本篇論文提出一個雙向諧振切換式電容直流-直流轉換器,改善了最初充電電荷泵浦無法穩壓以及無法調整輸出電壓的缺點,在電路中加入了諧振電感,優化了最小Block的轉化效率,使整體效率達到90%以上,在輸出部份加入電感,使電路可以在n倍壓與n+1倍壓間調整,輸出電壓可根據負載需求做自由調整。 本論文實驗電路為兩組切換式電容電路,順向升壓時可以透過一個固定的輸入電壓源來做多組輸出,加入輸出電感,輸出電壓增益範圍約在 2.2倍壓至 2.8 倍壓之間做調整,若移除輸出電感,輸出電壓增益可達到3倍壓;逆向降壓時則可以透過3個電容將輸入電壓由 2/3倍至 1/3 倍做降壓。電路的主體以充電電荷泵浦(Charge Pump)為基礎,結合切換電容式轉換器(Switching Capacitor Converter)架構來作為此論文的主電路,利用輸出電感之設計變化,可以藉由讓電感工作在連續導通區間(CCM)與不連續導通區間(DCM)來調整順向輸出電壓。輸出電壓調整可以藉由改變上臂開關之責任週期 D(Duty Cycle)來讓輸出達到 2+D 倍的效果。本文設計之轉換器與羅轉換器(Luo Converter)相比,不僅降低元件數還提升了輸出之可調性;與傳統 2+D 倍轉換器相比,傳統架構調整頻率(Frequency)所得到電壓調幅是狹隘的 。 若改為調整責任週期,可讓電壓轉換做大幅調整也因為如此效率也大大提升。 ;This study proposed a Bi-Directional Switching-Capacitor based on DC to DC Resonance Converter with Adjustable Output Voltage. Improve the shortcomings of the initial electric charge pump can’t be regulated and the inability to adjust the output voltage. In the circuit, we added the resonant inductor to optimizing the conversion efficiency of the smallest Block, and the overall efficiency of over 90%. We developed 2 switched capacitors capable of multiple outputs ranging from 2.2 to 3 times the input voltage based on a fixed input voltage source during forward boost with output ranging from about 1/2 to 1/3 times the input voltage during reverse buck. The main part of the circuit is based on a charge pump, combining the structure of a switched-capacitor DC/DC converter as our main circuit. The inductor at the output terminal was designed to work between continuous conduction mode (CCM) and discontinuous conduction mode (DCM) to enable the adjustment of forward output voltage. Output voltage can be altered by modifying the duty cycle (D) of the upper-arm MOS switch, thereby enabling the output to reach 2 + D voltages.
