Hitachi Welder l300p User's Manual
Contents
1. FU2 UL Setting Enabled at b031 01 RV Reverse O2 CF1 Multipeed 1 O3 CF2 Multispeed 2 04 CF3 Multi C001 Terminal 1 function speed 3 REA A PANE seria ean plot We x O 08 SET Second motor constants setting O9 2CH Second accel decel C002 Terminal 2 function 11 FRS Free run stop 12 EXT External trip 13 USP Unattended start protection 16 16 x 0 14 CS Change to from commercial power supply 15 SFT Software lock Intelligent 16 AT Analog input selection 18 RS Reset 20 STA 3 wire start 21 STP 3 wire Input C003 Terminal 3 function hold 22 F R 3 wire fwd rev 23 PID PID On Off 24 PIDC PID reset 03 13 X O 27 UP Remote controlled accel 28 DWN Remote controlled decel etting 29 UDC Remote controlled data clearing 31 OPE Operator control 32 SF1 Multi C004 Terminal 4 function speed bit command 1 A TE iones Amer bit 02 02 X O command 3 35 SF4 Multispeed bit command 4 36 SF5 Multispeed bit com C005 Terminal 5 function mand 5 3 SF6 Multispeed bit command 6 38 SF7 Multispeed bit command 7 01 01 x 0 39 OLR Overload limit change 49 ROK RUN permissive 1 255 NO Not selected C011 Terminal 1 active state 00 NO 01 NC 00 00 x O Intelligent C012 Termina2. ei a
3. Model Name Cable Length 1m 3 3ft 3m 9 8ft 24 EXPANSION CARD Up to two expansion cards can be installed inside the L300P Digital Input Expansion Card SJ DG Output frequency acceleration time deceleration time and torque limit can be set by a digital output device such as PLC etc Binary or BCD Connecting Diagram Data Bit Configuration Data input error SJ DG signal output csi Hue Sequence error output terminal SEQ O 21 gt 14 Common terminal CMB __ _ D13 4 D15 D12 Data classification D11 code 40 UE D10 Setting Data input terminal data 07 t DO Ds Setting data eae s set by either Strobe terminal STRB D5 Dala ae ne I oy 16 bit binary or D either 16 bit binary D Common terminal CM1 O A or 4 digit BCD 4 digit BCD PLCB PLC etc D2 Input data is divided D1 into upper 8 bit and P24B C DO lower 8 bit Data input mode is selected by the dip switch on the expansion card Standard Specifications Item Specification Data setting signal Strobe signal Sequence error signal Data input error signal Power supply for interface D0 D1 between D15 and PLCB Between STRB and PLCB Open collector output sink source compatible DC 27V 50mA max between SEQ and CMB DC 24V 90mA max between P24B and CM1 Input Output Power supply NO contact input sink source compatible Device
4. AID r E 335 4 7 91 3 CNET 20 30 Frequency MHz eHARMONICS MITIGATION Terminals for the connection of a DC Reactor are provid ed as standard for harmonics suppression eCONTROL OF VOLTAGE OF MICRO SERGE Suppressing the motor terminal voltage less than 2xE V by improving the control method of PWM output Input voltage 400VAC In the case Motor terminal voltage 1 131V 400VXv2X2 e IMPROVEMENT OF ENVIRONMENT The printed circuit board inside an inverter is varnish coating specification as standard PROTECTION FOR VARIOUS INSTALLATION ENVIRONMENTS Standard enclosure protection for the L300P is IP20 NEMA1 For 4 NEMA12 please contact Hitachi sales office GLOBAL PERFORMANCE CE UL c UL C Tick approvals eNETWORK COMPATIBILITY and Ethernet 2 with communication options L300P 015 LF H 3 phase 400V Class E CE version for Europe NEM A 1 applies up to 30kW An optional wire entry conduit box is required for 37kW to eCONFORMITY TO GLOBAL C The L300P can communicate with DeviceNet M 1 2 Being planned Series Name 18 Applicable Motor Capacity Version number Power Source F With Digital Operator IE MODEL CONFIGURATION 75kW models to meet NEMA 1 rating STANDARDS LISTED PROFIBUS LONWORKS Modbus RTU E MODEL NAME INDICATION L 3 phase 200V Class U UL version for North America 3 phase 400V class L300P 015HFU2 E2 L300P 022HFU2 E2 in kW
5. Output KW HP Input Voltage Model Fuse Power Lines Class J Signal Lines l L300P 015LFU2 AWG 14 2 1 6 0 6 2 2 3 L300P 022LFU2 15 3 7 5 L300P 037LFU2 20 5 5 8 L300P 055LFU2 AWG 8 8 4 30 7 5 10 L300P 075LFU2 40 11 15 L300P 110LFU2 AWG 4 21 2 60 e 200V 15 20 L300P 150LFU2 0 75mm 70 18 5 25 L300P 185LFU2 NR 22 30 L300P 220LFU2 AWG 1 0 53 5 100 30 40 L300P 300LFU2 AWG 2 2 33 8 2 150 37 50 L300P 370LFU2 175 45 60 L300P 450LFU2 AWG 1 2 75 C 200 55 75 L300P 550LFU2 AWG 2 0 2 250 75 100 L300P 750LFU2 AWG 3 0 2 300 1 5 2 L300P 015HFU2 10 2 2 3 L300P 022HFU2 10 3 7 5 L300P 040HFU2 15 5 5 8 L300P 055HFU2 15 7 5 10 L300P 075HFU2 5 3 20 11 15 L300P 110HFU2 8 4 30 15 20 L300P 150HFU2 13 3 35 18 5 25 L300P 185HFU2 AWG 6 13 3 0 75mm 50 400V S230 L300P 220HFU2 AWG 4 21 2 shielded 50 30 40 L300P 300HFU2 AWG 3 26 7 BP 70 37 50 L300P 370HFU2 80 45 60 L300P 450HFU2 AWG 1 42 4 100 55 75 L300P 550HFU2 AWG 2 2 33 8 2 125 75 100 L300P 750LFU2 150 90 125 L300P 900LFU2 AWG 1 2 75 C 42 4 2 200 110 150 L300P 1100LFU2 AWG 2 0 2 67 4 2 225 132 175 L300P 1320LFU2 AWG 2 0 2 67 4 2 300 wire gauge involved Connector must be fixed using the crimping tool specified by the connector manufacturer Radio noise fil
6. Forward Operator reverse External signal FW RUN STOP NO contact RV set by terminal assignment NO NC selection 3 wire input available Input Start stop External port Set by RS 485 signal l RV Reverse CF1 CF4 Multispeed command JG Jogging DB External DC braking Intelligent SET Second motor constants setting 2CH Second accel decel FRS Free run stop EXT External trip input terminals USP Unattended start protection CS Change to from commercial power supply SFT Software lock Assign five functions AT Analog input selection RS Reset STA 3 wire start STP 3 wire stop F R 3 wire fwd rev PID PID On Off to terminals PIDC PID reset UP DWN Remote controlled accel decel UDC Remote controlled data clearing SF1 SF7 Multispeed bit command 1 7 OLR Overload limit change ROK RUN Permissive and NO Not selected Thermistor input One terminal PTC Intelligent output Assign three functions to two NO contacts and one NO NC combined contact Output terminals RUN FA1 FA2 OL OD AL FA3 IP UV RNT ONT RMD and THM signal Intelligent monitor output terminals Analog voltage analog current PWM output Display monitor V f free setting up to 7 points Other user settable parameters Output frequency output current scaled value of output frequency trip history I O terminal condition input power output voltage frequency upper lower limit frequency jump accel decel curve selection manual to
7. Soanish and Portuguese operator with copy function ICS 1 3 Cable for operators 1m 3m Weight kg Ibs 1 Up to 30kW An optional conduit box is required for 37kW to 55kW to meet NEMA 1 2 The protection method conforms to JEM 1030 NEMA U S 3 The applicable motor refers to Hitachi standard 3 phase motor 4 pole To use other motors care must be taken to prevent the rated motor current 50H32 from exceeding the rated output current of the inverter 3 5 7 7 3 5 7 7 3 5 7 7 5 11 4 The output voltage decreases as the main power supply voltage decreases except for the use of AVR function 5 To operate the motor beyond 50 60Hz please consult with the motor manufacturer about the maximum allowable rotation speed 6 Braking resistor is not integrated in the inverter Please install optional braking resistor or dynamic braking unit when large braking torque is required 35 7 7 5 11 5 11 12 26 4 12 26 4 7 Storage temperature refers to the temperature in transportation 8 Conforms to the test method specified in JIS C0040 1999 9 When using the inverter from 40 to 50 C ambient the output current of the inverter must be derated see the next section on derating curves 12 26 4 STANDARD SPECIFICATIONS Item 400V Class Model 550HFU2 750HFU2 900HFU2 1100HFU2 1320HFU2 L300P XXX CE version 370HFE2 450HFE2 550HFE2 750HFE2 900HF
8. 0 600 0V 0 0 999 9kW d014 d016 Cumulative RUN time monitor 0 9999 1000 9999 0 9999 1000 9999 100 1999 10 000 99 900 hr 100 1999 10 000 99 900 hr d017 Cumulative power on time monitor 0080 Trip count monitor 0 9999 1000 6553 10 000 65 530 Trip monitor 1 6 Displays trip event information lt B e 0086 0090 Warning monitor Warning code Output frequency setting 0 0 Starting frequency to maximum frequency maximum frequency for second motor 0 00Hz 0 00Hz O O F002 Acceleration time 1 setting 0 01 99 99 100 0 999 9 1000 3600 sec 60 00s O O Acceleration time 1 setting for second motor 0 01 99 99 100 0 999 9 1000 3600 sec 60 00s O O F003 Deceleration time 1 setting 0 01 99 99 100 0 999 9 1000 3600 sec 60 00s O O Deceleration time 1 setting for second motor 0 01 99 99 100 0 999 9 1000 3600 sec 60 00s O O F004 Motor rotational direction setting 00 Forward 01 Reverse 00 00 X X S A Group Standard functions b b Group Fine tuning functions i C Group Intelligent terminal functions E H H Group Motor constants functions d P Group Expansion card functions W U U Group User selectable menu functions O Allowed QA Group Standard Functions Default Setting X Not permitted Frequency source setting 00 Potentiometer 01 Terminals 02
9. 055HFU2 F 015 055HFE2 LM 25 0 98 80 3 15 Unit mm inch Inches for reference only Digital Operator Exhaust Wall 3 420 0 89 Z c NS Hole ES Air intake 9 9 99 20 HFU2 type 055LFU2 HFU2 Conduit box to meet NEMA1 rating 143 5 63 L300P 075 150LFU2 075 150HFE2 075 150HFU2 Unit mm inch Inches for reference only 210 8 27 Digital Operator 2 7 0 28 Exhaust 24 5 0 97 79 3 11 170 6 69 e A A 7 0 28 189 7 44 e Us co 3 925 0 98 909 19 LFU2 HFU2 type Wiring hole Conduit box to meet NEMA1 rating p 203 7 99 1 DIMENSIONS L300P 185 300LFU2 185 300HFE2 185 300HFU2 L300P 370LFU2 3 0HFE2 3 0HFU2 24 5 0 97 250 9 84 79 3 11 271 10 67 79 3 11 273 10 75 7 0 28 Digital Operator 2 7 0 28 8 5 0 33 147 5 79 IE 244 9 61 45 1 77 80 3 15 Unit mm inch Inches for reference only Exhaust L Air intake Wiring hole Digital Operator 2 10 0 39 540 21 26 4 29 5 1 16 1044 09 LFU20 HFU2 type Conduit box to meet NEMA1 rating Unit mm inch Inches for reference only Exhaust t ZA 175 6 89 Air intake 74 2 91 Conduit box to meet
