fuji electric inverters
Contents
1. 1 5 Rating plate Unit mm inch ien eue Inverter type Dimensions mm mee FRNO0001C2E 2 0121083 Three phase FRNOOO2C2E 2 dii 200V FRNOOOAC2E 2 3621 4 FRNOOO6C2E 2I 61 2041 FRNO0001C2E 7L odd FRNOO02C2E 7 iid FRNOOOAC2E 7 3621 4 182 7 17 6 0 24 2 20 09 118 4 65 64 2 52 I qe I 180 7 09 168 6 61 245 9 65 D T A a O 6 0 24 Rating plate 85 5 3 37 Unit mm inch DN H A ie Power supply Inverter type voltage FRN0010C2E 20 6 0 24 CU steed FRNOO12C2E 2L L PON LL FRNOO20C2E 2L FRNOO05C2E 4L cp FRNO0007C2E 4L oo F2. Trip history Saves and displays information on up to four past trips COMPACT INVERTER FRE WN IC M ini Energy Optimization Optimum Energy Control Motor tuning minimizes power loss Current FRENIC Mini Way of thinking about the power used Optimum control Xf overall system JU ptimum motor control a Power supply vO PID Control Function Permits motor operation while controlling temperature pressure and flow rate without the use of a temperature controller or other external device e Cooling Fan ON OFF Control Function The cooling fan can be switched off when the fan or pump is not running to reduce both noise and energy consumption Synchronous Motor Control Use of sensorless synchronous motor control together with the motor can reduce energy consumption Network Capabilities ne Other Features e RS 485 Communications Port as Standard 9 Functions for User Applications Communications can be controlled through the standard V F non linear 3 step RS 485 communications port using the Modbus RTU or Fuji Two motor parameter sets Electric inverter protocol Brake signal brake release signal Rotational direction control prevent forward reverse movement e Global Standard EC Directives CE making C C UL standard cUL certification UL US LISTED RS 485 Communication Port Variation Nominal Applied Motor kW HP Three phase 200V series Three pha
3. Trip mode Undervoltage Overvoltage during deceleration External thermal relay tripped PID feedback break detected Inverter unit overload Output phase loss Overvoltage during constant speed Motor protection PTC thermistor Overload in motor 1 Memory error Operation procedure error Data save error due to undervoltage Mock error B3 rs Input phase loss Overvoltage during acceleration Overheating of the heat sink Overheating of the DB circuit Overload in motor 2 Keypad communication error CPU error Tuning error RS485 error Step out detected for synchronous motor drive 2 a l L s lj J ma LI ES E x mem 0g x al in D HS C3 a c p L Eres q E gt C Pru nu RUN D RI ra i C30 le pora mm L3 o r a lans ee M UN 6 a rey rr l LL l m l Da l c DN emm om P Pn nmm ma ame jm Po r0 rnm 0m Running or Trip mode Trip history Saves and displays the last 4 trip codes and their detailed description Saves and displays detailed data for each section on up to four past trips 1 Only valid when induction motor drive is in operation 2 These functions ca
4. switching cannot be performed while the inverter is running Secondary motor settings Induction motor settings can only be applied to the second motor Data settings base frequency rated current torque boost electronic thermal and slip compensation etc can be entered for the second motor Constants can be set within the second motor Auto tuning is also enabled Rotational direction limits Select either prevent reverse or prevent forward operation Speed monitor output current A output voltage V input power kW PID reference PID feedback value PID output timer value for timer operation s total power amount Running stopping Select the speed monitor to be displayed from the following Output frequency before slip compensation Hz output frequency after slip compensation Hz set frequency Hz load shaft speed min line speed m min constant rate of feeding time min Lifetime alarm Displays the lifetime alarm for the main circuit condenser PCB condenser and cooling fan External output is enabled for lifetime alarm information Total running time Can display total motor running time total inverter running time and total power use I O check Displays control circuit terminal output status Energy saving monitor Power consumption power consumption x coefficient S S Displays cause of trip E 14 Overcurrent during acceleration 4 Z Overcurrent during deceleration LiL 3 Overcurrent at constant speed Er Jt L
5. 5 0 26 2 2 0 09 Di pe 6 2 26 TUS m ar 0 26 2 2 0 09 D1 ue IDE 6 0 24 4 1 6 6 02060 24 S Long hole IQ ong hole Sig o o DOO Pe y F Fuj Electric 130 5 12 118 4 65 ARENIC Mini ZX WARNING A i AZ 120 4 72 4 3 gt les i c E N Rating plate S Power supply l MI am Unit mm inch voltage nverter type uuu p FRN0001C2S 2 e a Three phase FRNOO02C2S 2r1 8619 L UB 200V FRNOOO4C2S 2L1 953 74 FRNOOO6C2S 2 120 4 72 FRN0001C2S 7 o o Power supply Dimensions mm inch 1 Single phase FRNOO02C2S 7 odi voltage Inverter type D D2 200V FRNOO04C2S 7 N Three phase FRN0002C2S 40 115 453 40 1 57 FRNOOO6C2S 7 S 400V FRNOOO4C2S A 139 5 47 64 2 52 FRNO0001C2S 6U i Single phase Single phas 4 FRN 2S 139 5 47 9 40 1 57 NV FRNOOO2C2S 6U i 100V iain TARA HU FRN0003C2S 6U Fig 4 22 D g 140 5 51 D 0 09 6 0 24 128 5 04 6 0 24 2 2 0 09 st I 2xo5 0 2 180 7 09 Rating plate Unit mm inch Power supply voltage Three phase FRNO0
