Performance Evaluation of a Synchronous DC-DC Boost Converter with Adjustable Output Current

Myla B. Cabanada, Jesus M. Martinez, Eryl Nico Morales, Flordeliza L. Valiente, Oliver Mallari
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Abstract

The research aims to implement a 450Watts synchronous DC-DC boost converter with an adjustable output current operation. A unit was built and tested. The power supply unit (PSU) was designed for battery charging applications and designed to perform in continuous conduction mode and to operate at two modes: constant-voltage (CV) and constant-current (CC). Initially the PSU was operating at CV Mode. Once the PSU reached the current limit, power supply operates at constant current mode, the power supply acts as a current source with varying output voltage depending on the value of the load resistance. The PSU uses the inherent fault protections of main controller such as cycle-by-cycle current limiting, inrush current limiting, hiccup mode short circuit/overload protection, and the researchers implement over-voltage protection (OVP), over-temperature protection (OTP), and reverse polarity protection (RPP) by using additional comparator circuitry. The results presented in this study show that the design is has a regulated output voltage of 53.9V with maximum of 236mV peak-to-peak voltage ripple and 120mA peak-to-peak current ripple which was measured at full load condition. Through the constant voltage test, the unit can maintain a constant output current from 2A up to 8A by adjusting the potentiometer. The 96% efficiency was achieved at 3A load from an input voltage range of 11.34V to 13.86V.
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输出电流可调的同步DC-DC升压变换器的性能评价
该研究旨在实现具有可调输出电流操作的450瓦同步DC-DC升压转换器。制造并测试了一个单元。电源单元(PSU)是为电池充电应用而设计的,设计用于连续传导模式,并在两种模式下工作:恒压(CV)和恒流(CC)。最初,PSU在CV模式下工作。一旦PSU达到电流极限,电源在恒流模式下工作,电源作为电流源,根据负载电阻的值产生不同的输出电压。PSU使用主控制器固有的故障保护,如周期限流、涌流限流、打嗝模式短路/过载保护,研究人员通过使用额外的比较器电路实现过压保护(OVP)、过温保护(OTP)和反极性保护(RPP)。本研究结果表明,该设计具有53.9V的稳压输出电压,最大电压峰纹波为236mV,最大电流峰纹波为120mA,在满载状态下测量。通过恒压测试,通过调整电位器,可保持输出电流从2A到8A的恒定。在输入电压范围为11.34V至13.86V的3A负载下,效率达到96%。
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