The California Instruments Sequoia Series combines intelligence and flexibility with high power to create an advanced platform of AC solutions. Using a state-of the-art SiC power switching architecture, this full four quadrant product combines compactness, robustness, and functionality in a floor-standing chassis.
This easy-to-configure power product covers a wide spectrum of single and multi-phase AC or single channel and multi-channel DC power applications at an affordable cost. With the add-on electronic load option, the Sequoia Series can support additional advanced renewable energy simulation and test requirements.
Features and Capabilities:
- Dual Voltage ranges that support over voltage testing on 480V based systems
- Instrument Setups for quickly re-establishing the known instrument state
- 500uS time resolution for Transients
- Virtual Panels control software included
- Non-Linear current waveform programming during Load mode
- Phase coordination among multiple units (LKM/LKS)
- Powerful set of analog controls for PHIL and Modulation tests
- Trigger In & Out to permit extensive coordination with external systems
- Extensive Onboard diagnostics
- Digital I/O, including RS232, USB, Ethernet (GPIB optional)
- Intuitive 5” color display for ease of navigation
- Auto-paralleling for maximum flexibility with multi-chassis configurations
- Separate terminal blocks for single phase and 3 phase outputs
Download AMETEK Programmable Power's newest white paper here to learn more about the Sequoia Series.
- Power Conditioning Equipment Testing
- Grid Interactive Green Energy & Distributed Power Generation
- Avionics & Shipboard Electronics Testing
- Regulatory Compliance Testing
- Electric Vehicle (EVSE, V2G) Testing
- Manufacturing Line Testers
- Advanced Renewable Energy Simulation and Testing
- Regenerative load mode is one of the optional programmable configurations. This mode is designed to provide precisely controlled non-linear loads for testing AC power generation equipment.
- The Sequoia Series load mode can accurately simulate real-world load conditions, including high crest factor and variable power factor loads.