6. A A U 0001 0002 0004 0006 0010 0012 0025 0033 0047 0060 Nominal applied motor KW 2A 0 0 4 Nominal applied motor HP A U 1 2 Rated capacity kVA 1 3 Rated voltage V Three phase 200 to 240V With AVR Rated current A 1 1 5 1 4 5 2 5 5 4 2 9 2 7 0 12 0 10 0 19 1 16 5 25 0 23 5 47 0 44 0 60 0 57 0 G ucioadieananil 150 of rated current for 1min 150 of rated current for 1min or P y 150 of rated current for 1min or 200 of rated current for 0 5s If the rated current is in parenthesis 200 of rated current for 0 5s Output ratings Rated frequency Hz 50 60Hz Phases Voltage Frequency Three phase 200 to 240V 50 60Hz Voltage Frequency variations Voltage 10 to 15 T unbalance 296 or Y 5 to 5 Rated UE with DCR emoon va as feo fos per me fos per er eo Bem oe os los u 20 fee as fu m e m Torque 100 Input ratings DC injection braking Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 100 Braking transistor Built in Applicable safety standards UL508C EN 61800 5 1 2007 Enclosure IEC 60529 IP20 IEC 60529 1989 UL open type UL50 1 The load shall be reduced so that the continuous operating current is the rated current in parenthesis or less if the carrier frequency is set to SkHz or above or ambient temperature exceeds 40 C 104 F MThree phase 400V series Wem
7. if necessary after checking with the motor manufacturer Fuji s motors do not require the use of output circuit filters because of their reinforced insulation Torque characteristics and temperature rise When the inverter is used to run a general purpose motor the temperature of the motor becomes higher than when it is operated using a commercial power supply In the low speed range the cooling effect will be weakened so decrease the output torque of the motor If constant torque is required in the low speed range use a Fuji inverter motor or a motor equipped with an externally powered ventilating fan Vibration When the motor is mounted to a machine resonance may be caused by the natural frequencies including that of the machine Operation of a 2 pole motor at 60Hz or more may cause abnormal vibration Study use of tier coupling or dampening rubber t is also recommended to use the inverter jump frequencies control to avoid resonance points Noise When an inverter is used with a general purpose motor the motor noise level is higher than that with a commercial power supply To reduce noise raise carrier frequency of the inverter High speed operation at 60Hz or more can also result in more noise When running special motors Explosion proof motors When driving an explosion proof motor with an inverter use a combination of a motor and an inverter that has been approved in advance e Brake motors Fo
8. in the inverter s secondary circuit for switching the motor to commercial power or for any other purpose ensure that both the inverter and the motor are fully stopped before you turn the MC on or off Remove the surge killer integrated with the MC Installing a magnetic contactor MC in the input primary circuit Do not turn the magnetic contactor MC in the primary circuit on or off more than once an hour as an inverter fault may result If frequent starts or stops are required during motor operation use FWD REV signals Protecting the motor The electronic thermal facility of the inverter can protect the general purpose motor The operation level and the motor type general purpose motor inverter motor should be set For high speed motors or water cooled motors set 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 carrier frequency or use the output circuit filter OFL 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 secon
9. or above or ambient temperature exceeds 40 C 104 F High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters WSingle phase 200V 100V series Item Specifications Input power source Single phase 200V Single phase 100V Type FRN C2S 7A FRN C2S 7C FRNLILILILIC2S 6U FRNLILILILIC2S L A A A C E U FRNEI C2S 7E FRN C2S 7U 0001 0001 Nominal applied motor kW 0 1 0 1 A A C E Nominal applied motor HP A U Rated capacity kVA 0 30 0 57 Rated voltage V Three phase 200 to 240V With AVR Rated current A 1 0 8 0 7 1 5 1 4 3 5 2 5 5 5 4 2 9 2 7 0 12 0 10 0 0 7 14 2 5 150 of rated current for 1min 150 of rated current for 1min Chemie ie 150 of rated current for 1min or 200 of rated current for 0 5s If the rated current is in parenthesis or 200 of rated current for 0 5s Output ratings Specifications Rated frequency Hz 50 60Hz Phases Voltage Frequency Single phase 200 to 240V 50 60Hz Single phase 100 to 120V 50 60Hz Voltage Frequency variations Voltage 10 to 10 Frequency 5 to 5 Rated current A with DCR without DCR Required power supply capacity kVA Input ratings Torque 9 6 DC injection braking Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 100 Braking transis
10. r min The slip compensation controller works with voltage tuning for even more accurate speed control at low velocity This reduces speed control variability and stabilizing creep speed for more accurate stopping in conveyors and similar equipment Output torque 96 0 Fastest CPU Processor in its Class Advanced CPU processes data at twice the speed of our current model Full Compatibility and User Friendly Design Current C1 model New C2 model External dimensions Interchangeable Installed dimensions Interchangeable Number of terminals Same for both main circuit and controllers 120 4 72 Terminal position Compatible terminal wire length Compatible function codes RS 485 communication Shared communications protocol I 803 15 s m 803 15 7 Note Three phase 200V 0 1 0 75kW dimensions shown mm inch Easy Operation and Maintenance e Usability eUSB Keypad Delivers all the usability of the C1 Provides volume of frequency Optional USB keypad available Enhanced PC loader connectivity and the same ease of operation as the current model e Improve Maintainability LAN cable Function Description Mock malfunction Select a function to set off a mock alarm Number of startups Count the total number of ON OFF run cycles Cumulative motor running time Monitor motor run time Total power Set to measure total power consumption PC loader software available as a free download
