Voltage between each terminal and PLC DC 3V max Input impedance between each terminal and PLC 4 70 Allowable maximum voltage between each terminal and PLC DC 27V Open Collector Output Intelligent Output Terminals Assign 5 functions to open collector outputs When the alarm code is selected at C062 terminal 11 13 or 11 14 are reserved for error codes of inverter trip Refer to the standard specifications for the functions Both sink and source logic are always applicable between each terminal and CM1 Terminal Arrangement Common Terminal for Intelligent Output Terminals Thermistor Input Terminals Alarm Output Terminals Common terminal for intelligent output terminal 11 15 The inverter trips when the external thermistor detects abnormal temperature Common terminal is CM1 Recommended thermistor characteristics Allowable rated power 100mW or over Impedance in the case of abnormal temperature 3kQ Note Thermal protection level can be set between 0 and 99990 In default setting an alarm is activated when inverter output is turned off by a protective function AL1 AM1 15 CM2 12 ALO AL2 Screw diameter M3 Relay Output PCB L300PTM L300PTM is available in case a relay output function is nessessary ko ee pi 1999999999929 wm tm 11A 11C 12A 12C Terminal Width 6
80. ometer 1 04 switching between O2 and keypad potentiometer 1 go oe E 00 single 01 auxiliary frequency input via O and OI terminals nonreversible lt A006 O2 selection 02 auxiliary frequency input via O and OI terminals reversible 03 disabling O2 terminal 03 03 03 03 5 12 CD Os Allowed X Not permitted Default Setting Setting Tu Function Name Monitored data or setting SJ700 during operation during operation FE CE FU UL F UP SJ700B allowed or not allowed or not 2 A011 O L input active range start frequency 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x O 2 A012 O L input active range end frequency 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x O A013 O L input active range start voltabe 0 to O L input active range end voltage 96 0 Lah he ea O E A014 O L input active range end voltabe O L input active range start voltage to 100 96 100 100 O A015 O L input active range start frequency selection 0O external start frequency 01 0 Hz 01 01 01 01 X O 2 A016 External frequency filter time constant 1 to 30 or 31 500 ms filter 0 1 Hz with hysteresis 31 Sif 31 31 x e lt A017 Easy sequence function selection 00 disabling 01 enabling 00 00 00
81. or not ss C030 Digital current monitor reference value Current with digital current monitor output at 1 440 Hz inverterx 1 0 O O C031 Terminal 11 active state 00 NO 01 NC ON COM TC aa C032 Terminal 12 active state NO O1 NC 00 00 00 00 x O ae C033 Terminal 13 active state 00 NO 01 NC 00 00 00 00 x O 25 C034 Terminal 14 active state 00 NO O1 NC 00 00 00 00 x 5 C035 Terminal 15 active state 00 NO 01 NC 00 00 00 00 x O C036 Alarm relay terminal active state 00 NO 01 NC 01 01 01 01 X Q C038 Low current indication signal output mode selection S NE a a aa Sn 01 01 X C039 Low current indication signal detection level SJ700 0 0 to 2 00 x rated current A SJ700B 0 0 to 1 50 x rated current A Rated current of inverterx 1 0 x O C040 Overload signal output mode F o M ara i E operation ot ot ot of x O C041 Overload level setting SJ700 0 0 to 2 00 x rated current A SJ700B 0 0 to 1 50 x rated current A Rated current of inverterx 1 0 x y C042 Frequency arrival setting for accel 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 0 00 0 00 0 00 X Q C043 Frequency arrival setting for decel 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 0 00 0 00 0 00 X C i t C044 PID deviation level se
