Product Overview

The Battery Emulator with up to 24 channels is an advanced tool designed for Hardware-in-the-Loop (HIL) testing, offering precise emulation of battery systems for in-depth validation of Battery Management System (BMS) algorithms. This highly configurable emulator enables efficient testing of battery packs without the need for physical cells, making it ideal for validating algorithms and ensuring the safety and performance of battery systems in various applications like electric vehicles and energy storage solutions.

Key Features and Applications:

  1. Supports up to 24 channels, allowing simultaneous testing of multiple cells or battery packs for comprehensive system evaluations.
  2. Designed for HIL testing, accurately mimicking battery behaviour to validate BMS and powertrain systems.
  3. Facilitates SOC algorithm validation, ensuring precise calculation of state-of-charge under varying conditions.
  4. Enables cell balancing algorithm validation, improving the efficiency and longevity of battery packs.
  5. Validates safety interlocks, ensuring robust system protection during charge, discharge, and thermal management.
  6. Emulates various battery chemistries and voltage levels, allowing flexibility across different battery designs.
  7. Offers a safe testing environment, eliminating the need to handle live battery packs and reducing testing risks.
      

This battery emulator is a crucial asset in validating and optimizing the performance, safety, and efficiency of modern battery systems, enhancing the development process of electric vehicles, energy storage solutions, and other battery-dependent applications.

Equipment Purpose:

  • Simulate battery systems with up to 24 channels for accurate emulation of real-world battery behavior in testing environments.
  • Programmable battery simulation for precise control of voltage and current on each channel, ideal for Battery Management System (BMS) testing.
  • High accuracy and low-power operation, allowing for detailed validation of BMS algorithms like State-of-Charge (SOC) calculation and cell balancing.
  • Multi-channel integration (18 to 24 channels), enabling comprehensive testing of entire battery modules or packs.
  • Scalable testing by connecting multiple units in series to simulate higher voltage battery packs.
  • High-definition LCD display for easy local operation and configuration of each channel’s parameters.
  • User-friendly software interface for remote setup of voltage and current settings, providing real-time monitoring, data analysis, and reporting capabilities.
  • Suitable for HIL testing, providing safe, accurate, and efficient testing environments without the need for physical batteries.
  • Multi-functional equipment that can also serve as a high-accuracy DC power supply for additional testing needs.
  • Graphical data representation, enabling thorough analysis and detailed reports for research, development, and system optimization.