10. HP 3 phase 200V class L300P 015LFU2 L300P 022LFU2 3 7 5 7 5 10 11 15 L300P 150LFU2 L300P 150HFU2 E2 8 S gt 18 5 25 L300P 185LFU2 L300P 185HFU2 E2 22 30 30 40 37 50 A E ep 2 L300P 450LFU2 L300P 450HFU2 E2 55 75 75 100 90 125 110 150 L300P 1100HFU2 E2 132 175 L300P 1320HFU2 E2 e Windows is a registered trademark of Microsoft Corp in the U S and other countries e DeviceNet is a trademark of Open DeviceNet Vendor Association e PROFIBUS is a registered trademark of Profibus Nutzer Organization l STANDARD SPECIFICATIONS Item 200V Class Model UL version 015LFU2 022LFU2 037LFU2 055LFU2 075LFU2 110LFU2 150LFU2 185LFU2 220LFU2 300LFU2 370LFU2 450LFU2 550LFU2 750LFU2 Enclosure 2 IP20 NEVA 1 Applicable motor 4 pole KW HP 3 1 5 2 2 2 3 3 7 5 5 5 7 5 7 5 10 11 15 15 20 TES 22 30 30 40 37 50 45 60 55 75 75 100 kVA 240V 3 1 4 3 6 8 9 9 13 3 18 2 24 303 353 46 9 58 1 702 872 1122 Rated input voltage 3 phase 3 wire 200 240V X 1096 50 60Hz Rated input current A 8 3 12 18 26 35 48 64 80 94 124 154 186 231 297 Required power supply capacity kVA 3 44 74 11 15 22 30 37 44 60 74 90 110 150 Rated output voltage 4 3 phase 3 wire 200 240V Corresponding to input voltage Rated output current continuous A 7 5 10 5 16 5 24 32 Control method Line to line sine wave PWM Output frequenc
11. NEMA1 rating Optional L300P 450 550LFU2 450 750HFE2 225 90 3 15 450 750HFU2 L300P 750LFU2 Unit mm inch Exhaust Inches for reference only L Zi Digital Operator 2 412 90 47 79 3 11 277 10 91 4l 2 12 0 47 300 11 81 390 15 35 c N AE ra 00 T 4 Air intake 155 6 01 90 3 54 8 5 0 33 Conduit box to meet NEMAt rating Optional 250 9 84 Unit mm inch Inches for reference only Digital Operator 125 4 92 80 3 15 gt gt 2 12 0 47 Exhaust aa a 700 27 56 380 14 96 480 18 90 104 4 09 Conduit box to meet NEMA 1 rating Optional 10 11 DIMENSIONS L300P 900HFE2 HFU2 1100HFE2 HFU2 8 5 0 33 L300P 1320HFE2 HFU2 Unit mm inch Inches for reference only Exhaust 79 3 11 357 14 06 Air intake 2 12 0 47 300 11 81 390 15 35 270 10 63 Digital Operator Unit mm inch 62 5 2 46 80 3 15 Inches for reference only Exhaust 79 3 11 480 18 91 710 27 95 740 29 13 2 12 0 47 Air intake OPERATION and PROGRAM MING L300P Series can be easily operated with the digital operator OPE SR provided as standard The Digital operator can also be detached and used for remote control A
12. NEVA 1 2 The protection method conforms to JEM 1030 NEMA U S 3 The applicable motor refers to Hitachi standard 3 phase motor 4 pole To use other motors care must be taken to prevent the rated motor current 50Hz from exceeding the rated output current of the inverter 7 Storage temperature refers to the temperature in transportation 8 Conforms to the test method specified in JIS C0040 1999 9 When using the inverter from 40 to 50 C ambient the output current of the inverter must be derated see the next section on derating curves 4 The output voltage decreases as the main power supply voltage decreases except for the use of AVR function 5 To operate the motor beyond 50 60Hz please consult with the motor manufacturer about the maximum allowable rotation speed 6 Braking resistor is not integrated in the inverter Please install optional braking resistor or dynamic braking unit when large braking torque is required Item 400V Class Model 040HFU2 055HFU2 075HFU2 150HFU2 185HFU2 220HFU2 300HFU2 L300P XXX CE version 015HFE2 022HFE2 040HFE2 055HFE2 075HFE2 110HFE2 150HFE2 185HFE2 220HFE2 300HFE2 Enclosure 2 IP20 NEMA 1 1 Applicable motor 4 pole kW HP 3 1 5 2 2 2 3 4 0 5 5 5 7 5 7 5 10 11 15 15 20 18 5 25 22 30 30 40 Rated capacity 5 9 8 3 11 20 0 25 6 29 7 39 4 kVA 480V 3 1 4 4 Yl 9 9 13 3 18 2 24 1 30 7 35 7 47 3 Rated input vo
13. Operator 03 RS485 04 Expansion card 1 05 Expansion card 2 01 01 X x 2 01 x x g Base frequency setting 30 00Hz Maximum frequency 50 60 X X A203 Base frequency setting for second motor 30 00Hz Maximum frequency for second motor 50 60 xX x f A004 Mexmumtequnoysetng Jaooo T amp X X A204 Maximum frequency setting for second setting 30 00 400 0Hz 50 60 x lt X A005 AT selection 00 Selection between O and OI at AT 01 Selection between O and C2 at AT 00 00 x x z A006 O2 selection 00 Independent 01 Only positive O2 Both positive and negative 00 00 x x A011 O L input active range start frequency 0 00 400 0Hz 0 00 X O El A012 O L input active range end frequency 0 00 400 0Hz 60 00 X Q A013 O L input active range start voltage 0 100 0 X O S A014 O L input active range end voltage 0 100 100 x O A015 O L input start frequency enable 00 External frequency output zero reference 01 0Hz 01 po O A016 External frequency filter time constant 1 30 Sampling time 2 msec 8 x Q amp A019 Multispeed operation selection 00 Binary up to 16 stage speed at 4 terminals 01 Bit up to 6 stage speed at 5 terminals 00 x X 2 A020 Multispeed frequency setting 0 0 00 Starting frequency to maximum frequency 0 00 O O A220 Multispeed frequency setting 0 for second motor 0 00 Starting frequency to maximum frequency for second motor 0 00 O O g A021 5 Multispeed frequency s
14. 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 The and 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 CT CPU O EXTERNAL USP inverter is protected by the detection of ground faults between the inverter output GND Fit the motor during power up tests This feature protects the inverter only OV SRC When power is cut for more than 15msec the inverter trips and turns off its output If power failure contin ues the error will be cleared The inverter restarts if it is in RUN mode when power is cycled Inst P F Inverter thermal trip 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 OH FIN Gate array error Missing phase Communication error has occured between CPU and gate array GA One of three lines of 3 phase power supply is missing PH Fail IGBT error When instantaneous over current has occurred the inverter trips and turns off its output to protect main circuit element IGBT Thermistor error When the thermistor inside the motor detects temperature higher than the specified value the inverter tr
15. general purpose motor with an inverter differ from those of driving it using commer Torque characteristics cial power starting torque decreases in particular Carefully check the load torque characteristic of a connected machine and the driving torque characteristic of the motor Motor loss and An inverter driven general purpose motor heats up quickly at lower speeds Consequently the continuous torque level output temperature increase will decrease at lower motor speeds Carefully check the torque characteristics vs speed range requirements 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 Vibration Particularly be 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 Power transmission mechanism gear box gear motor or reducer Check with the motor manufacturer fo
16. x OPO PONCHO KC POW WO OVC esL mee RAS eS ONION OH e AO OVE CO CO OX PC A le OEC IRE CE le EY KOH e LEO CO CD CONO CEST Oe ec Ole E OL 1 90kW and over 14 B Group Fine Tuning Functions O Allowed X Not permitted ti Default Setting Run time Run tme Data Edit 00 Alarm output after trip automatic restart disable 01 Restart at 0Hz 02 Re b001 Selection of automatic restart mode sume operation after frequency matching 03 Resume previous frequency after 00 00 X 0 frequency matching then decelerate to stop and display trip information Restart after 0002 Allowable instantaneous power failure time 0 3 25 0sec O Instantaneous bOOS Time delay enforced before motor restart 0 3 100 0sec X Q Foner ellis b004 Instantaneous power failure and under voltage trip enable 00 Disable 01 Enable O2 Disable during stop and ramp to stop X b005 Number of restarts after instantaneous power failure and under voltage trip 00 16 times 01 Always restart 00 00 O 006 Phase loss detection enable 00 Disable 01 Enable 01 01 O b007 Restart frequency setting 0 00 99 99 100 0 400 0Hz 0 00 0 00 X e b012 Level of electronic thermal setting 0 20 rated current 1 20 rated current ben a O b212 Level of electronic thermal setting for second motor 0 20 rated current 1 20 rated current RU ale O b013 Electronic thermal charac
17. 0 A Hz DERATING DATA The L300P series can be used at ambient temperature of 10 C to 50C However when using at 40C or over derating is required 1 Ambient temperature 40 C 900HFU2 E2 200V class 015 150LFU2 400V class 015 220HFU2 E2 0 100 450 550HFU2 E2 3 5 90 2 2 370HFU2 E2 T i es ers o 9o 55 Ss 750HFU2 E2 oo o97 5o 5o Qs Qs 6x 5 0 55 5 05 2 3 4 5 6 7 8 9 10 11 12 A T Carrier frequency kHz Carrier frequency kHz 2 Ambient temperature 50 C 1100 1320HFU2 E2 200V class 015 075LFU2 sop 400V class 900HFU2 E2 Du ya 450LFU2 E E 3 2 Oo EE 185 2 12201 02 E Lor o o ex 5 12 300HFU2 E2 opo HEREIN 150LFU2 buco Ens 550LFU2 55 gt O O 9 as 110LFU2 DM 300LFU2 5 o 00 L L L rwI eue 38 i 5 ot 051095305405 90 7 98 9 1012 0 51 2 3 4 5 6 7 8 9 011 12 Carrier frequency kHz Carrier frequency kHz 28 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 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 rom differs depending on the motor Capacity etc Operating frequency The torque characteristics of driving a