11. running at frequencies above 6 kHz depending on ambient temperature output current and other conditions 1 Under modulated carrier conditions the system scatters carrier frequency to reduce noise EXE ESTER Analog setting Absolute accuracy within 2 at 25 C 77 F temperature drift within x 0 2 25 C 77 F x 10 C 50 F Keypad setting Absolute accuracy within 0 0196 at 25 C 77 F temperature drift within 0 01 25 C 77 F x 10 C 50 F Analog setting 1 1000 of maximum frequency Setting resolution Keypad setting 0 01Hz 99 99Hz or less 0 1Hz 100 0Hz to 400 0Hz Link operation 1 20000 of maximum frequency or 0 01Hz fixed Control Induction motor drive V f control Slip compensation Automatic torque boost Control method Dynamic torque vector control Automatic energy saving function Synchronous motor drive Sensorless magnetic positioning speed control range 1096 of base frequency and up Base frequency and maximum output frequency can each be set between 80 to 240 200V series AVR control 1 can be turned ON or OFF Allowable non linear V f 1 settings 2 optional voltage 0 240V and frequency 0 400Hz Voltage freq characteristic Base frequency and maximum output frequency can each be set between 160 to 500 400V series AVR control 1 can be turned ON or OFF Allowable non linear V f 1 settings 2 optional voltage 0 500V and freque
12. stop status can be canceled by pressing the PRG RESET key or by inputting a digital signal RST Inverter can be automatically reset and restarted after stopping due to a trip the number of retries and wait time until reset can also be set Protects the inverter from surge voltage between the main circuit and ground terminal Launches a protective function stops the inverter when there is a momentary power failure of 15ms or more Momentary power failure NN l l l Restarts and restores voltage within the set time when momentary power failure restart is selected Mock malfunction Can output a mock alarm to check malfunction sequences Err Must be indoors and free of corrosive gases flammable gases dust and oil mist contamination level 2 IEC 60664 1 2007 Installation location Keep out of direct sunlight Ambient temperature Open 10 C 14 F to 50 C 122 F IP20 Ambient humidity 5 to 95 RH no condensation o 1000m 3300ft or less Output derating is not necessary o Altitud Above 1000m 3300ft to 3000m 9800ft or less Output derating is necessary E ua Above 1000m 3300ft to 1500m 4900ft or lower 0 97 Above 1500m 4900ft to 2000m 6600ft or lower 0 95 Lu Above 1000m 3300ft to 2500m 8200ft or lower 0 91 Above 2500m 8200ft to 3000m 9800ft lower 0 88 3mm 0 12inch vibration width 2 to less than 9Hz 9 8m s 9 to less than 20Hz 2m s 20 to less than 55Hz 1m s 55 to less than 200Hz 25 0 ITF
13. the output frequency is higher than starting frequency O Comes ON when the difference between output frequency and set frequency E Speed freq arrival i i IL rises above the frequency arrival detection range function code E30 c SOR Mes Comes ON when output frequency falls below operational level function code E31 E Mir Mea did Turns OFF when it falls below operational level function code E31 or hysteresis width function code E32 a Undervoltage detection poles ON when there is a run command and running has stopped due to insufficient voltage E Comes ON when the inverter is experiencing limited current Inverter output limit automatic deceleration or limited torque operation Comes ON during auto restart operation Auto restarting after momentary power failure and until completion of restart Comes ON when the electronic thermal relay value is higher than ES Overload early warning 2 the preset alarm level o 5 SCIO MOOZ comes ON when Motor 2 is selected by inputting a motor switch 2 signal M2 M1 S TRY Auto resetting mode Comes ON during auto reset mode LIFE Lifetime alarm Alarm signal is output according to lifetime assessment standards inside the inverter PID CTL PID control in progress Comes ON when PID control is in effect Comes ON when low liquid level stop is in effect in PID control also stops based on the status of input run command PID STP PID low water volume stop in progres
14. type Do not use multicore cables that are normally used for connecting several inverters and motors Grounding Securely ground the inverter using the grounding terminal Selecting inverter capacity 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 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 trip will occur disabling motor operation e Single phase motors Single phase motors are not suitable for inverter driven variable speed operation Use three phase motors e Discontinuance of surge killer Do not mount surge killers in the inverter output secondary circuit FC 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 Printed on recycled paper Information in this catalog is subject to change without notice Printed in Japan 2014 04 D14c L12 CM 0
15. 0 FOLS
16. 10C2S 2 x FRNO0012C2S 2 1 Inverter type BEBE ERES Power supply Dimensions mm inch ELLE i voltage Inverter type d D j Three phase 200V FRNO020C2S 2 Three phase FRN0011C28 4 139 6 47 75 2 95 400V Single phase FRN0012C2S 7 200V 0012C2S 7 L1 11 2 0 44 FRN0005C2S 4 Three phase 64 2 52 400V FRNOOO7C2S 4 Single phase 200V FRN0010C2S 7L 1 220 8 66 e Oo co 20 N SSE800 ORI Unit mm inch Unit mm inch Power supply Power supply i voltage Inverter type Hu Hu Hu voltage Inverter type ur up FRNO025C28 2 FRN0047C2S 2 Three phase E e Three phase A EE CERHTTTT i MESECESPRPEN QUEUE oS Se Br aw A FRNOOG0C2S 2r4 CO COO AMC 200V FRNOOS3S3C2S 2 E EEEEEL FRNOO60C2S 2 OTs EERHITTTI OW EITLEPT CTT OWN O17 WZTTITI ENNS A A SS BET N ESE oz OOOO Three phase FRN0024C25 40 RUM FRN0030C2S 4 0 Three phase 400V FRN0018C2S 4 O FRN0013C2S 4L L1 16 BIEMC Filter Built in Model 6 5 0 26 2 2 0 09 D A a 170 6 69
