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Inverter Fuji Electric FRENIC-VG Series



Kitoma Indonesia - Inverter Fuji Electric FRENIC-VG Series

High Performance Vector Control Inverter 


Frenic VG Series 3-phase 200V

  • FRN0.75VG1S-2A : 0.75kW
  • FRN1.5VG1S-2A : 1.5kW
  • FRN2.2VG1S-2A : 2.2kW
  • FRN3.7VG1S-2A : 3.7kW
  • FRN5.5VG1S-2A : 5.5kW
  • FRN7.5VG1S-2A : 7.5kW
  • FRN11VG1S-2A : 11kW
  • FRN15VG1S-2A : 15kW
  • FRN18.5VG1S-2A : 18.5kW
  • FRN22VG1S-2A : 22kW
  • FRN30VG1S-2A : 30kW
  • FRN37VG1S-2A : 37kW
  • FRN45VG1S-2A : 45kW
  • FRN55VG1S-2A : 55kW
  • FRN75VG1S-2A : 75kW
  • FRN90VG1S-2A : 90kW

Frenic VG Series 3-phase 400V

  • FRN3.7VG1S-4A : 3.7kW
  • FRN5.5VG1S-4A : 5.5kW
  • FRN7.5VG1S-4A : 7.5kW
  • FRN11VG1S-4A : 11kW
  • FRN15VG1S-4A : 15kW
  • FRN18.5VG1S-4A : 18.5kW
  • FRN22VG1S-4A : 22kW
  • FRN30VG1S-4A : 30kW
  • FRN37VG1S-4A : 37kW
  • FRN45VG1S-4A : 45kW
  • FRN55VG1S-4A : 55kW
  • FRN75VG1S-4A : 75kW
  • FRN90VG1S-4A : 90kW
  • FRN110VG1S-4A : 110kW
  • FRN132VG1S-4A : 132kW
  • FRN160VG1S-4A : 160kW
  • FRN200VG1S-4A : 200kW
  • FRN220VG1S-4A : 220kW
  • FRN280VG1S-4A : 280kW
  • FRN315VG1S-4A : 315kW
  • FRN355VG1S-4A : 355kW
  • FRN400VG1S-4A : 400kW
  • FRN500VG1S-4A : 500kW
  • FRN630VG1S-4A : 630kW



  • High performance enabled by the comprehensive use of Fuji technology.
  • Easy maintenance for the end-user.
  • Maintains safety and protects the environment.
  • Opens up possibilities for the new generation.


Inverter (Unit Type)

This type consists of the converter and inverter circuits.The inverter can be operated using a commercial power supply.
* DC power can also be supplied without using the converter circuit.



  • Built-in converter (rectifier)
  • Built-in control circuit
  • External DC reactor as standard*
  • DC input is available.

* Available for 75kW or higher capacity models



  • Easier arrangement for small-scale system


Inverter (Stack Type)

The converter and inverter sections are separately set in this type.The converter (diode stack) or PWM converter is required depending on the intended use. Moreover, a combination of inverters can be used with one converter.



  • The converter (rectifier) is separately set.
  • External control circuit
  • Built-in DC reactor



  • DC supply enables the multi-drive arrangement
  • Energy can be shared within DC bus lines.
  • Downsized panel
  • Large-capacity system is easily built.
  • Maintainability


Ratings for intended use

The operation mode for the motor is selected according to motor load condition. Motors larger by one or two frames can be driven with medium load (MD) and light load (LD) use.


Specification Applied load Feature Applicable overload rating Power supply
Applicable motor capacity [kW]
HD High Duty Spec Powerful drive at low noise Current: 150% 1min/200% 3sec 200V 0.75 to 90 -
400V 3.7 to 630 -
MD Middle Duty Spec Can drive motors of frames one size larger*1 150% 1min 200V - -
400V 110 to 450*2 30 to 800
LD Low Duty Spec Can drive motors of frames one or two sizes larger*1 Unit type:120% 1min
Stack type:110% 1min
200V 37 to 110 -
400V 37 to 110 37 to 1000

Note) A DCL may be selected according to applicable specifications.
*1     This varies depending on motor specifications and power supply voltage (unit type only).
*2     Carrier frequency becomes 2kHz.


