基于TPS40210电源控制器的单片机升压电路设计
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摘要
为了克服传统升压电路体积大、能耗大的缺点,设计一种基于TPS40210电源控制器的单片机升压电路。该系统采用C语言进行编程,硬件基于51单片机制作多量程电压表,对升压结果进行仿真检测,在LCD1602显示屏上显示。升压部分导出PCB板,完成对其输出信号进行实物焊接,并进行检测及分析。实际应用表明,该系统具有操作简便、测试准确的特点,达到了设计要求。
To overcome the disadvantages of large volume and high energy consumption of traditional boost circuit, a boost circuit based on Single Chip Microcomputer of TPS40210 Power Control Unit was designed. The system is programmed in C, and the hardware is based on 51 single-chip microcomputer to make multi-scale voltmeter, and the result is simulated and tested on LCD 1602 display. The lifting parts export the PCB board, complete the physical welding of the output signal, and conduct the inspection and analysis. The practical application shows that the system has the characteristics of simple operation and accurate test, and achieves the design requirement.
To overcome the disadvantages of large volume and high energy consumption of traditional boost circuit, a boost circuit based on Single Chip Microcomputer of TPS40210 Power Control Unit was designed. The system is programmed in C, and the hardware is based on 51 single-chip microcomputer to make multi-scale voltmeter, and the result is simulated and tested on LCD 1602 display. The lifting parts export the PCB board, complete the physical welding of the output signal, and conduct the inspection and analysis. The practical application shows that the system has the characteristics of simple operation and accurate test, and achieves the design requirement.
引文
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[2]Zhang Z,Thomsen OC,Andersen M A E.Soft switched dual-input DC-DC converter combining a boost-half-bridge cell and a voltage-fed full-bridge cell[J].IEEE Transacions on Power Electronics,2013,28(11):4897-4902.
[3]饶远.一种同步Boost转换器芯片的研究与设计[D].广州:暨南大学,2014.
[4]欧健.基于PWM/PSM的低输入升压DC/DC变换器芯片的设计[D].西安:西安电子科技大学,2013.
[5]曹子林,陈戈珩,李文秀.一种优化逆变电源直流变压电路[J].长春工业大学学报:自然科学版,2012(2):155-158.
[6]孙晋坤,刘庆丰,冷朝霞,等.DC/DC变换器的效率特性及其相关问题研究[J].西安理工大学学报,2013,29(2):197-201.
[7]Tseng K C,Huang C C.High step-up high-efficienc yinter leaved converter with voltage multiplier module forrene wable energy system[J].IEEE Transactions on,Industrial Electronics,2014,61(3):1311-1319.
[8]Chawalit Tipagornwong,Miguel Figliozzi.Analysis of competitiveness of freight tricycle delivery services in urban areas[J].Journal of the Transportation Research Board,2014,2410(9):76-84.
[9]HU Xue-feng,GONG Chun-ying.A high gain input-parall eloutput-series DC/DC converter with dual coupled inductors[J].IEEE Transactions on,Power Electronics,2015,30(3):1306-131
[10]Ran jana M S B,Reddy N S,Kumar R K P.A novel high gain floating output DC-DC multilevel boost converter for fuel cell applications[C]//Circuit,Power and Computing Technologies(ICCPCT),2014 International Conference on.IEEE,2014:291-295.
[11]Ananda Mani Paudel,Philipp Kreutz-mann.Design and performance analysis of a hybrid solar tricycle for a sustainable local commute[J].Renewable and Sustainable Energy Reviews,2015(41):473-482.
[12]王磊,郭瑞,杨玉岗.光伏微逆变器前级磁集成高增益直流变换器研究[J].电源学报,2016,14(3):108-117.
[13]Wang Lei,Guo Rui,Yang Yu gang.Research on integrated magnetic high-gain Pre-DC-DC converter for PV microin verter[J].Journal of Power Supply,2016,14(3):108-117.
[14]SHEN Jian,LIU Hong-peng,WANG Wei,Research on highstep-up ratio DC-DC converter[J].Journal of Power Supply,2014,12(5):1-6.
[15]ZHOU Ze-kun,ZHU Pei-sheng,SHI Yue,et al.Aresistorless CMOS voltage reference based on mutual compensation of VT and Vth[J].IEEE transactions on,Circuits and Systems,2012,59(6):341-345.
[16]YING Yi-yan,Fred C.Lee.Analysis and design of average current mode control using a describingfunction-based equivalent circuit model[J].IEEE Transations on,Power Electronics,2013,10(28):4732-4741.