17. 20mA DCJO to 100 D Inverse operation 4 to 20mA DC 0 to 20mA DC O to 100 PID control Used for reference signal PID process command or feedback signal Frequency aux setting Used as additional auxiliary setting to various main settings of frequency For PTC thermistor Connects PTC thermistor for motor protection 11 2 terminal Common Common terminal for frequency setting signal 12 13 C1 FMA Isolated from terminal CM and Y1E X1 Digital input 1 The following functions can be set at terminals X1 to X3 FWD X2 Digital input 2 and REV for signal input P Common function X3 Digital input 3 Switch between synch source using the built in switches on the unit FWD Forward operation command Short circuit ON or open circuit ON settings are enabled between the terminal X1 and CM REV Reverse operation command The same setting is possible between CM and any of the terminals among X2 X3 FWD and REV The motor runs in the forward direction when FWD is ON stops after Only terminal FWD REV settings are Forward operation command n deceleration when FWD is OFF allowed only short circuit ON Reverse operation command The motor runs in the reverse direction when REV is ON stops after deceleration when REV is OFF do 16 speed operation is enabled using the ON OFF signal from SS1 through SS8 Frequency Multistep freq selection 5 S 2 ACC DEC selection Acceleration deceleration time setting 1 is active when RT1
18. 2706 58 F Saved humidity 5 to 95 RH no condensation 1 Only valid when induction motor drive is in operation 2 These functions can be supported by the inverters having a ROM version 0500 or later 11 7 e 9 p Q S Qo o3 o COMPACT INVERTER FRE N IC M l ni 12 Terminal Functions Terminal Functions Category Symbol Terminal Name Functions Remarks L1 R L2 S L3 T Power input Connect a three phase power supply three phase 200V 400V U V W Inverter output Connect a three phase induction motor S P 9 P For DC REACTOR Connect the DC REACTOR 2 For DC bus connection Used for DC bus connection system is l l P 4 DB For EXTERNAL Connect external braking resistor Only for 0 4kW and above ROME are enabled BRAKING RESISTOR for 0 2kW and below but operation will not work G 2 terminal Grounding Ground terminal for inverter chassis Potentiometer power supply Power supply for frequency setting potentiometer 1 to 5kQ DC10V Voltage input Used as voltage input for frequency setting 0 to 10V DC O to 100 Inverse operation 10 to 0V DC O to 100 e PID control Used for reference signal PID process command or feedback signal z Frequency aux setting Used as additional auxiliary setting to various main settings of frequency ip gt Current input Used as current input for frequency setting 4 to 20mA DC 0 to
19. F Fuji Electric Innovating Energy Technology Compact inverter FRENC Mini Series COMPACT INVERTER FUJI ELECTRIC INVERTERS High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Mini Compact i And High Perfomance Generation 24A1 E 0011c le Easy Operation and xisting Products Maintenance New Compact Inverter High Performance Compact Body Get Our Most User Friendly Inverter yet FF Fuji Electric EERI Mmi f IT i iit ET With its functionality compact design simple operation and global compatibility the new FRENIC Mini elevates the performance of a wide range of devices and equipment including conveyors fans pumps centrifugal separators and food processing machines to give you the system integration energy efficiency reduced labor and lower overall costs you re looking for Energy Network Efficient Capabilities High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters High Performance and Multipurpose e Dynamic Torque Vector Control System Fuji Electric original dynamic torque vector control system is known for its top of the line performance delivering stabile torque output even at low speeds This feature has a wide range of applications including conveyors and high inertia loads that demand high starting torque Moor Slip Compensation shortens setting time speed
20. N OFF switch Communication data storage can be selected 2 High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Terminal Functions Terminal Arrangement WMain circuit terminals 0 4 em FRNOO04C2S 2L 1 Three phase 200V 1 5 B FRNO0010C2S 2L1 T x o FRNOO33C2S 2L Fig F TOES FRNOOG60C2S 2 0 4 1 2 FRN0002C20 40 FRN0005C20 40 Fig B NN 2 2 3 FRN0007C20 40 Pis T ee 28110 FRNOO18C2S 40 oes b 7 FRN0030C2S 40 Fig C Single phase 04 em FRNOOOAC2LI 7L 108 FRNO0001C2S 6U Single phase iS Fig 100V 0 4 T FRNO003C2S 6U S 0 75 1 FRNOOOSC2S 6U Screw size M4 Tightening torque 1 8N m 15 9 Ib in 13 Fig o 3 o a o 3 a 3 A 3 3 0 51 3 7 9 p 5 3 TS c i cb 020 635 Screw size M5 Tightening torque 3 0N m 26 6 Ib in i 17 17 Fig F 0 87 0 67 0 87 05 0 67 0 87 0 87 0 87 0 67 0 67 e oF ae io nd E V He 3 3 153 Sc G Screw size M6 Tightening torque 5 8N m 51 3 Ib in WControl Circuit Terminals Screw size M2 Tightening torque 0 2N m 1 8 Ib in Screw size M2 5 Tightening torque 0 4N m 3 5 Ib in 15 COMPACT INVERTER FRE N en l ni External Dimensions WStandard Model Fig 1 80 3 15 D Fig 2 110 4 33 D F i gi 5 0 2 97 3 82 6 5 0 26 2 2 0 09 6 5 0 26 67 2 64 6
21. RN0011C2E 40 Single phase FRN0010C2E 7 O 200V FRN0012C2E 70 110 4 33 97 3 82 6 5 0 26 2 2 0 09 4 0 16 X5 0 2 X6 0 24 Long hole FO Fuji Electric ARENIC Mini 130612 OUY CT C O ROO OCIO ea A N UU ACT C ICT RR A T Rating plate Inverter type High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters D3 Unit mm inch Dimensions mm inch D2 D3 FRNO002C2E 4L FRN0004C2E 4L T 457 5040 8452 65337 FRNO0006C2E 7L 602 39 130051 139 199 3 9 41 57 550 1 o c 9 c Qo E a c E I bad LLI COMPACT INVERTER FREN IC M TIT MEMO High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters MEMO 19 When running general purpose motors Driving a 400V general purpose motor When driving a 400V general purpose motor with an inverter using extremely long cables damage to the insulation of the motor may occur Use an output circuit filter OFL
