• Title/Summary/Keyword: Voltage controlled output current

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High-linearity voltage-controlled current source circuits with wide range current output (넓은 범위의 전류 출력을 갖는 고선형 전압-제어 전류원 회로)

  • 차형우
    • Journal of the Institute of Electronics Engineers of Korea SD
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    • v.41 no.7
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    • pp.89-96
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    • 2004
  • High-linearity voltage-controlled current sources (VCCSs) circuits for wide voltage-controlled oscillator and automatic gain control are proposed. The VCCS consists of emitter follower for voltage input, two common-base amplifier which their emitter connected for current output, and current mirror which connected the two amplifier for large output current. The VCCS used only five transistors and a resistor without an extra bias circuit. Simulation results show that the VCCS has current output range from 0㎃ to 300㎃ over the control voltage range from 1V to 4.8V at supply voltage 5V. The linearity error of output current has less than 1.4% over the current range from 0A to 300㎃.

High-linearity voltage-controlled current source circuits with wide range current output (넓은 범위의 전류 출력을 갖는 고선형 전압-제어 전류원 회로)

  • Cha, Hyeong-Woo
    • Proceedings of the IEEK Conference
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    • 2004.06b
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    • pp.395-398
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    • 2004
  • High-linearity voltage-controlled current sources (VCCSs) circuits for wide voltage-controlled oscillator and automatic gun control were proposed. The VCCS consists of emitter follower for voltage input, two common-base amplifier which their emitter connected for current output, and current mirror which connected the two amplifier for large output current. The VCCS used only five transistors and a resistor without an extra bias circuit. Simulation results show that the VCCS has current output range from 0mA to 300mA over the control voltage range from 1V to 4.8V at supply voltage 5V. The linearity error of output current has less than $1.4\%$ over the current range from 0A to 300mA.

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Development of a voltage-controlled output current source for zenor diode degradation analysis (제너다이오드의 열화평가를 위한 전압제어 출력 전류원 개발)

  • Kim, Jong-ho;Chang, Hong-ki;Kwon, Young-mok;Che, Gyu-shik
    • Journal of Advanced Navigation Technology
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    • v.21 no.5
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    • pp.501-507
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    • 2017
  • When zenor diode load current is necessary to be controlled by input voltage as a circuit load, existing voltage controlling method cannot be applied to it because the output current of zenor diode is changed due to breakdown voltage variations. We propose input voltage controlled output current source regardless of zenor breakdown voltage variation due to degradation resulted from severe current applied electronic component life test as a circuit load in this paper. We show breakdown voltage characteristics of this zenor diode circuit through simulation, applying adequate values for each component in order to verify the circuit composed of that method, and then show the result in which output current is controlled by input voltage. We confirmed the output current varies proportional to input voltage, and developed circuit shows a constant value independent of zenor diode breakdown voltage variations due to component degradations.

A Novel Control Strategy for Input-Parallel-Output-Series Inverter System

  • Song, Chun-Wei;Zhao, Rong-Xiang;Lin, Wang-Qing;Zeng, Zheng
    • Journal of international Conference on Electrical Machines and Systems
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    • v.1 no.2
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    • pp.85-90
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    • 2012
  • This paper presents a topology structure and control method for an input-parallel-output-series(IPOS) inverter system which is suitable for high input current, high output voltage, and high power applications. In order to ensure the normal operation of the IPOS inverter system, the control method should achieve input current sharing(ICS) and output voltage sharing(OVS) among constituent modules. Through the analysis in this paper, ICS is automatically achieved as long as OVS is controlled. The IPOS inverter system is controlled by a three-loop control system which is composed of an outer common-output voltage loop, inner current loops and voltage sharing loops. Simulation results show that this control strategy can achieve low total harmonic distortion(THD) in the system output voltage, fast dynamic response, and good output voltage sharing performance.

Design and Development of 200 W Power Converter (200 W급 LED 구동용 전원장치 설계 및 개발)

  • Kim, HyungJoong;Joung, Gyubum
    • Proceedings of the KIPE Conference
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    • 2012.07a
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    • pp.242-243
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    • 2012
  • In this paper, 200 W power supply for LED driver has been designed, analyzed, simulated and tested. Input AC voltage of 100VAC-240VAC was converted to DC voltage by high power factor converter. Output voltage was controlled, and output current was controlled by constant current when output current was reached to LED maximum rated current. By simulation and experimental test, voltage and current control and high power factor characteristics are verified.

