• Title/Summary/Keyword: Self switching

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Self-Oscillating Switching Technique for Current Source Parallel Resonant Induction Heating Systems

  • Namadmalan, Alireza;Moghani, Javad Shokrollahi
    • Journal of Power Electronics
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    • v.12 no.6
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    • pp.851-858
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    • 2012
  • This paper presents resonant inverter tuning for current source parallel resonant induction heating systems based on a new self oscillating switching technique. The phase error is suppressed in a wide range of operating frequencies in comparison with Phase Locked Loop (PLL) techniques. The proposed switching method has the capability of tuning under fast changes in the resonant frequency. According to this switching method, a multi-frequency induction heating (IH) system is proposed by using a single inverter. In comparison with multi-level inverter based IH systems, the advantages of this technique are its simple structure, better transients and wide range of operating frequencies. A laboratory prototype was built with an operating frequency of 35 kHz to 55 kHz and 300 W of output power. The performance of the IH system shows the validity of the new switching technique.

Resonant Pulse Power Converter with a Self-Switching Technique

  • Kim, Hyeok-Jin;Chung, Gyo-Bum;Cho, Jae-Ho
    • Journal of Power Electronics
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    • v.10 no.6
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    • pp.784-791
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    • 2010
  • In this paper, a resonant pulse power converter (RPPC) is proposed. The proposed RPPC transfers the pulse-shape power from a DC source to a load periodically. The RPPC consists of a resonant circuit and a resonant pulse converter driven by a self-switching circuit. Depending on the magnitude difference between the input and output voltages, the operations of the RPPC are divided into 4 modes; boost mode, hybrid mode, direct mode and cut-off mode, respectively. The main switch of the RPPC turns on in the ZCS condition and off in the ZVS condition spontaneously. The operational principles of a RPPC using the self-switching technique are analyzed and verified in experiments. An example of a RPPC application is demonstrated in the area of thermoelectric energy harvesting.

Solution to Some Key Problems of Self-exciting Electronic Ballast

  • Mao, Peng;Zhang, Weiping;Zhang, Mao
    • Transactions on Electrical and Electronic Materials
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    • v.15 no.1
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    • pp.1-6
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    • 2014
  • Self-exciting electronic ballast, of small size, and low cost, and high power, with no stroboscopic effect, no noise, is widely used in the general lighting market. This paper describes the cause of high switching loss of self-exciting electronic ballast, based on its operational principle; then, to reduce the switch temperature and increase the reliability of the product, the drive circuit has been improved, to achieve soft-switching. The theory analysis, simulation and experimental result prove the feasibility and compatibility of this new method in practice. Finally, the design procedure and winding method of the self-exciting current transformer are introduced.

Frequency controllable fast switching gate driver for self-resonant inverters (주파수 조절이 가능한 자려식 공진형 인버터의 고속 게이트 구동회로)

  • Ryoo, Tae-Ha;Chae, Gyun;Cho, Gyu-Hyeong
    • Proceedings of the KIEE Conference
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    • 1999.07f
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    • pp.2783-2785
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    • 1999
  • A fast switching gate driver suitable for high performance self resonant electronic ballasts is presented. The proposed gate driver has negligible switching loss and driving loss owing to pnpn structure and zero voltage switching( ZVS ); moreover, the gate driver has frequency control capability. Therefore, a self resonant inverter using proposed gate driver can operate as external exciting resonant inverters. The experiments confirm that the proposed gate driver perform the desired operations over full power control range for 40W fluorescent lamp electronic ballast.

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Switching-Mode BJT Driver for Self-Oscillated Push-Pull Inverters

  • Borekci, Selim;Oncu, Selim
    • Journal of Power Electronics
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    • v.12 no.2
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    • pp.242-248
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    • 2012
  • Self oscillating current fed push pull resonant inverters can be controlled without using special drivers. Dc current flows through the choke coil and the power switches, although the driving signals of the power switches are sinusoidal. When the base current is near zero, the transistors cannot be operated in switching mode. Hence higher switching power losses and instantaneous peak power during off transitions are observed. In this study, an alternative design has been proposed to overcome this problem. A prototype circuit has been built which provides dc bias current to the base of the transistors. Experimental results are compared with theoretical calculations to demonstrate the validity of the design. The proposed design decreases the peak and average power losses by about 8 times, when compared to conventional designs.