A standard built-in brake circuit with expanded capacity range

Having a standard built-in brake circuit (with 200V 55kW or less and 400V 160KW or less), is useful when applying the inverter to the vertical transfer machine, which is frequently used under the regenerative load.
* Unit type only


Servo function

Position control by built-in APC
The ABS encoder I/F option card with 17-bit high resolution has been prepared.
Pulse train input enabled (optional)
The option card for the SX and E-SX bus I/F has been prepared.

Control method

Not only the induction motors but also the synchronous motors can be driven, and for the induction motors, you can select the most suitable control method according to your individual needs.


Target motors Control method
Induction motor
  • Vector control with speed sensor
  • Speed sensorless vector control
  • V/f Control
Synchronous motor
  • Vector control with speed sensor
    (including pole position detection)


A wide range of options

  • Providing options supporting various interfaces such as high-speed serial communications
  • Options can be used by just inserting them into the connectors inside the inverter. Up to five cards can be mounted. (For details, please contact us because the combination of the optional cards has some restrictions.)


Categoly Name Type
Analog card Synchronized interface OPC-VG1-SN*1
F/V converter OPC-VG1-FV*1
Analog input/output interface expansion card OPC-VG1-AIO
Digital card (for 8-bit bus) Digital input OPC-VG1-DI
Digital input OPC-VG1-DIO
PG interface card +5V line driver OPC-VG1-PG
Open collector OPC-VG1-PGo
ABS encoder with 17-bit high resolution OPC-VG1-SPGT
PG card for synchronous motor drive Line driver OPC-VG1-PMPG
Open collector OPC-VG1-PMPGo
T-Link communication card OPC-VG1-TL
CC-Link communication card OPC-VG1-CCL
High-speed serial communication card (for UPAC) OPC-VG1-SIU*1
Digital card (for 16-bit bus) SX bus communication card OPC-VG1-SX
E-SX bus communication card OPC-VG1-ESX
User programming card OPC-VG1-UPAC*1
PROFINET-IRT communication card OPC-VG1-PNET*1
Safety card Functional safety card OPC-VG1-SAFE
Field bus interface card PROFIBUS-DP communication card OPC-VG1-PDP*1
DeviceNet communication card OPC-VG1-DEV*1
Control circuit terminal Terminal block for high-speed communications OPC-VG1-TBSI


Standard specifications

HD specification for heavy overload (Unit Type)

Three-phase 200V series



Three-phase 400V series


Note :

The specification above are established when the function code F80 = 0 (HD specification) is applied.
When used with the HD specification with 75kW or higher, DC reactor is necessary ( to be ordered separately from inverter unit based on the rating)
*1)  The rated output voltage is 220V for 200V series and 440V for 400V series.
*2)  When the inverter output frequency converter value is 10Hz or less, the inverter may trip early due to overload depending on the conditions such as ambient temperature.
*3)  When the inverter output frequency converter value is 5Hz or less, the inverter may trip early due to overload depending on the conditions such as ambient temperature.
*4)  200V series: Make an individual order for 220 to 230V/50Hz.
400V series: The inverters with the power supply of 380 to 398V/50Hz and 380 to 430V/60Hz must be switched using a connector inside the inverter.
The output of the inverter with 380V may drop depending on situations.For the detail, refer to the FRENIC-VG User Manual chapter 10.5.
*5)  The auxiliary power input is used as an AC fan power input when combining the unit such as high power factor PWM converter with power regenerative function.(Generally not used.)
*6)  Voltage unbalance [%] = (Max. voltage [V] - Min. voltage [V]) / (Three-phase average voltage [V]) × 67
Use an AC reactor if the voltage unbalance exceeds 2%.
*7)  The value is calculated on assumption that the inverter is connected with a power supply capacity of 500kVA (or 10 times the inverter capacity if the inverter capacity exceeds 50kVA) and %X is 5%.
*8)  This shows values when the DC reactor is used. (Optional for 55kW or less model)
*9)  The inverter may automatically reduce carrier frequency in accordance with ambient temperature or output current in order to protect itself.



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