22. S ecifications S Input power source Three phase 400V Type FRNLILILILIC2S 4A FRNL TIL IL JL C2S 4C FRN C2S 4A A A C E U FRNLILILJLIC2S A4bE FRN JL L 1L C2S 4U Nominal applied motor kW 0 4 0 75 1 5 2 2 A A C ALZA C E Nominal applied motor HP Rated capacity kVA 1 3 2 3 Rated voltage V Rated current A 1 150 of rated current for 1min 150 of rated current for 1min or Oie oeisio 150 of rated current for 1min or 200 of rated current for 0 5s If the rated current is in parenthesis 200 of rated current for 0 5s i ratings Rated frequency Hz Rated frequency Hz 50 60Hz Phases Voltage Frequency Three phase 380 to 480V 50 60Hz Voltage Frequency variations Voltage 10 to 15 Voltage unbalance 2 or less Frequency 5 to 5 Rated current A with DCR r E i 10 6 Input ratings without DCR SH qw rl amp 9 i DC injection braking Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 100 Braking transistor Built in Applicable safety standards UL508C EN 61800 5 1 2007 Enclosure IEC 60529 IP20 IEC 60529 1989 UL open type UL50 Cooling method Natural cooling Fan cooling 1 The load shall be reduced so that the continuous operating current is the rated current in parenthesis or less if the carrier frequency is set to 3kHz
23. U malfunction caused by noise or similar factors is detected Er3 STOP wt Pressing the o key on the keypad forces the inverter to stop even if run commands are being delivered via terminals or communications Er6 is displayed once stop is complete TOpSrauont emer Prohibits run operations and displays Er6 if a run command is given while any of the following status changes are occurring Er6 Start check Powering up Canceling an alarm Switching run command methods via link operation Tuning error 1 Stops the inverter when there is a tuning failure interruption or abnormality in tuning results during motor constant tuning Et RS 485 communication error Stops the inverter if a communications malfunction is detected in RS 485 communication with the inverter unit Er8 Data save error during undervoltage Displays an error if data save cannot proceed normally because an undervoltage protection function is activated ErF Step out detected 2 Stops the inverter when a synchronous motor step out is detected Erd PID feedback break detected Stops the inverter when a break is detected during current input C1 terminal distribution to PID feedback can be enabled disabled CoF Stall prevention Output frequency is reduced to avoid an overcurrent trip when output current exceeds the limit during acceleration deceleration or constant speed operation Outputs a relay signal when the inverter is stopped due to an alarm Alarm output for any fault e Alarm
24. dary An overcurrent 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 Wiring distance of control circuit When performing remote operation use twisted shielded wire and limit the distance between the inverter and the control box to 20m 65 6ft 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 164ft If this length must be exceeded lower the carrier frequency or mount an output circuit filter OFL When wiring is longer than 50m 164ft and sensorless vector control or vector control with speed sensor is selected execute off line tuning Wiring size Select cables with a sufficient capacity by referring to the current value or recommended wire size Wiring
25. detected for the timer set time ALM Alarm relay for any fault Alarm signal is output as the transistor output signal Transistor output MIE Transistor output common Common terminal for transistor output Outputs a no voltage contact signal 1c when the inverter stops the alarm Can select the same signal as the Y1 signal for multipurpose relay output Can switch between alarm output through excitation operation and alarm output through non excitation operation Alarm relay output 30A 30B 30C for any fault Relay output Isolated from terminal 11 and CM Contact rating AC250V 0 3A coso 0 3 DC48V 0 5A Output format DC voltage 0 10V Output can be performed in one of the following selected analog formats Output frequency 1 Before slip compensation Output frequency 2 After slip compensation Output current Output voltage Input power PID feedback value DC link circuit voltage Analog output test PID command PID output Analog monitor Analog output Gain setting between 0 and 300 Any of the following protocols can be selected Dedicated keypad protocol automatically selected Modbus RTU Fuji dedicated inverter protocol SX protocol for PC loader Built in RJ 45 connector RS 485 communication LINK 2 These functions can be supported by the inverters having a ROM version 0500 or later Provides power to the keypad Includes terminator O
26. is OFF Acceleration deceleration time setting 2 is active when RT1 is ON 3 wire operation stop command Used as an automatic hold signal during 3 wire operation The FWD or REV signal is automatically stopped when HLD is ON and the hold is removed when HLD is OFF Coast to stop command When BX is ON inverter output is shut off immediately and the motor coasts to stop no alarm output Alarm reset Alarm hold status is removed when RST is ON Signal at 0 1s or higher Trip command External fault When THR is OFF inverter output is shut off immediately and the moto coasts to stop alarm output enabled OH2 Hz2 Hz1 M2 M1 Jogging operation Freq set 2 Freq set 1 Motor 2 Motor 1 1 Only valid when induction motor drive is in operation Turn JOG ON to enable jogging operation switches the running mode to jogging mode the frequency setting to jogging frequency and acceleration deceleration time to jogging running use Frequency setting 2 is selected when Hz2 Hz1 is ON Motor 1 settings take effect when M2 M1 is OFF Motor 2 settings take effect when M2 M1 is ON High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Terminal Functions Category Symbol Terminal Name Functions Remarks DCBRK DC brake command Turn DCBRK ON to start direct current braking WE KP Write enable Function code data changes can onl