82. purpose output 4 M04 general purpose output 5 M05 general purpose output 6 M06 inverter ready IRDY forward rotation FWR reverse rotation RVR major failure MJA window comparator O WCO window comparator OI WCOI window comparator O2 WCO2 alarm code 0 to 3 ACO to AC3 Analog voltage output analog current output pulse string output e g A F D F n fold pulse output only A T V P Monitoring on display Output frequency output current output torque frequency conversion data trip history input output terminal status electric power and others Other functions Free V f setting 7 breakpoints frequency upper lower limit jump center frequency acceleration deceleration according to characteristic curve manual torque boost level breakpoint energy saving operation analog meter adjustment start frequency setting carrier frequency adjustment electronic thermal function available also for free setting external start end frequency frequency rate analog input selection retry after trip restart after instantaneous power failure output of various signals starting with reduced voltage overload restriction initial value setting automatic deceleration at power failure AVR function fuzzy acceleration deceleration online offline auto tuning high torque multi motor operation 11 Sensorless vector control of two motors by one inverter Protective functions Overcurrent protection overvoltage p
83. ree setting electronic thermal frequency 3 0 to 400 Hz 3 0 x O b020 Free setting electronic thermal current 3 0 00 to rated current A 0 0 x 00 disabling 01 enabling during acceleration and deceleration 02 enabling during S b021 Overload restriction operation mode constant speed 03 enabling during acceleration and deceleration increasing the speed 01 01 01 01 x D during regeneration D oe SJ700 0 20 x rated current to 2 00 x rated current A lt 75kW and over 0 20 x 1 80 gt Rated 3 b022 Overload restriction setting SJ700B 0 20 x rated current to 1 50 x rated current A Rated current x 1 50 aua x S b023 Deceleration rate at overload restriction 0 10 to 30 00 s 1 00 1 00 1 00 1 00 X 00 disabling 01 enabling during acceleration and deceleration 02 enabling during S b024 Overload restriction operation mode 2 constant speed 03 enabling during acceleration and deceleration increasing the speed 01 01 01 01 X 9 during regeneration g SJ700 0 20 x rated current to 2 00 x rated current A lt 75kW and over 0 20 x 1 80 gt Rated E b025 Overload restriction setting 2 SJ700B 0 20 x rated current to 1 50 x rated current A Rated current x 1 50 an x E b026 Deceleration rate at overload restriction 2 0 10 to 30 00 s 1 00 1 00 1 00 1 00 X p027 Overcurrent suppression enable 00 disabling 01 enabling 01 01 01 01 X 1 4000HF 5 0
84. rotection undervoltage protection electronic thermal protection temperature error protection instantaneous power failure protection phase loss input protection braking resistor overload protection ground fault current detection at power on USP error external trip emergency stop trip CT error communication error option board error and others Environmental conditions Options Ambient operating storage temperature 7 humidity Location Digital input expansion card 10 50 C 9 20 65 C 20 90 RH No condensation Altitude 1 000m or less indoors no corrosive gases or dust SJ DG 4digits BCD 16bits binary Feedback expansion card SJ FB vector control loop speed sensor Network interface card SJ DN2 DeviceNet TM SJ PBT PROFIBUS Others 1 The protection method conforms to JEM 1030 2 The applicable motor refers to Hitachi standard 3 phase motor 4 pole To use other motors be sure to prevent the rated motor current 50Hz from exceeding the rated output current of the inverter 8 The output voltage decreases as the main power supply voltage decreases except for the use of AVR function 4 Braking resistor is not integrated in the inverter Please install optional braking resistor or dynamic braking unit when large braking torque is required 5 Conforms to the test method specified in JIS C 60068 2 6 2010 IEC 60068 2 6 2007 6 To operate the motor beyond 50 60Hz please consult wit
