High Performance Inverter
Contents
1.2. 220 p 190 250 12 196 ae 91 2 12 226 12 Sm 11 2 32 6 66 8 10 20 6 66 8 ag 2x010 g 2xo10 a m y 1 eve EN E EE 000000 8588 L J y ERE INE UM de SIS a u 28 1 i 0 if I QI en 1 UU E _ La Y 10 1 ram dfe A 252 E 10 We 222 uem nu mi JO eem Ses aan Eu ua i a Sere dl aae de gt e u tae 3EHERLI Um N Zi o 205 ED WAT O EAT N 243 EH Hm E CE e HH I H a UN vem u e x bara MENT A E IT FRNO085E2M 4 FRNO139E2M 4 FRNO105E2M 4 Hu MAX326 2 MAX361 2 320 355 w 240 40 cae ES 246 2 6 gt 61 3 66 8 oa 13 66 8 ER o a J QI I pie f 1 Pe Aq El o
3. MAX536 4 MAX536 4 i 530 MAX321 530 50 430 7 50 315 50 430 50 L_ 322 9 6 135 e 180 L 116 9 spas 66 8 2x015 4 eje 106 6 66 8 2xg15 4 e I x TFF DE _ 7 Ec P A O s ZEB JE BE e i 8 sg los Di D UO 57 memo O MAX506 4 14 7 500 6 14 7 FRN0520E2 4 AA TI FRNO590E2 I 4 aaraa al MAX686 4 ole e o e e 680 a MAX366 E 50 290 290 50 360 500 6 116 9 6 180 180 ee E ML 3xo15 I U I e o 2 o AES O EEE o n ADORA CRGO ORNARE ADAE DOOR 2 2 EP 8 8 8 8 UI i TAD U U SS ls 660 nds 580 ae 6xM12 290 n A 2 U e e MOQ00000 e Q00000000U000000000000 aum ELLE a SERIA e e H H e me e Ein 3 MAX656 4 14 7 650 6 14 7 IM S Standard basic type E EMC filter built in type 0059 to 0590
4. 7 o E ob e anea 195 TP A1 E2C Multi function Keypad Option mm E i U L 79 2 3 ui as 68 8 a lag JE 1 aem 00 02 03 02 16 u 00 0 0 0 0 0 0 o 2 E raxio S z rom S VS RUN E DATA STOP E e 3 41 Pall Oo hA 6 o o M y L 4 7 i 5 2 T I N 24 09 15 08 o Q x 8 S The cover for the keypad EE X X Y 2xM3 21 15 4 Figure of panel cut dimensions Arrow A 21 22 Options Adapter Type Option Functions OPC E2 ADP1 ADP1 The adapter is mounted on the front side of the inverter The adapter is used from 0022 of 0044 to 400V 0030 of 0069 to 200V to FRENIC Ace ADP2 The adapter is mounted inside of the inverter The adapter is used from 0059 of 0072 to OPC E2 ADP2 Mounting adapter for option card 400V to FRENIC Ace ADP3 The adapter is mounted inside of the inverter The adapter is used in more than 0085 to EAS 400V of FRENIC Ace Communication I O Parts Type Option Functions OPC DEV A ien crd The DeviceNet interface option enables the FRENIC Ace series of the inverters to interface with DeviceNet and the FRENIC Ace can be operated as a DeviceNet slave The CC Link interface option enables the FRENIC Ace series o
5. RJ45 connector 24VDC ov P Aarm omputih Contest outputs Y ES for any fault MM Keypad sw2 N Enable input END Standard a n E X y gt Communication port 1 o Ss EN2 RS 485 E d o Zi f Y 1 2 L4 E 5 U o U AAA N X L Du L Removable terminal block A Da Motor overload early warnig SOURCE l 773 AY gt Inverter running Transistor output Run forward command _ Ew I Common terminal for REV FAY gt transistor outputs SINK SOURCE T Run reverse command 1 i i X1 ZS Sz gt Current output Select multi frequency 0 to 1 step __1 a 4 0 to 20 mADC UN ZEZ Volt tput Digital input 4 Select multi frequency 0 to 3 step X2 4 Dto 10 VDC Output frequency 1 za xz gt Select multi frequency 0 to 7 step X3 o os Lo I I ZSZ gt Coast to a stop __ i X4 Reset alarm Analog output common Common terminal for NI i u digital inputs Y Current output FMI Analog pulse output ds 10VDC 4 0 to 20 mADC Potentiometer power supply Siege o 13 IEM Output current Voltage input 12 0 to 10 VDC Voltage output Voltage input for setting 0 to 10 VDC gt 0 10VDC 0 to 10V
6. FRNOOOGE2MI 4 FRNOOOGE2II 4 FRNOOO7E2IMI 4 DCR4 2 2 15 2 3 FRNO0O7E2MW 4 FRNOOO7E2I 4 FRNOOO7E2Il 4 DCR4 3 7 3 7 DIE DCR4 3 7 A 109 ao 2 2 6 5 5 FRNOO12E2IlI 4 FRNOO12E2MM 4 FRNOO12E2Ml 4 FRNOO22E2IMI 4 DCR4 5 5 7 5 hee emp Soe A eR DCR4 7 5 2 4 2 11 FRNOO22E2NI 4 FRNOO29E2m 4 FRNOO2OE2MS 4 FRNOO37E2NI 4 DCR4 11 4 3 15 FRNO029E28I 4 FRNOO37E2INI 4 FRNOO37E2IMI 4 FRNOO44E2I 4 DCR4 15 15 5 9 18 5 FRNOO37E2NI 4 FRNOO44E2IMI 4 FRNO044E28 4 FRNOOS9E2M 4 DCR4 18 5 am 22 FRNOO44E2INI 4 FRNOOSOE2MI 4 FRNOOSGE2INI 4 FRNOO72E2m I 4 DCR4 22A 30 FRNOOS9E2MM 4 FRNOO72E2II 4 FRNOO72E2NM 4 FRNOO85E2M I 4 DCR4 30B B 152 157 115 100 130 190 M6 o8 13 45 FRNOOBSE2IMI 4 FRNO105E2NI 4 FRN0105E20 4 FRNO139E2II 4 Do 8 E DCR4 45C M6 7x13 8 4 55 FRNO OSE2MI 4 FRNO139E2NI 4 FRNO139E2NMI 4 FRNOTGGE2II 4 Do 28 AA DCR4 55C 76 11 75 FRNO139E2NlI 4 FRNO168E2mMI 4 FRNO168E2M 4 FRNO203E2m 4 DCR4 75C 86 125 145 13 90 FRNO168E2BI 4 FRNO203E288 4 FRNO203E2Imll 4 FRNO240E2m 4 DCR4 90C 96 15 110 FRNO203E2MI 4 FRNO240E2M 4 FRNO240E288 4 FRNO290E2M 4 DCR4 110C 90 175 155 m 19 132 FRNO240E2M 4 FRNO2Q0E2m 4 FRNO290E2IMI 4 FRNO361 EZM 4 DCR4 132C 100 22 160 FRNO290E2H 4 FRNO361E2M 4 FRNO361E2MA 4 FRNO415E2M 4 DCR4 160C 103 26 200 FRNO361E2BI 4 FRNO415E2M 4 FRNO415E2M 4 FRNO520E2M 4 DCR4 200C 113 185 30 220 FRNO
7. X2 Digital input 2 eCancel PID control eSwitch normal inverse operation eInterlock eCancel torque control eEnable communications link via RS 485 or fieldbus option eUniversal DI eEnable auto search for idling motor speed at starting eForce to stop ePre excitation EXITE eReset PID integral and differential components X3 Digital input 3 eHold PID integral component eSelect local keypad operation eActivate the limit switch at start point eStart reset Operation current at ON eSwitch to the serial pulse receiving mode eEnter the return mode Source current 2 5 to 5 mA eEnable overload stop eServo lock command Source current 9 7 to 16 mA ePulse train input ePulse train sign terminal X5 Pulse train input eSelect torque bias 1 eSelect torque bias 2 Voltage level 2 V or below eHold torque bias eCheck brake control X4 Digital input 4 eLine speed control Operation current at OFF eHold the linel speed control frequency in the memory Allowable leakage current eCount the run time of commercial power driven motor 1 0 5 mA or less eCount the run time of commercial power driven motor 2 Voltage 22 to 27 VDC eSelect droop control eSelect parameter 1 eSelect parameter 2 eCancel customizable logic eClear all customizable logic timers Cancel automatic deceleration X5 Digital input 5 Pulse train input eRun forward command eRun reverse command eNo function assigned ePID multistep command 1 ePID multistep command 2 eBattery UPS operation SIN
8. f i It is possible to set the base freguency rated current torgue boost and electronic thermal slip compensation as settings the data for 1st to 2nd motors niversal ti The status of external digital signal connected with the universal digital input terminal is transferred to the host controller Universal DO Digital command signal from the host controller is output to the universal digital output terminal Universal AO The analog command signal from the host controller is output to the analog output terminal Notch filter for vibration control For IMPG VC IMPG VC Speed control Selectable among the four set of the auto speed regulator ASR parameters PM SVC The PG option card is required In a machine such as winder unwinder regulates the motor speed to keep the peripheral speed of the roll Line speed control constant IMPG VF The PG option card is required Bosinoninqcontro with The positioning control starts from the preset start point and counts the feedback pulses from PG inside the Excluded ise Aki inverter The motor can be automatically started decelerating to the cleep speed which can be detected the IMPG VC P target position so that the motor can stop near the position The PG option card is required PM SVC FRENIC fice FUJI ELECTRIC INVERTERS Common Specifications Items Specifications Remarks Master follower Enables synchronous operation of two motors equipped with a pulse generator PG T
9. EN Enable Input 2 PLC signal power These terminals are exclusively used for the source mode input and cannot be switched to the sink mode If either one of these input terminals is kept OFF for 50 ms or more the inverter interprets it as a discrepancy causing an alarm ECF This alarm state can be cleared only by turning the inverter off and on 2V Turn off 22 to 27V Turn on leakage current 0 5mA or less 17 SSS S 38T T Terminal Functions 18 Symbol Functions Categoly 1 Used to connect the inverter with the keypad The inverter supplies the power to the keypad through the pins specified below The extension cable for remote operation also uses wires connected to these pins for supplying the keypad power 2 Remove the keypad from the standard RJ 45 connector and connect the RS 485 communications cable to control the inverter RJ 45 connector Standard RJ 45 connector through the PC or PLC Programmable Logic Controller for the keypad RS 485 communication port 1 The protocol selection is available from the following Modbus RTU Fuji general purpose inverter protocol Asynchronous start stop system e Half duplex Max transmission cable length 1640 ft 500 m Maximum communication speed 38 4kbps Remarks Communication A communications port transmits data through the RS 485 multipoint protocol between the inverter and a personal computer or other eguipment such as
