An Adaptive Slope Compensation Circuit for Peak Current Mode of Boost Switching Power Supply

Fu Lin, Xianguo Cao
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Abstract

Based on the analysis of the basic principle of slope compensation, a high-precision adaptive slope compensation circuit for peak current mode boost DC/DC converter is designed. The circuit dynamically detects the input and output voltage of the boost circuit to realize automatic adjustment of the compensation amount with the change of duty ratio, which makes the ramp compensation slope optimized. The design uses a high-precision subtracter to improve the accuracy of slope compensation. While eliminating sub-slope oscillation and improving the stability of boost circuit, the negative impact of compensation on boost circuit is minimized, and the load capacity and transient response speed of boost circuit are guaranteed. The circuit is designed based on SMIC 0.18um CMOS technology, with simple structure, high reliability and easy engineering implementation. Spectre circuit simulator 17.1.0.124 64b simulation results show that the circuit has high compensation accuracy and wide input and output voltage range. When the working voltage is 3.3 V, the compensation slope can be adjusted adaptively under different duty cycles, and the minimum error between the compensation slope and the theoretical optimal compensation slope is only 0.42%.
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升压开关电源峰值电流模式的自适应斜率补偿电路
在分析斜率补偿基本原理的基础上,设计了一种适用于峰值电流型升压DC/DC变换器的高精度自适应斜率补偿电路。该电路动态检测升压电路的输入输出电压,实现补偿量随占空比变化的自动调节,使斜坡补偿斜率得到优化。设计采用高精度减法,提高了坡度补偿的精度。在消除亚斜坡振荡和提高升压电路稳定性的同时,最大限度地减少了补偿对升压电路的负面影响,保证了升压电路的负载能力和瞬态响应速度。该电路采用中芯国际0.18um CMOS技术设计,结构简单,可靠性高,易于工程实现。Spectre电路模拟器17.1.0.124 64b仿真结果表明,该电路补偿精度高,输入输出电压范围宽。当工作电压为3.3 V时,补偿斜率可在不同占空比下自适应调节,补偿斜率与理论最优补偿斜率之间的最小误差仅为0.42%。
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