下载OPAL-RT最新软件
最新版本:2024.3.1
Fully integrated with MATLAB/Simulink®, RT-LAB offers the ability to bring the most complex model-based designs into a real-world interactive environment.
Compatible hardware platforms: all platforms using OPAL-RTLinux 64-bit operating system, i.e. OP4512 and all hardware of the OP4000XG and OP5000XG Series.
For all other platforms download RT-LAB 2024.1 LTS below
New features and improvements
- Added support for MATLAB R2024a across all toolboxes.
- Enhanced stability in target management.
- Improved FPGA Scope workflow by enabling direct signal selection in ScopeView.
- FPGA-based power systems and power electronics toolbox:
- eHS: Now supports Frequency dependent line, Half-line for CPU/FPGA decoupling, 3-level NPC, and 3-level T-Type in eHS Gen5 solver.
- MMC: Includes new example models.
- Dashboards:
- Introduced New Tab Group widget for streamlined data visualization with organized tabs.
- Users can now edit user-defined Python scripts directly within the application and execute them using the Button widget.
- EXata CPS:
- Streamlined workflow for configuring and interfacing EXata CPS with RT-LAB.
- Enhanced Modify Packet Attack model with additional filters for selecting packets to modify and support for executing multiple attack specifications simultaneously.
RT-LAB 2024.1 LTS
This is the Long Term Support (LTS) version of RT-LAB for older hardware platforms. You must use this version if your hardware platform is an OP4510v2 or part of the OP5000 (not XG) Series. These older systems run the Red Hat Linux or OPAL-RTLinux 32-bit legacy operating systems.
Read all about OPAL-RT 32-bit OS obsolesce, OPAL-RTLinux and RT-LAB LTS here.
Upgrade options
To use the latest versions of RT-LAB you have some upgrade options:
- Upgrade an OP5707 to an OP5707XG
- Upgrade an OP4510v2 to an OP4512
Discover how upgrading to XG Series delivers unmatched performance.
Contact us for a system assessment and upgrade recommendations.
最新版本:2024.3.0
HYPERSIM is an extensively field-tested simulation software platform for both power systems and power electronics, enabling the most demanding utilities, manufacturers and research centers to run faster, more realistic tests in order to meet the rapidly evolving requirements of the energy sector.
Compatible hardware platforms: all platforms using OPAL-RTLinux 64-bit operating system, i.e. OP4512 and all hardware of the OP4000XG and OP5000XG Series.
For all other platforms download HYPERSIM 2024.1 LTS below
New features and improvements
- Support of the new FPGA Processor Units: OP4800 Series
- Introduction of a new FPGA-based Multirate Half-Line example model
- Importing Power Factory models to HYPERSIM is now supported
- Introduction of the Control Smart Inverters library designed to meet the requirements of IEEE Std. 1547-2018
HYPERSIM 2024.1 LTS
This is the Long Term Support (LTS) version of HYPERSIM for older hardware platforms. You must use this version if your hardware platform is an OP4510v2 or part of the OP5000 (not XG) Series. These older systems run the Red Hat Linux or OPAL-RTLinux 32-bit legacy operating systems.
Read all about OPAL-RT 32-bit OS obsolesce, OPAL-RTLinux and HYPERSIM LTS here.
Upgrade options
To use the latest versions of HYPERSIM you have some upgrade options:
- Upgrade an OP5707 to an OP5707XG
- Upgrade an OP4510v2 to an OP4512
Contact us for a system assessment and upgrade recommendations.
最新版本: 1.15.0
OPAL-RT推出的电力电子工具包 Power Electronics Add-On(PEA),是一个强大的基于FPGA的仿真工具,适用于NI VeriStand平台,用于电力电子和电动运输应用的控制器硬件在环(HIL)测试。PEA将OPAL-RT 的eHS解算器成功移植到NI软硬件平台上,创建了灵活可扩展的HIL测试系统。更多信息请参考最新的 版本说明 。
Features
- The OPAL-RT Power Electronics Add-On (eHS) for VeriStand, a powerful floating-point solver that enables users to simulate electric circuits on FPGA simply and without having to write any code or mathematical equations
- High fidelity FPGA models of machines and sensors including integration of Finite Element Analysis (FEA) tables
- Sub-microsecond simulation time-steps
- Create and automate scenario test cases with on-the-fly changes to the FPGA model
- Simple and intuitive user interfaces (UIs) for connecting the electrical model inputs and outputs to high speed Input/Output (IO) to create an interface between the simulated model and a real Device Under Test (DUT)
- Signal generation engines (sinewave, pwm, sinewave PWM) built directly into the FPGA design to generate control signals for open and/or closed loop testing
- Compatibility with the NI VeriStand ecosystem which includes support for automotive communication protocols (CAN, XNET, FlexRay), data acquisition hardware (DAQ), simulation models, procedures, signal conditioning via SLSC, and more.
Latest Version : 1.0.0
The OPAL-RT Cell Monitoring Device Emulation (CMDE) Add-On for NI VeriStand is a powerful FPGA-based simulation tool for Hardware-in-the-Loop (HIL) testing of modern Battery Management Systems (BMS) used in power electronics applications. This tool facilitates rapid testing and validation of BMS by emulating battery cells and BMS chipset register commands using isoSPITM technology, while maintaining the integrity of the SPI communication daisy-chain. Please refer to the most recent Release Notes for more information.
Features
- FPGA-based Emulation: Enables accurate emulation of commercial cell monitoring devices while providing a realistic digital bus interface to the device under test.
- Expanded Test Coverage: Includes fault simulation capabilities such as temperature faults, open wires, broken communication links, and CRC errors, all without compromising security.
- Cost and Time Efficiency: Reduces the need for numerous physical cell emulators by virtualizing commercial integrated circuits designed for cell monitoring, while preserving isoSPI™ communication links.
- User-Friendly Interfaces: Offers simple and intuitive user interfaces for connecting emulated cell monitoring devices to cell chemistry models built in various modeling environments such as MathWorks Simulink, NI LabVIEW, and more.
- NI VeriStand Compatibility: The CMDE Add-On integrates seamlessly into the NI VeriStand platform, which supports automotive communication protocols (CAN, XNET, FlexRay), data acquisition hardware (DAQ), simulation models, and signal conditioning via SLSC, among other features.
Access our user documentation or contact us for help! We’re committed to helping you maximize the potential of your system!