10. current current _0 8A_ FRN0001E2S 70 0 8A 1 6A F FRN0002E2S 70 1 64 H FRN0003E2S 70 3A _ FRNOOO2E2 I 40 FRNOOO2E2MI 4C 1 8A FRNOOO4E2BI 4C1 ENERO 34A y FRNOOOGE2NI ACI 4 2A FRNOOOGE2NHAC 5A FRNOOOE2NI AC 5A J FRNOOO7E2NHADI 5 ol 0 00 6 3A FRNOO12E2BI 4C FRN0022E2 NI 4CI FRNOO29E2 4C FRNO037E2II ACI FRN0044E2 0 40 31 FRNOOS9E2 8 40 FRN0002E2 40 1 8A H FRNO002E2MI 4CI 2 1A FRN0004E2 M 40 3 4A_ ERNO004E2MW 401 4 1A FRNOO06E2BI 4L 1 5 5A Hr FRN0007E2BI 4L 6 9A FRNOO12E2NI AC 12A FRNO022E2 M 40 17 5A H FRN0022E2 0 40 21 5A FRN0029E2 M 40 23A H FRN0029E2 42 28 5A H FRN0037E2 40 31A H FRN0037E2II 4L FRN0044E2 40 38A 2 H FRNOO44E2BI A4C FRN0059E2 M 4CT 45A FRN0059E2 M 40 FRNO072E2II 4L 60A FRN0072E2 40 FRN0085E2 M 40 75A FRN0085E2 M 40 FRN0105E2W 40 91A H FRN0105E2 40 FRN0139E2 40 112A FRN0139E2 40 FRNO168E2 40 150A H FRN0168E2 M 40 FRN0203E2 4 176A H FRN0203E2 M 40 FRN0240E2 M 40 210A f H FRNO240E2 40 FRN0290E2 M 40 253A F FRNO290E2III 4L 253A H FRNO290E2II 4L FRNO361E2 5 40 304A F FRN0361E2 0 42 304A f FRNOO10E2S 20 FRN0012E25 20 a 1A FRN0010E2S 2L1 9 6A ERNOUTOEZS 2I 12A FRNOO20E2S 2L1 FRNO020E28 20 19 6A H FRNOO30E2S 2 O FRNOOSOE2S 2L1 30
11. 10 to O VDC O to 100 by external command terminal 12 Switchable from 4 to 20 mA DC O to 10096 to 20 to 4 mA DC O to 100 by external command terminal C1 Switchable from 0 to 20 mA DC O to 10096 to 20 to 4 mA DC O to 100 by external command terminal C1 Pulse train input standard Pulse input Terminal X5 Rotational direction Another input terminal except X5 Complementary output Max 100 kHz Open collector output Max 30 kHz Pulse train input option The PG option card is required CW CCW pulse pulse rotational direction Complementary output Max 100 kHz Open collector output Max 30 kHz Remarks Analog input between DC to 5V is available with analog bias gain function for input o 9 w 2 O D Q dp o e o Acceleration Deceleration time Setting range From 0 00 to 6000 s Switching The four types of acceleration deceleration time can be set or selected individually switchable during operation Acceleration deceleration pattern Linear acceleration deceleration S shape acceleration deceleration weak free set by function codes curvilinear acceleration deceleration Deceleration mode coast to stop Shut off of the run command makes the motor coast to a stop ACC DEC time for Jogging operation can be set 0 00 to 60003 Deceleration time for forcible stop Deceleration stop by the forcible stop STOP S curve will be
12. 40 C HHD HND spec D 10 to 30 C HD ND spec B Ambient humidity 5 to 9596RH without condensation 6 Shall be free from corrosive gases flammable gases oil mist dusts vapor water drops and direct sunlight Atmosphere Pollution degree 2 IEC60664 1 The atmosphere must contain only a low level of salt 0 01 mg cm2 or less per year 11 12 Common Specifications Items Specifications 1000m or lower If the inverter is used in an altitude above 1000 m you should apply an output current derating factor as listed in below table Altitude Output current derating factor Altitude 1000m or lower 1 00 1000 to 1500m 0 97 1500 to 2000m 0 95 2000 to 2500m 0 91 s 2500 to 3000m 0 88 E 9 E c Three phase 400V class series TYPE 0203 or below TYPE 0240 or above 2 2 to less than 9Hz 3mm Max amplitude 3mm Max amplitude B 9 to less than 20Hz 9 8m s 2m s S 20 to less than 55Hz 2m s 2m s 55 to less than 200Hz 1m s 1m s Vibration Three phase 200V class series TYPE 0069 or below 2 to less than 9Hz 3mm Max amplitude 9 to less than 20Hz 9 8m s 20 to less than 55Hz 2m s 55 to less than 200Hz 1m s 25 to 70 C in transport I o Temperature mS Avoid such places where the inverter will be subjected to sudden changes in 25 to 65 C in storage E temperature that will cause condensation to form Relative humidity 5 to 9596
13. canceled during Force to Stop Frequency limiter Upper limit and lower limit frequencies Specifies the upper and lower limits in Hz Selectable for the operation performed when the reference frequency drops below the lower limit specified by related function code Bias for frequency PID command Bias of set frequency and PID command can be independently set setting range O to 100 Analog input Jump frequency Gain Set in the range from 0 to 200 Off set Set in the range from 5 0 to 5 0 Filter Set in the range from 0 00s to 5 00 s Polarity Select from or Three operation points and their common jump width 0 0 to 30 0 Hz can be set Timer operation Operate and stop by the time set with keypad 1 cycle operation Jogging operation Operation with o key standard keypad o or Qo key multi functional keypad or digital contact input FWD or REV Exclusive acceleration deceleration time setting exclusive frequency setting Auto restart after momentary power failure Trip at power failure Trip at power recovery Deceleration stop Continue to run Start at the frequency selected before momentary power failure Coast to stop at power failure and start after power recovery at the frequency selected before momentary stop Common Specifications 10 Control Items Specifications Remarks ia Co
14. function can be canceled Output frequency Analog setting 0 2 of maximum frequency 25210 C lennon accuracy Stability Keypad setting 0 01 of maximum frequency 10 to 50 C ooo Era A solia Keypad setting 0 01 Hz 99 99 Hz or less 0 1 Hz 100 0 to 500 0 Hz cnc eee cece eee ef eee ee eeee ee eeeeee Link setting 0 005 of maximum frequency or 0 01 Hz fixed _7 1 1500 Minimum speed Nominal speed 4 pole 1 to 1500 rpm IMMPGvVC Speed control range 1 100 Minimum speed Nominal speed 4 pole 15 to 1500 rpm mm vm 1 10 Minimum speed Nominal speed 6 pole 180 to 1800 rpm PM SVC Analog setting 0 2 of maximum frequency or below 25 10 C 0 s IMPG VC Speed control Digital setting 0 01 of maximum frequency or below 10to 50 C 4 0 SR Analog setting 0 5 of base frequency or below 2510882222222 PM SVC Digital setting 0 5 of base frequency or below 10 to 50 C eM TS ONO so epee Me eg ce Rea cen Ee eh Moo Ras O ade east Ss NE Speed sensor less vector control Dynamic torque vector control 1 1 IM SVO DTIV _7 V control with slip compensation active occ WE US Control method V control with speed sensor The PG option card is required IMPONE V Control with speed sensor Auto Torque Boost The PG option card is required LIMPG ATB Vector control with speed sensor The PG option card is required MPG Vector control without
15. reset etc Link operation Operation via built in RS 485 or field bus option communications 22222222 Switching operation command Remote local switching link switching FRENIC fice FUJI ELECTRIC IN VERTERS Common Specifications Control Items Frequency setting Specifications Keypad Settable with 9 and 9 keys Analog input 0 to 10 V DC 5 V DC 0 to 100 terminal 12 0 to 10 V DC 5 V DO 0 to 100 terminal 12 4 to 20 mA DC 0 to 100 terminal C1 4 to 20 mA DC 100 to 0 to 100 terminal C1 0 to 20 mA DC 0 to 100 terminal C1 O to 20 mA DC 100 to O to 100 terminal C1 0 to 10 V DC 5 V DO O to 100 terminal V2 0 to 10 V DC 5 V DC 100 to 0 to 100 terminal V2 Pattern Operation Mode Automatically run in accordance with the previously configured running time rotation direction acceleration deceleration and reference frequency Maximum allowable settings are 7 stages Switching frequency setting source Two of frequency settings source can be switched with an external signal digital input Remote local switching Link switching Auxiliary frequency setting Inputs at terminals 12 C1 or V2 can be added to the main setting as auxiliary frequency settings Inverse operation Switchable from O to 10 VDC O to 100 to 10 to O VDC O to 100 by external command terminals 12 V2 Switchable from 0 to 10 VDC O to 100 to
16. suitable for inverter driven variable speed operation Use three phase motors FS Fuji Electric Co Ltd Gate City Ohsaki East Tower 11 2 Osaki 1 chome Shinagawa ku Tokyo 141 0032 Japan Phone 81 3 5435 7057 Fax 81 3 5435 7420 URL http www fujielectric com e Reducing noise Use of a filter and shielded wires are typical measures against noise to ensure that EMC Directives are met Measures against surge currents If an overvoltage trip occurs while the inverter is stopped or operated under a light load it is assumed that the surge current is generated by open close of the phase advancing capacitor in the power system We recommend connecting a DC REACTOR to the inverter Megger test When checking the insulation resistance of the inverter use a 500V megger and follow the instructions contained in the Instruction Manual e Wiring distance of control circuit When performing remote operation use the twisted shield wire and limit the distance between the inverter and the control box to 20m e Wiring length between inverter and motor If long wiring is used between the inverter and the motor the inverter will overheat or trip as a result of overcurrent high frequency current flowing into the stray capacitance in the wires connected to the phases Ensure that the wiring is shorter than 50m If this length must be exceeded lower the carrier frequency or mount an output circuit filter OFL When wiring i
