Automated Test Equipment

High Power Amplifiers – Compact, Efficient, and Reliable

Zepco’s high-power amplifiers are engineered for precision, performance, and space efficiency. Built with digitally controlled high-frequency PWM converters, they deliver high output in a compact form, making them ideal for space-constrained environments.

Key Features & Benefits

All-in-One Shaker Power Solution
• Powers all three critical components of electrodynamic shaker systems:
  – Armature power supply
  – Field control power supply
  – Anti-magnetic power supply

Improved Shaker Performance
• Precise digital control ensures accurate and repeatable vibration test results
• High power density enables stronger acceleration and vibration with optimized energy consumption

Advanced Power Electronics (SiC Technology)
• Utilizes Silicon Carbide (SiC) switches for superior efficiency and compact system design

Fully Digital & Adaptive Control
• Advanced digital control algorithms enable rapid tuning across different shaker platforms
• Compatible with shaker systems from multiple manufacturers for universal adaptability

Energy Efficient & Cost-Effective
• Lower energy consumption reduces operational costs
• Reduced wear and tear minimizes maintenance and extends equipment life

Reliable & Stable Operation
• Designed for continuous operation with minimal failure risk
• Ensures consistent and dependable testing performance

User-Friendly Operation
• Modern HMI and network interface for seamless local and remote control
• Configurable interlocks for integration with chillers, cooling systems, and safety feedback mechanisms

Compact Footprint
• Optimized design saves valuable floor space in laboratories and testing centres

Summary
Zepco’s high-power amplifiers combine compact design, advanced digital control, and energy-efficient performance to deliver reliable, high-precision vibration testing solutions. They are ideally suited for aerospace, automotive, electronics, and other industries requiring performance, precision, and adaptability.