Power Electronics

Power-Electronics-Rapid-Development

Power Electronic Services

We provides custom power electronics hardware solutions to universities and research institutions around the world, reducing their development time and R&D Cost. Our hardware is customized to interface directly with the controller of your choice giving you a ready to use solution directly out of the box. Moreover, the system can be configured in a desktop or rack mount enclosure option, with professional wiring and build quality to reduce failure and safety hazards. If you are working on a research project or setting up a power electronics lab, our solutions will suit your needs perfectly.

PELab Overview

PELab Overview

The PELab is a modular power electronics development system that connects to multiple controllers and real-time HIL simulator simultaneously. The PELab can operate in multiple modes that make the research and development cycle faster. It features fully isolated measurements that can connect to oscilloscopes directly without any probes and includes advanced protection features such as SCP, OCP, OVP & OTP. The PELab also includes an industrial-grade embedded controller based on ARM Cortex M7/M4 dual-core microcontroller with an integrated 5″ touch display and multiple communication ports. The PELab can be ordered with various commonly used power electronics topologies, while the banana connectors on the back panel enable different application circuit configurations.

PELab Overview

PELab Operation Modes

The PELab accelerates the power electronics research and development by enabling a single setup for all the validation stages in the R&D cycle. The operation mode can be selected using the knob on the front panel. A multiplexing logic routes the analog and digital signals between three controllers and two targets. The targets are either the actual power electronics hardware inside the PELab or a simulated power electronics inside the real-time simulator. This enables seamless shifting between the different validation stages as shown below.

The real-time simulator will simulate the whole system and send the analog measurements to the PELab. In return, the PELab will send the OCP and OVP signals to the simulator; which are then included in the simulation to make it as close as possible to the hardware implementation.

Simulation Monitoring

Next, the real-time simulator is operated as an RCR the PELab will be in HIL to Power
mode, and the PWM signals will be generated by the real-time simulator and will go to
the power electronics hardware inside the PELab.

Simulation Monitoring

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Available Topologies and Configurations

PELab-6PH

PElab-6PH

Configurations:

  • 200-800V DC Link
  • 8-50A Leg Current
  • SiC, MOSFET or IGBT Switches
  • Optional Inductors, EMC Filter & Relays

Applications:

  • Bidirectional EV Charger
  • Modular Multilevel Converter
  • Cascaded H-Bridge Converter

PELab-MMC

PElab-6PH

Configurations:

  • 200-800V DC Link
  • 8-50A Leg Current
  • SiC, MOSFET or IGBT Switches
  • Optional Inductors, EMC Filter & Relays

Applications:

  • Bidirectional EV Charger
  • Modular Multilevel Converter
  • Cascaded H-Bridge Converter

PELab-TNPC

PElab-6PH

Configurations:

  • 200-800V DC Link
  • 8-50A Leg Current
  • SiC, MOSFET or IGBT Switches
  • Optional Inductors, EMC Filter & Relays

Applications:

  • 3-Level Motor Drives
  • Solar 3-Level Grid-Tie/Off-Grid Inverters
  • Hybrid Inverters

PELab-NPC

PElab-6PH

Configurations:

  • 200-800V DC Link
  • 8-50A Leg Current
  • SiC, MOSFET or IGBT Switches
  • Optional Inductors, EMC Filter & Relays

Applications:

  • 3-Level Motor Drives
  • Solar 3-Level Grid-Tie/Off-Grid Inverters
  • Hybrid Inverters

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Internal Embedded Controller Options

Internal Embedded Controller Options

High-Performance Architecture

Programming

c language

Performance & GUI

480MHz (M7) / 240MHz (M4), Dual-Core
5″ Touch Display

Analog

16CH, 250ksps @ 16-Bit, ±10V Input
Simultaneous Sampling
High-Accuracy Dedicated ADC Chips

Communications

LAN, CAN, RS-485, Fiber Optics & Sync
High-Speed USB for DAQ

Rapid Control Prototyping

Programming

200MHz, Dual-Core

Performance & GUI

8CH, 360KSps @ 16-Bit, ±10V Input
8CH, 430KSps @ 12-Bit, ±10V Input

Analog

CAN, Fiber Optics & Sync

Communications

Rapid Control Prototyping

Resources & Support

The PELab is supported by embedded C libraries (for PEController), multiple application examples and a getting started guide.

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