17. 4 4 21 1 28 8 35 5 42 2 ND 1 1 241 3 0 4 1 7 0 15 20 25 29 39 47 Reguired power MP HD 1 1 1 5 3 0 4 1 7 0 10 15 20 25 29 39 supply capacity IKVAJ HND 1 1 1 5 3 0 4 18 7 0 10 15 20 25 29 39 HHD 0 6 1 2 2 1 3 1 5 1 7 3 10 15 20 25 29 ND 53 50 48 29 27 12 l I HD 53 68 48 29 27 15 Braking torque a HND 53 68 48 29 27 15 HHD 100 70 40 20 Braking SEREM Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s rakin J Braking level 0 to 60 ND spec 0 to 80 HD HND spec 0 to 100 HHD spec of nominal current Braking chopper Built in Braking resistor Option EMC filter Compliant with EMC Directives Emission and Immunity Category C3 2nd Env EN61800 3 2004 ND Option DC reactor DCR HND HD Option HHD Option Enclosure IEC60529 Cooling method Mass Basic Type EMC Filter Built in Type kg IP20 UL open type Natural cooling Fan cooling 6 Obtained when a DC reactor DCR is used 1 Fuji 4 pole standard motor 2 Rated capacity is calculated by assuming the output rated voltage as 440 V 7 Average braking torque for the motor running alone It varies with the efficiency of 8 Output voltage cannot exceed the power supply voltage the motor 4 When the carrier frequency F26 is set to below value or higher the inverter is sure to 8 Voltage unbalance 96 Max voltage V Min voltage V Three phase average be necessary to derate their nominal curren
18. 415E2BI 4 SS ee DCR4 220C ee 250 FRNO590E2NMI 4 DCR4 250C 280 FRNOS20E2 1 4 FRNO590E2BI 4 DCR4 280C 315 FRNO590E2MW 4 DCR4 315C 0 1 FRNOOO1E2S 2 DCR2 0 2 0 2 FRNOOO1E2S 2 FRNOOO2E2S 2 DCR2 0 2 0 4 E FRNOOO2E2S 2 FRN0004E2S 2 DCR2 0 4 0 75 FRNOOO4E2S 2 FRNOOO6E2S 2 DCR2 0 75 1 5 FRNOO10E2S 2 DCR2 1 5 2 2 FRNOO10E2S 2 FRNOOT2E2S 2 DCR2 2 2 3 phase 3 DCR2 3 7 200V 37 FRNOO20E2S 2 DCR2 3 7 5 5 FRNOO20E2S 2 FRNOO30E2S 2 DCR2 5 5 7 5 HERI ETE DCR2 7 5 11 FRNOO40E2S 2 FRNOOS6E2S 2 DCR2 11 15 FRNOOS6E2S 2 FRNOO69E2S 2 DCR2 15 18 5 FRNOO69E2S 2 FRNOO88E2S 2 DCR2 18 5 22 FRNOO88E2S 2 FRN0115E2S 2 DCR2 22A 30 FRNO115E28 2 DCR2 30B 0 1 FRNOOO1E2S 7 DCR2 0 2 0 2 FRNO002E2S 7 DCR2 0 4 eee 0 4 SS DCR2 0 75 Pew Oe FRNOO05E2S 7 DCR2 1 5 1 5 Tene DCR2 3 7 2 2 FRNOO11E2S 7 DCR2 3 7 B S Standard basic type E EMC filter built in type 0059 to 0590 NOTES When running general purpose motors Environmental conditions e Driving a 400V general purpose motor e Installation location When driving a 400V general purpose motor with Use the inverter in a location with an ambient an inverter using extremely long cables damage to temperature range of 10 to 50 C the insulation of the motor may occur Use an output The inverter an
19. 6 114 140 165 199 248 271 ND 5 to 9 l HD 7 to 1296 Braking torque 96 HND 7 to 1296 HHD 10 to 1596 Braking STEM Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s rakin 3 Braking level 0 to 60 ND spec 0 to 80 HD HND spec 0 to 100 HHD spec of nominal current Braking chopper Option Braking resistor Option EMC filter 0 Compliant with EMC Directives Emission and Immunity Category C3 2nd Env EN61800 3 2004 ND Option Attached as standard DC reactor DCR HND HD Option Attached as standard HHD Option Attached as standard Enclosure IEC60529 IPOO UL open type Cooling method Fan cooling Mass Basic Type EMC Filter Built in Type kg 25 26 26 27 30 31 33 33 40 40 62 62 63 63 95 95 96 96 130 130 140 140 1 Fuji 4 pole standard motor 2 Rated capacity is calculated by assuming the output rated voltage as 440 V 3 Output voltage cannot exceed the power supply voltage 4 When the carrier frequency F26 is set to below value or higher the inverter is sure to be necessary to derate their nominal current HHD spec type 0002 to 0012 8kHz type 0022 to 0168 10kHz type 0203 to 0590 6kHz HND spec type 0002 to 0012 8kHz type 0022 to 0059 10kHz type 0072 to 0168 6kHz type 0208 to 0590 4kHz HD ND spec All type 4kHz The rated output current at HD ND spec is decreased 2 for every 1 C 1 8 F when ambient temperature is 40 C 104 F or more 5 The
20. 7 45 55 75 90 110 132 30 37 45 55 75 90 110 65 80 128 183 221 57 69 85 114 160 193 57 69 85 114 160 193 46 57 69 85 134 160 Rated voltage V Three phase 380 to 480V With AVR 139 168 240 290 112 150 210 253 112 150 210 253 91 0 112 176 210 12096 of nominal current for 1min Nominal applied motor kW Rated capacity kVA Output ratings Rated current A Overload capability 15096 of nominal current for 1min 150 of nominal current for 1min or 200 of nominal current for 0 5s Three phase 380 to Three phase 380 to Three phase 380 to 440V 50Hz Main power supply 480V With AVR 480V 50 60Hz Three phase 380 to 480V 60Hz Voltage frequency variations Voltage 10 to 15 Voltage unbalance 2 or less Frequency 5 to 5 Rated current ps We pow cp ox 1 os x Te HHD 943 ma wo j j ND 83 2 102 138 164 201 238 286 357 390 500 559 Input ratings Rated current HD 68 5 83 2 102 138 164 201 238 286 357 390 443 with DCR A HND 68 5 83 2 102 138 164 201 238 286 357 390 500 HHD 57 0 68 5 83 2 102 138 164 201 238 286 307 390 ND 58 71 96 114 139 165 199 248 271 347 388 Reguired power MT HD 47 58 71 96 114 140 165 199 248 271 307 supply capacity IKVAJ HND 47 58 71 96 114 140 165 199 248 271 347 HHD 39 47 58 71 9
21. A H FRNOO40E2S 2L1 FRNOO40E2S 2L1 40A H FRNOO56E2S 20 47 FRNO012E2M 40 11 1A fy FRN0012E2 0 40 11 1A FRN0022E2 40 17 5A FRN0029E2 M 40 FRN0037E2BI 4L T1 FRNO044E2BI 4L T1 FRNOO59E2BI 4L 1 FRN0072E2BI 4L T1 FRN0085E2 0 42 FRNO105E2BI 4L 1 FRNO139E2II A4DI FRNO168E2BI 4LT1 FRNO203E2M 40 FRN0240E2 8 40 FRN0056E2S 20 56A F FRN0069E2S 20 60A F FRNOOG9E2S 2L1 69A H FRNO088E2S 20 FRN0072E2 40 FRNO088E2S 2L1 88A H FRNO115E28 20 FRN0085E2 W 4 60A FRN0115E2S 20 115A FRN0105E2 0 40 75A FRN0139E2 0 421 FRNO168E2 0 40 17 FRN0203E2 40 1 FRN0361E2 0 40 253A FRNO415E2 M 40 304A FRNOS20E2m 40 FRNO590E2 M 40 Hr FRNO361E2M 40 FRN0415E2BI 4L 377A F FRNO415E2M 4C1 377A H FRN0415bE28BI ALT FRNO520E2M 40 415A FRNO520E2II 4L1 415A i FRN0590E2WI 4E 477A FRNO590E2II 4C 520A FRNO520E2MW 40 520A FRN0590E2II 4L 1 590A Overload curet rating Max ambient temp 20 Imin 40 C C Wire drawing Overload current rating Max ambient temp Overload currentrating Max ambient temp 150 1min 50 C 200 0 5sec J Overload curent rating Max ambient temp 150 1min 50 C 150 1min 50 C 200 0 5s
22. DC 0 to 10VDC ZA 11 A PTC Common terminal for 1 analog inputs Waa l Analog output common Analog input lt E urent input o i sw4 9 to 20 mAl v2 Wm E icati facia C1 PTC thermistor input J e e DX Y gt Muni F I Voltage input V2 Ci I RS 485 eN O to 10 VDC sus T lt l her i DBR Dynamic Braking Resister 1 When connecting an optional DC reactor DCR remove the jumper bar from the terminals P1 and P DCR DC reactor The type 0139 ND spec 0168 HD spec and higher types than 0203 are sure to connect the DCR 400V only RCD Residual current operated protective device Use a DCR when the capacity of the power supply transformer exceeds 500 kVA and is 10 times or more the ELCB Earth leakage circuit breaker inverter rated capacity or when there are thyristor driven loads in the same power supply line MC Magnetic contactor 2 The default setting is Source logic for EU model MCCB Molded case circuit braker This wiring diagram is to be used as a reference only when using standard terminal block model When wiring your inverter and or before applying power please always follow the connection diagrams and the relevant information written in the User s Manual 14 FRENIC fice FUJI ELECTRIC INVERTERS Terminal Functions Symbol Name Functions Remarks Categoly L1 R L2 S L3 T Main circuit power input
23. I HD 1 4 2 6 3 8 4 8 8 5 13 18 24 29 34 46 Rated capacity kVA HND 1 4 2 6 3 8 4 8 8 5 13 18 24 29 34 46 HHD 1 1 1 9 3 2 4 2 6 9 9 9 14 18 23 30 34 Rated voltage V Three phase 380 to 480V With AVR ND 2 1 4 1 5 5 6 9 12 21 5 28 5 37 0 44 0 59 0 72 0 Output ratings HD 1 8 3 4 5 0 6 3 11 1 17 5 23 0 31 0 38 0 45 0 60 0 Rated current A i HND 1 8 3 4 5 0 63 111 17 5 23 0 31 0 38 0 45 0 60 0 HHD 1 5 2 5 4 2 5 5 9 0 13 0 18 0 24 0 30 0 39 0 45 0 Major Functions 72 lt 2 w 2 O eb Q Jp D Ko 9 D ge p Jp 120 of nominal current for 1min Overload capability HD 150 of nominal current for 1min 150 of nominal current for 1min or 200 of nominal current for 0 5s Three phase 380 to 480V With AVR Voltage 10 to 15 Voltage unbalance 2 or less Frequency 5 to 5 Main power supply Voltage frequency variations ND 27 73 113 16 8 330 43 8 60 6 779 943 Rat cuen HD 27 73 11 3 168 23 2 33 0 523 606 779 without DCR A HND 27 73 113 16 8 232 33 0 523 606 779 HHD 17 5 9 8 2 130 173 232 43 8 523 60 6 ND 1 5 2 9 4 2 5 8 10 1 21 1 28 8 35 5 42 2 57 0 68 5 Input ratings Rated current HD 1 5 2 1 4 2 5 8 10 1 14 4 2141 28 8 35 5 42 2 57 0 with DCR A HND 1 5 2 1 4 2 5 9 10 1 14 4 2141 28 8 35 5 42 2 57 0 HHD 0 85 1 6 3 0 4 4 7 3 10 6 1