27. n be supported by the inverters having a ROM version 0500 or later Common Specifications High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Item Explanation Remarks Overcurrent Stops the inverter to protect against overcurrent due to overload LED display Short circuit Stops the inverter to protect against overcurrent due to a short circuit in the output circuit CS Ground fault Stops the inverter to protect against overcurrent due to a ground fault initial ground circuit only in the output circuit OC3 Overvalt ga Detects excess voltage in DC link circuit 200V DC 400V 400V DC 800V and stops the inverter o Cannot protect against significantly large voltage input mistakenly applied OUS ndeueitude Detects drops in DC link circuit voltage 200V DC 200V 400V DC400V and stops the inverter LU i Note that no alarm will sound if auto restart after momentary power failure is selected Stops or protects the inverter against input phase loss Input phase loss ap Lin Even when there is input phase loss the loss may not be detected if the connected load is light or a DC reactor is connected to the inverter Output phase loss detected Detects loss from breaks in output wiring while running or during startup and stops the inverter OPL Stops the inverter by detecting the temperature of the inverter cooling system e g when the cooling fan is malfuncti
28. nals digital input frequency Changing frequency settings i settings and multistep frequency settings Auxiliary frequency setting Built in potentiometer Inputs at terminal 12 C1 can be added to the main setting as auxiliary frequency settings Can be switched from DC 0 to 10V 0 to 100 to DC 10 to OV O to 100 externally Inverse operation Can be switched from DC 4 to 20mA DC 0 20mA 0 to 10096 to DC 20 to 4mA DC 20 0mA 0 to 100 externally Can be set between 0 00 and 3600s There are two independent settings that can be selected for acceleration deceleration time can be switched while running Pattern The following four acceleration deceleration types can be selected Linear S curve weak strong non linear constant output maximum capacity acceleration deceleration Coast to stop acceleration deceleration is enabled when run commands are OFF Acceleration deceleration time can be set during jogging operation between 0 00 and 3600s Acceleration deceleration time 1 Only valid when induction motor drive is in operation COMPACT INVERTER FRE N IC M l ni Common Specifications Common Specifications Item Explanation Remarks Frequency limiter Peak bottom frequency limit High and low limiters can be set in addition to Hz values 0 400Hz Bias frequency Bias of set frequency and PID command can be set separately between 0 and 100 Gain for frequency set
29. ncy 0 400Hz 7 G 9 p i S Qo o3 o Automatic torque boost for constant torque loads Torque boost 1 Manual torque boost Optional torque boost value can be set between 0 0 and 20 096 Application load can be selected for constant and variable torque loads Starting torque 1 15096 or more frequency set to 3Hz Slip compensation automatic torque boost active Keypad operation Start and stop with Oo o keys standard keypad Start and stop with Oo o keys remote keypad optional Start stop External signals FWD REV operation stop command 3 wire operation enabled digital input Coast to stop command trip command external fault fault reset etc Link operation Communication via RS 485 Changing run command Communications used to change run command Keypad operation Can be set with E amp key with save data function Also can be set with function code only via communication and be copied 2 Set based on built in volume 0 to 10V DC O to 100 terminal 12 4 to 20mA DC O to 100 0 to 20mA DC O to 100 terminal C1 Analog input Multistep frequency Selectable from 16 steps step O to 15 UP DOWN operation Frequency setting Raises or lowers frequency while digital input signal is ON Link operation Frequency set through RS 485 communication Two types of frequency settings can be changed using external sig
30. oning or there is an overload OH1 Overheating Protects against overheating during braking resistance based on braking resistor electronic thermal function settings dbH Overload Stops the inverter based on the temperature of the cooling system and the switching element calculated from output current flow OLU External alarm input Stops the inverter alarm through digital input THR OH2 Stops running the inverter to protect the motor according to electronic thermal function settings OL1 S Electronic thermal Protects the standard motor and inverter motor over the full frequency range The second motor can also be OL2 2 protected Operation level and thermal time constant can be set between 0 5 and 75 0 minutes a 8 PTC thermistor Stops unnng i inverter to protect the inei when the PTC MOMA detects motor semperque OH4 A PTC thermistor is connected between terminals C1 and 11 and a resistor is connected between terminals 13 and C1 Set function code Overload early warning Outputs a preliminary alarm at a preset level before the electronic thermal stops the inverter y Oo z Memory error Checks data when the power is turned on and data is being written and stops the inverter if a memory malfunction is detected Er D E Keypad Stops the inverter if a communication malfunction is detected between the keypad and inverter unit while an operation ELS communication error command is in progress from the remote keypad CPU error Stops the inverter if a CP
