• Title/Summary/Keyword: Variable phase shift switching

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Series Connected DC/DC Converter for Fuel Cell System using Variable Phase Shift Switching Method (가변 위상변위 스위칭방식을 적용한 연료전지용 변압기 직렬형 DC/DC 컨버터)

  • Park, Noh-Sik;Kwon, Soon-Jae;Park, Sung-Jun
    • The Transactions of the Korean Institute of Power Electronics
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    • v.13 no.6
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    • pp.461-468
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    • 2008
  • This paper presents a novel series connected DC/DC converter and a proper variable phase shift switching method in order to obtain high voltage ratio for fuel cell system. The proposed series connected DC/DC converter has same rectifier and LC filter for DC output voltage, so it can reduce the number of passive devices regardless of the converter number. In the conventional constant phase shift switching method, the proposed series connected DC converters have inverse bias output voltage. In order to overcome this problem, a simple but proper variable phase shift switching method is proposed in the a novel series connected DC/DC converter. In order to verify the proposed system, simulation and experiments are implemented.

A Study of the Digital Phase-shift Resonant Converter to Reduce the conduction Loss and Stress of the Switching Device (스위칭 소자의 전도손실과 스트레스를 저감하기 위한 디지털 위상천이 공진형 컨버터에 관한 연구)

  • Shin, Dong-Ryul;Hwang, Young-Min;Kim, Dong-wan;Woo, Jung-In
    • The Transactions of the Korean Institute of Electrical Engineers P
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    • v.51 no.1
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    • pp.10-17
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    • 2002
  • Due to the development of information communication field, the interest of the SMPS(Switched Mode Power Supply) is increased. The size and weight of SMPS are decided by inductor, capacitor and transformer. Thus, the low loss converter which is operated in high speed switching is required. The resonant FB DC-DC converter is able to operate in high speed switching and apply to high power field because the switching loss is low. In this thesis, it is proposed to control strategy for constant output power of resonant FB DC-DC converter in variable input voltage. The proposed control system is a digital I-PD type control and apply to phase-shift resonant type controller. The output voltage tracks reference without steady state error in variable input voltage. The validity of proposed control strategy is verified from results of simulation and experiment.

A New Soft Switching Technique for Bi-directional Power Flow, Full-bridge DC-DC Converter (양방향 풀-브릿지 DC-DC 컨버터를 위한 새로운 소프트 스위칭 기법)

  • Song, Y.J.;Park, S.I.;Jeong, H.G.;Han, S.B.;Jung, B.M.
    • Proceedings of the Korean Institute of IIIuminating and Electrical Installation Engineers Conference
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    • 2005.11a
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    • pp.251-255
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    • 2005
  • This paper proposes a new soft switching technique for a phase-shift controlled bi-directional DC-DC converter. The described converter employs a low profile high frequency transformer and two active full-bridge converters for bidirectional power flow capability. A new soft switching technique is proposed, which guarantees soft switching over wide range (no load to full load) without any additional circuit components. In the proposed switching scheme, the switch pairs in the diagonal position of the converter each are turned on/off simultaneously by the switching signals with a variable duty ratio depending on the phase shift amount, and the converter is operated without freewheeling interval.

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The Design of an Improved ZCZVS Resonant Type Converter by Digital I-PD Phase-shift Controller (디지털 I-PD 위상 쉬프트 제어기를 가진 개선된 영전류.영전압 스위칭 공진형 컨버터의 설계)

  • Kim, Young-Moon;Ahn, In-Mo;Kim, Hae-Jae;Shin, Dong-Ryul;Kim, Dong-Wan
    • Proceedings of the KIEE Conference
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    • 2000.07e
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    • pp.66-70
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    • 2000
  • This paper deal with a design and a constant output power control of Zero Current Zero Voltage Switching(ZCZVS) resonant type DC-DC converter by a digital I-PD phase shift controller. When the DC-DC converter for a high density and a high effect control is operated in high speed switching, the switching loss and switching stress of the switching devices are increased. So, the ZCZVS method, which has the phase shift control with the digital I-PD controller, must be use in order to reduce its. And the constant output power voltage that controlled by the digital I-PD controller tracks a reference without steady state error in variable input voltage. The validity of control strategy that proposed is verified experimental results by the Digital Signal Processor TMS320C32.

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The Constant Output Power Control of SSRT FB DC-DC Converter by an Improved Phase-shift Control (개선된 위상 천이 제어에 의한 소프트 스위칭 공진형 FB DC-DC 컨버터의 정출력 제어)

  • 신동률;조용길;김동완;우정인
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.14 no.5
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    • pp.27-35
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    • 2000
  • This paper deals with a control strategy for constant output power of SSRT(Soft Switching Resonant Type) FB(Full Bridge) DC-DC converter by an improved phase shift controller. When the FB DC-DC converter for the high density and the high effect control is operated in high speed switching, the switching loss and switching stress of the switching devices are increased. So, the soft switching method, which has the phase shift control with the digital I-PD controller, must be use in order to reduce its. And the output voltage that controlled by the digital I-PD controller tracks a reference without steady state error in variable input voltage. The validity of control strategy that proposed is verified from simulation results and experimental results by the DSP(TMS320C32).