24. K SOURCE is switchable by using the internal slide switch These function codes may also switch the logic system between FWD Run toward command normal and negative to define how the inverter logic interprets either ON or OFF status of each terminal Terminal X5 can be defined as a pulse train input terminal with the function codes Using the PG interface interface card makes the pulse train input REV E E function assigned to the inverter s terminal X5 invalid Use exclusively with one digital input 0 to S3OkHz Open Collector 100kHz Push pull FRENIC fice FUJI ELECTRIC INVERTERS Terminal Functions O D Symbol Name Functions Remarks O i Connect to PLC output signal power supply This terminal also pu BES ig nal power serves as 24 V power supply CM Digital input common Common terminals for the digital input signals Transistor output 1 eInverter running eFrequency speed arrival signal eFrequency Speed arrival signal 3 eFrequency speed detected 2 eInverter output limiting eMotor overload early warning eKeypad operation enabled ePattern operation stage 1 ePattern operation stage 4 eAuto resetting eHeat sink overheat early warning eLifetime alarm eOverload prevention control eCurrent detected 2 eLow current detected Transistor outputs Transistor output 2 eUnder PID control eLow output torque detected eTorque detected 2 eMotor 2 selected eRunning reverse eBrake sign
25. O007E2M 4 68 85 is 110 06 668 8 00 IA 10 153 G 56 6 40 1 66 8 j Keypad 58 E B 99 2 o ey 6 a LEES 8 T 3 mesero Tes B 9 ow SHO Y se mu 3 2 i f E E i LI Nameplate 1 L 4 ba Oo Og ps4 Nameplate 2 ES a FRNOO12E2 M 4 FRNO022E2M 4 FRNOO30E2M 2 e FRNOO20E2 W 2 FRNO029E2M 4 FRNO040E2M 2 2 FRN0011E2 W 7 c i 180 158 E 140 8 164 8 87 7 2x05 2 6 Im 128 Le 143 5 o 70 1 66 8 Keypad 58 MEL T 6 9 2x96 o o Der Cab y i E Eau X m a i XY LI TA Bf 5 LLI ssel z a Jit i ret n ol o i 1 T Q8 SUE k H i NIA P Nameplate 3 UR m i 1 f y m E we E E I SEE 6 am a JC FOGCI OCU CL B S Standard basic type E EMC filter built in type 0059 to 0590 19 External Dimensions FRNOO59E2M 4 mm FRNO072E2WI 4 FRN0037E2 W 4 FRNOO56E2M 2 FRNO044E2M 4 FRNOO0G9E2M 2
26. RH E The inverter must not be exposed to dust direct sunlight corrosive or flammable gases oil mist vapor water Oo Atmosphere i D drops or vibration The atmosphere must contain only a low level of salt 0 01 mg cm2 or less per year S Atmospheric 86 to 106kPa during storage YN pressure 70 to 106kPa during transportation Note The meaning of the described abbreviations are shown as follows VF V f control IM SVC DTV Speed sensorless vector control Dynamictorquevector control VF with SC V f control with slip compensation IMPG VF V f control with speed sensor The PG option card is required IMPG ATB V f control with speed sensor Auto Torque Boost The PG option card is required IMPG VC Vector control with speed sensor The PG option card is required PM SVC Magnetic pole position sensorless vector control FRENIC fice FUJI ELECTRIC INVERTERS Basic Wiring Diagram EN Standard Terminal Block Board Model FRNLILILJE2M OE In case of the motor with built in cooling fan Transtormer Ue A eee A AS F A 1 Era HR AO dade BU option f AA O e DCR option 1 bP DB MCCB I a e O RCD ELCB Powe
27. Torque limit or Torque current limit by analog input PM SVC When detected torque or current exceed the preset value inverter will decelerate and stop or will coast to stop Overload stopping a motor PID processor for process control dancer control Normal operation inverse operation PID command Keypad analog input from terminals 12 C1 and V2 Multi step setting Selectable from 3 points RS 485 communication PID feedback value from terminals 12 C1 and V2 PID Control TE Alarm output absolute value alarm deviation alarm Low liquid level stop function Anti reset wind up function PID output limiter Integration reset hold The auto reset function that makes the inverter automatically attempt to reset the tripped state and restart Mite raeat without issuing an alarm output for any alarm even if any protective function subject to reset is activated The allowable maximum number of reset times for the inverter to automatically attempt to escape the tripped state is 20 Auto search for idling The inverter automatically searches for the idling motor speed to start to drive without stopping Motor motor speed constants must be needed tuning Auto tuning offline If the DC link bus voltage or calculated torque exceeds the automatic deceleration level during deceleration the inverter automatically prolongs the deceleration time to avoid overvoltage trip It is possible to select forcible deceleration ac
28. UUBROECOOTO ROTER TERRE m MIKI 0 a HMM T y TEA ETA HERI AE pets Bere S E age U LO tO tO ES NA 1 g o 10 iL i i y 347 S 4xM8 MAX345 2 339 8 MAX310 2 lt 304 240 FRNO168E2 Bl 4 FRNO203E2M 4 MAX361 2 MAX361 2 355 1 MAX276 l 355 MAX276 40 275 40 270 40 275 270 Es L1 308 a l e e amp l 16 m slag 66 8 2xo10 4 oae 4 F T i TERRI EESTI ig A rb RRNK BERE u e Si KRKA ERENOMREH BOCGREGOERRRRRR g e e i e CE P MI ILI We l MN ls WIE MU a Wel UK L 1 Li I dii 19 o 10 1 lo e 4xM8 a 4xM8 SA L o NO CUM fran CERT u Kali D I HUI MAX345 2 8 339 8 7 2 MAX345 2 8 339 8 B S Standard basic type E EMC filter built in type 0059 to 0590 20 FRENIC fice FUJI ELECTRIC INVERTERS External Dimensions FRNO240E2M 4 FRNO290E2M 4 FRNO361E2 MW 4 mm FRNO415E2BI 4
29. VA Rated voltage V Rated current A Overload capability Main power supply 0 5 0 3 0 8 0 6 1 3 1 1 2 3 3 Three phase 200 to 240V With AVR 1 3 0 8 2 0 1 6 3 5 3 0 6 0 9 120 of nominal current for 1min 4 61 12 5 7 1 9 3 0 4 2 6 7 9 5 19 6 6 5 0 8 0 11 17 5 25 11 30 33 150 of nominal current for 1min or 200 of nominal current for 0 5s Three phase 200 to 240V 50 60Hz 21 18 56 47 26 23 69 60 Voltage frequency variations Voltage 10 to 15 Voltage unbalance 2 or less Frequency 5 to 5 Rated current without DCR A HND 1 8 2 6 4 9 6 7 12 8 17 91 31 9 42 7 60 7 80 0 HHD 1 1 1 8 3 1 5 3 9 5 13 2 22 2 31 5 42 1 60 7 Rated current with DCR A HND 0 93 1 6 3 0 4 3 8 3 11 77 19 9 28 8 42 2 57 6 HHD 0 57 0 93 1 6 3 0 5 7 8 3 14 0 21 1 28 8 42 2 Required power supply capacity 9 kVA HND 0 4 0 6 1 1 1 5 2 9 4477 6 9 10 15 20 25 HHD 0 2 0 4 0 6 1 1 2 0 2 9 4 9 1 3 10 15 20 Braking Braking torque 96 HND 75 53 68 48 29 21 15 HHD 150 100 70 40 20 DC braking Sta
30. VDC 0 to 100 Input level is limited among HO to OVDO O to 100 100 to Oto 100 10 to 10 VDC regardless of Inverse operation 49 to 0 VDC 0 to 100 100 to 0 to 100 1 5 to 0 VDC 0 to 100 excessive input of 10 VDC PID control Use as PID command value or PID feedback signal Gain 0 to 200 Offset 0 to 5 Bias 100 Filter 0 00 to 5 00s 12 9 o LL T E E D Auxiliary frequency setting1 2 Use as additional auxiliary setting to various frequency setting PTC thermistor PTC thermistor connection to protect the motor overheat Common terminals for analog input signals 12 13 C1 and analog This terminal is electrically isolated output signals FM from terminal CM CMY Analog common The output can be either analog DC voltage 0 to 10 VDC analog DC current 4 0 to 20 mADC or pulse train 25 to 32000 p s Any one item can be selected from the following items Analog common Voltage output gt 3 Oto 10 VDC 0 to 100 0 to 5 VDC 0 to 100 Input impedance of the external device Min 5kQ at O to 10 VDC output While the terminal is outputting 0 to 10 VDC it is capable of driving up to two analog voltmeters with 10 kQ impedance 2 4 to 20 mADC 0 to 10096 a Current output gt 3 0 to 20 mADC 0 to 100 3 Input impedance of the external device Max 500 at 4 0 to 20 mA DC output 2 Gain 0 to 300 3 Output f
31. a PLC DX DX Standard RJ 45 connector The protocol selection is available from the following SD RS 485 communication port 2 4 Modbus RTU l Fuji general purpose inverter protocol Asynchronous start stop system e Half duplex Max transmission cable length 1640 ft 500 m Maximum communication speed 38 4kbps CAN CAN Se ae Ceci Commicication Profile CIA CANOpen DS 301 and DSP 402 SHLD CAN communication port 5 1 In case of applying bais gain function 2 Only FRNLILILIE2LI GB has the FM2 output Not pulse monitor but analog monitor voltage current output is available 3 Exclusive use Need to swich on the terminal PCB 4 S 4 In the RJ 45 connector on the terminal PCB In the RJ 45 connector on the terminal PCB Concurrent use with RS 485 communications is not available FRENIC fice FUJI ELECTRIC INVERTERS Type MHow To Read The Model Number FRN 0022 2 S 4 i Series name o T pa FRN E Europe Three phase 400V class i Pas Rating current level of ND specification GO Global Model 0002 to 0590 O A 1CAN terminal 1 analog current output Three phase 200V class B NONE CAN terminal 2 analog current output Rating current level of HND specification Input power supply Model 0001 to 0069 4 400V 2 200V Single phase 200V class Rating current level of HHD specification Model 0001 to 0011 Enclosure S S
