• Title/Summary/Keyword: 3-state level shifter

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A Low Power Antenna Switch Controller IC Adopting Input-coupled Current Starved Ring Oscillator and Hardware Efficient Level Shifter (입력-결합 전류 제한 링 발진기와 하드웨어 효율적인 레벨 시프터를 적용한 저전력 안테나 스위치 컨트롤러 IC)

  • Im, Donggu
    • Journal of the Institute of Electronics and Information Engineers
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    • v.50 no.1
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    • pp.180-184
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    • 2013
  • In this paper, a low power antenna switch controller IC is designed using a silicon-on-insulator (SOI) CMOS technology. To improve power handling capability and harmonic distortion performance of the antenna switch, the proposed antenna switch controller provides 3-state logic level such as +VDD, GND, and -VDD for the gate and body of switch of FETs according to decoder signal. By employing input-coupled current ring oscillator and hardware efficient level shifter, the proposed controller greatly reduces power consumption and hardware complexity. It consumes 135 ${\mu}A$ at a 2.5 V supply voltage in active mode, and occupies $1.3mm{\times}0.5mm$ in area. In addition, it shows fast start-up time of 10 ${\mu}s$.

Characteristic Analysis and Control of Three Phase PWM Buck AC-AC Converter (3상 PWM Buck AC-AC 컨버터의 특성해석과 제어)

  • 최남섭
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.7 no.6
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    • pp.1283-1290
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    • 2003
  • Recently, PWM Buck AC-AC Converter is widely employed in various industrial applications such as voltage and power regulator, electronic transformer, phase shifter and so on. This paper presents static and dynamic modeling and complete characteristic analysis of a PWM Buck AC-AC converter. Firstly, the three phase converter system is modelled by using DQ transformation whereby we can obtain basic characteristic equations such as voltage gain and power factor as well as state equation and transfer function for control. Secondly, based on the analysis, the feedforward-feedback control technique is also proposed to obtain instantaneous duty level change whereby very fast dynamic response is achieved. Finally, the experimental results show the validity of the modeling, analysis and control.

Power module stray inductance extraction: Theoretical and experimental analysis

  • Jung, Dong Yun;Jang, Hyun Gyu;Cho, Doohyung;Kwon, Sungkyu;Won, Jong Il;Lee, Seong Hyun;Park, Kun Sik;Lim, Jong-Won;Bae, Joung Hwan;Choi, Yun Hwa
    • ETRI Journal
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    • v.43 no.5
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    • pp.891-899
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    • 2021
  • We propose a stray inductance extraction method on power modules of the few-kilovolts/several-hundred-amperes class using only low voltages and low currents. The method incorporates a double-pulse generator, a level shifter, a switching device, and a load inductor. The conventional approach generally requires a high voltage of more than half the power module's rated voltage and a high current of around half the rated current. In contrast, the proposed method requires a low voltage and low current environment regardless of the power module's rated voltage because the module is measured in a turn-off state. Both theoretical and experimental results are provided. A physical circuit board was fabricated, and the method was applied to three commercial power modules with EconoDUAL3 cases. The obtained stray inductance values differed from the manufacturer-provided values by less than 1.65 nH, thus demonstrating the method's accuracy. The greatest advantage of the proposed approach is that high voltages or high currents are not required.