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High Performance VFD

Achieve precise motor control, superior energy efficiency, and reliable operation.

Unlock the full potential of your machinery with our High-Performance AC Variable Frequency Drives (VFDs). Engineered for the most demanding industrial applications, these AC drives provide unparalleled precision in speed and torque control for any AC motor. Delivering superior dynamic response, a wide speed range, and robust overload capabilities, our VFDs enhance productivity, improve product quality, and ensure operational reliability.

Understanding High Performance VFD


The Core of High-Performance Motor Control

At the heart of a high-performance VFD lies its advanced control algorithm. Unlike standard drives that primarily use V/F control for simple applications, our high-performance models leverage sophisticated vector control technology. This method creates a precise mathematical model of the AC motor, allowing for independent and dynamic control over both motor flux and torque, similar to the performance of a DC drive but with the reliability of an AC induction motor.

Low Voltage VFD Systems

Key Features Defining Our High-Performance VFDs

  • Exceptional Torque Output
  • Dynamic Speed Response
  • Wide Speed Range & Accuracy
  • Versatile Motor Compatibility
  • Robust Overload Capacity
  • Advanced Safety Integration

Our high-performance variable frequency drives are engineered with a comprehensive suite of features to maximize operational output and efficiency. These advanced AC drives deliver exceptional torque across a wide speed range, from precise low-speed control to dynamic high-frequency outputs. They feature rapid dynamic speed response for agile acceleration and deceleration, ensuring precise regulation regardless of load conditions. Built for versatility, our drives seamlessly control both standard AC induction and high-efficiency permanent magnet motors, offering robust overload capacity to handle demanding duty cycles. Each drive integrates advanced safety features like Safe Torque Off (STO), solidifying our commitment to a powerful, reliable, and adaptable motor control solution for your most critical applications.

Comprehensive Industrial Protection

  • Power-on motor short circuit detection
  • Input/output phase-loss protection
  • Overcurrent, overvoltage, undervoltage protection
  • Overtemperature and overload protection

Applications That Require Peak VFD Performance

  • Machine Tools & CNC
  • Cranes & Hoists
  • Material Handling
  • Extruders & Mixers

Why Invest in Our High-Performance Industrial VFDs?

Uncompromising Performance

We focus on delivering tangible results: faster cycle times, tighter process control, and higher product quality. Our advanced vector control algorithms ensure your motors perform at their absolute peak. Our entire range of high-performance applications has been developed by capitalizing on the global growth trends of electrification and digitalization to help our customers manage power more efficiently, today and well into the future.


Built for Industrial Realities

Our drives feature a robust design with conformal coatings on PCBs to withstand harsh industrial environments. High short circuit ratings and comprehensive protection functions safeguard the VFD and your motor, ensuring maximum uptime.


Simplified Integration and Use

Despite their advanced capabilities, our VFDs are designed for ease of use. A modern touchscreen interface with consolidated contextual menus and intuitive parameter structure simplifies commissioning. The design relies on the same parameter structure and fieldbus configuration across models, reducing the learning curve for your team.


Trusted for Industrial AC VFDS

Explore our comprehensive High Performance VFD product lines. Find the perfect drive for your industrial, commercial, or residential application.
High Performance VFD

YC-1610 High Performance VFD

A versatile and high-performance drive engineered for a broad range of industrial applications. It offers precise motor control through its advanced Sensorless Vector Control and standard V/F modes, making it an ideal and cost-effective solution for machinery requiring dynamic speed and torque regulation up to 55kW.


Technical features

  • Control Modes: Sensorless Vector Control (SVC), V/F Control
  • Motor Power Range: 0.1kW to 55kW
  • Maximum Output Frequency: 50.00Hz to 500.00Hz
High Performance VFD

YC-5000 High Performance VFD

Our premier high-performance VFD, designed for the most demanding and complex applications. It supports full closed-loop control with an encoder for ultimate precision, and can manage a vast range of motor powers up to 1000kW. This makes it the definitive choice for high-power cranes, extruders, and other critical systems that require the highest level of speed and torque accuracy.