18. 0 0 0 0 O O C087 AMI terminal meter tuning 0 255 80 80 C088 AMI terminal offset tuning 0 20 0mA Factory set Factory set O O C091 Debug mode enable 00 No display 01 Display 00 00 x O C101 UP DOWN memory mode selection 00 Clear previous frequency 01 Keep previous frequency 00 00 X Q 00 Cancel trip state when reset signal turns ON 01 Cancel trip state when C102 Reset mode selection reset signal turns OFF 02 Cancel trip state when reset signal turns ON En 00 00 O O Others able during trip state C103 Restart frequency after reset 00 Restart at OHz 01 Resume operation after frequency matching 00 00 X Q C121 O input zero calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set Q Q C122 Ol input zero calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set Q C123 O2 input zero calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set O O H Group Motor Constants Functions H003 Motor capacit 0 20 75 0 KW 160 kW 2 Factory set Factory set X X H203 Motor capacity for second motor 0 20 75 0 KW 160 kW 2 Factory set Factory set X X H004 Motor poles setting 2 4 6 8 4 4 x x H204 Motor poles setting for second motor 2 4 6 8 4 4 X x HO006 Motor stabilization constant 0 255 100 100 O O H206 Motor stabilization constant for second motor 0 255 100 100 e Q Q P Group Expansion Card Functions P001 Operation mode on Expansion card 1 error
19. 0 60 0sec 00 OO A071 PID function enable 00 Disable 01 Enable com Ecos A072 PID proportional gain A073 PID integral gain PID Control A074 PID differential gain 07 0 2 5 0 1 0 1 0 0 0 3600 0sec 1 0 1 0 0 0 100 0sec 0 0 0 0 Process variable scale conversion 0 01 99 99 1 00 A076 Process variable source setting AVR function selection 00 21 Ol O1 at O 00 00 00 00 AVR 00 Always ON 01 Always OFF 02 OFF during deceleration Function A082 AVR voltage selection 200 215 220 230 240 380 400 415 440 460 480V 230 400 230 460 A085 Operation mode selection 00 Normal operation 01 Energy saving operation A086 Energy saving mode tuning 0 0 100 0sec A092 A292 Acceleration time 2 for second motor 0 01 99 99 100 0 999 9 1000 3600 sec A093 Deceleration time 2 0 01 99 99 100 0 999 9 1000 3600 sec Operation A293 Deceleration time 2 for second motor 0 01 99 99 100 0 999 9 1000 3600 sec Mode and AQ94 Select method to switch to second accel decel profile 00 2CH input from terminal 01 Transition frequency 00 00 Accel s m Decel Select method to switch to second accel decel profile for second motor 00 2CH input from terminal O1 Transition frequency 0 oom Function Accel 1 to Accel 2 frequency transition point 0 00 99 99 100 0 400 0Hz Accel 1 to Accel 2 frequency transition po
20. 00 Trip 01 Continuous operation 00 00 X e P002 Operation mode on Expansion card 2 error OO Trip 01 Continuous operation 00 00 X O P031 Accel deccel time input selection OO operation 01 option1 O2 option2 00 00 X X P044 DeviceNet comm watchdog timer 0 00 99 99s 1 00 1 00 X x P045 Inverter action on DeviceNet comm error OO trip 01 trip after deceleration stop 02 invalid 03 free run 04 deceleration stop 01 01 x x P046 DeviceNet polled l O Output instance number 20 21 100 21 21 x x P047 DeviceNet polled l O Input instance number 70 71 101 71 71 X x P048 Input action on DeviceNet idle mode OO trip 01 trip after deceleration stop 02 invalid 03 free run 04 deceleration stop 01 01 x x P049 Motor poles setting for RPM 0 38 even only 0 0 X X 00 Output freq forced to OHz 500ms wait to recover 01 Output forced 0Hz no wait to Euupenuresprentey cinese freue eremi recover 02 Output freq forced to max freq A004 03 Output ferg forced to A020 A220 00 00 A s QU Group User selectable Menu Functions U001 ae t User selected functions no d001 P002 no no x O 1 For UL version only 2 90kW and over 16 TERMINALS LE ELO ES E LLL ES TES Terminal Description Terminal Symbol Terminal Name R L1 S L2 T L3 Main power supply input terminals U T1 V T2 W T3 Inverter output terminals PD 1 P DC reactor connection terminals P RB RB External braking resistor connection term
21. 0sec A054 DC braking force setting 0 70 96 DC Braking A055 DC braking time setting 0 0 60 0sec A056 DC braking edge or level detection 00 Edge 01 Level A057 DC braking force setting at the starting point 0 70 ESET A058 DC braking time setting at the starting point 0 0 60 0sec 0 0 0 0 A059 DC braking carrier frequency setting 0 5 12kHz To be derated 0 5 8kHz 3 0 3 0 A061 Frequency upper limit setting 0 00 Starting frequency to maximum frequency 0 00 0 00 A261 Frequency upper limit setting for second motor 0 00 Starting frequency to maximum frequency for second motor 0 00 0 00 A062 Frequency lower limit setting 0 00 Starting frequency to maximum frequency 0 00 0 00 A262 Frequency lower limit setting for second motor 0 00 Starting frequency to maximum frequency for second motor 0 00 0 00 Upper A063 Jump frequency 1 setting 0 00 99 99 100 0 400 0Hz 0 00 0 00 Lower A064 Jump frequency width 1 setting 0 00 10 00Hz 0 50 0 50 Limit and Jump A065 Jump frequency 2 setting 0 00 99 99 100 0 400 0Hz Frequency AQ66 Jump frequency width 2 setting 0 00 10 00Hz A067 Jump frequency 3 setting 0 00 99 99 100 0 400 0Hz 0 00 0 00 A068 Jump frequency width 3 setting 0 00 10 00Hz 0 50 0 50 A069 Acceleration hold frequency setting 0 00 99 99 100 0 400 0Hz 0 00 0 00 A070 Acceleration stop time setting 0
22. E2 1100HFE2 1320HFE2 Enclosure 2 IP20 NEMA 1 1 00 Applicable motor 4 pole KW HP 3 37 50 45 60 55 75 75 100 90 125 110 150 132 175 Rated capacity 400V 48 4 58 8 72 7 93 5 110 8 135 0 159 3 kVA 480V 58 1 70 1 87 2 112 2 133 0 162 1 191 2 Rated input voltage 3 phase 3 wire 380 480V 10 50 60Hz Rated input current A 77 94 116 149 176 215 253 Required power supply capacity kVA 74 90 110 150 180 220 264 Rated output voltage 4 3 phase 3 wire 380 480V Corresponding to input voltage Rated output current continuous A 70 85 105 135 160 195 230 Control method Line to line sine wave PWM Output frequency range 5 0 1 400Hz Frequency accuracy Frequency resolution 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 12 bit 0 10V O2 terminal 12 bit 10 10V V f characteristics Overload capacity V f optionally variable V f control Constant torque reduced torque 120 for 60sec 150 for 0 5sec Acceleration deceleration time 0 01 3 600sec Linear curve accel decel selection Two stage accel decel m o External dynamic braking unit option Braking DC braking Performs at start under set frequency at deceleration or via an external input braking force time and operating frequency Operator Up and Down keys Frequency Potentiometer Potentiomet
23. Net Expansion Card SJ DN mu Specifications Applicable DeviceNet specification Volume 1 Relesse 2 0 Volume 2 Relesse 2 0 General data Vendor name Hitachi Ltd Vendor ID 74 Device profile name Slave DC Drive Profile No 13 Network consumption current 50mA Connector type Open connector l Isolation of physical layer Yes Physical Support LED Module status network status conformance data MAC ID setting By digital operator Default MAC ID 63 Transmission baud rate setting By digital operator Support transmission baud rate 125k 250k 500k Pre defined master slave connection set Group 2 only server Communication data S ERSTE ue one Support connection Explicit message connection Polled I O connection Explicit message fragmentation Yes Connector specifications Dimensional drawings Unit mm Nameplate Manufacturer Model Code Black Blue White Red Phoenix Contact MSTB 2 5 5 ST 5 08AU 1 25 Cable connection Cable color 15 Black Blue 02 Note Communication power supply 24VDC is required in system configuration 20 32 25 4 E a DeviceNet is a trademark of Open DeviceNet Vendor Association PROFIBUS Expansion Card SJ PBT Specifications Support profile Variable Speed Drive Order no 3 072 Transmission method Connector type Support file ASIC chip Maximum bus len
24. P24 to PLC Source logic Short CM1 to PLC Samus Gale USUS GU Terminal External Power Supply for When applying external power source remove the short circuit bar PLC DC 27V PLCs etc and connect PLC terminal to the external device 12C Maximum capacity of relays RUN RUN 11 12 mica Assign 3 functions to two NO contacts AC 250V 5A R load 1A l load RUNIRUN and one NO NC contact DC 30V 5A R load 1A I load RUNRUN Refer to the standard specifications for the functions AL1 ALO 11C AC 250V 2A R load 0 2A I load FAt FA1 DC 30V 8A R load 0 6A I load Relay State 11A E Um Intelligent relay output terminals AC 260V 1A R load 0 2A I load Output Alarm FAt FA1 elut LUE DC 30V 1A R load 0 2A 1load ALO Minimum capacity of relays bt re re DC 1V 1mA AL1 ALO AL2 ALO AL AL NO contact X 2 NO NC contact X 1 AC100V 10mA DC5SV 100mA AL2 AL AL 18 PROTECTIVE FUNCTIONS u Display on remote Display on digital operator copy unit Cause s operator ERRI Over current protection Overload protection 1 Braking resistor overload protection Over voltage protection EEPROM error 2 Under voltage error CT Current transformer error CPU error External trip USP error Ground fault Input over voltage protection Instantaneous power failure OC Drive OC Drive OC Accel Over C While at constant speed The inverter output was short circuited or the motor z s
