User manual HITACHI J300

[. . . ] HITACHI INVERTER J300 SERIES INSTRUCTION MANUAL Three phase input 200/400V class J300 U : USA version After reading this manual, keep it at hand for future reference. Hitachi, Ltd. Tokyo Japan NB506XC SAFETY For the Best Results with J300 Series inverter, read this manual and all of the warning sign attached to the inverter carefully before installing and operating it, and follow the instructions exactly. Definitions and Symbols A safety instruction (message) is given with a hazard alert symbol and a signal word; WARNING or CAUTION. It used to call your attention to items or operations that could be dangerous to your and other persons operating this equipment. This is the "Safety Alert Symbol. " This symbol is used to call your attention to items or operations that could be dangerous to your or other persons operating this equipment. [. . . ] value FUNC Initial value 1 Normal measurement mode (The motor runs. ) 2 1 2 R1, R2, or L measurement mode (The motor does not run. ) (For details of auto tuning, see Appendix 1. ) Select the motor constant used for sensorless vectror control (SLV). 2 1 Set value FUNC Data used Old Hitachi generalpurpose motor data New Hitachi general purpose motor data (The Motor) Auto tuning data Initial value Motor data selection FUNC 0 1 Initial value 2 7-27 Extension function code Unusable Contents and display Ro-Toption selection 7-28 Extension function code Contents and display A terminal function is allocated to each of the input intelligent terminals 1 to 8. When using a function other than the standard set functions or changing the terminal order, set the function for each terminal. The minimum input signal acceptance time of the input intelligent terminals is about 20 ms. PCB terminal array Arrary of codes and intelligent terminals FM Terminal CM1 Initial setting Code Function name rating plate PLC C 0 Input terminal setting 1 1 18 P24 FW 2 16 C 1 Input terminal setting 2 8 C 2 Input terminal setting 3 3 5 7 C 3 Input terminal setting 4 4 11 6 5 C 4 Input terminal setting 5 Input intelligent 5 9 4 terminal section C 5 Input terminal setting 6 6 13 3 C 6 Input terminal setting 7 7 1 2 8 0 C 7 Input terminal setting 8 1 H Setting method Press the FUNC to Input terminal setting 1 to 8 key once for the terminal code to be set. The set values of the terminals which are set at present are displayed. Display the set value of the terminal to be used from the function list indicated below by pressing the key 1 and 2 and then press the FUNC key. The display is returned to the code display and the terminal function is changed. FUNC Enter the set value of the terminal name to be used bypressing the keys 1 and 2 . FUNC Setting example: The RS (reset) function is changed to the SFT (treminal software lock) function. Input terminal function list Set value Abbreviation Function name Reverse Multispeed 1 Multispeed 2 Multispeed 3 Jogging External DC braking Initialization 2nd function 2-stage acceleration and deceleration Set value Abbreviation Function name Free run External trip USP function Commercial power source switching Terminal software lock Analog input voltage/current switching 0 1 2 3 5 6 7 8 9 REV CF1 CF2 CF3 JG DB STN SET CH1 11 12 13 14 15 16 18 27 28 FRS EXT USP CS SFT AT RS UP DWN Reset Remote operation function, acceleration Remote operation function, deceleration Precautions for terminal setting Same terminals cannot be set between and . When moving a terminal name to another terminal, set another terminal which is not to be ued at the setting source before inputting the set value to the setting destination and then select the terminal name which is to be set at the setting destination. 