ZFeng 310 Series 1.5Kw-T General Vector Variable Frequency Drive
ZFeng 310 Series 1.5Kw-T General Vector Variable Frequency Drive is
a power electronic device produced by our company that uses vector
control technology to accurately adjust the speed and torque of
three-phase AC motors. By adjusting the frequency and voltage of
the power supply, precise control of motor performance can be
achieved. Vector control technology can separately control the
magnetic field and torque of the motor, similar to the
characteristics of a separately excited DC motor, thereby improving
the dynamic responsiveness and control accuracy of the system.
Working principle
The working principle of a three-phase vector frequency converter
is based on the proportional relationship between the speed of the
AC motor and the power frequency. By changing the frequency of the
power supply, the speed of the motor can be altered.
Vector control technology is the core of three-phase vector
frequency converters. It can control the magnetic field and torque
of the motor separately, and control the output of the motor by
adjusting the output frequency, output voltage, and angle of the
frequency converter. This technology enables three-phase vector
inverters to achieve high-precision torque control and speed
control.
Key Features
- High precision control: The three-phase vector frequency converter
can achieve high-precision control of motor torque and speed,
meeting the needs of various industrial application scenarios.
- Fast dynamic response: Advanced control algorithms are used to
enable the system to have fast dynamic responsiveness.
- High stability: Vector control technology improves the stability of
the system, enabling equipment to operate stably in complex
industrial environments.
- Energy saving and consumption reduction: By precisely controlling
the speed and torque of the motor, unnecessary energy consumption
is reduced and the energy efficiency of the equipment is improved.
Characteristics and Advantages
- Precise control: meets the requirements of high-precision speed
regulation and torque control.
- Efficient and energy-saving: By precisely controlling the motor
speed and torque, unnecessary energy consumption is reduced.
- Stable and reliable: Advanced control algorithms and protection
functions are adopted to ensure the stable operation of the
equipment.
- Flexible adaptation: Supports multiple motor types and control
modes to adapt to different industrial application scenarios.