25. SR 4 digit LED with potentiometer OPE SRE 4 digit LED with potentiometer English overlay Operator Optional OPE S 4 digit LED SRW OEX Multilingual English French German Italian Spanish and Portuguese Weight kg Ibs operator with copy function ICS 1 3 Cable for operators 1m 3m 20 44 30 66 30 66 30 66 60 132 60 132 80 176 1 Up to 30kW An optional conduit box is required for 37kW to 55kW to meet NEMA 1 2 The protection method conforms to JEM 1030 NEMA U S 3 The applicable motor refers to Hitachi standard 3 phase motor 4 pole To use other motors care must be taken to prevent the rated motor current 50Hz from exceeding the rated output current of the inverter 7 Storage temperature refers to the temperature in transportation 8 Conforms to the test method specified in JIS C0040 1999 9 When using the inverter from 40 to 50 C ambient the output current of the inverter must be derated see the next section on derating curves 4 The output voltage decreases as the main power supply voltage decreases except for the use of AVR function 5 To operate the motor beyond 50 60Hz please consult with the motor manufacturer about the maximum allowable rotation speed 6 Braking resistor is not integrated in the inverter Please install optional braking resistor or dynamic braking unit when large braking torque is required DIMENSIONS 6 300 015 2 150 5 91 015
26. as high temperatures or heavy loads exceeding the rated current of the inverter S MN The approximate lifetime of the capacitor is as shown in the figure at the right when it is used 12 hours daily according to S MEE the Instructions for Periodic Inspection of General Purpose Inverter JEMA z A E i a Also such moving parts cooling fan should be replaced Maintenance inspection and parts replacement must be 8 EE T performed by only specified trained personnel Precaution for Correct Usage Capacitor lifetime years e Before use be sure to read through the Instruction Manual to insure proper use of the inverter e 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 he 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 30 may Mi um dem T yl a mat te dee mer amp IS a pets ete aa
27. b034 RUN power on warning time 0 9999 1000 6553 10 000 65 5300 hr Output to intelligent terminal 0 0 X O EE ae 00 Enable for both directions 01 Enable for forward b035 Rotational direction restriction naa for reverse X 036 Reduced voltage soft start selection 00 Short 06 Long 06 06 X O b037 Function code display restriction OO All 01 Utilized functions 02 User selected functions only Q b080 AM terminal analog meter adjustment 0 255 180 180 b081 FM terminal analog meter adjustment 0 255 oe Q b082 Start frequency adjustment 0 10 9 99Hz 0 50 0 50 X b083 Carrier frequency setting 0 5 12 0kHz To be derated 0 5 8kHz 1 x ER EUM Initialization mode SUM A d ind P M initialization O2 Trip history x b085 Country code for initialization 00 Japanese version 01 European version 02 North American version 01 02 X X b086 Frequency scaling conversion factor 0 1 99 9 1 0 1 0 C b087 STOP key enable 00 Enable 01 Disable 00 00 b088 Resume on free run stop cancellation mode 00 Restart at OHz 01 Resume operation after frequency matching 00 00 X Q b090 Dynamic braking usage ratio 0 0 6 0 0 0 0 b091 Stop mode selection 00 Deceleration and stop 01 Free run stop 00 00 X X b092 Cooling fan control 00 Fan is always ON 01 Fan is ON during RUN including 5min afetr power on and stop X b095 Dynamic braking control 00 Disable 01 Enable during run 02 Enable during st
28. can be set between 0 and 99990 CMio E DCO 10V output PWM output Selection of one function from Output frequency output current torque output voltage input ue Monitor Output FM Digital Monitor Voltage power electronic thermal load ratio and LAD frequency or TUR A Digital pulse output Pulse voltage DC 0 10V Outputs the value i T i of output frequency as digital pulse duty 50 Internal power supply for input terminals In the case of source P24 Power Terminal for Interface type logic common terminal for contact input terminals DC 24V 100mA max Power Supply M C one no Common terminal for P24 TH and FM In the case of sink type log CM1 ommon Termina for Interface ic common terminal for contact input terminals Do not ground um Run The motor runs forward when FW terminal is ON and stops when FW Forward Command Input i Command p FW is OFF Input ON condition 1 Voltage between each terminal RS RS and PLC DC 18V min 2 AT AT Input OFF condition 3 Assign 5 functions to terminals Voltaae betw h terminal Intelligent Input T Maier g CENG Contact prise CF2 USP PES ure S QC Refer to the standard specifications for the functions and PLC DC 3V max Input 4 CF1 CF1 Input impedance between each ae terminal and PLC 4 70 vM E for iban s or source logic with the short circuit bar on the control Allowable maximum voltage ntelligent Input Terminals erminals i PLC Common Terminal for Sink logic Short
29. d use of a mechanical brake should be considered A max 400Hz can be selected on the L300P 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 Consult the motor manufacturer when it is necessary to drive a standard general purpose motor above 60 Hz High frequency operation 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 29 Main power supply Installation of an AC reactor on the input side Using a private power generator In the following examples involving a general purpose inverter a large peak current flows on the main power supply side and may destroy the converter module Where such situations are foreseen or the connected equipment must be highly reli able install an AC reactor between the power supply and the inverter Also where influence of indirect lightning strike is p
30. ection will cause an immediate failure 2 Be sure to provide a grounding connection with the ground terminal D Wiring between inverter and motor Electro magnetic contactor 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 Earth leakage relay When used with standard applicable output motors Hitachi standard three phase squirrel cage four pole motors the L300P Series does not need a thermal relay for motor protection due to the internal electronic protective circuit A thermal relay however should be used eduring continuous running outside a range of 30 to 60 Hz e for motors exceeding the range of electronic thermal adjustment rated current 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 circu
31. enable NO Termination disable BUS Bus topology termination enable 78kbps Fixed Pier to Pier Power Inverter LON diagnosis Service Communication Status Termination support Support transmission baudrate Data type Support LED Connector specifications Manufacturer Model Code Phoenix Contact MC 1 5 3 ST 3 81 Dimensional drawings juni mm lh B 11 1 m 23 j T 3 81 p 7 62 las 12 22 e ONWORKS is a registered trademark of Echelon Corporation Cable connection Function Shield Cable shield connection NET A input connection No Signal name 2 NET A 3 NET B Note Network function must be supported by the software of the inverter used with SJ DN SJ PBT or SJ LW For the detail please contact Hitachi sales office NET B input connection 26 FOR COM PACT PANEL Heat accumulation in the panel can be reduced by arranging inverter heat sink outside 1L300P 015 055LFU2 HFU2 E2 L300P 075 150LFU2 HFU2 110 150HFE2 Exhaust Q9 L300P 185 300LFU2 HFU2 E2 L300P 370LFU2 HFU2 E2 Panel inside Exhaust d Panel Exhaust inside Exhaust Panel inside Panel inside For the top For the top d RSS and the bottom ed For the of the inverter For the sides For the top and the bottom of the inverter bo
32. ency range Protective functions 0 5 12kHz Over current protection overload protection braking resistor overload protection over voltage protection EEPROM error under voltage error CT Current transformer error CPU error external trip USP error ground fault input over voltage protection instantaneous power failure option 1 connection error option 2 connection error inverter thermal trip phase failure detection IGBT error thermistor error Environmental Ambient operating storage temperature 7 humidity 10 40 C 9 20 65 C 25 90 RH No condensation conditions Vibration 8 5 9m s 0 6G 10 55Hz 2 9m s 0 3G 10 55Hz Location Altitude 1 000m or less indoors no corrosive gases or dust Color Blue Gray Bezel for digital operator is blue EMI filters input output reactors DC reactors radio noise filters braking resistors braking units LCR filter communi Options i cation cables Network interface cards OPE SR 4 digit LED with potentiometer OPE SRE 4 digit LED with potentiometer English overlay Operator Optional OPE S 4 digit LED SRW 0EX Multilingual English French German Italian Spanish and Portuguese operator with copy function ICS 1 3 Cable for operators 1m 3m Weight kg Ibs 5777 5C OSL FL MEIN 5 11 5 11 12 26 4 12 26 4 12 26 4 20 44 30 66 30 66 50 110 1 Up to 30kW An optional conduit box is required for 37kW to 55kW to meet
