Design of Single Input Multiple Output Buck Converter with Light Load Efficiency

VOLUME-8 ISSUE-10, AUGUST 2019, REGULAR ISSUE Pub Date : 2021-06-30 DOI:10.35940/ijeat.e2787.0610521

Pragnya R Mogha, Manish. G. Rathi

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Abstract

The major demand for portable electronics devices such as pagers, laptops, cellular phones etc. Single input multiple output (SIMO) converter will be proposed to give different supply voltages while keep up prolong battery life. A single-discharge (SDC) control scheme is introduce to simplify the Single inductor multiple output design, attain to low cross regulation, and to support board range of loads with decent efficiency of power. A Single discharge control single input multiple output buck converter with 4 outputs composed of comparators, phased-locked loop, finite state machine (FSM) controller, and an output stage. In addition to the basic switching functions, the FSM controller provides a state skipping feature to allow no-load regulation. Single input multiple output converter is available for less cost and used for maintaining long battery life and they are growing in vast range with rich feature portable electronic device. The design of converter is designed for limited range for prolonged battery life. The SIMO converters are used for the reduction of cost and switching losses, hence improve system efficiency. In our study, we proposed buck converter topology with single input of 24v and multiple output of 12v and 5v. The 12v voltage is used for electric vehicles. In electric vehicles it is used in horns and headlights. 5v voltage is used for small signal and stability analysis. The simulated conversion efficiency for peak power is 86% the power ranging for output is 50 to 300mW. The ICs exhibit has a low measured peak efficiency of 73% and cross regulation of 0.24 mV/mA because of parasitic bond wire resistance. The proposed system is simulated in MATLAB/Simulink software.

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轻负载效率单输入多输出降压变换器的设计

主要需求的便携式电子设备，如寻呼机，笔记本电脑，手机等。单输入多输出(SIMO)转换器在提供不同的电源电压的同时延长电池寿命。为了简化单电感多输出设计，达到低交叉调节的目的，在功率效率较好的情况下支持板级负载范围，提出了单放电(SDC)控制方案。单放电控制单输入多输出降压变换器，由比较器、锁相环、有限状态机(FSM)控制器和输出级组成4个输出。除了基本的切换功能外，FSM控制器还提供状态跳变功能，允许空载调节。单输入多输出转换器的成本较低，用于保持较长的电池寿命，它们在功能丰富的便携式电子设备中广泛发展。转换器的设计是为了延长电池寿命而设计的。SIMO变换器用于降低成本和开关损耗，从而提高系统效率。在我们的研究中，我们提出了单输入24v，多输出12v和5v的降压转换器拓扑。12v电压用于电动汽车。在电动汽车中，它被用于喇叭和前灯。5v电压用于小信号和稳定性分析。模拟的峰值功率转换效率为86%，输出功率范围为50 ~ 300mW。由于寄生键合线电阻，该ic具有低测量峰效率73%和0.24 mV/mA的交叉调节。在MATLAB/Simulink软件中对系统进行了仿真。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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VOLUME-8 ISSUE-10, AUGUST 2019, REGULAR ISSUE

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