• Title/Summary/Keyword: Pulse-width modulation DC-DC converter

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High-Efficiency Full-Bridge DC-DC Converter with Current-Doubler Rectifier with Asymmetric Pulse-Width Modulation (비대칭 펄스 폭 변조 방식의 배전류 정류기 회로를 적용한 고효율 풀-브릿지 DC-DC 컨버터)

  • Yang, Min-Kwon;Choi, Woo-Young
    • The Transactions of the Korean Institute of Power Electronics
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    • v.20 no.3
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    • pp.280-289
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    • 2015
  • A high-efficiency full-bridge DC-DC converter with a current-doubler rectifier and an asymmetric pulse-width modulation is proposed. Through the asymmetric pulse-width modulation, the proposed converter achieves zero-voltage switching of power switches without the circulating currents. The proposed converter reduces the output current ripple through the current-doubler rectifier. A control strategy is suggested for the proposed converter to charge battery banks. A constant current and constant voltage charging is performed. The proposed converter achieved a higher efficiency compared with the conventional full-bridge DC-DC converter with a phase-shift modulation. The performance of the proposed converter is evaluated by the experimental results for a 1.0 kW prototype circuit.

A Study on the Design of a Pulse-Width Modulation DC/DC Power Converter

  • Lho, Young-Hwan
    • International Journal of Aeronautical and Space Sciences
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    • v.11 no.3
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    • pp.201-205
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    • 2010
  • DC/DC Switching power converters are commonly used to generate regulated DC output voltages with high-power efficiencies from different DC input sources. A switching converter utilizes one or more energy storage elements such as capacitors, or transformers to efficiently transfer energy from the input to the output at periodic intervals. The fundamental boost converter studied here consists of a power metal-oxide semiconductor field effect transistor switch, an inductor, a capacitor, a diode, and a pulse-width modulation circuit with oscillator, amplifier, and comparator. A buck converter containing a switched-mode power supply is also studied. In this paper, the electrical characteristics of DC/DC power converters are simulated by simulation program with integrated circuit emphasis (SPICE). Furthermore, power efficiency was analyzed based on the specifications of each component.

An Efficiency-Optimized Modulation Strategy for Dual-Active-Bridge DC-DC Converters Using Dual-Pulse-Width-Modulation in the Low Power Region

  • Byen, Byeng-Joo;Ban, Chung-Hwan;Lim, Young-Bae;Choe, Gyu-Ha
    • Journal of Power Electronics
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    • v.17 no.6
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    • pp.1413-1421
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    • 2017
  • In order to control the output voltage in a dual active bridge converter, this paper establishes a theoretical inductor current equation for a dual-pulse-width-modulation scheme that ensures low switching loss. It also proposes a modulation strategy that minimizes conduction loss. When compared to the conventional single-pulse-width-modulation strategy, the proposed approach can reduce the inductor current RMS and improve efficiency in the low power region, as verified through simulation and experimental results.

Effects of the Irradiated Current Mode PWM Controller of DC/DC Power Converter (DC/DC 전력 컨버터의 전류모드 PWM 제어기의 방사선 영향)

  • Lho, Young-Hwan;Hwang, Eui-Sung;Lho, Kyeoung-Su;Phouphanonh, Phouphanonh;Khamphoungeun, Khamphoungeun;Han, Chang-Won
    • Proceedings of the KSR Conference
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    • 2011.10a
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    • pp.685-692
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    • 2011
  • DC/DC switching power converters produce DC output voltages from different DC input sources. The converters can be used in regenerative braking of DC motors to return energy back in the supply, resulting in energy savings for the systems containing frequent stops. The current mode DC/DC converter is composed of a PWM (pulse width modulation) controller, a MOSFET, and inductor, etc. Pulse width modulation is applied to control and regulate the total output voltage. It is shown that the variation of threshold voltage at MOSFET and the offset voltage increase caused by radiation effects make the PWM pulse unstable. In the PWM operation, the missing pulses, the changes in pulse width, and a change in the period of the output waveform are studied by simulation program with integrated circuit emphasis (SPICE) and experiments.

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Implementation of DC/DC Power Buck Converter Controlled by Stable PWM (안정된 PWM 제어 DC/DC 전력 강압 컨버터 구현)

  • Lho, Young-Hwan
    • Journal of Institute of Control, Robotics and Systems
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    • v.18 no.4
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    • pp.371-374
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    • 2012
  • DC/DC switching power converters produce DC output voltages from different stable DC input sources regulated by a bi-polar transistor. The converters can be used in regenerative braking of DC motors to return energy back in the supply, resulting in energy savings for the systems containing frequent stops. The voltage mode DC/DC converter is composed of a PWM (Pulse Width Modulation) controller, a MOSFET (Metal Oxide Semiconductor Field Effect Transistor), an inductor, and capacitors, etc. PWM is applied to control and regulate the total output voltage. It is shown that the output of DC/DC converter depends on the variation of threshold voltage at MOSFET and the variation of pulse width. In the PWM operation, the missing pulses, the changes in pulse width, and a change in the period of the output waveform are studied by SPICE (Simulation Program with Integrated Circuit Emphasis) and experiments.