Technical features

  • Control Modes: Vector Control with Speed Sensor, SVC, V/F Control
  • Motor Power Range: Up to 1000.0kW
  • Wide Speed Range: Controls motors from 1 rpm to 65535 rpm

Cost Considerations for High Performance VFDs

Understanding the cost considerations for a high-performance VFD extends beyond the initial purchase price. The price spectrum is influenced by power capacity and advanced features like encoder feedback or support for industrial communication protocols like Modbus TCP. However, a comprehensive analysis demonstrates that the investment is offset by significant long-term value. Superior speed and torque control directly enhance productivity and reduce material waste, while optimized energy efficiency lowers overall operating costs. By focusing on your core high-performance requirements, you can identify a solution that delivers the necessary capabilities without over-investing in superfluous features, thereby ensuring an optimal balance between upfront cost and long-term return.

  • Focus on Total Cost of Ownership
  • Investment in Productivity & Quality
  • Reduced Energy & Maintenance Costs
  • Balancing Cost and Core Functionality

Complete Range of Configurations

This table provides an overview of the typical technical specifications for our high-performance VFD series

ParameterSpecification / Capability
Control ModesV/F Control, Sensorless Vector Control (SVC), Closed-Loop Flux Vector Control (FVC)
Power Range0.75 kW – 500+ kW (1 HP – 700+ HP)
Input VoltageThree-Phase (3 Phase) AC 220V, 380V - 480V
Output FrequencyVector Control: 0 – 300 Hz; V/F Control: 0 – 3000 Hz
Encoder Feedback SupportABZ Incremental Encoder, Resolver, and more via accessible option card slots
Overload CapacityHeavy-Duty (G-Type): 150% for 60s; 180% for 3s
Torque Response< 10ms in Closed-Loop Vector Control mode
Communication ProtocolsStandard: Modbus RTU; Multiple onboard protocols and options for Profinet, Modbus TCP

Expert VFD Selection and Support

Selecting the optimal VFD requires careful consideration of your motor specifications, application requirements, environmental conditions, and performance objectives. Our technical team provides comprehensive support throughout the selection and implementation process.
We assist with:

Frequently Asked Questions (FAQs)

What is the primary difference between a general-purpose and a high-performance VFD?

A high-performance VFD uses more advanced processing power and sophisticated control algorithms, like flux vector control, to provide significantly better speed regulation, higher torque at low speeds, and faster dynamic response compared to standard V/F-based VFDs.

Can this VFD control both AC induction and permanent magnet (PM) motors?

Yes, our high-performance variable frequency drives are designed to control both standard AC induction motors and high-efficiency permanent magnet synchronous motors, giving you flexibility in your machine design and motor selection.

Do you offer support for migrating from other brands like Eaton?

Absolutely. Our VFD’s parameter structure and support for various industrial communication protocols are designed to make transitions straightforward. We provide support to help you migrate from legacy systems, ensuring a smooth and efficient upgrade process.

What are the main benefits of using a Medium Voltage VFD?

A closed-loop system, using an encoder for feedback, is necessary for applications that require the highest degree of precision. This includes machinery needing exact speed synchronization (master-follower systems), precise positioning tasks, and maintaining constant torque at zero speed, such as in crane applications.

How does a high-performance drive help reduce energy costs?

While all VFDs save energy by matching motor speed to load demand, a high-performance drive further optimizes efficiency. Its precise control minimizes wasted energy during acceleration and deceleration and operates the motor at its most efficient flux level for any given torque, leading to additional energy savings.

Can these VFDs be used for multi-motor synchronization?

Yes, our high-performance VFDs excel in multi-motor applications. With advanced vector control and optional closed-loop feedback, they ensure precise speed and torque synchronization, crucial for complex systems like web handling or multi-section conveyors.