Design of FPGA-based sliding mode controller for low-voltage high-frequency buck converter

Rao K. Shubha, A. Prabhu, V. S. Chakravarthi
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Abstract

This paper presents the digital design of Sliding Mode Controller (SMC) for synchronous buck converter for high switching frequency and low-voltage applications. The buck converter is designed for a switching frequency of 3 MHz. It steps down an input voltage of 3.6V to an output voltage of 0.9V with duty ratio of 25% and maximum load current of 800mA. It utilizes a hybrid digital pulse width modulator (DPWM) consisting of second order sigma-delta modulator (Σ-Δ DPWM) with counter comparator block. Both digital SMC and Σ-Δ DPWM are realized and validated on Field Programmable Gate Arrays (FPGA) using Xilinx system generator tool. Using digital SMC and Σ-Δ DPWM, an Undershoot of 0.27% and Settling Time of 4μs is achieved for load variations of 0.3A to 0.4A. The performance of SM controller is compared with conventional PID controller in terms of dynamic response for load variations. It is shown that SM control provides consistent dynamic performance over a wide range of load variations.
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基于fpga的低频高频降压变换器滑模控制器设计
本文介绍了同步降压变换器的滑模控制器(SMC)的数字设计,用于高开关频率和低压应用。buck变换器的开关频率为3mhz。它将3.6V的输入电压降压到0.9V的输出电压,占空比为25%,最大负载电流为800mA。它采用一种由二阶Σ-Δ调制器(Σ-Δ DPWM)和计数器比较器块组成的混合数字脉宽调制器(DPWM)。利用Xilinx系统生成器工具在FPGA上实现了数字SMC和Σ-Δ DPWM,并进行了验证。采用数字SMC和Σ-Δ DPWM,在0.3A ~ 0.4A的负载变化范围内实现了0.27%的欠冲和4μs的稳定时间。在负载变化的动态响应方面,比较了SM控制器与传统PID控制器的性能。结果表明,在较宽的负载变化范围内,SM控制提供了一致的动态性能。
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