Haefely PCD130

The Haefely PCD130 is a cutting-edge Coupling/Decoupling Network (CDN) specifically engineered to comply with international standards such as IEC, EN, and ANSI. This robust instrument excels in testing both 3-phase AC and DC power ports, ensuring comprehensive compliance with essential electrical safety regulations.

Key Features:

• Three high voltage inputs for extensive testing capabilities.
• Combination wave 1.2/50 µs - 8/20 µs for diverse applications.
• Ring wave 100 kHz for enhanced stability and accuracy.
• Maximum impulse voltage of 8 kV to manage high-voltage testing.
• Line voltage rating of 690 Vac phase-phase, providing flexibility for various setups.
• 32 A EUT current per phase, allowing the connection of substantial loads.
• Phase angle synchronization for precise and reliable results on each path.

Highlights:

• International applicability, strictly adhering to the requirements of IEC, EN, and ANSI standards.
• Automatic synchronization path switching, ensuring safe and effortless testing procedures.
• Full 32 A capability supports both AC and DC loads, efficiently managing the testing process.
• Engineered for durability, the PCD130 is crafted from reliably selected components for consistent performance.
• Multiplexed inputs facilitate continued testing and faster completion of testing programs.

Applications:

• Single and three-phase power line systems.
• IEC 61000-4-5 Edition 1 & 2 power line testing.
• IEC 61000-4-12 power line testing.
• ANSI C62.41 & C62.45 power line testing.
• Various IEC and EN product standards.

Specifications:

• Maximum Impulse Voltage: 8 kV
• Maximum AC Voltage: 690 V RMS (Phase-Phase)
• Maximum DC Voltage: 110 V
• Maximum AC Current: 32 A RMS
• Maximum DC Current: 32 A
• Residual Voltage at Test Supply Input: max. 15% of applied impulse voltage
• EUT Connections: 4mm HV Safety sockets for enhanced user safety
• Phase Synchronization follows coupling path with an accuracy of ±1°
• Coupling Elements and paths are efficiently managed by the PSURGE 8000 system
• Power Supply: 85 – 264 V, 50/60 Hz
• Voltage Drop due to Decoupling Inductors: +/- 10% at max current and cos φ +/- 0.7