32. al eTerminal C1 wire break eSpeed agreement eLow Voltage detected eCurrent position count overflowed eTimer output eFrequency arrival signal eAlarm indication 2 eAlarm indication 8 eAlarm output for any alarm eEnable input OFF eCustomizable logic output signal 1 eCustomizable logic output signal 3 eCustomizable logic output signal 5 eCustomizable logic output signal 7 eCustomizable logic output signal 9 elnverter output on eFrequency speed arrival signal 2 eFrequency speed detected eFrequency speed detected 3 eUndervoltage detected Inverter stopped Torque polarity detected eAuto restarting after momentary power failure eDeceleration after momentary power failure detected elnverter output limiting with delay eInverter ready to run eSelect AX terminal function For MC on primary side eStage transition signal for pattern operation eCycle completion signal for pattern operation ePattern operation stage 2 eCooling fan in operation eUniversal DO eSynchronization completed eReference loss detected eCurrent detected eCurrent detected 3 ePID alarm eMotor stopped due to slow flowrate under PID control eTorque detected 1 eMotor 1 selected eRunning forward eln remote operation eMotor overheat detected by thermistor eSpeed valid ePG error detected eStop position override alarm ePositioning completion signal eMaintenance timer eAlarm indication 1 eAlarm indication 4 eL ight alarm eEnable ci
33. ast to stop at power failure and start at the starting Start at starting frequency frequency after power recovery Start at th hed f Coast to stop at power failure and start at the serched Start at the searched frequency frequency after power recovery Limits the current by hardware to prevent an overcurrent trip caused by fast load variation or momentary power Hardware current limiter n dar failure which cannot be covered by the software current limiter This limiter can be canceled Software current limiter Automatically reduces the frequency so that the output current becomes lower than the preset operation level Operation by commercial P y With commercial power selection command the inverter outputs 50 60 Hz SW50 SW690 power supply Compensates the motor slip in order to keep their speed at the reference one regardless of their load torque Slip compensation Adjustable compensation time constant is possible n a machine driven with multi motor system this function adjusts the speed of each motor individually to Droop control balance their load torque Control output torque or torque current so that output torque or torque current are preset limiting value or less Torque limiter The torque current limit is only available in IMPG VC or PM SVC mode Switchable between 1st and 2nd torque limit values Torgue limit and Torgue current limit are selectable IMPG VC Torgue current limiter u KRETE MUT
34. cted with digital analog 8 input output signals The simple relay sequence which the customers demands can be constituted and made to calculate Logic circuit Digital AND OR XOR flip flops rising falling edge detection counters etc Analog Addition subtraction multiplication division limitter absolute value sign inversion addition Customizable logic comparison highest selection lowest selection average value measure conversion interface Multifunctional timer On delay off delay pulse train etc Setting range 0 0 to 600 s Input output signal terminal input output inverter control function Others The 200 steps are available Each step has 2 inputs and 1 output Applicable functions for Wire drawing machine Hoist The specific functions which is suitable for each application field are realized by customizable logics Spinning machine Traverse Display Detachable with 7 segments LEDs 4 digits 7 keys PRG RESET FUNC DATA UP DOWN RUN STOP SHIFT and 6LED indicator KEYPAD CONTROL Hz A kW x10 RUN Speed monitor reference frequency output frequency motor speed load shaft speed line speed and speed indication with percent Output current in RMS A Output voltage in RMS V Calculated torque 96 Input power Runni kW PID command value PID feedback value PID output Timer Timer operation s Load factor Motor unning Stopping output kW Torque current Magnetic flux command Analog inp
35. ctor MC is mounted in the Operation of a 2 pole motor at 60Hz or more may inverter s secondary circuit for switching the motor cause abnormal vibration to commercial power or for any other purpose Study use of tier coupling or dampening rubber ensure that both the inverter and the motor are fully t is also recommended to use the inverter jump stopped before you turn the MC on or off Remove frequency control to avoid resonance points the surge killer integrated with the MC Noise Installing a magnetic contactor MC When an inverter is used with a general purpose in the input primary circuit motor the motor noise level is higher than that with Do not turn the magnetic contactor MC in the a commercial power supply To reduce noise raise primary circuit on or off more than once an hour as carrier frequency of the inverter High speed an inverter fault may result If frequent starts or operation at 60Hz or more can also result in more stops are required during motor operation use noise FWD REV signals When running special motors Protecting the motor _ The electronic thermal facility of the inverter can e Explosion proof motors protect the general purpose motor The operation When driving an explosion proof motor with an level and the motor type general purpose motor inverter use a combination of a motor and an inverter motor should be set For high speed inverter that has been approved in advance motors or water cooled motors s
36. d braking resistor surfaces become circuit filter OFL if necessary after checking with hot under certain operating conditions Install the the motor manufacturer Fuji s motors do not require inverter on nonflammable material such as metal the use of output circuit filters because of their Ensure that the installation location meets the reinforced insulation environmental conditions specified in Environment e Torque characteristics and temperature rise in inverter specifications When the inverter is used to run a general purpose Combination with peripheral devices motor the temperature of the motor becomes higher than when it is operated using a commercial e Installing a molded case circuit power supply In the low speed range the cooling breaker MCCB effect will be weakened so decrease the output Install a recommended molded case circuit breaker torque of the motor If constant torque is required in MCCB or an earth leakage circuit breaker ELCB the low speed range use a Fuji inverter motor or a in the primary circuit of each inverter to protect the motor equipped with an externally powered wiring Ensure that the circuit breaker capacity is ventilating fan equivalent to or lower than the recommended e Vibration capacity When the motor is mounted to a machine e Installing a magnetic contactor MC resonance may be caused by the natural in the output secondary circuit frequencies including that of the machine If magnetic conta
37. ec 200 0 5sec lt lt Overload current rating Max ambient temp Overload current rating Max ambient temp 150 1min 40 C Overload current rating Max ambient temp 120 1min 50 C 120 1min 50 C FRENIC JACE 2 Customizable Logic Customizable logic function is available as a standard feature FRENIC Ace has built in customizable logic functions with a maximum of 200 steps including both digital and analog operation functions giving customers the ability to customize their inverters from simple logic functions to full scale programming Fuji Electric also has plans to offer programming templates for wire drawing machines hoists spinning machines and other applications so that the FRENIC Ace can be used as a dedicated purpose inverter Major Functions Example Hoist crane application RS485 communications card PG interface 5V card PG interface 12 15V card Control terminal block DeviceNet communication card CC Link communication card Front face panel PROFIBUS DP communication card Coming Soon EtherNet IP communication card Coming Soon ProfiNet RT communication card Coming Soon CANopen communication card Coming Soon Digital input output interface card Analog input output interface card Optional front face keypad mount 30kW ND option card is built in p C Wide Variety Of Functions As A Standard Feature W S
38. ensorless dynamic torque vector control ll Motor vector control with PG with optional card ll Synchronous motor with sensorless vector control lll 2 channel on board RS485 communications port ll Standard CANopen compatibility Bl Removable keypad device ll Removable control terminal block board B Multi Function Keypad option FRENIC Ace has two different multi function keypads available e Multi function keypad with LCD display Enhanced HMI functionality e USB keypad Connect to a computer for more efficient operation Set up troubleshooting maintenance etc LAN cable USB USBminiB cable USB keypad Multi function keypad with LCD screen Functional Safety FRENIC Ace is equipped with STO functional safety function as a standard Therefore output circuit magnetic contactors are not required for safe stop implementation Enhanced standard features position FRENIC Ace ahead of its class Safety input 2CH output 1CH HiComplies with coming soon EN ISO 13849 1 2008 Cat 3 PL e IEC EN 61800 5 2 2007 SIL3 Safety feature STO IEC EN 60204 1 2005 2006 Stop category O IEC EN 62061 2005 SIL3 IEC EN 61508 1 to 7 2010 SIL3 l jJ 10 Years Lifetime Design y FRENIC Ace components have a design life of ten years A longer maintenance cycle also helps to reduce running costs Main circuit capacitor 10 years Electrolytic capacitors on PCB 10 years Cooling fan 10 years Desig
