Frequency Converters and Motor Control Systems

Frequency converters are an integral part of modern electric motor designs. These devices allow the output of an alternating current frequency corresponding to the specified range. Frequency converters are in demand in all spheres of life related to electrical energy. Their action is the stable operation of complex drive mechanisms without traditional control equipment and minimizing energy consumption.

Motor control in ACS (Automatic Control System) implies either changing the rotation speed in proportion to a particular control signal or maintaining this speed unchanged under the influence of external destabilizing factors. The motor control device can include manual or automatic means for starting and stopping the motor, selecting forward or reverse the direction of rotation, selecting and controlling the speed of rotation, controlling or limiting the torque, overload, and fault protection. We use the following control methods to control electric motors:

  • Scalar control
  • Vector control
    • Field oriented control
    • Direct torque control
    • Sensorless field-oriented control
    • Direct torque control with switch table
  • DC motor control
  • Stepper motor control
  • PWM control

With our expertise and vision, we will create an innovative device that will solve your business problem. At the stages of software development for frequency converters and electric motor control systems, the ShuraCore team, together with the customer, analyzes the input requirements and develops a detailed cooperation plan, taking into account the chosen final solution.

Mathematical Modeling and Control Algorithms

Mathematical Modeling and Control Algorithms

Mathematical modeling is a universal tool for studying complex technical and technological systems. The role of mathematical modeling and its effectiveness in technical and specialized


Sensors Development Services

In the era of smart grids, smart metering involves not only measuring the consumption of electricity, gas, water, or heat but also transferring data from


SCADA and HMI Development Services

Most automation systems operate with the participation of a person (operator, dispatcher). The interface between the human and the system is called the human-machine interface


Robotics Development Services

The development of robotic devices can include all stages, from modeling a controlled object model to implementing them on target platforms. The steps described below

Power Engineering

Power Engineering Development Services

In the power industry, microcontrollers, microprocessors, and FPGA are being introduced at an accelerated pace. New sensors of physical quantities, data collection, transmission systems, and

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