85. rs because of line disconnection during the communication in Modbus RTU mode the inverter will display the error code shown on the right The inverter will trip according to the setting of CO76 NET ERR UV WAIT OR eae An error has been detected in an expansion card or at its connecting terminals CEE oP2 0 OP29 1 Reset operation is acceptable 10 seconds after the trip 185kW and over 90 seconds 2 Check the parameters when EEPROM error occurs 3 The inverter will not accept reset commands input via the RS terminal or entered by the STOP RESET key Therefore turn off the inverter power 4 The inverter will not accept the reset command entered from the digital operator Therefore reset the inverter by turning on the RS terminal Status Display rm J Modbus communication error Out of operation due Due to insufficient voltage the inverter has turned off its output and been trying to to under voltage restart If it fails to restart it goes into the under voltage error i ml I nd Easy sequence function Error Error indications by protective functions with the easy sequence function used V m Ln 2 m l m 0 Reset 2 Deceleration 4 Acceleration 6 Starting 8 Overload Restriction 1 Stop 3 Constant Speed 5 fO Stop 7 DB 9 Forcible or servo on How to access the details about the present fault GO GO N
86. se install optional braking resistor or dynamic braking unit when large braking torque is required 5 Conforms to the test method specified in JIS C 60068 2 6 2010 IEC 60068 2 6 2007 6 To operate the motor beyond 50 60Hz please consult with the motor manufacturer about the maximum allowable rotation speed 7 Storage temperature refers to the temperature in transportation 8 The frequency command is the maximum frequency at 9 8V for input voltage 0 to 10VDC or at 19 6mA for input current 4 to 20mA If this characteristic is not satisfactory for your application contact your Hitachi representative SJ700 series SJ700 055HFEF2 Series Name Applicable Motor Capacity 004 0 4kW 1 2HP Model Name Indication 4000 400kW 500HP Power Source L 3 phase 200V class H 3 phase 400V class F With keypad U US version E European version Note Japanese version F Integrated EMC filter Version Model Configuration Available SJ700B series Series Name Applicable Motor Capacity SJ700 B 110 HFF sa La 110 11KW 15HP 1600 160kW 220HP Power Source H 3 phase 400V class F With keypad F Integrated EMC filter 0 4 0 75 3 7 5 5 7 5 11 18 5 37 55 75 110 132 185 315 400 Applicable Motor kw AP i Hip ea e ta a Laa Gh a et LFUF2 0 O ee 0o 0 O 3 phase 200V LFF2 00 00 0 0 0 00 0 0 09 0 HFEF2 o 9 0 o 00000 0o 0o O O
87. stic of a connected machine and the driving torque characteristic of the motor Motor loss and The torque characteristics of driving a general purpose motor with an inverter differ from those of driving it using commercial power temperature Increase Noise When run by an inverter a general purpose motor generates noise slightly greater than with commercial power When run by an inverter at variable speeds the motor may generate vibration especially because of a unbalance of the rotor including a connected machine or b resonance caused by the natural vibration frequency of a mechanical system Particularly be Vibration careful of b when operating at variable speeds a machine previously fitted with a constant speed motor Vibration can be minimized by 1 avoiding resonance points using the frequency jump function of the inverter 2 using a tire shaped coupling or 3 placing a rubber shock absorber beneath the motor base Under continued low speed operation oil lubrication can deteriorate in a power transmission mechanism with an oil type gear box gear motor or reducer Check with the motor manufacturer for the permissible range of continuous speed To operate at more than 60 Hz confirm the machine s ability to withstand the centrifugal force generated Power transmission mechanism Application to special motors The allowable rotation range of continuous drive varies depending on the lubrication method or motor