39. et a small value for the thermal time constant to protect the motor If you connect the motor thermal relay to the motor with a long cable a high frequency current may flow into the wiring stray capacitance This may cause the relay to trip at a current lower than the set value for the thermal relay If this happens lower the probleris may occur carrier frequency or use the output circuit filter OFL Do not use inverters for driving motors eguipped with series connected brakes e Discontinuance of power factor correcting capacitor Do not mount power factor correcting capacitors in the inverter primary circuit Use the DC REACTOR to improve the inverter power factor Do not use power factor correcting capacitors in the inverter output circuit secondary An overcurrent trip will occur disabling motor operation e Discontinuance of surge killer Do not mount surge killers in the inverter output secondary circuit e Brake motors For motors equipped with parallel connected brakes their braking power must be supplied from the primary circuit commercial power supply If the brake power is connected to the inverter power output circuit secondary circuit by mistake e Geared motors If the power transmission mechanism uses an oil lubricated gearbox or speed changer reducer then continuous motor operation at low speed may cause poor lubrication Avoid such operation e Single phase motors Single phase motors are not
40. f the inverters to interface with OPG OGE A cd CC Link and the FRENIC Ace can be operated as a CC Link slave DI The frequency set point can be given by 8 12 bits and BCD code 0 to 99 9 0 to 999 and OPC DIO Digital I O interface card extended 13 digital inputs are available mounting this card in the inverter DO The monitoring with 8bit binary code and the digital outputs extended 8 point are available OPC AIO Analog I O interface card The Analog I O interface card enables the FRENIC Ace series of the inverter to input analog set points to the inverter and output analog monitors from the inverter Parts adapter is necessary on the occasion of setting Parts Using The Control Terminal Stand Type Option Functions OPC E2 RS OPC E2 PG RS485 communications card PG interface 5V card The RS 485 communications card provides two ports exclusively designed for use with the FRENIC Ace series of the inverters Speed control position control and synchronous drive are available mounting this card in the inverter e Open collector pull up resistor 6209 30kHz e Complementary totem pole push pull e Voltage output OPC E2 PG3 PG interface 12 15V card Speed control position control and synchronous drive are available mounting this card in the inverter e Open collector pull up resistor 2350Q 30kHz e Complementary totem pole push pull e Voltage output 100kHz Keypad Multi functional keypad LCD L
41. he PG option card is operation required Pre excitation Excitation is carried out to create the motor flux before starting the motor The PG option card is required IMPG VC Zero speed control The motor speed is held to zero by forcibly zeroing the speed command The PG option card is required IMPG VC Servo lock Stops the motor and holds the motor in the stopped position The PG option card is required IMPG VC When the run command turns OFF and the motor speed fall below the preset DC braking starting speed the DC braking inverter starts to inject DC current into the motor in order to stop the motor When the run command turns ON the inverter starts to inject DC current into the motor in order to pre excite The inverter can output the signal which ON OFF timing adjusted so that the mechanical brake can be turned in Mechanical brake I I i Excluded conjunction with detected current torque frequency and release apply delay timers control PM SVC Mechanical brake interlock input Analog torgue torgue current command input Torgue control Speed limit function is provided to prevent the motor from becoming out of control IMPG VC Rotational direction control Torgue bias analog setting digital setting Select either of reverse or forward rotation prevention o 9 w 2 O D Q 90 o e o O E The digital logic circuits and an analog arithmetic circuits can be chosen and conne
42. i Fuji Electric Innovating Energy Technology High Performance Inverter FRENIC Ace Le JT U 7 gt l drives offeri t value Abu RE M rmance through optimal design c A Inver y and maintain hi d i di u i un F amp LM P r4 4 Aa d 5 n r 1 s a E D i s if U i y 1 NE Ws i M i m d a P Wi i N F i L i li jd i Y N z l i EL 1 m i uu FRENIC awe Ww i i 7 y n ET i MI E ff j i i u 2 f j i j i i yt S ju k id T E 4 i U h J F K otii U i RTER oL A M i T3 Ir i i P j n re ee OPH LA EH ge fal a ions for various machines and devices it ibid sr TT i Y iii a fT PP rj 3 j mm i d if ur MI IF LH T ui l i Pol rs d v ST TENE fe TF EP y EC j m au i d L f a eneration Of Inve ave Arrived Introducing Our New Standard Inverter Enj oy A Full Range Of Applications The standard inverter for the next generation the FRENIC Ace can be m most types of application from fans and pumps to specialized machi 3 phase 400V series i L_ ND ratna J HDrating HO ratna E HNDrating A HHD rating Rated Rated Rated Rated Rated Rated Rated output output output Model output output current current current current current output Model output
43. iquid Crystal Display with a back light TP A1 E2C Functions Power supply Voltage Three phase 400V Destination A for Asia E for Europe K for Korean Inverter type FRNOO59E2M 4 FRNO072bE2BI 4 FRNO085E2M 4 FRNO105E2M 4 FRNO139E2M 4 FRNO168E2M 4 FRNO203E2M 4 FRNO240E2M 4 FRNO290E2M 4 FRNO361E2M 4 FRNO415E2M 4 FRNO520E2M 4 FRNO590E2M 4 Option type NEMA1 72E2 4 NEMA1 105E2 4 NEMA1 203E2 4 NEMA1 110G1 4 NEMA1 160G1 4 NEMA1 590E2 4 li S Standard basic type E EMC filter built in type 0059 to 0590 FRENIC fice FUJI ELECTRIC INVERTERS DC Reactor DCR _ _ J _ Fig A Fig B Terminal block for screw J MAX D2 2 terminal holes MAX D2 for screw J For models with a standard motor of 75kW or more it is included as a standard Nominal Inverter Type Voltage PRISA TND HD HND HHD nd Fig kW Specification Specification Specification Specification 0 4 FRNOOO2E2NI 4 DCR4 0 4 15 1 0 75 FRNOOO2E2NI 4 A S E DCR4 0 75 P lage ae 1 4 m FRNOOO4E2NI 4 DCR4 1 5 20 1 5 FRNOODA4E2NI A FRNOOOGE2MI 4 DCR4 1 5 2 2 FRNOOOGE2MM 4
44. magnetic pole position sensor PM SVC Voltage Frequency Possible to set output voltage at base frequency and at maximum output frequency 160 to 500 V 22212222 characteristic Non linear V f setting 3 points Free voltage 0 to 500 V and frequency 0 to 500 Hz can be set Auto torque boost For constant torque load Torque boost Manual torque boost Torque boost value can be set between 0 0 and 20 0 Select application load with the function code Variable torque load or constant torque load Three phase 400V class 200 or above HHD spec type 0072 or below 150 or higher HHD spec type 0085 or above at reference frequency 0 5Hz 120 or higher at reference frequency 0 5Hz HND ND spec 150 or higher at reference frequency 0 5Hz HD spec Base freguency 50 HZ with activating the slip compensation and the auto torgue boost mode applied motor Starting torgue is Fuji 4 pole standard motor Three phase 200V class 200 or above HHD spec type 0069 or below at reference frequency 0 5Hz 12096 or higher at reference frequency 0 5Hz HND spec Base frequency 50 Hz with activating the slip compensation and the auto torque boost mode applied motor is Fuji 4 pole standard motor Keypad Start and stop with o and keys Standard keypad Start Stop operation External signals digital inputs Forward Reverse rotation stop command capable of 3 wire operation coast to stop command external alarm alarm
45. n diagrams and the relevant information written in the User s Manual 13 Basic Wiring Diagram WStandard Terminal Block Board Model FRN I JE2M OGB In case of the standard terminal block type B without built in CAN communication port and with dual Analog outputs In case of the motor with built in cooling fan Transformer Thermal relay r PERROS EA i ii N pe 1 o eo NGM NJIH R raking unit BU option DCR option 1 je DB MCCB I e ORO RCD ELCB MC Power supply Thermal relay Motor 400V series 77777 LT o aco mu U 380V to 480V 7 Y M Oy gt 200V series TX E WA 3 200V to 240VX_ 50 60Hz Lo oto E Ei Power voltage switching connector O u hermistor AIR Y CN UX to C1 4 t i Auxiliary control power supply To I dran power connector to 11 Ld THC Y y CN R CN W l E R1 Auxiliary fan power supply Ti X U2 U1 FAN NC bie Charge lamp e Ground terminal CN UX CNR CNW Gao Ground terminal