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Single Phase-Shift Modulation with Variable-Frequency to Reduce Conduction Losses of DAB Converters (DAB 컨버터의 전도 손실 저감을 위한 가변 주파수의 단일 위상 시프트 변조기법)

  • Dao, Ngoc Dat;Lee, Dong-Choon
    • Proceedings of the KIPE Conference
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    • 2019.11a
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    • pp.124-125
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    • 2019
  • This paper proposes a novel control method to minimize conduction losses of dual active bridge (DAB) converters for on-board chargers of electric vehicles (EVs). In the control method, two variables are regulated, which are the phase-shift angle between the primary and secondary full bridges and the switching frequency. From time-domain analysis, an optimal phase-shift angle is derived to achieve the minimum RMS value of the transformer current. The proposed method was implemented for a 3.6-kW SiC-based prototype to validate its effectiveness. A high efficiency over 97.3% has been achieved for a wide output voltage range.

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Multimode Hybrid Control Strategy of LLC Resonant Converter in Applications with Wide Input Voltage Range

  • Li, Yan;Zhang, Kun;Yang, Shuaifei
    • Journal of Power Electronics
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    • v.19 no.1
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    • pp.201-210
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    • 2019
  • This paper proposes a multimode hybrid control strategy that can achieve zero-voltage switching of primary switches and zero-current switching of secondary rectifier diodes in a wide input voltage range for full-bridge LLC resonant converters. When the input voltage is lower than the rated voltage, the converter operates in Mode 1 through the variable-frequency control strategy. When the input voltage is higher than the rated voltage, the converter operates in Mode 2 through the VF and phase-shift control strategy until the switching frequency reaches the upper limit. Then, the converter operates in Mode 3 through the constant-frequency and phase-shift control strategy. The secondary-side diode current will operate in the discontinuous current mode in Modes 1 and 3, whereas it will operate in the boundary current mode in Mode 2. The current RMS value and conduction loss can be reduced in Mode 2. A detailed theoretical analysis of the operation principle, the voltage gain characteristics, and the realization method is presented in this paper. Finally, a 500 W prototype with 100-200 V input voltage and 40 V output voltage is built to verify the feasibility of the multimode hybrid control strategy.

A Study on the Development of 3[kW] Power Conversion System for Fuel Cell (3[kW]급 연료전지용 전력변환기 개발에 관한 연구)

  • Kim, Se-Min;Park, Sung-Jun;Song, Sung-Geun
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.23 no.5
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    • pp.88-95
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    • 2009
  • This paper is the research on the development of power conversion system for the fuel cell. In composing the DC/DC converters which have high boost voltage ratio, unlike the conventional method a new multi DC/DC converter system is proposed that the diode and the condenser and the reactor can be reduced by connecting the secondary side output of the transformer. In this system the rectifier part and the filter part of the secondary side in the power transformer that is connecting in series are composed into a single module, which is the strong advantage and the number of level can be easily increased. A new variable shift phase switching method is also suggested that it makes possible to reduce the output voltage ripples in the proposed system. All the factors mentioned above have been verified through simulations and experiments, and the proposed converter is considered very useful in the demanded load which requires a wide of the output.

Optimization Design and Implementation of DC-DC Converter(LDC) for Electric Vehicle (전기자동차용 DC-DC 컨버터 최적설계)

  • Kwon, Yong-Hyo;Kim, Seung-Mo;Kim, Pyo-Soo;Kim, Mal-Su;Nam, Kwang-Hee
    • Proceedings of the KIPE Conference
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    • 2012.11a
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    • pp.107-108
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    • 2012
  • This paper presents design and implementation of the LDC(1.8 kW DC-DC Converter for Electric Vehicles). For Implementation of the LDC, the adapted topology is ZVS(Zero Voltage Switching) PSFB(Phase Shift Full Bridge) with Digital Control is adopted. Also, for the purpose of stable operation of the LDC in vehicle with variable electrical load condition, Continuous Voltage and Current Limit Control scheme based on PI controller are developed. According to real-car test mode, the prototype of proposed the LDC is verified with performance and stability. Thus, optimizing design and implement of the LDC are discussed, and experimental results are presented.

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New Single-stage Interleaved Totem-pole AC-DC Converter for Bidirectional On-board Charger

  • ;Kim, Sang-Jin;Kim, Byeong-U;Sin, Yang-Jin;Choe, Se-Wan
    • Proceedings of the KIPE Conference
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    • 2018.07a
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    • pp.192-194
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    • 2018
  • In this paper a new single-stage ac-dc converter with high frequency isolation and low components count is introduced. The proposed converter is constructed using two interleaved boost circuits in the grid side and non-regulating full bridge in the DC side. An optimized switching is implemented on the two interleaved boost circuits resulting in a ripple-free grid current without a ripple cancellation network; hence very small filter inductors are used. A simple and reliable closed-loop control system is easily implemented, since the phase-shift angle is the only independent variable. Moreover, current imbalance is avoided in the presented topology without current control loop in each phase. The proposed charger charges the battery with a sinusoidal-like current instead of a constant direct current. ZVS turn on of all switches is achieved throughout the operation in both directions of power flow without any additional components.

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