ABB KUC755AE106 drive unit

ABB KUC755AE106 drive unit

ACS 1000 (315 kW – 5 MW, up to 4.16 kV)

ACS 1000 is suitable for renovation projects and new standard induction motors. Due to the

Equipped with a unique output sine wave filter, eliminating bearing current and voltage on the motor

Reflection. The ACS 1000i is a fully integrated frequency converter that includes an input transformer and an output

Enter the contactor.

ACS 2000（250 – 2600 kW，4.0 – 6.9 kV）

ACS 2000 is suitable for renovation projects and new standard induction motors. The frequency converter

The device can be connected directly to the power supply without using an input isolation transformer（

Directly connected), can be equipped with an integrated transformer or connected to an external input isolation transformer

The device. ACS 2000 can also be used for four quadrant operation to achieve energy regeneration and reactive power

Rate compensation.

ACS 5000（2 – 32 MW，6.0 – 6.9 kV）

The ACS 5000 can be applied to standard industrial motors (asynchronous and synchronous). This product

Very suitable for higher power applications such as induced draft fans, blowers, feed pumps, and cooling water pumps

Equipment. The air-cooled ACS 5000 also comes with an integrated transformer.

ACS 6000 (3-27 MW, up to 3.3 kV)

ABB's ACS 6000 is designed for single or multi motor applications of synchronous and asynchronous motors

And the modular frequency converter designed. This frequency converter can be equipped to support four quadrant operation for practical use

Active front-end for energy regeneration and reactive power compensation.

MEGADRIVE LCI (2-72 MW, or higher power as needed)

ABB's MEGADRIVE-LCI is the best solution for high-voltage and high-power equipment

Case. The standard design can provide a rated power of up to 72 MW; Engineering design can exceed

100 MW. MEGADRIVE LCI can be provided as a frequency converter or soft starter.

Direct Torque Control (DTC)

The ACS transmission control platform is based on ABB's acclaimed Direct Torque Control (DTC),

Can achieve the highest torque and speed performance that can be achieved by medium voltage frequency converters, as well as the lowest loss

Consumption. The control of the frequency converter ensures immediate and smooth operation under all conditions.

Power outage crossing

Due to its power outage ride through function, the frequency converter system can resist power supply interference. If input

The power supply voltage has been cut off, and the frequency converter will continue to operate in an active mode without torque generation

that 's ok. As long as the motor runs and generates electrical energy for the frequency converter, the frequency converter is in an active state.

When the power supply is restored, the frequency converter will be able to immediately resume normal operation.

Low number of components

The fewer components, the higher the reliability. ABB utilizes high-power semiconductor switching devices and can achieve maximum performance

Topology structure that minimizes the number of components.

No fuse design

ABB medium voltage frequency converters are designed to achieve safe operation without the use of fuses, as fuses

Breakers are unreliable, expensive, and prone to aging. The design without fuses can reduce spare parts and

After overcurrent tripping, it can quickly restart.

No encoder

As is well known, encoders are prone to malfunction. The encoder is located in a vulnerable position on the motor

Set. ABB's medium voltage frequency converters can operate without encoders, thereby reducing maintenance

Cost ensures high reliability.