46. n life 9 Ambient temperature 40 C Life conditions 100 HHD specifications Load rate ee 80 HND HD ND specifications ND specifications have a rated current of two sizes higher than HHD specifications so the life is 7 years Standards Global Compliance ROHS Directive lllStandard compliance Standard compliance with European regulations that limit the use of specific hazardous substances ROHS Six hazardous Lead mercury cadmium hexavalent chromium polybrominated biphenyl substances gt PBB polybrominated biphenyl ether PBDE EC Directives CE Mark UL Standard cUL Certified C c UL us Listen About RoHS Directive 2002 95 EC issued by the European Parliament and European Council limits the use of specific hazardous substances in electrical and electronic devices Standard Model Specifications Three phase 400V class series FRENIC fice FUJI ELECTRIC INVERTERS Items Specifications NE pa D 0002 0004 0006 0007 0012 0022 0029 0037 0044 0059 0072 FRN E2S K 0022 FRN E2S G 0002 0012 ND 0 75 1 5 2 2 3 0 5 5 11 15 18 5 22 30 37 HD I I Nominal applied motor kW 0 75 1 1 2 2 3 0 5 5 7 5 11 15 18 5 22 30 HND 0 75 1 1 2 2 30 5 5 7 5 11 15 18 5 22 30 HHD 0 4 0 75 1 5 2 2 3 7 5 5 7 5 11 15 18 5 22 ND 1 6 3 1 4 2 5 3 9 1 16 22 28 34 45 55
47. ong 10 to O to 10VDC 100 to O to 100 10 10 10 VDC regardless of Inverse operation _ OV to 0 to 10VDC 100 to 0 to 100 excessive input of x10 VDC PID control Use as PID command value or PID feedback signal Gain 0 to 20076 Po Offset 0 to 5 si dditi i f Bias 100 Auxiliary frequency setting Use as additional auxiliary setting to various frequency setting Filter 0 00 to 5 008 Analog setting current input _ External input voltage to be used as a below command Input impedance 2500 4 to 20 mADC 0 to 10096 10096 to 0 to 10096 1 Maximum input 30 mADC a Normal operation 9 19 20 mADG 0 to 100 100 to 0 to 100 1 Input level is limited up to 20 E S o 0 oo e ee aaa een Se E 2 20 to 4 mADC 0 to 10096 10096 to 0 to 10096 1 habi uM Ger nverse Operallon gt ERRADA 10 1 DS is HEN UU a aas53l l l GE PID control Use as PID command value or PID feedback signal Gain 0 to 200 MEN SS MSS NM AAA Offset 0 to 5 P m f Bias 100 Auxiliary frequency setting Use as additional auxiliary setting to various frequency setting hae 000 ta 5 002 Analog setting current input External input voltage to be used as a below command Input impedance 22kQ 0 to 10 VDC 0 to 100 100 to 0 to 100 0 to 5 VDC 0 to100 Maximum input 15 VDC Normal operation gt to 10 VDC 0 to 100 100 to 0 to 100 1 0 to 5
48. op Pulse output FMP 25 to 32 kp s SW5 Reset alarm Common terminal for digital inputs Cod Analog output common Potentiometer power supply Voltage input 12 0 to 10 VDC 0 to 10 VDC pr epe ULL Voltage input for setting 0 to 10VDC 0 to 10VDC RS 485 CAN BUS Communication port2 Common terminal for analog inputs Analog input 4 Current input C1 gt 4 0 to 20 mADC Q C1 PTC thermistor input a i Voltage input V2 SW6 P o doc Pots ONDE to 10 VDO t NS DBR Dynamic Braking Resister 1 When connecting an optional DC reactor DCR remove the jumper bar from the terminals P1 and P DCR DC reactor The type 0139 ND spec 0168 HD spec and higher types than 0203 are sure to connect the DCR 400V only RCD Residual current operated protective device Use a DCR when the capacity of the power supply transformer exceeds 500 kVA and is 10 times or more the ELCB Earth leakage circuit breaker inverter rated capacity or when there are thyristor driven loads in the same power supply line MC Magnetic contactor 2 The default setting is Source logic for EU model MCCB Molded case circuit braker This wiring diagram is to be used as a reference only when using standard terminal block model NOTE When wiring your inverter and or before applying power please always follow the connectio
49. or Asia 10 HND spec of the type 0012 and 0020 allowable ambient temperature 40 C 104 F or less The rated output current at HND spec is decreased 1 for every 1 C 1 8 F when ambient temperature is 40 C 104 F or more 11 A 1 CAN terminal 1 analog current output B NONE CAN terminal 2 analog current output Common Specifications Output Control Items Specifications Remarks HHD HND HD spec 25 to 500 Hz variable V f control mode Magnetic pole position sensorless vector control mode A dus eot ud to 200 Hz under uon E speed sensor puc ND spec 25 to 120 Hz variable all control mode Base frequency 25 to 500 Hz variable in conjunction with the maximum frequency 0 1 to 60 0 Hz variable rarna ene 0 0 Hz under vector control with speed sensor MEGYE Three phase 400V class Type 0002 to 0059 0 75 to 16kHz variable HHD HND HD spec 0 75 to 10kHz variable ND spec Type 0072 to 0168 0 75 to 16kHz variable HHD spec 0 75 to 10kHz variable HND HD spec Carrier frequency 0 75 to 6kHz variable ND spec Type 0203 or above type of capacity 0 75 to 10kHz variable HHD spec 0 75 to 6kHz variable HND HD ND spec Three phase 200V class Type 0030 0040 0056 0069 0 75 to 16kHz variable HHD HND spec Note Carrier frequency drops automatically to protect the inverter depending on environmental temperature and output current This auto drop
50. orm Pulse monitor 3 Pulse output 25 to 32000 p s at full scale lt x Pulse duty approx 50 eOutput frequency1 Before slip compensation eOutput frequency2 After slip compensation eOutput current eOutput voltage eOutput torque eLoad factor elnput power ePID feedback amount PV Monitor data eActual speed Estimated speed DC link bus voltage Universal AO eMotor output eAnalog output calibration ePID command SV ePID output MV e Position deviation in synchronous operation The PG option card is required eCustomizable logic output 1 to 10 e nverter cooling fin temperature ePG feedback value The PG option card is required 15 16 Terminal Functions Categoly Digital inputs Symbol Functions Remarks CM Digital Common Common terminals for the digital input signals eSelect multi frequency 0 to 1 steps eSelect multi frequency 0 to 3 steps eSelect multi frequency 0 to 7 steps eSelect multi frequency 0 to 15 steps eSelect ACC DEC time 2 steps Select ACC DEC time 4 steps X1 Digital input 1 eEnable 3 wire operation eCoast to a stop eReset alarm eEnable external alarm trip eReady for jogging eSelect frequency command 2 1 eSelect motor 2 M2 eEnable DC braking eSelect torque limiter level 2 1 eSwitch to commercial power 50 Hz eSwitch to commercial power 60 Hz UP Increase output frequency eDOWN Decrease output frequency eEnable data change with keypad
51. r supply 2 400V series 77777 UMS TE T 380V to 480V TX 1 o 200V series T 75 11 200V to 240V m Zu oO 50 60Hz oe 3 Power voltage switching connector quem THA IHenistor e y CN UX to C1 4 4 Qu ODDO SU TO Fan power connector to 11 4 H I i THC e y y CN R CN W gt E Auxiliary fan power supply Lt Uz u1 FAN NC L 5 Charge lamp EI i E S Ground terminal CN UX CNR CNW Geo Ground terminal 30C b RJ45 connector 24VDC ov por 30B Alarm output Contact outputs lt for any fault Y ME E 39 830A o Keypad o sw2 I Standard i i Enable input Communication port 1 RS 485 Option connector y pu O amp a O D na Removable terminal block k x K Motor overload early warnig lt Y1 gt _ Inverter running Transistor output E Common terminal for SMN transistor outputs SINK SOURCE Run forward command Run reverse command Select multi frequency 0 to 1 step Digital input 4 Select multi frequency 0 to 3 step Current output FMI 4 0 to 20 mADC O Select multi frequency 0 to 7 step e OVI FMV IFMI Output frequency 1 Anales pulse outGut Coast to a st
52. rcuit failure detected eBraking transistor broken eCustomizable logic output signal 2 eCustomizable logic output signal 4 eCustomizable logic output signal 6 eCustomizable logic output signal 8 eCustomizable logic output signal 10 24 VDC 22 to 27 VDC Max 100 mA This terminal is electrically isolated from terminal 11 s and CMY allowable range 22 to 27 VDC 50 mA max Leakage current 0 1mA or less p o o LL T E D Transistor output common Common terminal for transistor output signal terminals This terminal is electrically isolated from terminal 11 s 30A 30B 30C Relay output Functional safety Alarm relay output for any error and CM s This outputs a non voltage dry contact signal 1c when the inverter Contact rating 250 VAC 0 3 A is stopped with the protective function cos 0 3 As a general purpose relay output the same functions as terminal 48 VDC 0 5A Y can be assigned The logic value is switchable between 30A and 30C are excited and non excited Compliance with EN IS013849 1 2008 Cat 3 PL e Pending Turning off the circuit between terminals EN1 and PLC or Contact life 200000 times Switching at intervals of one second Source current at Turn on I 5 10mA t Is EN2 and PLC st th ter tput t tor Saf UU Eo stops the inverter s output transistor Safe iresheld voltadie between Enable Input 1 l PLC