7-29 Extension function code Contents and display A terminal function is allocated to each of the output intelligent terminals 11 and 12. When using a function other than the standard set functions or changing the terminal order, set the function for each terminal. Arrary of codes and intelligent terminals Code Function name Output terminal setting 11 Output terminal setting 12 Abbreviation Terminal Initial rating plate setting PCB terminal array 0 1 CM2 12 11 AL2 AL1 AL0 The setting method is the same as that of the input terminals to . Output terminal setting 11 and 12 C10 C11 11 12 Input terminal function list Set value Function name Frequency arrival signal Signal during running Overtorque signal (Note) 0 1 2 FA1 RUN OTQ NOTE: The torque of the overtorque signal can be set by the remote operator. The overtorque signal can be used only under the sensorless vector control. Setting method Press the FUNC key once for the terminal code to be set. The set values of the terminals which are set at present are displayed. Display the set value of the terminal to be used from the function list indicated below by pressing the key 1 and 2 and then press the FUNC key. The display is returned to the code display and the terminal function is changed. FUNC Enter the set value of the terminal name to be used by pressing the keys 1 and 2 . FUNC Precautions for terminal setting Same terminals cannot be set between and . When moving a terminal name to another terminal, set another terminal which is not to be ued at the setting source before inputting the set value to the setting destination and then select the terminal name which is to be set at the setting destination. 7-30 Extension function code Contents and display The input intelligent terminals 4 to 1 can be changed individually to the a contact or b contact specification. Select the set value by pressing the keys 1 and 2 by combining the contacts a and b with reference to the table indicated below. Example: When the set value is A: Input terminal a and b contact setting Contact a: Input terminals 3, 1 Contact b: Input terminals 4, 2 Setting method FUNC Press the 1 key 10 times. Select the contact specification with reference to the table indicated below. FUNC Initial setting Initial value Set value F E d C b A 9 8 7 6 543210 aa a aaa aaa Input terminal 4 3 2 1 bbbbbbbbaa bbbbaa bba a abb abb a: Contact a specification (Shorted when power is turned ON) b: Contact b specification (Opened when power is turned ON) bba abba aabbaa bababa Set the high order to 0. bababababa Input terminal a and b contacts function list The output ingent terminal 11 and 12 and alarm output terminal can be changed idividually to the a contact or b contact specification. Select the set value by pressing the keys 1 and 2 by combining the contacts a and b with reference to the table indicated below. Output terminal a and b contact setting Example: When the set value is : Alarm output: Contact b Terminals 11 and 12: Contact b Setting method FUNC Press the 1 key 3 times. FUNC Initial setting Initial value Set value 7 b b 6 a b b 5 b a b 4 a a b 3 b b a 2 a b a 1 b a a 0 a a a Output terminals 11 and 12 a: Contact a specification (Shorted when power is turned ON) b: Contact b specification (Opened when power is turned ON) Output terminal 11 12 (NOTE) Alarm b Set the high order to 0. Output terminal code list NOTE: For details of the Alarm terminal, see page 6-5. 