Trends towards PC-based computing platforms have given a path to innovate advanced, model-based control algorithms for the control of wind energy conversion systems. These advanced models allow us to gain increased reliability and improved efficiency. This work is focused on the digital signal processor based implementation aspects of a variable speed, grid connected; squirrel cage induction generator based wind energy conversion systems. Control design using a voltage source converter at the machine side have been described, designed, modeled and analyzed. A comprehensive analysis of the designed system is performed in terms of the active power harnessed, power quality and reactive power control. Optimal power point operation has been implemented so that highest available power is harnessed for varying wind velocities. A 2.2kW prototype with back to back connected voltage source converter has been implemented in hardware using TMS320F2812 digital signal processor. The experimental results illustrate the excellent performance of the system.

中文翻译：

---

基于鼠笼式感应发电机的风能转换系统的控制实现

基于PC的计算平台的趋势为创新用于控制风能转换系统的基于模型的高级控制算法提供了一条途径。这些先进的模型使我们获得了更高的可靠性和更高的效率。这项工作集中在基于变速，并网的数字信号处理器的实现方面。基于鼠笼感应发电机的风能转换系统。已经描述，设计，建模和分析了在机器侧使用电压源转换器的控制设计。对设计的系统进行了综合分析，包括有功功率利用，功率质量和无功功率控制。已实现最佳功率点操作，以便利用最大可用功率来改变风速。A2。使用TMS320F2812数字信号处理器在硬件中实现了具有背靠背连接的电压源转换器的2kW原型。实验结果说明了该系统的优异性能。