31. ons Voltage 10 to 10 Frequency 5 to 5 Rated current A with DCR 1 1 2 0 without DCR 1 8 3 3 5 4 9 7 Required power supply capacity kVA 0 3 0 4 0 7 1 3 Torque 96 150 100 Output ratings o D x or DC sl uiid Starting frequency 0 0 to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 100 Applicable safety standards UL508C EN 61800 5 1 2007 Applicable EMC standards EN61800 3 2004 A1 2012 in progress Enclosure IEC 60529 IP20 IEC 60529 1989 UL open type UL50 Cooling method Natural cooling Fan cooling Weight Mass kg Ibs 0 7 1 5 Ji 7 1 2 2 2 4 5 3 Braking Immunity Second Environment Industrial Emission Category C2 1 The load shall be reduced so that the continuous operating current is the rated current in parenthesis or less if the carrier frequency is set to 3kHz or above or ambient temperature exceeds 40 C 104 F High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Common Specifications Common Specifications Item Explanation Remarks Output frequency Maximum frequency 25 to 400Hz Base frequency 25 to 400Hz Starting frequency 0 1 to 60 0Hz o 0 75 to 16kHz E Note The unit is equipped with an automatic reduction stop function that may automatically drop the carrier frequency to CO Carrier frequency protect the inverter when it is
32. r decrease in speed according to the load enabling stable operation c 8 Current limit Keeps the current under the preset value during operation Process PID regulator PID control PID command keyboard analog input terminal 12 C1 RS 485 communication Feedback value Analog input terminal 12 C1 Low liquid level stop function Switch forward reverse operation Integration reset hold function l l Automatically limits output frequency limits energy generated by the inverter and avoids overcurrent trips when torque relay value is exceeded 1 Automatic deceleration uen wp A So Makes deceleration time three times longer to avoid 7 trip when DC link circuit voltage exceeds overage limit Deceleration characteristics improved braking capacity Increases motor loss and reduces energy generated by the inverter during deceleration to avoid overcurrent trips Energy saving operation 1 Restricts output voltage to minimize total motor and inverter loss during constant speed operation Overload prevention control Lowers frequency when IGBT junction temperature and ambient temperature rise due to overloading to avoid further overload Offi Performs r1 Xo and excitation current tuning ine tuning 71 Performs r1 Xo slip frequency and excitation current tuning 2 Fan stop operation Detects inverter internal temperature and stops cooling fan when the temperature is low Switching between two motors in the same inverter is enabled
33. r 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 problems may occur Do not use inverters for driving motors equipped with series connected brakes 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 NOTES Environmental conditions Installation location Use the inverter in a location with an ambient temperature range of 10 C 14 F to 50 C 122 F The inverter and braking resistor surfaces become hot under certain operating conditions Install the inverter on nonflammable material such as metal Ensure that the installation location meets the environmental conditions specified in Environment in inverter specifications Combination with peripheral devices Installing a molded case circuit breaker MCCB Install a recommended molded case circuit breaker MCCB or an earth leakage circuit breaker ELCB in the primary circuit of each inverter to protect the wiring Ensure that the circuit breaker capacity is equivalent to or lower than the recommended capacity Installing a magnetic contactor MC in the output secondary circuit If a magnetic contactor MC is mounted
34. s Comes ON when the inverter is running above startup frequency and DC braking is also in operation Comes ON when the inverter main circuit gate is ON RUN2 Inverter output in progress OLP Overload preventive control Comes ON when overload prevention control is operating Comes ON when a current larger than the set value for ID2 is ID2 Current detection 2 continuously detected for longer than the time set on the timer THM Thermistor detected Comes ON when motor overheating is detected by the PTC NTC thermistor Brake signal Outputs a brake engage release signal Maintenance timer Alarm signal is generated when time passes or start up exceeds over the preset value NT FARFDT Frequency arrival frequency detected Comes ON when both FAR and FDT are ON C1OFF C1 terminal break detected Comes ON when the system determines that a break will occur if terminal C1 input falls below 2mA ID Current detection Comes ON when a current larger than the set value has been detected for the timer set time 1 Only valid when induction motor drive is in operation 2 These functions can be supported by the inverters having a ROM version 0500 or later 13 COMPACT INVERTER FRE N IC M l ni 14 Terminal Functions Terminal Functions Category Terminal Name Functions Remarks Comes ON when a current smaller than the set value has been Small current detection
35. se 400V series High Perfomance Compact Body Welcome to the NEXT Generation of Compact Inverters Single phase 200V series Single phase 100V series Standard specifications 1 ithout EMC filter Ww type C t15 2 C 22 3 JJ Co M I5 O C 15 20_ jJ Semi standard specifications EMC filter built in type rE a Oo M 55 O Co 15RA O IIl Coming Soon How To Read Model Number Series Name Code FRN Applicable Current Rating This value shows an amperage rating 0001 0060 FRENIC series Application Range FRN 0010 IO IN In Code Cc Compact Code Developed Inverter Series 2 2 series Code Enclosure 9 Standard IP20 UL Open Type E EMC filter built in type N Caution 4 A Destination Manual Asia English China Chinese Europe English USA English Input Power Source Three phase 200V Three phase 400V Single phase 100V Single phase 200V The contents of this catalog are provided to help you select the product model that is best for you Before actual use be sure to read the User s Manual thoroughly to assure correct operation COMPACT INVERTER FRE N IC M l ni Standard Model Specifications MThree phase 200V series Ss Specifications Input power source Three phase 200V Type FRNCILILILIC2S 2A FRNCICILILIC2S 2U FRAN L JLILILIC2S 2