53. rting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Standard Model Specifications Braking level 0 to 60 ND spec 0 to 80 HD HND spec 0 to 100 HHD spec of nominal current Built in Braking chopper Option Braking resistor Option DC reactor DCR Opti ption IP20 UL open type Enclosure IEC60529 Cooling method Mass kg Naturalural cool Fan cooling 1 Fuji 4 pole standard motor 2 Rated capacity is calculated by assuming the output rated voltage as 220 V 8 Output voltage cannot exceed the power supply voltage 4 When the carrier frequency F26 is set to below value or higher the inverter is sure to be necessary to derate their nominal current HHD spec type 0001 to 0020 8kHz type 0030 to 0115 10kHz HND spec type 0001 to 0020 4kHz type 0030 to 0069 10kHz type 0088 0115 4kHz 5 The value is calculated assuming that the inverter is connected with a power supply with the capacity of 500 kVA or 10 times the inverter capacity if the inverter capacity exceeds 50 kVA and X is 5 6 Obtained when a DC reactor DCR is used 7 Average braking torque for the motor running alone It varies with the efficiency of the motor 8 Voltage unbalance 96 Max voltage V Min voltage V Three phase average voltage V x 67 IEC 61800 3 If this value is 2 to 396 use an optional AC reactor ACR 9 Three phase 200V class series supports only a product f
54. s Connect the three phase input power lines RO TO Auxiliary power input for the For a backup of the control circuit power supply connect AC power Type 0059 or above 400V only control circuit lines same as that of the main power input Auxiliary power input for the Normally no need to use these terminals Use these terminals for an auxiliary power cooling fans input of the fans in a power system using a power regenerative PWM converter Type 0203 or above 400V only Inverter outputs Connect a three phase motor For DC REACTOR connection Connects a DC REACTOR For BRAKING UNIT connection For DC bus Connects a braking resistor via the braking unit Used for a DC bus connection system Main circuit Type 0072 or below 400V series Braking resistor Connect an external braking resistor option Type 0069 or below 200V series Grounding for inverter Grounding terminals for the inverter Power supply 10 VDC for frequency command potentiometer Power supply for the potentiometer Variable resistor 1 to 5 kQ is applicable Maxmur SHB Ply rating ino The potentiometer of 1 2 W rating or more should be connected VDE OMADE Analog setting voltage input External input voltage to be used as a below command Input impedance 22 kQ 0 to 10 VDC 0 to 100 0 to 5 VDC 0 to 100 Maximum input level 15 VDC Normal operation 9 to 10 VDC 0 to 100 0 to 5 VDC 0 to 100 Input level is limited am
55. s longer than 50m and sensorless vector control or vector control with speed sensor is selected execute off line tuning e Wiring size Select cables with a sufficient capacity by referring to the current value or recommended wire size e Wiring type Do not use multicore cables that are normally used for connecting several inverters and motors e Grounding Securely ground the inverter using the grounding terminal Selecting inverter capacity e Driving general purpose motor Select an inverter according to the applicable motor ratings listed in the standard specifications table for the inverter When high starting torque is required or quick acceleration or deceleration is required select an inverter with a capacity one size greater than the standard e Driving special motors Select an inverter that meets the following condition Inverter rated current gt Motor rated current Transportation and storage When transporting or storing inverters follow the procedures and select locations that meet the environmental conditions that agree with the inverter specifications Printed on recycled paper Information in this catalog is subject to change without notice Printed in Japan 2014 11 K14C B14 CM 50 FOLS
56. t HHD spec type 0002 to 0012 8kHz type 0022 to 0168 10kHz type 0203 to 0590 6kHz 9 HND spec type 0002 to 0012 8kHz type 0022 to 0059 10kHz type 0072 to 0168 6kHz type 0203 to 0590 4kHz HD ND spec All type 4kHz The rated output current at HD ND spec is decreased 2 for every 1 C 1 8 F when ambient temperature is 40 C 104 F or more 5 The value is calculated assuming that the inverter is connected with a power supply with the capacity of 500 kVA or 10 times the inverter capacity if the inverter capacity exceeds 50 kVA and X is 5 Be sure to use the DCR when applicable motor capacity is 75kW or above voltage V x 67 IEC 61800 3 If this value is 2 to 396 use an optional AC reactor ACR The EMC Filter Built in Type supports only a product for EU 10 ll S Standard basic type E EMC filter built in type 0059 to 0590 11 HND spec of the type 0007 and 0012 allowable ambient temperature 40 C 104 F or less The rated output current at HND spec is decreased 1 for every 1 C 1 8 F when ambient temperature is 40 C 104 F or more 12 A 1 CAN terminal 1 analog current output B NONE CAN terminal 2 analog current output Standard Model Specifications Three phase 400V class series Items Specifications Type FRNL L L E2II 4B FRNI J I JE2S 4A 0085 0105 0203 0240 0290 45 55 75 90 110 132 160 37 45 55 75 90 110 132 3
57. tandard basic type E EMC filter built in type External Dimensions FRNO001E2M 2 FRNO001E2M 7 FRNOOO2E2NE 4 FRNOO10E2MI 2 ord FRNOOO2E2BI 2 FRNOOO2E2 BM 7 FRNOOO4E2 W 4 FRNOO12E2 W 2 FRNO004E2M 2 FRNOOO3SE2 W 7 FRNOOO6E2 4 FRNOOO8E2 W 7 FRNO006E2M 2 FRNOO05E2 BM 7 FRN
58. tuated when the deceleration time becomes Automatic deceleration three times longer f the calculated torque exceeds automatic deceleration level during constant speed operation the inverter avoids overvoltage trip by increasing the frequency Deceleration characteristic The motor loss is increased during deceleration to reduce the regenerative energy in the inverter to avoid improved braking capacity overvoltage trip Auto energy saving The output voltage is controlled to minimize the total power loss of the motor and the inverter at a constant operation speed Overload prevention If the ambient temperature or internal IGBT junction temperature is almost near the overheat level due to control overload the inverter drops its output frequency automatically in order to escape overload situation Measures the motor parameters while the motor is stopped or running for setting up motor parameters Auto tuning off line Tuning mode to only identify 96R1 and 96X Tuning mode to identify the parameters for PM motor I Automatically adjusts motor parameters while the motor is driving in order to prevent the motor speed Auto tuning on line fluctuation caused by the temperature rise of the motor Cooling fan ON OFF Detects inverter internal temperature and stops cooling fan when the temperature is low control the fan control signal can be output to an external device Switchable among the two motors 1st to 2nd motor i i I
59. ut Input watt hour kWh Constant feeding rate time set value min Constant feeding rate time running s Displays DC link bus voltage Max Output current in RMS Input watt hour Input watt hour data Temperature w inside the inverter and heat sink Maximum value of each one Capacitance of the DC link bus capacitor Lifetime of DC link bus capacitor elapsed hours and remaining hours Cumulative run time of power ON time e Maintenance monitor counter of the inverter electrolytic capacitors on the printed circuit boards cooling fan and each motor Remaining time before the next motor maintenance Remaining startup times before the next maintenance Number of startups of each motor Light alarm factors Latest to 3rd last Contents and numbers of RS 485 communications errors Option error factors Number of option errors ROM version of Inverter Keypad and Option port Shows the status of the terminal Digital input output Relay out Analog input output I O checking Trip mode Light alarm Running or trip mode Displays the cause of trip by codes Shows the light alarm display al Trip history Saves and displays the cause of the last four trips with a code Saves and displays the detailed operation status data of the last four trips Installation location Indoors Standard Open Type e 10 to 50 C HHD HND spec E 10 to 40 C HD ND spec 2 AARNE NEMA UL Type 1 a 10 to
60. value is calculated assuming that the inverter is connected with a power supply with the capacity of 500 kVA or 10 times the inverter capacity if the inverter capacity exceeds 50 kVA and 96X is 596 Be sure to use the DCR when applicable motor capacity is 75kW or above 6 Obtained when a DC reactor DCR is used 7 Average braking torque for the motor running alone It varies with the efficiency of the motor 8 Voltage unbalance 96 Max voltage V Min voltage V Three phase average voltage V x 67 IEC 61800 3 If this value is 2 to 396 use an optional AC reactor ACR 9 The 400 V class series with type 0203 or above is equipped with a set of switching connectors male which should be configured according to the power source voltage and frequency 10 The EMC Filter Built in Type supports only a product for EU 6 11 I S Standard basic type E EMC filter built in type 0059 to 0590 Three phase 200V class series Basic Type Standard Model Specifications Items Specifications FRENIC fice FUJI ELECTRIC INVERTERS Type FRN LJE2S 2A 0030 FRN E2S 2G 0001 0020 0001 0002 0004 0006 0010 0012 0020 0030 0056 0069 Nominal applied motor kW 0 2 0 4 0 75 14 2 2 3 07 5 9 7 5 15 18 5 0 1 0 2 0 4 0 75 1 5 2 2 3 7 5 5 11 15 Output ratings Input ratings Rated capacity k
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