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Frequency converters 132.0 kW

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132 kW Variable Frequency Drives — industrial power class catalogue

Variable frequency drives rated at 132 kW are designed to control high-power asynchronous motors in demanding industrial applications. This power class delivers smooth starting and continuous speed regulation for pumps, fans, compressors, crushers and conveyors. With frequency control, energy consumption is typically reduced by 30–50 % compared to direct-on-line starting — a decisive factor when selecting a VFD for a large continuous-duty installation. All models in this catalogue are rated for 3-phase 380 V supply and housed in enclosures with IP20 or IP21 protection. Rated output current in the 132 kW class ranges from 230 to 303 A depending on the drive series and load duty type.

Applications for 132 kW VFDs

The 132 kW power class covers second-stage pumping stations, HVAC systems for large industrial buildings, compressor plants, and conveyor lines in metallurgy and mining. Typical application areas:

  • Water supply and wastewater — high-capacity feed and circulation pumps, pressure maintenance in main pipelines.
  • HVAC and ventilation — axial and centrifugal fans in industrial ventilation systems, airflow control via pressure or flow sensor feedback.
  • Compressor systems — screw and piston compressors with smooth run-up and reduced inrush current at start.
  • Conveyor and materials handling — belt conveyors, chain elevators, mills in mining and food processing industries.
  • Metalworking and metallurgy — agitators, rolling mills and crushers requiring precise torque control.

132 kW VFD model comparison

The table below lists models that are in stock or available to order at Chastotnik.ua. Contact our sales team to confirm current stock and lead times.

ModelBrandSeriesOutput current, AIPKey feature
AC310-T3-132G/160P-LVeichiAC310250IP20G/P dual rating: 132 kW heavy-duty / 160 kW light-duty
AC70-T3-132G/160PVeichiAC70250IP20Sensorless vector control, built-in PID controller
GD200A-132G/160P-4INVTGD200A260IP20Vector control, built-in brake chopper, RS-485/CAN
VFD1320CP43B-21Delta ElectronicsVFD-CP2000260IP20Pump/fan series, built-in PLC and EncoderNet
SJ700B-1320HFFHitachiSJ700B230IP20Built-in EMC filter, sensorless vector, built-in PLC
ATV610C13N4Schneider ElectricAltivar 610250IP20Pump/fan-optimised, Ethernet connectivity, EcoMode
FR-F740-02600-ECMitsubishi ElectricFR-F260IP20Energy-saving series for pumps and fans, built-in EMC
R912007197Bosch RexrothVFC 5610303IP20Multi-Ethernet (EtherNet/IP, PROFINET, EtherCAT), PM motor support
p0800119ENEXTe.f-drive.pro253IP20Ukrainian-made, SVC, built-in EMC, ex-stock availability
DX100-4T1320QSimphoenixDX100260IP20FOC vector, f_max=1000 Hz, CNC spindle applications
ACQ80-01-132KW-4ABBACQ80246IP21Purpose-built for water supply and wastewater treatment

How to select a 132 kW VFD

When choosing a drive for a 132 kW application, consider these key parameters:

  • Load duty type (G/P) — G (heavy duty) means 150 % overload for 60 s, P (normal duty/pump-fan) means 110–120 %. Choose G for compressors and conveyors.
  • Control method — scalar V/f for pumps and fans, sensorless vector (SVC/FOC) for conveyors and agitators, closed-loop vector with encoder for machine tools.
  • Communication interface — for SCADA/PLC integration select PROFINET, Modbus RTU or EtherNet/IP depending on your network standard.
  • Ingress protection — IP20 for panel-mounted installations indoors, IP21/IP54 for wet or dusty production environments.
  • Built-in brake chopper — required for drives with regenerative braking (hoists, centrifuges).

Other VFD power ratings

If 132 kW is not the right match, see adjacent options: 110 kW for slightly lower power, 160 kW for light-duty applications or a small power margin, 75 kW and 90 kW for mid-range installations.

Warranty and support

All VFDs carry the manufacturer's official warranty. Chastotnik.ua sales engineers provide technical selection support, delivery coordination and commissioning assistance. Delivery across Ukraine via Nova Poshta or freight carriers. Payment: bank transfer (VAT included), advance payment, or deferred payment for regular customers.

Frequently Asked Questions

What is a variable frequency drive and how does it work?

A VFD is an electronic device that converts AC mains voltage to DC (rectifier stage), then back to AC with adjustable frequency and amplitude (inverter stage). By varying the output frequency from 0 to 600 Hz, it smoothly controls the rotational speed of an AC induction motor from standstill to rated speed and beyond, while limiting starting current to 1.5× rated.

How do I size a VFD for my motor?

The VFD power rating should equal or exceed the motor nameplate power. For pumps and fans (variable torque), select based on the motor rating. For conveyors, cranes, and crushers (constant torque or heavy starting), choose one power step above — for example, for a 4 kW conveyor motor, we recommend a 5.5 kW VFD. Also verify that the motor's rated current does not exceed the VFD's current rating.

Can I run a three-phase 380V motor from a single-phase 220V supply?

Yes, you need a VFD with single-phase 220V input and three-phase 380V output, such as the Veichi AC70E or AC10 T/S2 variant. Power is limited to 2.2–4 kW depending on the series. The VFD not only starts the motor but also provides soft starting, speed control, and overload protection.

What is the difference between scalar and vector control?

Scalar control (V/f) maintains a constant voltage-to-frequency ratio — a simple, reliable method for pumps, fans, and compressors. Vector control (SVC, FOC) calculates motor current and flux vectors in real time, delivering 150–200% rated torque at low frequencies. Vector control is essential for conveyors, elevators, extruders, cranes, and CNC machine tools.

Why do I need an EMC filter in a VFD?

An EMC (electromagnetic compatibility) filter reduces high-frequency interference that the VFD generates in the power supply and airwaves. It is mandatory for facilities with sensitive equipment (medical, laboratories, server rooms), residential buildings, and when the cable between VFD and motor exceeds 25 m. The Veichi AC10, Delta VFD-E, and INVT GD20 models include a built-in Class C3 EMC filter.

How much energy does a VFD save?

On pumps and fans, savings range from 20% to 60% depending on the load profile. Power is proportional to the cube of speed (P∝n³): reducing speed by 20% halves energy consumption. If equipment typically operates at 70–80% of rated speed, average savings are approximately 40%. Payback period for a VFD on a pumping station is 6 to 18 months.