33. er setting External signal DC 0 10V 10 10V input impedance 10ko 4 20mA input impedance 1000 External port RS 485 interface Forward Operator Run key Stop key FW RV can be set by function command reverse FW RUN STOP NO contact RV set by terminal assignment NO NC selection 3 wire input available Input Start stop External port Set by RS 485 signal RV Reverse CF1 CF4 Multispeed command JG Jogging DB External DC braking Intelligent SET Second motor constants setting 2CH Second accel decel FRS Free run stop EXT External trip input terminals USP Unattended start protection CS Change to from commercial power supply SFT Software lock Assign five functions AT Analog input selection RS Reset STA 3 wire start STP 3 wire stop F R 8 wire fwd rev PID PID On Off to terminals PIDC PID reset UP DWN Remote controlled accel decel UDC Remote controlled data clearing SF1 SF7 Multispeed bit command 1 7 OLR Overload limit change ROK RUN Permission and NO Not selected Thermistor input One terminal PTC Intelligent output Assign three functions to two NO contacts and one NO NC combined contact Output terminals RUN FA1 FA2 OL OD AL FAS IP UV RNT ONT RMD and THM uus Monor Analog voltage analog current PWM output output terminals Display monitor Output frequency output current scaled value of output frequency trip history I O terminal condition input power output voltage Othe
34. er source TO Forward command e O O O O O Intelligent input terminals e e i 5 terminals i A For 18 5kW 25HP and over W For up to 15kW 20HP FM Monitor output PWM Inverter To operating circuit Thermistor Frequency setting device 500 2kQ Intelligent output terminals Analog input E Current input 4 20mA 12 bit gt RS485 Serial communication port Analog output oa Pe DC4 20mA AMI 8 bit Option Customer wiring Outside the inverter FW 1 2 3 4 5 FM TH H O O2 Ol AM AMI 20 W SINK TYPE LOGIC In case of 400V class place a transformer for operating circuit to receive 200V 200V 240V 10 50 60HZ 5 L300P T1 U Sa L R L1 l A IE n AL pe R m an 2 Remove connection with J51 e J51 2 1 PD 9 when RoTo power is supplied ag RO Removable terminals DC link choke Q externall y Control power source 4 TO Dynamic braking unit BRD Short circuit bar O O AL1 AL2 Forward command Intelligent 1 input terminals 2 1 A For 18 5KW 25HP and over B um 1 CE 4 V For up to 15kW 20HP Q O FM wd T CM1 To operating circuit Inverter lt Thermistor 0 11C N ITH DC10V Frequency 2 H 12A setting device T l 1 10 I Intelligent output terminals 500 2kQ 12C l l Q Ana
35. etting 1 15 0 00 Starting frequency to maximum frequency 0 00 O O amp A035 e S A038 Jog frequency setting 0 00 Starting frequency to 9 99Hz 1 00 1 00 Q O 5 00 Free run stop disable during RUN 01 Deceleration to stop disable during RUN 5 Bie Jog stop mode hup em Num e cep cd INCUN OD eee 3 RUN Code 2 Torque boost method selection Default Setting Description FE CE FU2 UL 00 Manual torque boost 01 Automatic torque boost O Allowed X Not permitted Run time Run time Data Edit Setting Enabled at b031 Torque boost method selection for second motor 00 Manual torque boost 01 Automatic torque boost Manual torque boost value 0 0 20 0 Manual torque boost value for second motor 00 00 00 00 1 0 1 0 1 0 1 0 0 0 20 0 NN A043 Manual torque boost frequency adjustment 0 0 50 0 A243 Manual torque boost frequency adjustment for second motor 0 0 50 0 A044 V f characteristic curve selection 00 VC 01 VP 1 7th power 02 V f free setting A244 V f characteristic curve selection for second motor 00 VC 01 VP 1 7th power 02 V f free setting A045 V f gain setting A051 DC braking enable A052 DC braking frequency setting 20 100 00 Disabled 01 Enabled 0 00 60 00Hz 5 0 5 0 00 01 00 01 100 100 00 00 A053 DC braking wait time 0 0 5
36. gent control terminal system which allows necessary drive I O functions to be freely programmed Input terminals can be selected for either sink or source type logic Sink type logic Source type logic Upper System Upper System Power Supply VEASY TO USE OPERATOR PANEL L300P s digital operator panel supports various monitoring functions e Output frequency e Intelligent output terminal status eCumulative power on time e Output current e Scaled output frequency e Trip event e Rotation direction e Output voltage e Trip history e Process variable PID feedback e Warning code e Intelligent input terminal status eCumulative RUN time quency Drive Delivers Fan and Pump Applications FOR OPTINIAL OPERATION High performance Easy Maintenance Global Standar ds Compact Size Ease of Oper ation 3 1 E FM CONTENTS __ FEATURES PAGE STANDARD SPECIFICATIONS DIMENSIONS OPERATION and PROGRAMMING FUNCTION LIST 1 TERMINALS 17 8 PROTECTIVE FUNCTIONS CONNECTING DIAGRAM CONNECTING TO PLC WIRING and ACCESSORIES ACCESSORIES FOR COMPACT PANEL TORQUE CHARACTERISTICS DERATING DATA 29 30 FOR CORRECT OPERATION ISO 14001 Hitachi variable frequency do drives inverters in this brochure are produced at the factory registered under the ISO 14001 standard for ON environmental management system and the ISO 9001 standard for inverte
37. gth RS 485 Open connector 6 poles GSD file VPC3 Made by Profichip 100m at 12Mbps 1200m at 9 6kbps No rooter used for both conditions Maximum number of connectable nodes 126 Rooter used 32 No rooter used Termination support Yes Bus topology termination enable Support baud rate 9 6kbps to 12Mbps Baud rate auto detecting function equipped Communication specification Master slave Fieldbus ON Off line Support LED Fieldbus diagnosis Communication Status Connector specifications Manufacturer Model Code Phoenix Contact MC 1 5 6 ST 3 81 Cable connection No Signal name Function NET B NET B input connection Shield Cable shield connection NET A NET A input connection 5 NET B NET B input connection 6 Shield Cable shield connection Note PROFIBUS is a registered trademark of Profibus Nutzer Organization 11 1 LONWORKS Expansion Card SJ LW Dimensional drawings unit mm es ISS Specifications Device Class Transmission method Connector type Variable Speed Drive FTT 10A Free Topology Twisted Pair Transceiver Open connector 0000 Node Object uuo eee 6010 Variable Speed Motor Drive Support file XIF Neuron Chip TMPN3120FE5M Max bus length 2700m Max length between nodes 500m Max nodes number 32 385 FT Free topology termination
38. haft is locked or has a heavy load During deceleration These conditions cause excessive current for the During acceleration inverter so the inverter output is turned off eu thers When a motor overload is detected by the electronic thermal function the inverter trips and turns off its output When the regenerative braking resistor exceeds the usage time allowance or an over voltage caused by the stop of the BRD function is detected the inverter trips and turns off its output When the DC bus voltage exceeds a threshold due to regenerative energy from the motor the inverter trips and turns off its output When the built in EEPROM memory has problems due to noise or excessive temper ature the inverter trips and turns off its output Over L OL BRD Over V EEPROM 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 Under V If a strong source of electrical interference is close to the inverter or abnormal operations occur in the built in CT Current transformer the inverter trips and turns off its output 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 An error occurs when power is
39. i300P for Fan and Pump Applications HITACHI TE BHO i ul desi ais pown and wall E Ing tent r SCRIBRR LER Dus RHEL 21 996 HITACHI Inspire the Next Ls t aT J m a aA x he tm a er E z sf E m E Rs s i c D E 3 m ie ks Hitachi s L300P Series Variable Fre Increased Ener gy Savings for Your ew Zur WIDE RANGE OF APPLICATION SPECIFIC FUNCTIONS lll Example of Energy Savings Fan eAUTOMATIC ENERGY SAVING dro y ete FUNCTION Fils With its Automatic Energy saving Function the 300 5 real time energy saving operation for your fan and pump applications The function insures that motor operates at minimum current in response to the torque required by the load Operation by v f control Amount of energy to be saved Power Consumption Operation by Automatic Energy saving Function Frequency eENHANCED INPUT OUTPUT TERMINALS Three relay output terminals are provided 4 3 5 INTELLIGENT RELAY OUTPUTS as standard for flexible interface to external control systems Bi NO contact X 2 NO NC contact X1 eANALOG OUTPUT MONITOR In addition to PWM monitor FM programmable analog output monitors are also available for both voltage 0 10 VDO and current 4 20mA at AM and AMI terminals of the L300P eINTELLIGENT INPUT OUTPUT TERMINAL SYSTEM The L300P features an intelli
40. inals P N External braking unit connection terminals OG Ground connection terminal RO RO TO TO Control power supply input terminals G Terminal Arrangement W015 055 LFU2 HFU2 HFE2 B110 150HFE2 075 150HFU2 LFU2 L1 L2 L3 T1 T2 T3 L1 L2 L3 T1 T2 T3 Ro To 1 RB G G 1 RB 6 Ro To 8 1085 702 RolTo W220 300 450 550 50 2 07 0 185 750HFE2 HFU2 R 900 1320HFE2 HFU2 e Pe E 7 ia y D E 1 a o Ws E 1 z e G Screw Diameter and Terminal Width Main Circuit Terminals Model 015 037 LFU2 055LFU2 O75LFU2 110 150LFU2 185LFU2 185 370 220 370LFU2 450 550 750LFU2 900 1100 HFE2 HFU2 HFE2 HFU2 HFE2 HFU2 HFE2 HFU2 HFE2 HFU2 450 750HFE2 HFU2 LFU2 1320HFE2 HFU2 HFE2 HFU2 For ground screw of 200 300 450 550 LFU2 M6 is used For 900 1320HFE HFU2 M8 is used All models W Terminal width Control Circuit Terminals Terminal Arrangement o aw m m w s a s 2 TIT an 1 o o am pa pc om we wa n6 wA mo ala Screw diameter M3 Terminal width 6 4mm 17 Control Circuit Terminals Terminal Description Default setting CE UL Symbol 1 Name Explanation of Terminals Ratings Analog Digital Common Terminal for Analog L Bowe ESTE Common terminal for H O O2 Ol AM and AMI D