7-31 8. PROTECTION FUNCTIONS The J300 series inverters are equipped with protection functions against overcurrent, overvoltage, and undervoltage which protect the inverter. If the protection functions are engaged, the output is shut down, motor runs free and holds that condition until it is reset. Description Over current protection Contents A currrent due to the alternating current CT between the power module and output terminal {U(T1), V(T2), W(T3)} is detected. When the motor is restricted or decelerated suddenly, a large current flows through the inverter and causes a fault. Therefore, when an abnormal current is detected by the alternating current CT and it exceeds a specified value, the output is cut off. [. . . ] Data HRW DRW 3-1-1 3-1-2 6MODE 0: VC 6MODE 0: VC 1AUTO 2DATA 2DATA 0: NOR 0: NOR 0: NOR F-05 F-04 CONTROLVC CONTROLVC AUXAUTONOR AUXDATANOR AUXDATANOR AUX K 0050 kW AUX K 0050 kW AUX P 4P AUX P 4P AUX R1 0. 0251 AUX R1 0. 0251 AUX R2 0. 0194 AUX R2 0. 0194 AUX L 003. 29 mH AUX L 003. 29 mH AUX M 030. 90 mH AUX M 030. 90 mH AUX J 000. 44 kgm2 AUX J 000. 44 kgm2 Y Y Y Y Y Y Y Y Y N N N N N N N N N N Y Y N N N N Y Y Y Y N N A0 A0 A97 A98 A98 A1 A1 A2 A2 -- -- -- -- -- -- -- -- -- -- A3 A3 -- -- -- -- A10 F6 F6 F6 -- F7 0 0 0 0 0 5. 50 5. 50 04 04 -- -- -- -- -- -- -- -- -- -- 2. 00 2. 00 -- -- -- -- 16. 0 30. 0 30. 0 15. 0 -- 30. 0 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N N N N Y N Y N Y N Y N Y N Y N Y N Y N Y N Y N Y Y N N Y Y set value 3 K 6:5. 50 kW 3 K 6:5. 50 kW 4P 4P 5 R1 5 R1 6 R2 6 R2 7L 7L 8M 8M 9J 9J a Kp a Kp b Ti b Ti c Kpp c Kpp 3-1-3 3-2-1 1: 4P 1: 4P 0. 251 0. 251 0. 194 0. 194 3. 29mH 3. 29mH 30. 90 mH 30. 90 mH 0. 44 0. 44 2. 00 2. 00 100 ms 100 ms 1. 00 1. 00 F-36 F-06 AUX Kp 2. 00 AUX Kp 2. 00 AUX Ti 00100 ms AUX Ti 00100 ms AUXKpp001. 00 AUXKpp001. 00 CARRIER 16. 0 kHz ACC1 0030. 00 s ACC1 0030. 00 s ACC2 0015. 00 s ACCLINE L ACCGAIN 02 1 CARRY 16. 0kHz 1 A1 1 A1 2 A2 3LINE 4GAIN 30. 00 s 30. 00 s 15. 00 s 0: L 2 A-27 Function mode Decelerationtimesetting Firstsetting Secondsetting 2-stepdecelerationtimesetting Deceleration time curve pattern selection Acceleration/deceleration curve constantselection Acceleration time stop frequency setting Acceleration time stop time setting Multi-stepspeed/processstepping selection Operationmodeselection Freerunstop 1st speed of Multistage speed 2nd speed of Multistage speed 3rd speed of Multistage speed 4th-7th speed of Multistage speed Display with HOP, HRW Display with DOP, DRW Layer 3-2-2 Data display 1 D1 1 D1 2 D2 3LINE 4GAIN 3-3-1 3-3-2 1MODE 0: NOR 2FRS 3-3-3 1 S1 2 S2 3 S3 4 S4 7 S7 1: ZST 0. 00Hz 0. 00Hz 0. 00Hz 0. 00Hz to 0. 00Hz 0:OFF 1: LVL 0. 5Hz 0 0 0. 0 s 0. 0 s F-20 F-11 1F 2 TIME 30. 00 s 30. 00 s 15. 00 s 0: L 2 0. 0Hz 0. 0 s F-10 RUN MODE NOR RUN FRS ZST SPD 1 0000. 00 Hz SPD 2 0000. 00 Hz SPD 3 0000. 00 Hz SPD 4 0000. 00 Hz to SPD 7 0000. 00 Hz DCBSWOFF DCBKINDLVL DCB F 0000. 5 Hz DCBV-STA00 DCBV-STP00 DCB V-STA 000. 0 s DCB T-STP 000. 0 s DCB STOP-T 0. 00 s F21 BRD-%ED 001. 5% F-08 No. F-07 Data display DEC 1 0030. 00 s DEC 1 0030. 00 s DEC 2 0015. 00 s DECLINE L DEC GAIN 02 Fsp F 0000. 0 Hz Fsp T IME 00. 