• Title/Summary/Keyword: Bidirectional switch

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Model-based Optimal Control Algorithm for the Clamp Switch of Zero-Voltage Switching DC-DC Converter

  • Ahn, Minho;Park, Jin-Hyuk;Lee, Kyo-Beum
    • Journal of Power Electronics
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    • v.17 no.2
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    • pp.323-333
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    • 2017
  • This paper proposes a model-based optimal control algorithm for the clamp switch of a zero-voltage switching (ZVS) bidirectional DC-DC converter. The bidirectional DC-DC converter (BDC) can accomplish the ZVS operation using the clamp switch. The minimum current for the ZVS operation is maintained, and the inductor current is separated from the input and output voltages by the clamp switch in this topology. The clamp switch can decrease the inductor current ripple, switching loss, and conduction loss of the system. Therefore, the optimal control of the clamp switch is significant to improve the efficiency of the system. This paper proposes a model-based optimal control algorithm using phase shift in a micro-controller unit. The proposed control algorithm is demonstrated by the results of PSIM simulations and an experiment conducted in a 1-kW ZVS BDC system.

Bidirectional Flyback Converter Design Methodology for Differential Power Processing Modules in PV Applications (PV 시스템의 차동 전력 조절기 모듈용 양방향 플라이백 컨버터 설계 방법)

  • Park, Seungbin;Kim, Mina;Jeong, Hoejeong;Kim, Taewon;Kim, Katherine A.;Jung, Jee-Hoon
    • The Transactions of the Korean Institute of Power Electronics
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    • v.24 no.5
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    • pp.379-387
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    • 2019
  • A bidirectional flyback converter is a suitable topology for use in a PV-to-bus differential power processing (DPP) module for PV applications due to its electrical isolation capability, bidirectional power transfer, high step-up ratio, and simple circuit structure. However, the bidirectional flyback converter design should consider the effect of the output-side power switch utilized for bidirectional operation compared with that of the conventional flyback converter. This study presents the structure and design methodology of the bidirectional flyback converter for a PV DPP module. Magnetizing inductance is designed by calculating the power loss of converter components within the rated load range under the discontinuous conduction mode, which is unaffected by the reverse recovery characteristics of the anti-parallel diode of the output-side power switch. The validity of the proposed design methodology is verified using a 25 W bidirectional flyback converter prototype. The operational principles and the performance of the DPP operation are verified using practical DPP modules consisting of bidirectional flyback converters implemented according to the proposed design methodology.

A Fault Tolerant Strategy Based on Model Predictive Control for Full Bidirectional Switches Indirect Matrix Converter

  • Le, Van-Tien;Lee, Hong-Hee
    • Proceedings of the KIPE Conference
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    • 2019.07a
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    • pp.74-76
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    • 2019
  • This paper proposes an open-switch fault tolerant strategy based on the model predictive control for a full bidirectional switches indirect matrix converter (FBS-IMC). Compared to the conventional Indirect Matrix Converter (IMC), the FBS-IMC can provide healthy current path when open-switch fault is occurred. To keep the continuous operation, the fault tolerant strategy is developed by means of reversing the DC-link voltage polarity regardless of the faulty switch location in the rectifier or inverter stage. Therefore, the proposed control strategy can maintain the same input and output performances during the faulty condition as the normal condition. The simulation results are given to verify the effectiveness of the proposed strategy.

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A Self-healing Space-Division Switch for a 2-Fiber Bidirectional Line Switched Ring (2-선 양방향 선로 스위칭 링을 위한 자기치유 공간분할 스위치 소자)

  • 이상훈;김성진
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.26 no.12C
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    • pp.240-248
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    • 2001
  • This paper describes the design of a space-division switch which can support a self-healing operation of 2-fiber bidirectional line switched ring in 2.5Gb/s SDH-based transmission system. The switch having a 1.25Gb/s throughput has been designed and implemented with COMPASS tool and 0.87$\mu\textrm{m}$ CMOS gate-array. The proposed switch is suitable for the quickly self-healing operations when a failure occurs in a 2-fiber bidirectional switched ring composed of ADM transmission systems. The switch is composed of an add/drop control part, a cross-point switch, a frame-phase aligner, processor interface and an unequipped data framer. The test results of the switch adapted to 2.SGb/s SDH-based transmission system, show immediate restoration when a failure occurs.

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A Cascaded Multilevel Inverter Using Bidirectional H-bridge Modules

  • Kang, Feel-Soon;Joung, Yeun-Ho
    • Journal of international Conference on Electrical Machines and Systems
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    • v.1 no.4
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    • pp.448-456
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    • 2012
  • This paper presents a multilevel inverter configuration which is designed by insertion of a bidirectional switch between capacitive voltage sources and a conventional H-bridge module. The modified inverter can produce a better sinusoidal waveform by increasing the number of output voltage levels. By serial connection of two modified H-bridge modules, it is possible to produce 9 output voltage levels including zero. There are 24 basic switching patterns with the 9 output voltage levels. Among the patterns, we select the 2 most efficient switching patterns to get a lower switching loss and minimum dv/dt stress. We then analyze characteristics of Total Harmonic Distortion (THD) of the output voltage with variation of input voltage by computer-aided simulations and experiments.