41. int for second motor 0 00 99 99 100 0 400 0Hz Decel 1 to Decel 2 frequency transition point 0 00 99 99 100 0 400 0Hz Decel 1 to Decel 2 frequency transition point for second motor 0 00 99 99 100 0 400 0Hz A097 Acceleration curve selection 00 Linear 01 S curve 02 U shape O3 Reverse U shape so ae A098 Deceleration curve selection 00 Linear 01 S curve 02 U shape O3 Reverse U shape OI L input active range start frequency 0 00 400 0Hz A102 OI L input active range end frequency 0 00 400 0Hz A103 OI L input active range start voltage 00 00 0 00 0 00 0 00 60 00 20 20 0 100 External A104 OI L input active range end voltage 0 100 T A105 OI L input start frequency enable uning 00 External frequency output zero reference 01 0Hz A111 O2 L input active range start frequency 400 0 400 0Hz 0 00 0 00 A112 O2 L input active range end frequency 400 0 400 0Hz 0 00 0 00 A113 O2 L input active range start voltage 00 100 100 A114 O2 L input active range end voltage 100 100 96 Accel Curve A132 Deceleration curve constants setting A131 Acceleration curve constants setting 01 Smallest deviation 10 Largest deviation 02 02 01 Smallest deviation 10 Largest deviation 02 X XD CX OX X KL KEK KY KL KL KEK KY KL KK XIOIO O0 OOoXxXxxxo OOJ xxboxxoxpxxxDXXDCXOXDXUXDXUXDXDXUXDXXIOIXxOOJOOx
42. ips and turns off its output IH Expansion card 1 connection error OP1 0 9 An error has been detected in an expantion card or at its connecting terminals Expansion card 2 connection error Out of operation due to under voltage restart If it fails to restart it goes into the under voltage error OP2 0 9 NER E HE Due to insufficient voltage the inverter has turned off its output and been trying to UV WAIT 1 You can clear the error by pressing the Start Reset key 10 seconds after the trip occurred 2 f an EEPROM error Hl occurs be sure to confirm the parameter data values are still correct How to access the details about the present fault 19 3309 OG OG amp e 9 uo ac LI li 4 lt 4 4 4 lt Atos Ce v Output frequency Motor current Voltage between Cumulative inverter Cumulative power on x Error code Status at trip point at trip point at trip point P and N at trip point operation run time time at trip point at trip point l CONNECTING DIAGRAM 5 SOURCE TYPE LOGIC In case of 400V class place a transformer for operating circuit to receive 200V 200V 240V 10926 50 60Hz23 5 5 J RIL L300P 1 si l y bkw O 0 O i y Roo l 2 Remove connection with J51 peig J51 a when RoTo power is supplied ON RO Removable terminals DC link choke externally 11 Control pow
43. it breaker manufacturer The wiring distance between the inverter and the remote operator panel should be 20 meters or less When this distance is exceeded use CVD E current voltage converter or RCD E remote control device Shielded cable should be used on the wiring Beware of voltage drops on main circuit wires A large voltage drop reduces torque If the earth leakage relay or earth leakage breaker is used it should have a sensitivity level of 15 mA or more per inverter Phase advance capacitor Do not use a capacitor for power factor improvement between the inverter and the motor because the high frequency components of the inverter output may overheat or damage the capacitor High frequency Noise and Leakage Current 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 smoothing 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 3 50 such adverse factors
44. l 2 active state 00 NO 01 NC 00 00 X O a C013 Terminal 3 active state 00 NO 01 NC 00 01 x O eine C014 Terminal 4 active state 00 NO 01 NC 00 00 X Q Setting C015 Terminal 5 active state 00 NO 01 NC 00 00 X O C019 Terminal FW active state 00 NO 01 NC 00 00 X Q 00 RUN Run signal 01 FA1 Frequency arrival signal at the set frequen ERE Terminal 11 function cy 02 FA2 Frequency arrival signal at or above the set frequency 2 1 a O 03 OL Overload advance notice signal 04 OD Output deviation for PID Intelligent C022 Terminal 12 function control 05 AL Alarm signal 06 FA3 Frequency arrival signal only at the set 00 00 x O Output frequency 08 IP Instantaneous power failure signal O9 UV Under voltage Terminal signal 11 RNT RUN time over 12 ONT Power on time over Setting C026 Alarm relay terminal function 13 THM Thermal alarm 27 RMD Operator RUN command signal 1 05 05 X O C027 FMsignal selection 00 Output frequency 01 Output current 03 Digital output frequency only at 00 00 X O C028 AM signal selection C027 04 Output voltage 05 Power 06 Thermal load ratio O7 LAD fre 00 00 X O C029 AMI signal selection quency 00 00 x C031 Terminal 11 active state 00 NO 01 NC 00 00 X Intelligent C032 Terminal 12 active state 00 NO 01 NC 00 00 X O Output C036 Alarm relay terminal active state 00 NO 01 NC 01 01 X Terminal C040 Overload sig
45. log input a b MN NEN 0 10ko SP DC 10 10V 12 bit J Current input 4 20mA 12 bit SN i gt i Q 1 RS485 l S Serial communication port Analog output Ne i DCO 10V 8 bit DC4 20mA 8 bit Option l Customer wiring Outside the inverter FW 1 2 3 4 5 FM TH H O O2 Ol AM AMI 21 CONNECTING TO PLC 1 USING INTERNAL POWER SUPPLY OF THE INVERTER 1 Sink type logic Hitachi EH 150 series PLC L300P Output Module EH YT16 USING EXTERNAL POWER SUPPLY 1 Sink type logic fee 2 Q ga i ga aay e SEN COM Q REE EEE B Hitachi EH 150 series PLC Output Module EH YT16 Note Remove short circuit bar between P24 and PLC 2 Source type logic C I l 1 i 1 C O Hitachi EH 150 series PLC Output Module EH YTP16 Note Place short circuit bar between PLC and CM1 instead of P24 and PLC 2 Source type logic a Don Hitachi EH 150 series PLC Output Module EH YTP16 Note Remove short circuit bar between P24 and PLC Note Be sure to turn on the inverter after turning on the PLC and its external power supply to prevent the parameters in the inverter from being modified 22 23 WIRING and ACCESSORIES Power Supply ve
46. ltage 3 phase 3 wire 380 480 X 1096 50 60Hz Rated input current A 4 2 5 8 9 5 13 18 24 32 41 47 63 Required power supply capacity kVA 3 4 4 8 11 15 22 30 37 44 60 Rated output voltage 4 3 phase 3 wire 380 480V Corresponding to input voltage Rated output current continuous A 29 37 43 57 Control method Line to line sine wave PWM Output frequency range 5 Frequency accuracy 0 1 400Hz Digital 0 01 of the maximum frequency Analog 0 2 25 10 C Frequency resolution V f characteristics Digital setting 0 01Hz Analog setting Maximum frequency 4 000 O terminal 12 bit 0 10V O2 terminal 12 bit 10 10V V f optionally variable V f control Constant torque reduced torque Overload capacity Acceleration deceleration time 120 for 60sec 150 for 0 5sec 0 01 3 600sec Linear curve accel decel selection Two stage accel decel Dynamic braking Short time 6 Built in BRD circuit optional resistor External dynamic braking unit option Braking m Performs at start under set frequency at deceleration or via an external input braking force time and operating frequency Operator Up and Down keys Frequency Potentiometer Potentiometer setting External signal DC 0 10V 10 10V input impedance 10ko 4 20mA input impedance 1000 External port RS 485 interface Run key Stop key FW RV can be set by function command
47. mode 2 Running the motor by potentiometer 1 EET or the value previously 2 The motor runs at the frequency mon Feel is displayed set by the potentiometer 3 The motor stops O Press ke e Q y and turn the d Press key to stop the motor 0 9 9 potentiometer clockwise 60 9 9 Output frequency monitor 3 Monitoring output current value 1 GG or the value previously 4 Output current value monitored is displayed 2 Function code appears 3 SUC appears is displayed until OW appears 12 13 FUNCTION LIST Monitoring Functions and Main Profile Parameters Name Code d001 Output frequency monitor 0 00 99 99 100 0 400 0Hz Default Setti FE CE FU2Z UL O Allowed X Not nee ng Run time Run time Data Edit UL Setting Enabled at b031 d002 Output current monitor Motor rotational direction monitor 0 0 999 9A F Forward o Stop r Reverse 1003 d004 d005 d006 d007 Process variable PV PID feedback monitor Intelligent input terminal status Intelligent output terminal status Scaled output frequency monitor 0 00 99 99 100 0 999 9 1000 9999 1000 9999 100 999 10 000 99 900 Example Terminal FW 2 and 1 ON Terminal 5 4 and 3 OFF Example Terminal 12 and 11 ON AL OFF 0 00 99 99 100 0 999 9 1000 9999 1000 3996 10 000 39 960 Monitor Mode d013 Output voltage monitor Power monitor 0
48. 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 operation 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 EE 8 enhance the insulation of the motor coil Notes on Use Drive Run Sto Run or stop of the inverter must be done with the keys on the operator panel or through the control circuit terminals P Do not operate by installing a electromagnetic contactor Mg in the main circuit Emergency motor stop When the protective function is operating or the power supply stops the motor enters the free run stop state When an emergency stop is required or when the motor should be kept stoppe
49. multilingual English French German Italian Spanish and Portuguese operator with copy function SRW OEX or a digital operator without potentiometer OPE S is also available as an option For US version OPE SRE English overlay with potentiometer is provided as standard Parameter Display Power LED Lights when the power input to the drive is ON POWER f Displays frequency motor cur P rent rotational speed of the motor and an alarm code ALARM Display Unit LEDs Indicates the unit associated Monitor LEDS ez Shows drive s status bei Jw with the parameter display RUN Key Potentiometer Press to run the motor STOP RESET Key Store Key oF Mode b the new value to e l Up Down Keys Press up or down to sequence through parameters and functions shown on the display and increment decrement values Function Key Press to set or monitor a parameter value 1 Setting the maximum output frequency 1 GGG or the value previously monitored is displayed 2 Function code appears 3 4 HLIL 1 or the code number set in the end of last setting is displayed ess OY ie H appears 8 Returns to HLILI and 5 6 Preset value is displayed 7 Newly set value is displayed the setting is complete 5 Press sre key to store the value until To run the motor go appears back to monitor mode z z or basic setting
