MT 6020 utilizes FPGA as its computing core and can simulate controlled objects with a step size as small as 1μs. It creates a safe and convenient experimental testing environment for users in the electric power and energy industries, assisting in the quick verification of control algorithms, testing under fault conditions, and obtaining experimental waveforms. With just three steps, users can easily get started and significantly improve the efficiency of new product technology research, control algorithm optimization, product iteration, and post-testing.
A brand-new self-developed hardware architecture based on the ZYNQ-7100 SOC chip, equipped with dual-core ARM CPU and a large-capacity FPGA chip. It is accompanied by a power electronics small-step real-time simulation solver that has been researched and optimized for many years, enabling single-machine support for larger-scale power electronic systems. Additionally, it is equipped with fiber optic interfaces, facilitating multi-machine parallelization. This provides research and testing personnel with a powerful power electronics semi-physical simulation system, enabling scientific research innovation.
It supports synchronous cascading of optical fibres to achieve parallel simulation of multiple FPGAs, and makes use of the ultra-low latency of optical fibre signal transmission to improve the accuracy of model segmentation and parallel simulation, so that it is not afraid of the challenge of large-scale simulation of power electronic systems!
Support high-speed optical fibre expansion, 8-way SFP+, to meet the higher requirements of equipment manufacturers for large system testing, multi-device cascade testing.
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