88. t b066 b067 2 0 O b070 Operation level at O disconnection 0 to 100 or no ignore 255 no x b071 Operation level at OI disconnection 0 to 100 or no ignore 255 no x Q b072 Operation level at O2 disconnection 0 to 100 or no ignore 127 no X Q b078 Cumulative input power data clearance Clearance by setting 01 and pressing the STR key 00 Q Q b079 Cumulative input power display gain setting 1 to 1000 1 d x x b082 Start frequency adjustment 0 10 to 9 99 Hz 0 50 0 50 0 50 x 5089 Carer requency soting Jo b084 Initialization mode parameters or trip history 00 clearing the trip history 01 initializing the data 02 clearing the trip history and 00 00 00 00 x x initializing the data b085 Country code for initialization 00 Japan 01 EU 02 U S A 01 02 00 01 x X b086 Frequency scaling conversion factor 0 1 to 99 0 10 1 0 10 1 0 b087 STOP key enable 00 enabling 01 disabling 02 disabling only the function to stop 00 00 00 00 X 5 b088 Restart mode after FRS See ace d 01 starting with matching frequency 02 starting with active 00 00 00 00 x O O b089 Automatic carrier frequency reduction 00 invalid 01 valid 00 o0 00 00 x x b090 Dynamic braking usage ratio 0 0 to 100 0 96 0 0 0 0 0 0 0 0 x b091 Stop mode selection 00 deceleration until stop 01 free run stop 00 00 00 00 x O 2082 Cooling en conto ae 095 Dynamic brakin
89. t the motor manufacturer when it is necessary to drive a standard general purpose motor above 60 Hz A full line of high speed motors is available from Hitachi High frequency run About the load of a frequent repetition use About frequent repetition use crane elevator press washing machine a power semiconductor IGBT a rectification diode thyristor in the inverter may come to remarkably have a short life by heat exhaustion The life can be prolonged by lower a load electric current Lengthen acceleration deceleration time Lower carrier frequency or increasing capacity of the inverter About the use in highlands beyond 1 000m above sea level When the standard inverter is used at a place beyond 1 000m above sea level because it cool heating element with air please be careful as follows But please inquire for the highlands more than 2 500m separately 1 Reduction of the inverter rating current The density of air decreases by 1 whenever rising by 100m when the altitude exceeds 1000m For example in the case of 2 000m above sea level it is 2 000 m Because it becomes 1 000 m 100 m X 1 10 please use with 10 reduction 0 9 inverter rating electric current of a rating current of the inverter 2 Reduction of the breakdown voltage When using inverter at a place beyond 1 000m the breakdown voltage decreases as follows 1 000m or less 1 00 1 500m 0 95 2 000m 0 90 2 50 0m 0 85 But please do not perform th
90. the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 X O 5 C144 Logical output signal 1 operator selection 00 AND 01 OR 02 XOR 00 00 00 00 x O C145 Logical output signal 2 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 oo oo o0 x C146 Logical output signal 2 selection 2 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X O C147 Logical output signal 2 operator selection 00 AND 01 OR 02 XOR 00 00 00 00 X C148 Logical output signal 3 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X 17 1 4000HF 0 00 to 99 99 100 0 to 120 0 Hz O Allowed X Not permitted Default Setting Setting Change Monitored data or setting SJ700 during operation during operation FE CE FU UL SJ700B allowed or not allowed or not Function Name F JP s C149 Logical output signal 3 selection 2 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X O 5 C150 Logical output signal 3 operator selection 00 AND 01 OR 02 XOR ecm 00 00 00 C151 Logical output signal 4 selection 1 Same as the settings of C021 to C026 except those of LOG1 to LOG6 00 00 00 00 X S C152 Logical output signal 4 selection 2 Same as the settings of C021 to C026 except those of LOG1 to LOG6
91. ting 0 4 55kW P ii 75 132kW 60Hz 55 132kW 65Hz max 0 4 3 7kW Output torque Output torqu Base frequency 100 Output frequency Hz Sensorless vector control 0 4 55kW Padi 75 132kW 50Hz 55 132kW 0 4 3 7kW 0 4 3 7kW 55 132kW 5 5 22kW 5 5 22kW Output torque Output torque Base frequency 38 50 65 100 120 Output frequency Hz Sensorless vector control 11 75kW 90 160kW 60Hz 55 160kW 55 160kW 65Hz max 11 22kW Output torque Output torque Base frequency 60 65 60 65 Output frequency Hz Output frequency Hz 11 22kW 11 22kW 50 65 16 7 50 65 Output frequency Hz Output frequency Hz 50Hz Output torque Output torque Base frequency TORQUE CHARACTORISTIC SJ700 SJ700B Series Torque Under Continous Operation Sensorless vector control Sensorless vector control V f control 0 55kW V f control 5 5 22kW 0 4 3 7kW 0 4 11kW 15 22kW 30 55kW 55 132kW 60Hz 50Hz 55 132kW 30 45kW 30 45kW 0 4 3 7kW 0 4 3 7kW Base frequency Output torque Base frequency Output torque Output frequency Hz Output frequency Hz DERATING DATA SJ700 El SJ700 Kl EI 90kW 45kW ame ESS EN e z D D E p o o 9 9