50. nal output mode 00 During accel decel 01 At constant speed 01 01 X O State and C041 Overload level setting 0 00 rated current 2 00 rated current Rated current Rated current x O Output C042 Arrival frequency setting for acceleration 0 00 99 99 100 0 400 0Hz 0 0 0 0 X O Level C043 Arrival frequency setting for deceleration 0 00 99 99 100 0 400 0Hz 0 0 0 0 X O setting C044 PID deviation level setting 0 0 100 0 3 0 3 0 X O C061 Electronic thermal warning level setting 0 100 80 80 X O C070 Data command method 02 Operator 03 RS485 04 Expansion card 1 05 Expansion card 2 02 02 x X C071 Communication speed selection 03 2400bps 04 4800bps 05 9600bps 06 19200bps 04 04 X O Serial C072 Node allocation 1 32 l 1 X O Communi C073 Communication data length selection 7 7 bit 8 8 bit 7 7 X O cation C074 Communication parity selection 00 No parity 01 Even 02 Odd 00 00 X O C075 Communication stop bit selection 1 1 bit 2 2 bit 1 1 x Q C078 Communication wait time 0 1000 msec 0 0 0 0 x O C081 O input span calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set e O C082 Ol input span calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set O O Analog C083 O2 input span calibration 0 9999 1000 6553 10 000 65 530 Factory set Factory set O Meter C085 Thermistor input tuning 0 0 1000 105 105 O O Setting C086 AM terminal offset tuning 0 0 10 0V
51. o not ground Power Supply H a for Frequency Power supply for frequency command input DC 10V 20mA max Maximum frequency is attained at DC 10V in DC 0 10V range Set the Input impedance 10kQ Allowable 0 Frequency voltage at A014 to command maximum frequency below DC 10V input voltage range DC 0 3 12V O2 signal is added to the frequency command of O or Ol in DC Fr n in Frequency Command Extra e 3 Input impedance 10kQ Allowable equency Setting O2 ee 0 10 range By changing configuration frequency command input voltage range DC 0 12V can be input also at O2 terminal Maximum frequency is attained at DC 20mA in DC 4 20mA range Input impedance 1000 Allowable Ol Feo Uey Cronin el Rennie When the intelligent terminal configured as AT is on Ol signal is enabled input voltage range DC 0 24mA AM Analog Output Monitor Voltage Selection of one function from DC 0 10V 2mA max Monitor Output Output frequency output current torque output voltage input AMI Analog Output Monitor Current power electronic thermal load ratio and LAD frequency DC 4 20mA 250 max The inverter trips when the external thermistor detects abnormal pu cn Ue ade range temperature Common terminal is CM1 LM Analog Recommended thermistor characteristics Input Circuit k Input Sensor TH e EE Allowable rated power 100mW or over Impedance in the case of TH 9 aS gt abnormal temperature 3kQ thermistor 1kQ Note Thermal protection level
52. op 00 00 X b096 Dynamic braking activation level 330 380 660 760V O b098 Thermistor for thermal protection control 00 Disable 01 PTC enable 02 NTC enable 00 00 X Q b099 Thermistor for thermal protection level setting 0 0 99990 3000 3000 X Q b100 Free setting V f frequency 1 0 Free setting V f frequency 2 0 0 X b101 Free setting V f voltage 1 0 0 800 0V 0 0 X x b102 Free setting V f frequency 2 0 Free setting V f frequency 3 0 0 0 0 X b103 Free setting V f voltage 2 0 0 800 0V 0 0 0 0 X b104 Free setting V f frequency 3 0 Free setting V f frequency 4 0 0 0 0 X X b105 Free setting V f voltage 3 0 0 800 0V 0 0 0 0 x Free setting b106 Free setting V f frequency 4 0 Free setting V f frequency 5 0 0 0 0 X X VA pattern 5107 Free setting V f voltage 4 0 0 800 0V 0 0 0 0 X b108 Free setting V f frequency 5 0 Free setting V f frequency 6 0 0 0 0 X X b109 Free setting V f voltage 5 0 0 800 0V 0 0 0 0 x b110 Free setting V f frequency 6 0 Free setting V f frequency 7 X X b111 Free setting V f voltage 6 0 0 800 0V X x b112 Free setting V f frequency 7 0 400 Hz X b113 Free setting V f voltage 7 0 0 800 0V X x 1 90kW and over 15 C Group Intelligent Terminal Functions O Allowed X Not permitted efault Setting Run time Run time Data Edit oe D Code Name Description TENES
53. or constants setting 2CH Second accel decel FRS Free run stop EXT External trip USP Unattended start protection CS Change to from commercial power supply SFT Software lock AT Analog input selection RS Reset STA 3 wire start STP 3 wire stop F R 3 wire fwd rev PID PID On Off PIDC PID reset UP DWN Remote controlled accel decel UDC Remote controlled data clearing SF1 SF7 Multispeed bit command 1 7 OLR Overload limit change ROK RUN Permissive and NO Not selected One terminal PTC Output signal Assign three functions to two NO contacts and one NO NC combined contact Intelligent output RUN FA1 FA2 OL OD AL FA3 IP UV RNT ONT RMD and THM terminals Intelligent monitor output terminals Analog voltage analog current PWM output Display monitor Other user settable parameters Output frequency output current scaled value of output frequency trip history I O terminal condition input power output voltage V f free setting up to 7 points frequency upper lower limit frequency jump accel decel curve selection manual torque boost value and frequency adjustment analog meter tuning starting frequency carrier frequency electronic ther mal protection level external frequency output zero span reference external frequency input bias start end analog input selection retry after trip reduced voltage soft start overload restriction automatic energy saving Carrier frequ
54. os sible 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 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 Vas 205V Vsr 201V Vir 200V Vrs R S line voltage Vsr S T line voltage Vrn T R line voltage Max line voltage min Mean line voltage Mean line voltage Vrs Vrs Vsr VrR 3 205 202 0 _ SX 100 5 95 Vas Vst Vrn 3 202 ES Unbalance factor of voltage X 100 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 1 Be sure to connect main power wires with R L1 S L2 and T L3 input terminals and motor wires to U T1 V T2 and W T3 terminals output Incorrect conn
55. r quality ISO 9001 management system JQA 1153 EASE OF MAINTENANCE eEASY REMOVABLE eREMOVABLE CONTROL COOLING FAN CIRCUIT TERMINALS AND DC BUS CAPACITOR Eliminates control rewiring when field replacing the L300P Cooling fan s and DC bus capaci tors can be easily changed in the field A fan ON OFF function can be activated to provide longer cooling fan life COMPACT DESIGN The L300P s compact size helps economize panel space aaa Installation area is reduced by approximately 30 from that of our previous series Comparison of 11kW 15HP TEELEN ALATA BOULE ha ON oa USER FRIENDLY OPERATION eEASE OF OPERATION WITH e BUILT IN RS485 DIGITAL OPERATOR OP E S R RS485 is provided as standard for ASCII serial Output frequency can be controlled by the integral communication potentiometer provided as standard on the OPE SR The OPE SR can be removed for remote control and has an easy to see 4 digit display and LEDs to indicate the ePROGRAMMING SOFTWARE unit being monitored i e frequency amps power etc Optional PC drive configuration software which runs on A multilingual operator English French German Italian Windows Operating System Spanish and BPortuguese with copy function SRW OEX and a digital operator without potentiometer OPE S are also available as options sae HIETACHI HITACHI eUSER SELECTION OF COMMAND FUNCTIONS Quick Men
56. r the permissible range of continuous speed To operate at more than 60 Hz confirm the machine s ability to withstand the centrifugal force generated Application to special motors G t The allowable rotation range of continuous drive varies depending on the lubrication method or motor manufacturer Par EIE oo ticularly 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 Pole change motor with 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 The rated current of a submersible motor is significantly larger than that of the general purpose motor In inverter selection Submersible motor be sure to check the rated current of the motor Also see Application to the 400V class motor Inverter drive is not suitable for a safety enhanced explosion proof type motor The inverter should be used in combination Explosion proof motor with a pressure proof explosion proof type motor Explosion proof verification is not available for L300P Series For explosion proof operation use other series of motors Synchronous MS