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A Study on the Single Phase Voltage-Controlled Active Power Filter for Power Quality Improvement (전력품질 개선을 위한 단상 전압제어형 능동전력필터 시스템에 관한 연구)

  • 손진근
    • The Transactions of the Korean Institute of Electrical Engineers B
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    • v.52 no.5
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    • pp.238-245
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    • 2003
  • In this paper, a single Phase voltage source voltage-controlled active power filter(APF) for power quality improvement was proposed. The proposed APF has the performance of harmonic suppression and unity power factor correction. The performance of harmonic suppression can be obtained by controlling the waveshape of the APF output voltage to be sine wave. And, unity power factor is controlled by the reactive power control loop of the APF output. Simulation and experimental results using diode rectifier showed that the voltage-controlled APF, unlike the current-controlled APF, can reduce the voltage harmonics as well as current harmonics. Also the results showed that the input dover factor and power quality were greatly improved.

A Compensator for Lateral Current Reduction Applied to Autonomously Controlled UPSs Connected in Parallel

  • Sato Kazuhide Kazuhide;Kawamura Atsuo
    • Journal of Power Electronics
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    • v.5 no.4
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    • pp.312-318
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    • 2005
  • This paper presents a compensator for reduction of the reactive lateral current in multiple autonomously controlled uninterruptible power supplies (UPS) connected in parallel. This compensator acts directly on the control equation for voltage amplitude and it provides an improved current distribution especially in the case of parallel connection of UPSs with different output power ratings. Observations show that the original control equation for output voltage amplitude is efficient for voltage regulation but it causes great variation of voltage levels. A compensator with the same structure is added to counterbalance the variation caused by the original control equation. Simulations show promising results with the employment of the proposed compensator. Our simulations are confirmed by experimental results using three UPSs with different output ratings and voltage limiters ($1\%$) connected in parallel under various conditions.

A Fuzzy-PI Control Scheme of the Three-Phase Z-Source PWM Rectifier without AC-Side Voltage and Current Sensors (교류측 전압 및 전류 센서가 없는 3상 Z-소스 PWM 정류기의 퍼지-PI 제어)

  • Han, Keun-Woo;Jung, Young-Gook;Lim, Young-Cheol
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.62 no.6
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    • pp.767-781
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    • 2013
  • In this paper, we proposes the AC input voltage and current sensorless control scheme to control the input power factor and DC output voltage of the three-phase Z-source PWM rectifier. For DC-link voltage control which is sensitive to the system parameters of the PWM rectifier, fuzzy-PI controller is used. Because the AC input voltage and current are estimated using only the DC-link voltage and current, AC input voltage and current sensors are not required. In addition, the unity input power factor and DC output voltage can be controlled. The phase-angle of the detected AC input voltage and estimated voltage, the response characteristics of the DC output voltage according to the DC voltage references, the FFT results of the estimated voltage and current, efficiency, and the response characteristics of the conventional PI controller and fuzzy-PI controller are verified by PSIM simulation.

Output AC Voltage Control of a Three-Phase Z-Source Inverter by the Voltage Gain and Modulation Index Control (전압 이득과 변조지수 제어에 의한 3상 Z-소스 인버터의 출력 교류 전압 제어)

  • Kim, Se-Jin;Jung, Young-Gook;Lim, Young-Cheol;Yang, Seung-Hak
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.59 no.11
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    • pp.1996-2005
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    • 2010
  • This paper proposes a new method for constant control of the output AC voltage of a voltage-fed three phase Z-source inverter (ZSI), in case of Z-network DC voltage variation or heavy change of load. The modulation index for the reference output AC voltage of ZSI can be calculated by the basic definition of ZSI, the input DC voltage and capacitor voltage of Z-network. And, the output AC voltage of ZSI is controlled by the modified space vector modulation (SVM) with the calculated modulation index. By the proposed method, the modulation index of output AC voltage is closely following in the reference modulation index. The validity of the proposed method is verified using PSIM simulation. In case which the input DC voltage of ZSI is heavily changed from 100[V] to 70[V] (or to 150[V]) and in case which load is changed from $30[\Omega]$ to $10[\Omega]$, we confirmed that the output AC voltage of ZSI is constantly controlled by the proposed method because the modulation index of ZSI is also simultaneously changed. Finally, FFT and %THD of the output voltage and current of ZSI by the proposed method are analyzed.

Time-Delay Effects on DC Characteristics of Peak Current Controlled Power LED Drivers

  • Jung, Young-Seok;Kim, Marn-Go
    • Journal of Power Electronics
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    • v.12 no.5
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    • pp.715-722
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    • 2012
  • New discrete time domain models for the peak current controlled (PCC) power LED drivers in continuous conduction mode include for the first time the effects of the time delay in the pulse-width-modulator. Realistic amounts of time delay are found to have significant effects on the average output LED current and on the critical inductor value at the boundary between the two conduction modes. Especially, the time delay can provide an accurate LED current for the PCC buck converter with a wide input voltage. The models can also predict the critical inductor value at the mode boundary as functions of the input voltage and the time delay. The overshoot of the peak inductor current due to the time delay results in the increase of the average output current and the reduction of the critical inductor value at the mode boundary in all converters. Experimental results are presented for the PCC buck LED driver with constant-frequency controller.