92. ting 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 15 00 15 00 Ez A292 Acceleration 2 time setting 2nd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 15 00 15 00 O A392 Acceleration 2 time setting 3rd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 O 8 A093 Deceleration 2 time setting 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 O E A293 Deceleration 2 time setting 2nd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 15 00 15 00 S A393 Deceleration 2 time setting 3rd motor 0 01 to 99 99 100 0 to 999 9 1000 to 3600 s 15 00 15 00 15 00 15 00 O 1 Derating is applied for SJ700B Please consult technician at Hitachi or its distributor before use 2 4000HF 0 00 to 99 99 100 0 to 120 0 Hz O Allowed X Not permitted Default Setting Setting Change SJ700 SJ700B during operation during operation Function Name llowed or not allowed or not FE CE FU UL F JP allowed or not allowed or not Monitored data or setting A094 Select method to switch to Acc2 Dec2 profile x ne UR bid ee eel ey ering 00 X X A294 Select method to switch to Acc2 Dec2 2nd motor e ea linia ue Eee 00 X X 5 A095 Acci to Acc2 frequency transition point 0 00 to 99 99 100 0 to 400 0 Hz 1
93. to 99990 100 to 999 100000 to 999000 A d016 Cumulative operation RUN time monitoring O to 9999 1000 to 9999 10000 to 99990 100 to 999 10000 to 999000 hr an Sees d017 Cumulative power on time monitoring 0 to 9999 1000 to 9999 10000 to 99990 100 to 999 10000 to 999000 hr S d018 Heat sink temperature monitoring 020 to 200 0 C S d019 Motor temperature monitoring 020 to 200 0 C d022 Life check monitoring C H COE E A ced ie board _ d023 Program counter Oto 1024 EN d024 Program number monitoring 0000 to 9999 Sa es d025 User monitor 0 2147483647 to 2147483647 upper 4 digits including d026 User monitor 1 2147483647 to 2147483647 upper 4 digits including dO27 User monitor 2 2147483647 to 2147483647 upper 4 digits including d028 Pulse counter 0 to 2147483647 upper 4 digits d029 Position setting monitor 1073741823 to 1073741823 upper 4 digits including d030 Position feedback monitor 1073741823 to 1073741823 upper 4 digits including 3 d080 Trip Counter 0 to 9999 1000 to 6553 10000 to 65530 times eo ee d081 Tite TANAIS fur COQUE Hz current A voltage across P N V d086 running time hours power on time hours d090 Programming error monitoring Warning code d102 DC voltage
94. tting 0 0 to 100 0 96 3 0 O S C045 Frequency arrival setting for acceleration 2 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 0 00 0 00 000 x E C046 Frequency arrival setting for deceleration 2 0 00 to 99 99 100 0 to 400 0 Hz 1 0 00 x O 9 C052 Maximum PID feedback data 0 0 to 100 0 96 100 0 x 2 C053 Minimum PID feedback data 0 0 to 100 0 0 0 X 3 C055 Over torque Forward driving level setting Sean EUR ee 100 x c O E C056 Over torque Reverse regenerating level setting n EA em IA 100 O C057 Over torque Reverse driving level setting Sa i a a 100 100 100 O C058 Over torque Forward regenerating level setting Sn T fou o CODI E 100 100 100 x m C061 Electronic thermal warning level setting 0 to 100 96 80 80 80 x o C062 Alarm code input 00 Disabled 01 3 bit O2 4 bit CNE NET NE C063 Zero speed detection level 0 00 to 99 99 100 0 Hz 0 00 P E EE O C064 Heat sink overheat warning level 0 to 200 0 C 120 120 120 O c C071 Communication speed selection 02 loopback test 03 2 400 bps 04 4 800 bps 05 9 600 bps 06 19 200 bps 04 T T X O S C072 Node allocation 1 to 32 i x O C073 Communication data length selection 7 7 bits 8 8 bits 7 x C074 Communication parity selection 00 no parity 01 even parity 02 odd parity 00 x C075 Communication stop bit selection 1 1 bit 2 2 bits 1 X P 00 trippin
