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BSS2000 - Battery Simulation Software
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BSS2000 - Battery Simulation Software



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Reference

BSS2000 Battery Simulation Software

BSS2000 Pro Battery Simulation Software, Pro Version

BSS2000M LBattery Simulation Software (multi-channel)



BSS2000 / BSS2000 Pro Battery Simulation Software

The BSS2000 series battery simulation software, including BSS2000, BSS2000 Pro, and BSS2000M multi-channel versions, is designed to work seamlessly with ITECH’s latest high-performance bidirectional DC power supplies, including:

  • IT6000B
  • IT6000C
  • IT6000PV
  • IT-M3600
  • IT-M3400
  • IT2700
  • IT6600C
  • IT6600PV
  • T-M3900B
  • IT-M3900C

Covering power ranges up to 10 MW, the solution provides comprehensive battery simulation capabilities—from low-power battery modules to high-power traction battery systems. The BSS2000 software family is specifically engineered for advanced battery testing applications. It helps reduce the cost and logistical challenges associated with purchasing, storing, and maintaining multiple physical battery types. In addition, the simulator enables rapid configuration of different State of Charge (SoC) levels without performing actual charge/discharge cycles, significantly improving test efficiency and repeatability.

Key Features

  • Battery simulation range up to 2250 V / 10 MW
  • Multi-channel battery module status simulation
  • Bidirectional regenerative battery simulation with efficiency up to 95%
  • Seamless switching between charging and discharging modes
  • Support for user-defined battery characteristic curve import
  • Rapid configuration of battery curves using standard parameter inputs
  • .mat file import support*²
  • Customizable BMS protocol with CAN bus communication to external control units
  • Built-in battery models including:
    • Lead-acid
    • Lithium-ion (Li-ion)
    • LMO
    • NMC (LNMCO)
    • LNMCO & LMO hybrid
    • LFP
    • LTO
    • NiMH*¹
  • Configurable battery protection parameters
  • Adjustable initial State of Charge (SoC) settings
  • Automated data report generation
  • Battery curve preview and real-time curve display
  • Flexible parallel expansion for higher current and power requirements
  • Support for up to 20 battery simulation channels*³

Version Notes

*¹ The BSS2000 basic version supports simulation of lead-acid and lithium-ion batteries.
*² Available in BSS2000 Pro and BSS2000M multi-channel versions.
*³ Available in the BSS2000M multi-channel version.



Functions and Advantages

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Applications

Common Battery Parameter Configuration and Functional Simulation

By integrating multiple battery modeling techniques with high-speed algorithms, the BSS2000, BSS2000 Pro, and BSS2000M provide real-time battery curve simulation capabilities.

Users are not required to understand the internal electrochemical characteristics of the battery. By simply selecting the battery type and entering a few fundamental parameters—such as full voltage, cut-off voltage, rated capacity, number of series and parallel cells, and internal resistance—the software automatically generates the corresponding battery characteristic curve.

Supported by ITECH’s high-performance hardware platforms, the system can simulate battery packs up to 1152 kW, covering demanding applications in solar PV, energy storage systems, electric vehicles (EV), and other high-power fields.

Common-battery-parameters-setting-and-function-simulation.png



Built-in Library of 8 Battery Characteristic Curves

The BSS2000 series includes a comprehensive built-in battery model library. Users only need to select the desired battery chemistry and configure basic capacity and protection parameters to quickly generate the appropriate battery characteristic curve.

  • The BSS2000 basic version supports lithium-ion and lead-acid batteries.
  • The BSS2000 Pro and BSS2000M versions support up to eight battery types:
    • Lithium-ion
    • Lead-acid
    • Lithium iron phosphate (LFP)
    • Ternary lithium (NMC)
    • Lithium manganate (LMO)
    • Lithium titanate (LTO)
    • Lithium nickel cobalt manganate (NMC)
    • Nickel-metal hydride (NiMH)

This extensive library enables fast configuration and flexible testing across a wide range of applications.

Built-in-8-battery-type-characteristic-curves.png



User-Defined Battery Characteristic Curve

The BSS2000 and BSS2000 Pro provide advanced battery curve simulation through ARB data import functionality.

Users can import measured battery charge and discharge data (CSV format) to accurately reproduce real battery behavior. This capability supports not only conventional battery technologies but also customized, specialized, or next-generation battery designs.

The result is a highly flexible and realistic simulation environment tailored to specific testing requirements.

User-defined-battery-characteristic-curve.jpg



Initial Capacity (SoC) Setting Function

The BSS2000 series battery simulator allows users to set the initial battery capacity (State of Charge, SoC) without performing actual charge or discharge cycles.

This function enables efficient evaluation of:

  • Device startup behavior under fully charged or depleted conditions
  • Energy management system performance
  • System response at different SoC levels

By eliminating the need for physical charging and discharging processes, the system significantly improves testing efficiency and repeatability.

Initial-capacity-setting-function.jpg



BSS2000

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