电力电子技术DC-DC Cuk的仿真电路,可以拿来学习。 学习资料:https://blog.csdn.net/qq_39400324/article/details/122434129
2022-11-07 10:16:16 23KB 电力电子技术 Cuk Simulink DC-DC
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基于STM32的双向DC-DC变换器.zip
2022-11-04 00:41:42 57.43MB
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基于stm32的高效boost电路程序 开发环境是keil5
2022-11-01 14:58:45 8.28MB C语言 keil stm32 Boost
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本文设计了主电路参数并在MATLAB/Simuhnk环境下进行了仿真。本文还提 出了以MC9512D64为核心的双向DC/DC变换器控制板和控制器的硬件、软件的完 整的设计方案。充电采用恒流充电和恒压充电相结合的控制策略,实现单体电池 电压控制,提高了充放电控制性能和安全性。充放电系统样机测试结果表明:满 载时,系统效率80 以上,功率因数99 以上,谐波含量5 以下,满足设计要求, 验证了系统设计的可行性。
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MPS_MP8859 带I2C控制的集成DC DC 升降压变换器.zip
2022-10-24 20:31:19 248KB MPSMP8859 I2C 控制 集成
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基于simulink的双向DCDC仿真,实现高压转低压给蓄电池充电,蓄电池放电可反向升压回馈电网。
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Two demos illustrate use of SimPowerSystems for modeling a PV array connected to a utility grid. PVarray_Grid_IncCondReg_det.mdl is a detailed model of a 100-kW array connected to a 25-kV grid via a DC-DC boost converter and a three-phase three-level Voltage Source Converter (VSC). Maximum Power Point Tracking (MPPT) is implemented in the boost converter by means of a Simulink model using the “Incremental Conductance + Integral Regulator” technique. PVarray_Grid_PandO_avg.mdl is an average model of a 200-kW array connected to a 25-kV grid via two DC-DC boost converters and a single three-phase VSC. The MPPT controller based on the “Perturb and Observe” technique is implemented by means of a MATLAB Function block that generates embeddable C code.
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这个一个关于储能电池充放的仿真,电路采用了DC_DC变换控制。
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