An Efficient Multicast Addressing Scheme for the Self-Routing Multistage Networks

  • Kim, Hong-Ryul;Lim, Chae-Tak
    • Journal of Electrical Engineering and information Science
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    • v.2 no.3
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    • pp.22-28
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    • 1997
  • In this paper, we propose an efficient multicast addressing scheme for he self-routing multistage networks. Using only N-bit routing header an the simple hardware logic, the new scheme can efficiently provides all point-to-multipoint connections in single pass through the multistage copy networks. We also designed a hardware logic of switching element to implementation of multicasting in ATM switches are performed.

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A Study on Self-Load Balancing Mechanism for Improvement of Throughput in 640Gb/s ATM Switching system (640Gb/s ATM 스위칭 시스템의 Throughput 향상을 위한 Self-Load Balancing 메커니즘 연구)

  • Jang, Suk-Gi;Kim, Tae-Young;Kim, Hoon;Park, Kwang-Chae
    • Proceedings of the IEEK Conference
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    • 2001.06a
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    • pp.163-166
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    • 2001
  • Software controlled traffic management becomes more difficult with increasing switch size, because a huge number of connections are multiplexed in a high speed switching system and each ATM connections does not have a fixed bandwidth It is based on high-speed WDM(wavelength division multiplexed) links that can multiplex a huge number of connections on a statistical basis, and a self-load balancing technique. the Proposed switching system is scalable, and achieves the non-blocking capability without the use of complicated software control, using instead a hardware self-load balancing mechanism

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Optimal Design Methodology of Zero-Voltage-Switching Full-Bridge Pulse Width Modulated Converter for Server Power Supplies Based on Self-driven Synchronous Rectifier Performance

  • Cetin, Sevilay
    • Journal of Power Electronics
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    • v.16 no.1
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    • pp.121-132
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    • 2016
  • In this paper, high-efficiency design methodology of a zero-voltage-switching full-bridge (ZVS-FB) pulse width modulation (PWM) converter for server-computer power supply is discussed based on self-driven synchronous rectifier (SR) performance. The design approach focuses on rectifier conduction loss on the secondary side because of high output current application. Various-number parallel-connected SRs are evaluated to reduce high conduction loss. For this approach, the reliability of gate control signals produced from a self-driver is analyzed in detail to determine whether the converter achieves high efficiency. A laboratory prototype that operates at 80 kHz and rated 1 kW/12 V is built for various-number parallel combination of SRs to verify the proposed theoretical analysis and evaluations. Measurement results show that the best efficiency of the converter is 95.16%.

A Digital Self-Sustained Phase Shift Modulation Control Strategy for Full-Bridge LLC Resonant Converters

  • Zheng, Kai;Zhou, Dongfang;Li, Jianbing;Li, Li;Zhao, Yujing
    • Journal of Power Electronics
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    • v.16 no.3
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    • pp.915-924
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    • 2016
  • A digital self-sustained phase shift modulation (DSSPSM) strategy that allows for good soft switching and dynamic response performance in the presence of step variations is presented in this paper. The working principle, soft switching characteristics, and voltage gain formulae of a LLC converter with DSSPSM have been provided separately. Furthermore, the method for realizing DSSPSM is proposed. Specifically, some key components of the proposed DSSPSM are carefully investigated, including a parameter variation analysis, the start-up process, and the zero-crossing capture of the resonant current. The simulation and experiment results verify the feasibility of the proposed control method. It is observed that the zero voltage switching of the switches and the zero current switching of the rectifier diodes can be easily realized in presence of step load variations.

Self-Reset Zero-Current Switching Circuit for Low-Power and Energy-Efficient Thermoelectric Energy Harvesting (저전력 고에너지 효율 열전에너지 하베스팅을 위한 자가 리셋 기능을 갖는 영점 전류 스위칭 회로 설계)

  • An, Ji Yong;Nguyen, Van Tien;Min, Kyeong-Sik
    • Journal of IKEEE
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    • v.25 no.1
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    • pp.206-211
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    • 2021
  • This paper proposes a Self-Reset Zero-Current Switching (ZCS) Circuit for thermoelectric energy harvesting. The Self-Reset ZCS circuit minimizes the operating current consumed by the voltage comparator, thereby reduces the power consumption of the energy harvesting circuit and improves the energy conversion efficiency by adding the self-reset function to the comparator. The Self-Reset ZCS circuit shows 3.4% of improvement in energy efficiency compared to the energy harvesting system with the conventional analog comparator ZCS for the output/input voltage ratio of 5.5 as a result of circuit simulation. The proposed circuit is useful for improving the performance of the wearable and bio-health-related harvesting circuits, where low-power and energy-efficient thermoelectric energy harvesting is needed.