0 s FunctionNo. withdigitaloperator Data read/copy HRW DRW Y Y Y Y Y Y Y Y N N Y Y Y Y Alterability Y Y Y N N N N No. F7 F7 F7 -- -- -- -- Data 30. 0 30. 0 15. 0 -- -- -- -- set value Y Y Y Y Y Y A59 A54 A12 A13 A14 F2 0 01 0. 0 0. 0 0. 0 0. 0 Y Y Y Y Y Y N Y N N N N DCbrakingselection DC braking type selection DCbrakingfrequencyselection DCbrakingpowerselection (startingtime) DCbrakingpowerselection (stoppingtime) DC braking time selection (startingtime) DC braking time selection (stoppingtime) DC braking output OFF time adjustment Regenerationbrakingsetting Electronicthermalcharacteristics selection Firstsetting Secondsetting Electronicthermallevelsetting Firstsetting Secondsetting Electronicthermalcharacteristics freesetting(currentvalue1) Electronicthermalcharacteristics freesetting(frequency1) Electronicthermalcharacteristics freesetting(currentvalue2) 3-4-1 1SW 2KIND 3F 4V-STA 5V-STP 6V-STA 7T-STP N N N N N N N Y -- -- -- -- -- -- -- -- A38 -- -- -- -- -- -- -- -- 1. 5 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y 8 STOP-T 0. 00 s 3-4-2 1%ED 1. 5% 3-5-1 1 CHAR 1 CHAR 1: SUB 1: SUB F23 E-THM CHAR SUB E-THM CHAR SUB E-THM LEVEL 100% E-THM LEVEL 100% E-THM A1 15. 8 A E-THM F1 0000 Hz E-THM A2 15. 8 A Y Y Y Y N N N A24 A24 A23 A23 -- -- -- 1 1 100 100 -- -- -- Y Y Y Y Y Y Y Y N Y N N N N 2LEVEL 100% 2LEVEL 100% 3 A1 4 F1 5 A2 15. 8A 0 Hz 15. 8A A-28 Function mode Electronicthermalcharacteristics freesetting(frequency2) Electronicthermalcharacteristics freesetting(currentvalue3) Electronicthermalcharacteristics freesetting(frequency3) Overload limit level setting Overload limit constant setting Overloadlimitselectionduring acceleration Frequencylowerlimitersetting Frequencyupperlimitersetting Jumpfrequency(1) Jumpfrequency(2) Jumpfrequency(3) Jumpfrequencywidthsetting Allowableinstantaneoustime Reclosing stand-by after instantaneous powerfailurerecovered Instantaneouspowerfailurerestart selection Trip selection during stop at under voltage Max. frequencyselection Softwarelockselection STOPkeyvalidityselection Runningdirectionselection Reverserunprevention Reduced voltage soft start setting Analoginputvoltageselection Externalfrequencystartsetting Externalfrequencyendsetting Externalfrequencystartratesetting Externalfrequencyendratesetting Externalfrequencystartpointsetting Frequencycommandsampling frequencysetting Arrival signal output pattern selection Arrival frequency setting for acceleration Arrival frequency setting for deceleration Overtorque signal rate for plus torque Overtorque signal rate for minus torque Display with HOP, HRW Display with DOP, DRW Layer 3-5-1 Data display 6 F2 7 A3 8 F3 3-5-2 0 Hz 24. 0A 73 Hz F-24 No. F-23 Data display E-THM F2 0000 Hz E-THM A3 24. 0 A E-THM F3 0073 Hz OLOAD LEVEL 125% OLOAD CONST 01. 0 OLOAD ACC ON F-26 F-27 LIMIT L 0000. 0 Hz LIMIT H 0000. 0 Hz JUMP F1 0000. 0 Hz JUMP F2 0000. 0 Hz JUMP F3 0000. 0 Hz JUMP W 0. 5Hz F-22 IPS TIME 1. 0 s IPS WAIT 001. 0 s IPSPOWRALM IPSTRIPOFF F-MAX-L120Hz S-LOCKMD1 STOP-SW ON F/RSWFRE F/RPREVOFF F/R RVS 6 F-31 INANA10V IN EXS 0000. 0 Hz IN EXE 0000. 0 Hz IN EX%S 000 % IN EX%E 100 % IN LEVEL 0 Hz INF-SAMP8 F-32 ARVPTNCST ARV ACC 0. 0 Hz ARV DEC 0. 0 Hz F-33 0V-TRQ V 100 % 0V-TRQ R 100 % FunctionNo. withdigitaloperator Data read/copy HRW DRW Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N N N Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y N Y Y N N N Y N Y Y Y N N Alterability N N N N N N Y Y Y Y Y N N N Y N Y N N N N Y Y Y Y N N N Y Y Y Y N N No. [. . . ]