Performance Improvement of a Buck Converter using a End-order Space Dithered Sigma-Delta Modulation based Random PWM Switching Scheme (2차 Space Dithered Sigma-Delta Modulation 기반의 Random PWM 스위칭 기법을 이용한 강압형 DC-DC 컨버터의 성능 개선)

  • Kim, Seo-Hyeong;Ju, Seong-Tak;Jung, Hea-Gwang;Lee, Kyo-Beum;Jung, Gyu-Bum
    • The Transactions of the Korean Institute of Power Electronics
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    • v.14 no.1
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    • pp.54-61
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    • 2009
  • This paper proposes the 2nd-order SDSDM (Space Dithered Sigma-Delta Modulation) for performance improvement of a buck converter. The PWM (Pulse Width Modulation) has a drawback in that power spectrum tends to be concentrated around the switching frequency. The resulting harmonic spikes cause a EMI(Electromagnetic Interference) and switching loss in semiconductor, etc. The 1st-order SDSDM scheme is a kind of DSDM for reducing these harmonic spikes. In this scheme, a switching frequency is spread through random dither generator placed on input part. In experimental result, the proposed 2nd-order SDSDM is confirmed by applying to a buck converter.

Design of a Tripple-Mode DC-DC Buck Converter (3중 모드 DC-DC 벅 변환기 설계)

  • Yu, Seong-Mok;Park, Joon-Ho;Park, Jong-Tae;Yu, Chong-Gun
    • Journal of IKEEE
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    • v.15 no.2
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    • pp.134-142
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    • 2011
  • This paper describes a tripple-mode high-efficiency DC-DC buck converter. The DC-DC buck converter operate in PWM(Pulse Width Modulation) mode at moderate to heavy loads(100mA~500mA), in PFM(Pulse Frequency Modulation)at light loads(1mA~100mA), and in LDO(Low Drop Out) mode at the sleep mode(<1mA). In PFM mode DPSS(Dynamic Partial Shutdown Strategy) is also employed to increase the efficiency at light loads. The triple-mode converter can thus achieve high efficiencies over wide load current range. The proposed DC-DC converter is designed in a CMOS 0.18um technology. It has a maximum power efficiency of 96.4% and maximum output current of 500mA. The input and output voltages are 3.3V and 2.5V, respectively. The chip size is 1.15mm ${\times}$ 1.10mm including pads.

A Triple-Mode DC-DC Buck Converter with DPSS Function (DPSS 기능을 갖는 3중 모드 DC-DC Buck 변환기)

  • Yu, Seong-Mok;Hang, In-Ho;Park, Jong-Tae;Yu, Chong-Gun
    • Proceedings of the Korean Institute of Information and Commucation Sciences Conference
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    • 2011.10a
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    • pp.411-414
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    • 2011
  • This paper describes a tripple-mode DC-DC buck converter with DPSS Fucntion. The DC-DC buck converter operate in PWM(Pulse Width Modulation) mode at moderate to heavy loads(80mA~500mA), in PFM(Pulse Frequency Modulation)at light loads(1mA~80mA), and in LDO(Low Drop Out) mode at the sleep mode(<1mA). In PFM mode DPSS(Dynamic Partial Shutdown Strategy) is also employed to increase the efficiency at light loads. The triple-mode converter can thus achieve high efficiencies over wide load current range. The proposed DC-DC converter is designed in a CMOS 0.18um technology. It has a maximum power efficiency of 97.02% and maximum output current of 500mA. The input and output voltages are 3.3V and 2.5V, respectively. The chip size is $1465um{\times}895um$ including pads.

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Novel Dual DC-DC Flyback Converter with Leakage-Energy Recycling

  • Yang, Lung-Sheng
    • Journal of Power Electronics
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    • v.18 no.4
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    • pp.1007-1014
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    • 2018
  • A novel dual DC-DC flyback converter with leakage-energy recycling is presented in this paper. Only an active switch is used for this converter. A pulse-width-modulation strategy is adopeted to control this switch. Two transformers are employed for the proposed converter. During the switch ON-period, the primary windings of the two transformers store energies. At the switch OFF-period, the energies stored in the primary windings of the two transformers are released to the output via the secondary windings of the two transformers. Meanwhile, the leakage energies of the two transformers can be recycled. The operating principles and steady-state analyses of the proposed converter are described in detail. A prototype circuit of the proposed converter is implemented for verifying the performances.

Pulse-width Adjustment Strategy for Improving the Dynamic Inductor Current Response Performance of a Novel Bidirectional DC-DC Boost Converter

  • Li, Mingyue;Yan, Peimin
    • Journal of Power Electronics
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    • v.18 no.1
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    • pp.34-44
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    • 2018
  • This paper presents a pulse-width adjustment (PWA) strategy for a novel bidirectional DC-DC boost converter to improve the performance of the dynamic inductor current response. This novel converter consists of three main components: a full-bridge converter (FBC), a high-frequency isolated transformer with large leakage inductance, and a three-level voltage-doubler rectifier (VDR). A number of scholars have analyzed the principles, such as the soft-switching performance and high-efficiency characteristic, of this converter based on pulse-width modulation plus phase-shift (PPS) control. It turns out that this converter is suitable for energy storage applications and exhibits good performance. However, the dynamic inductor current response processes of control variable adjustment is not analyzed in this converter. In fact, dc component may occur in the inductor current during its dynamic response process, which can influence the stability and reliability of the converter system. The dynamic responses under different operating modes of a conventional feedforward control are discussed in this paper. And a PWA strategy is proposed to enhance the dynamic inductor current response performance of the converter. This paper gives a detailed design and implementation of the PWA strategy. The proposed strategy is verified through a series of simulation and experimental results.