95. uency width setting 2 0 00 to 10 00 Hz 0 50 x 8 A067 Jump center frequency setting 3 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 X Q amp A068 Jump hysteresis frequency width setting 3 0 00 to 10 00 Hz 0 50 0 50 x Q E A069 Acceleration stop time frequency setting 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 X O A070 Acceleration stop time frequency setting 0 0 to 60 0 s 0 0 0 0 0 0 0 0 X O A071 PID function enable 00 disabling 01 enabling 02 enabling inverted data output 00 Loon o0 hae O A072 PID proportional gain 0 2 to 5 0 1 0 O 3 A073 PID integral time constant 0 0 to 999 9 1000 to 3600 0 s 1 0 O A074 PID derivative gain 0 00 to 99 99 100 0 s 0 00 0 00 0 00 0 00 Q O G A075 PV scale conversion 0 01 to 99 99 1 00 1 00 1 00 1 00 input via Ol 01 input vi 2 external icati 2076 PV source seting eru e pd we o m o x o A077 Output of inverted PID deviation 00 OFF 01 ON RATE RE EO A078 PID variation range 0 0 to 100 0 0 0 A ia Q A081 AVR function select 00 always on 01 always off 02 off during deceleration 00 Eoo oo ha a x lt A082 AVR voltage select 200 V class 200 215 220 230 240 V 400 V class 380 400 415 440 460 480 V X x 5 A085 Operation mode selection 00 Normal operation 01 Energy saving operation O2 Fuzzy operation x x E A086 Energy saving mode tuning 0 1 to 100 0 Q Q 85 A092 Acceleration 2 time set
96. y 3 wire input STP forward reverse switching by 3 wire input F R PID disable PID PID integration reset PIDC control gain switching CAS acceleration by remote control UP deceleration by remote control DWN data clearance by remote control UDC forcible operation OPE Multi speed bit 1 SF1 Multi speed bit 2 SF2 Multi speed bit 3 SF3 Multi speed bit 4 SF4 Multi speed bit 5 SF5 Multi speed bit 6 SF6 Multi speed bit 7 SF7 overload restriction selection OLR torque limit selection enabling disabling TL torque limit 1 TRQ1 torque limit 2 TRQ2 P PI switching PPI braking confirmation BOK orientation ORT LAD cancellation LAC clearance of position deviation PCLR permission of 90 shift phase STAT trigger for frequency addition A145 ADD forcible terminal operation F TM permission of torque command input ATR cumulative power clearance KHC servo on SON pre excitation FOC general purpose input 1 MI1 general purpose input 2 MI2 general purpose input 3 MI3 general purpose input 4 MIA general purpose input 5 MI5 general purpose input 6 MI6 general purpose input 7 MI7 general purpose input 8 MI8 analog command holding AHD Multistage position settings selection 1 CP1 Multistage position settings selection 2 CP2 Multistage position settings selection 3 CP3 Zero return limit function ORL Zero return trigger function ORG Forward drive stop FOT reverse
97. y setting is used with less than 2kHz by a low value Please set to 2kHz or more and use the setting of Carrier frequency setting for such a situation 2 1850HF 2200HF and 3150HF 2 1 4000HF 1 9 Cn C Q eu D Function Name Monitored data or setting O Allowed X Not permitted Default Setting Setting dame during operation during operation allowed or not allowed or not b112 Free setting VA frequency 7 0 0 to 400 0 Hz 1 Fe 0 0 0 x x 8 b113 Free setting V f voltage 7 0 0 to 800 0 V 00 00 0 0 x x b120 Brake control enable 00 disabling 01 enabling 00 00 00 0 0 x O b121 Brake wait time for release 0 00 to 5 00 s 0 00 0 00 0 00 0 00 x O b122 Brake wait time for acceleration 0 00 to 5 00 s 0 00 0 00 0 00 0 00 x X b123 Brake wait time for stopping 0 00 to 5 00 s 0 00 0 00 0 00 0 00 x x b124 Brake wait time for confirmation 0 00 to 5 00 s 0 00 0 00 0 00 0 00 x x O p b125 Brake release frequency setting 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x x b126 Brake release current setting 0 0 to 2 00 x rated current Rated current x 1 00 x O z b127 Braking frequency 0 00 to 99 99 100 0 to 400 0 Hz 2 0 00 0 00 0 00 0 00 x x b130 Overvoltage suppression enable 00 disabling the restraint 01 decelerating and stagnating 02 enabling acce
Download Pdf Manuals
Related Search