36. ting Analog input gain can be set between 0 and 200 Jump frequency control Three operation points and their common jump hysteresis width can be set 0 30Hz Six operation points and their common jump hysteresis width can be set 0 30Hz 2 Timer operation Operation starts and stops at the time set from keypad 1 cycle Jogging operation 1 Auto restart after momentary power failure 1 Operated using the key on the standard or remote keypad or digital contact point input acceleration and deceleration time same duration used only for jogging Trip at power failure The inverter trips immediately after power failure Trip at power recovery Coast to stop at power failure and trip at power recovery Deceleration stop Deceleration stop at power failure and trip after stoppage 2 Start at the frequency selected before momentary stop Coast to stop at power failure and start after power recovery at the frequency selected before momentary stop Start at starting frequency Coast to stop at power failure and start at the starting frequency after power recovery Current limit by hardware 1 Uses hardware to limit current and prevent overcurrent trips resulting from sudden load changes momentary power failures and similar events that cannot be handled by software current limiters can be canceled em E Slip compensation 1 Compensates fo
37. to 60 0Hz Braking time 0 0 to 30 0s Braking level 0 to 100 Applicable safety standards UL508C EN 61800 5 1 2007 Applicable EMC standards EN61800 3 2004 A1 2012 in progress Enclosure IEC 60529 IP20 IEC 60529 1989 UL open type UL50 Cooling method Natural cooling Fan cooling Weight Mass kg Ibs 1 5 3 3 6 3 2 5 5 5 Braking Immunity Second Environment Industrial Emission Category C2 1 The load shall be reduced so that the continuous operating current is the rated current in parenthesis or less if the carrier frequency is set to SkHz or above or ambient temperature exceeds 40 C 104 F Single phase 200V series Mem Specifications Input power source Single phase 200V Type FRN IL JL JL C2bE 7C FRNI IC2E 7E FRN ILIL IL C2bE 7 A A C E EDEN 0002 0004 Nominal applied motor kW A C E 0 1 0 2 0 4 Nominal applied motor HP 1 8 1 4 1 2 Rated capacity kVA 0 30 0 57 1 3 2 0 3 5 4 5 Rated voltage V Single phase 200 to 240V 50 60Hz Rated current A 1 0 8 0 7 1 5 1 4 3 5 2 5 5 5 4 2 9 2 7 0 12 0 10 0 150 of rated current for 1min Sve loc salen n 15096 of rated current for 1min or 200 of rated current for 0 5s If the rated current is in parenthesis Rated frequency Hz 50 60Hz Phases Voltage Frequency Single phase 200 to 240V 50 60Hz Voltage Frequency variati
38. tor Built in Built in Applicable safety standards UL508C EN 61800 5 1 2007 UL508C Enclosure IEC 60529 IP20 IEC 60529 1989 UL open type UL50 Cooling method Natural cooling Fan cooling Natural cooling Weight Mass kg Ibs 1 8 4 1 The load shall be reduced so that the continuous operating current is the rated current in parenthesis or less if the carrier frequency is set to 3kHz or above or ambient temperature exceeds 40 C 104 F COMPACT INVERTER FRE N IC M l ni EMC Filter Built in Model MThree phase 400V series tm Specifications S Input power source Three phase 400V Type FRNLILILIL C2E 4C FRN C2E 4E FRN LILILILIC2E 4A A C E 0002 0011 Nominal applied motor kW A C E 0 4 3 7 A A C 4 0 A E Nominal applied alae 5 Rated voltage V Three phase 380 to 480V With AVR Rated current A 1 1 8 1 5 Overload capability 150 of rated current for 1min 150 of rated current for 1min or 200 of rated current for 0 5s If the rated current is in parenthesis Output ratings Rated frequency Hz 50 60Hz Phases Voltage Frequency Three phase 380 to 480V 50 60Hz a variations Voltage 10 to 15 Voltage unbalance 2 or less Frequency 5 to 5 Dus xx Required power supply capacity kVA Input ratings Torque DC injection braking Starting frequency 0 0
39. y be made when the keypad for KEYPAD is turned ON with WE KP UP UP command Output frequency increases while UP is ON DOWN DOWN command Output frequency decreases while DOWN is ON PID control is canceled when Hz PID is ON Hz PID PID control cancel zi runs based on multistep frequency keypad analog input etc c s Er Switch from analog frequency setting or PID control output signal frequency setting operation g mode to forward reverse operation Reverse operation enabled when IVS is ON Link enable RS485 Bus Operates according to commands from RS 485 when LE is ON PID RST PID integral differential reset Turn PID RST ON to reset PID integration and differential values PID HLD PID integral hold Turn PID HLD ON to hold PID differentiation PLC terminal Connect to PLC output signal power supply 24V 22 27V Common for 24V power Max 50mA CM 2 terminal Common Common for digital input signal Isolated from terminal 11 and Y1E Power supply for transistor output load Max DC 24V DC 50mA Short circuit between terminal CM Transistor output power uu Caution Same terminal as digital input PLC terminal and Y1E is used Select one of the following signals for output Max voltage 27Vdc max current 50mA Transistor output M AW l m Short circuit when ON signal is output or open circuit when ON signal is output leak current 0 1mA ON voltage within 2V at 50mA P E Inverter running speed exists Comes ON when
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