57. r user settable parameters Carrier frequency range free setting up to 7 points frequency upper lower limit frequency jump accel decel curve selection manual torque boost value and frequency adjustment analog meter tuning starting frequency carrier frequency electronic ther mal protection level external frequency output zero span reference external frequency input bias start end analog input selection retry after trip reduced voltage soft start overload restriction automatic energy saving 0 5 12kHz 0 5 8kHz Protective functions Over current protection overload protection braking resistor overload protection over voltage protection EEPROM error under voltage error CT Current transformer error CPU error external trip USP error ground fault input over voltage protection instantaneous power failure option 1 connection error option 2 connection error inverter thermal trip phase failure detection IGBT error thermistor error Ambient operating storage a 3 Environmental emperature 7 humidity 10 40 C 9 20 65 C 25 90 RH No condensation conditions Vibration 8 2 9m s 0 3G 10 55Hz Location Altitude 1 000m or less indoors no corrosive gases or dust Color Gray Bezel for digital operator is blue OUO EMI filters input output reactors DC reactors radio noise filters braking resistors P braking units LCR filter communication cables Network interface cards OPE
58. reactor LCR 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 ters switching waveforms by smoothing the waveforms to approxi mate commercial power quality It is also useful when wiring from the inverter to the motor is more than 10m in length to reduce harmonics 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 ACCESSORIES OPERATOR Model Potentiometer Installation in L3Q0P Copy Function OPE S 2 O OPE SR SRE O Q CO Standard for L300P OPE SRE Standard for L300P UL version SRW 0EX O O O OPE SRE English overlay CABLE FOR OPERATOR Cable Length ICS 1 ICS 3 1m 3 3ft 3m 9 8ft W DIMENSIONS OPE S R 79 8 11 13 0 51 0 13 0 51 co ce 123 4 84 Mounting holes 5 REMOTE OPERATOR SRW OEX Optional SRW 0EX E ELS HITACHI O POWER OALARM OPRG ORUN COPY e els 2 M3 depth5 Reverse side 6 5 0 26 HITACHI POWER ALARM PRG RUN 6 O00 9002 26 5 1 04 103 4 06 Mounting holes Unit mm inch Inches for reference only ICS 1 3 Cables for OPE S SR SRE and SRW OEX
59. rque boost value and frequency adjustment analog meter tuning starting frequency carrier frequency electronic ther mal protection level external frequency output zero span reference external frequency input bias start end analog input selection retry after trip reduced voltage soft start overload restriction automatic energy saving Carrier frequency range 0 5 12kHz Over current protection overload protection braking resistor overload protection over voltage protection EEPROM error under voltage error CT Current transformer error CPU error external trip USP error ground fault input over Protective functions trip phase failure detection IGBT error thermistor error voltage protection instantaneous power failure option 1 connection error option 2 connection error inverter thermal Ambient operating storage temperature 7 humidity 10 40 C 9 20 65 C 25 90 RH No condensation Environmental conditions Vibration 8 5 9m s 0 6G 10 55Hz Location Altitude 1 000m or less indoors no corrosive gases or dust Color Blue EMI filters input output reactors DC reactors radio noise filters braking resistors braking units LCR filter communi Options cation cables Network interface cards OPE SR 4 digit LED with potentiometer OPE SRE 4 digit LED with potentiometer English overlay Operator Optional OPE S 4 digit LED SRW OEX Multilingual English French German Italian
60. ter receiver This magnetic choke filter helps reduce radiated noise can also be used on output Radio noise filter Capacitive filter Note 1 Field wiring connection must be made by a UL and c UL listed closed loop terminal connector sized for the Note 2 Be sure to use bigger wires for power lines if the distance exceeds 20m 66ft EUIS Function This is useful in suppressing harmonics induced on the power supply lines or Input side AC t when the main power voltage imbalance exceeds 396 and power source capac ii e ity is more than 500kVA or to smooth out line fluctuations It also improves the power factor EMI filt This filter reduces the conducted noise in the power supply wiring between the invert MSS er and the power distribution system Connect it to the inverter primary input side Electrical noise interference may occur on nearby equipment such as a radio This capacitive filter reduces radiated noise from the main power wires in the inverter input side DC link choke Braking resistor Braking unit Output side noise filter The choke suppresses harmonics generated by the inverter However it will not protect the input diode bridge rectifier Braking components are 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 AC
61. teristics 00 Reduced torque 01 Constant torque 02 V f free setting O Electronic b213 Electronic thermal characteristics for second motor 00 Reduced torque 01 Constant torque 02 V f free setting 01 00 X Q Thermal 6015 Free setting electronic thermal frequency 1 0 400 Hz 0 0 x O b016 Free setting electronic thermal current 1 0 0 1000 A O b017 Free setting electronic thermal frequency 2 0 400 Hz 0 0 x m b018 Free setting electronic thermal current 2 0 0 1000 A O b019 Free setting electronic thermal frequency 3 0 400 Hz 0 0 X O b020 Free setting electronic thermal current 3 0 0 1000 A O b021 Overload restriction operation mode EC Vau ced constant speed 01 01 O b022 Overload restriction setting 0 50 rated current 1 50 rated current Q Overload b023 Deceleration rate at overload restriction 0 10 30 00 X O Restriction i b024 Overload restriction operation mode 2 o Ensble t yT 01 01 O b025 Overload restriction setting 2 0 50 rated current 1 50 rated current X b026 Deceleration rate at overload restriction 2 0 10 30 00 X Q OO All parameters except b031 are locked when SFT from terminal is SORTS on 01 All parameters except b031 and output frequency F001 are ied b031 Software lock mode selection locked when SFT from terminal is on 02 All parameters except O b031 are locked O3 All parameters except b031 and output fre quency F001 are locked 10 Run time data edit mode
62. ttom of the inverter of the inverter 27 L300P 450 550LFU2 L300P 750LFU2 L300P 900 1100HFU2 E2 L300P 1320HFU2 E2 450 750HFU2 E2 ei Banal Panel Exhaust inside inside Exhaust Exhaust t Panel inside intake FP 5 For the sides of the inverter FP 5 For the top and the bottom of the inverter FP 6 For the sides of the inverter FP 6 For the top and the bottom of the inverter For the side of the inverter FP 7 For the top and the bottom of the inverter Exhaust FP 8 FP 9 For the top and the bottom of the inverter For the side IN of the inverter Panel cutout 4 Screw Model 77 Unit mm 2 Sas L300P 015 055LFU2 HFU2 E2 62 L300P 075 150LFU2 HFU2 110 150HFE2 82 S L300P 185 300LFU2 HFU2 E2 83 L300P 370LFU2 HFU2 E2 92 L300P 450 550LFU2 HFU2 E2 450 750HFU2 E2 102 7 L300P 750LFU2 131 wW L300P 900 1100HFU2 E2 400 420 710 690 M10 141 W L300P 1320HFU2 E2 490 510 750 710 M10 137 TORQUE CHARACTERISTICS Typical torque performance based on V f pattern top is shown below ae IN Maximum torque for short time period Fae V f pattern maximum torque boosting V 100 Continuous operating torque Base frequency 60Hz gt Output torque 4 Pa Base frequency 50Hz I 01 10 100 110 12
63. u You can select frequently used commands and store them for fast reference EU ENVIRONMENTAL FRIENDLINESS eEMI FILTER EMI filters to meet European EMC EN61800 3 EN5501 1 and low voltage directive EN501 78 are available for system conformance et REDUCED NOISE FROM MAIN CIRCUIT POWER SUPPLY AND CONTROL CIRCUIT POWER SUPPLY Disturbance voltage of the main circuit power supply and of the control circuit power supply has been improved by approximately 15dB uV and 20dB UV respectively compared to our previous model J300 resulting in significant reductions to noise interference with sensors and other peripheral devices e Disturbance voltage of the main circuit power supply It does not comply with European EMC directive To meet the EMC directive please use an EMI filter 100 i I E 90 I rd proce um i m k 2 1 J300 series Ea 70L4 gt zo J300 220LFU EE L300P 220LFU2 E L300P series 20 30 5 7 10 Frequency MHz 0 MDE 375 7171 e Disturbance voltage of the control circuit power supply Disturbance voltage of terminal L or CM1 e eo 1 J300 series i W 19 A BN i j i i4 1 f 5 n i 1 n WU r 60 iid 1 d T i then i nur 40 oe J300 055LFU 1 20 L300P 055LFU2 1 1 1 1 74 Disturbance voltage dB uV 5 Na
64. y range 5 Frequency accuracy 0 1 400Hz Digital 0 01 of the maximum frequency Analog 0 2 25 10 C Frequency resolution V f characteristics Digital setting 0 01Hz Analog setting Maximum frequency 4 000 O terminal 12 bit 0 10V O2 terminal 12 bit 10 10V V f optionally variable V f control Constant torque reduced torque Overload capacity Acceleration deceleration time 120 for 60sec 150 for 0 5sec 0 01 3 600sec Linear curve accel decel selection Two stage accel decel Braking Input signal Dynamic braking Short time 6 External dynamic braking unit option Built in BRD circuit optional resistor Thermistor input DC braking Performs at start under set frequency at deceleration or via an external input braking force time and operating frequency Operator Up and Down keys Frequency Potentiometer Potentiometer setting External signal DC 0 10V 10 10V input impedance 10ko 4 20mA input impedance 1000 External port RS 485 interface Forward Operator Run key Stop key FW RV can be set by function command reverse External signal FW RUN STOP NO contact RV set by terminal assignment NO NC selection 3 wire input available Start stop External port Set by RS 485 RV Reverse CF1 CF4 Multisoeed command JG Jogging DB External DC braking Intelligent input terminals Assign five functions to terminals SET Second mot
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