Optimal Soft-Switching Scheme for Bidirectional DC-DC Converters with Auxiliary Circuit

  • Lee, Han Rim;Park, Jin-Hyuk;Lee, Kyo-Beum
    • Journal of Power Electronics
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    • v.18 no.3
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    • pp.681-693
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    • 2018
  • This paper proposes a soft-switching bidirectional dc-dc converter (BDC) with an auxiliary circuit. The proposed BDC can achieve the zero-voltage switching (ZVS) using an auxiliary circuit in the buck and boost operations. The auxiliary circuit supplies optimal energy for the ZVS operation of the main switches. The auxiliary circuit consists of a resonant inductor, a back-to-back switch and two capacitors. A small-sized resonant inductor and an auxiliary switch with a low-rated voltage can be used in the auxiliary circuit. Zero-current switching (ZCS) turn-on and turn-off of the auxiliary switches are possible. The proposed soft-switching scheme has a look-up table for optimal switching of the auxiliary switches. The proposed strategy properly adjusts the turn-on time of the auxiliary switch according to the load current. The proposed BDC is verified by the results of PSIM simulations and experiments on a 3-kW ZVS BDC system.

New ZVZCT Bidirectional DC-DC Converter Using Coupled Inductors

  • Qian, Wei;Zhang, Xi;Li, Zhe;Jin, Wenqiang;Wiedemann, Jochen
    • Journal of Power Electronics
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    • v.19 no.1
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    • pp.11-23
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    • 2019
  • In this study, a novel zero voltage zero current transition (ZVZCT) bidirectional DC-DC converter is proposed by employing coupled inductors. This converter can turn the main switch on at ZVZCT and it can turn it off with zero voltage switching (ZVS) for both the boost and buck modes. These characteristics are obtained by using a simple auxiliary sub-circuit regardless of the power flow direction. In the boost mode, the auxiliary switch achieves zero current switching (ZCS) turn-on and ZVS turn off. Due to the coupling inductors, this converter can make further efficiency improvements because the resonant energy in the capacitor or inductor can be transferred to the load. The main diode operates with ZVT turn-on and ZCS turn-off in the boost mode. For the buck mode, there is a releasing circuit to conduct the currents generated by the magnetic flux leakage to the output. The auxiliary switch turns on with ZCS and it turns off with ZVT. The main diode also turns on with ZVT and turns off with ZCS. The design method and operation principles of the converter are discussed. A 500 W experimental prototype has been built and verified by experimental results.

Development of grid-tied 6.6kW bidirectional V2G OBC for EV/PHEV (EV/PHEV를 위한 V2G 계통연계 양방향 OBC 개발)

  • Lee, Byung Kwon;Kim, Sam Gyun;Kim, Seok Joon;Kim, Jong Pil;Lee, Jun Young
    • Proceedings of the KIPE Conference
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    • 2016.07a
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    • pp.387-388
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    • 2016
  • 본 논문은 V2G를 위한 Bidirectional OBC를 제안한다. 상용화 시 적시 적용 가능한 높은 역/전송 효율의 Bidirectional OBC 전력회로를 제안하고 베터리 전력을 입력원으로 분산형 전력공급 장치에서 요구하는 품질을 만족하는 전력 생산을 위해 계통연계 회로 및 제어 기술을 제안한다. Bidirectional OBC의 PFC Type은 양방향 구현을 위해 기존 MOSFET과 Diode로 구현된 구조와 달리 모두 IGBT를 이용하여 Single Phase Inverter를 구현 하였으며, IGBT 이용 시 예측되는 Reverse Recovery Loss 개선을 위하여 Hybrid Switch 구조를 제안 하였다. Bidirectional OBC의 DC/DC Type은 전송 및 역송에 따라 Buck동작과 Boost 동작이 가능하도록 설계 하였고 Secondary LC Resonant Topology 가변구조법을 사용 하였다.

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Integrated Bidirectional Three-Port DC-DC Converter with Ripple-Free Input Current and Soft Switching

  • KhademiAstaneh, Parastou;Javidan, Javad;Valipour, Khalil;Akbarimajd, Adel
    • Journal of Power Electronics
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    • v.18 no.5
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    • pp.1293-1302
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    • 2018
  • Multiport power converters have recently become popular to researchers and engineers. However, more improvements are required in terms of their soft-switching operation, bidirectional operation, and integration. In this study, a bidirectional three-port three-switch DC-DC converter is proposed. The converter contains a low-current ripple port and ripple-free current port. Through the integrated structure, utilization of a coupled inductor, and a new switching strategy, the aforementioned specifications are achieved. A modified switching strategy is also utilized in the converter, which has resulted in the bidirectional operation of the converter between ports. Finally, a comprehensive analysis is presented, and the converter characteristics are validated by experimental results.

Bidirectional Zeta-Flyback Converter for Improved Efficiency (개선된 효율을 가지는 양방향 Zeta-Flyback 컨버터)

  • Jung, Mun-Kyu;Kwon, Young-Ahn
    • Journal of Advanced Marine Engineering and Technology
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    • v.36 no.6
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    • pp.844-849
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    • 2012
  • In this paper, a bidirectional Zeta-Flyback converter is proposed. The topology of the proposed converter is analyzed, which is superposition of bidirectional Flyback converter mode and bidirectional Zeta converter mode in a cycle. The proposed converter allows power flow in either a forward direction or a backward direction. Bidirectional power flow is obtained by a transformer and components. The proposed converter's output is controlled by duty of constant frequency PWM of switch. Compared to conventional bidirectional isolated DC-DC converters, the proposed isolated bidirectional DC-DC converter has high power density and high transformer utilization. To confirm the proposed converter, the simulation and experimental results are presented.