• Title/Summary/Keyword: Capacitive load driving

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the Design Methodology of Minimum-delay CMOS Buffer Circuits (최소 지연시간을 갖는 CMOS buffer 회로의 설계 기법)

  • 강인엽;송민규;이병호;김원찬
    • Journal of the Korean Institute of Telematics and Electronics
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    • v.25 no.5
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    • pp.509-521
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    • 1988
  • In the designs of integrated circuits, the buffer circuits used for driving a large capacitive load from minimum-structured logic circuit outputs have important effects upon system throughputs. Therefore it is important to optimize the buffer circuits. In this paper, the principle of designing CMOS buffer circuits which have the minimum delay and drive the given capacitive load is discussed. That is, the effects of load capacitance upon rise time, fall time, and delay of the CMOS inverter and the effects of parasitic capacitances are finely analysed to calculate the requested minimum-delay CMOS buffer condition. This is different from the method by C.A. Mead et. al.[2.3.4.]which deals with passive-load-nMOS buffers. Large channel width MOS transistor stages are necessary to drive a large capacitive load. The effects of polysilicon gate resistances of such large stages upon delay are also analysed.And, the area of buffer circuits designed by the proposed method is smaller than that of buffer circuits designed by C.A. Mead's method.

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Study on High-Efficiency Driving of a Piezo Device Using Voltage Inversion Circuit (전압 극성 전환을 통한 피에조 소자의 에너지 회수형 구동 기법 연구)

  • Park, Han-Bin;Park, Jin-Ho;Hong, Sun-Ki;Kang, Taesam
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.61 no.12
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    • pp.1843-1847
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    • 2012
  • Piezo devices have large power density and simple structure. They can generate larger force than the conventional actuators. It has also wide bandwidth with fast response in a compact size. Thus the piezo devices are expected to be used widely in the future for small actuators with fast response time and large actuating force. However, the piezo actuators need high voltage with high driving current due to their large capacitive property. In this paper, we propose a simple method to drive piezo devices using voltage inversion circuit with coil inductance. Experiments with real circuit demonstrates that the proposed scheme can improve the energy efficiency very much.

High Efficiency Alternating Current Driver for Capacitive Loads Using a Current-Balance Transformer

  • Baek, Jong-Bok;Cho, Bo-Hyung;Park, Joung-Hu
    • Journal of Power Electronics
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    • v.11 no.1
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    • pp.97-104
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    • 2011
  • This paper proposes a new alternating current driving method for highly capacitive loads such as plasma display panels or piezoelectric actuators, etc. In the proposed scheme, a current balance transformer, which has two windings with the same turn-ratio, provides not only a resonance inductance for energy recovery but also a current balance among all of the switching devices of the driver for current stress reduction. The smaller conduction loss than conventional circuits occurs due to the dual conduction paths which are parallel each other in the current balance transformer. Also, the leakage inductances of the transformer are utilized as resonant inductors for energy recovery by the series resonance to the capacitive load. Furthermore, the resonance contributes to the small switching losses of the switching devices by soft-switching operation. To confirm the validity of the proposed circuit, prototype hardware with a 12-inch mercury-free flat fluorescent lamp is implemented. The experimental results are compared with a conventional energy-recovery circuit from the perspective of luminance performances.

A Study on Characteristics and Driving Techniques of Energy Recovery Type Inverter for Piezo Actuator Drive (피에조 액츄에이터 구동용 에너지 회수형 인버터의 특성과 구동 기법 연구)

  • Hong, Sun-Ki;Lee, Jung-Seop;Byeon, Nam-Hee;Na, Yoo-Cheong;Kang, Tae-Sam
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.62 no.8
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    • pp.1095-1100
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    • 2013
  • Piezo devices have large power density and simple structure compared with conventional electrical motors. Thus they can generate larger forces than the conventional actuators with small size. Their resopnses to commands are also very fast and thus the bandwidths are very wide. Thus the piezo devices are expected to be used widely in the future for actuating devices requiring fast response and large actuating force with small size. However, the piezo actuators need high voltage with high driving current due to their large capacitive property. In this paper, proposed is a simple method to drive piezo devices using voltage inversion circuit with coli inductance. The coil inductance carries the charges in the piezo device to the opposite side, inverting the polarity of the applied voltage, thus saving the power to drive the device with AC voltages. Experiments with real circuit demonstrates that the proposed scheme can improve the energy efficiency very much.

Force Commutated Circuit for Driving The Load Commutated Current Source Inverter (부하전류식(負荷轉流式) 전류형(電流型) 인버터를 구동(驅動)하기 위한 강제전류회로(强制轉流回路))

  • Chung, Y.T.;Lee, S.Y.;Soh, Y.C.;Lee, J.W.
    • Proceedings of the KIEE Conference
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    • 1993.07b
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    • pp.731-735
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    • 1993
  • When induction motor is driven with a load commutated inverter, the output part of the inverter must be capacitive. But, in order to be a good load commutation at the low speed range, very large capacitor or force commutated circuit must be used regarding the capacity of motor. This paper proposed the force commutated circuit for driving the motor in case of the installation of capacitor which can be capable of load commutation at the rating speed. The force commutated circuit is operated by the LC resonant circuit, auxiliary source and SCR, and also composed of the commutation circuit which control the interval of the inverse voltage across the inverter.

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Characteristics for Current and Power of Induction Motor by Load Variation (부하변동에 따른 유도전동기 전류와 전력 특성)

  • Kim, Jong-Gyeum
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.25 no.8
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    • pp.82-87
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    • 2011
  • Induction motor is most widely used as the driving power in the industrial site. Induction motor current is composed of two parts, magnetizing current and load current. Load current uses energy what is doing the work. Load current varies with load variance but magnetizing current is constant, regardless of load variation. Magnetizing current needs for establishing the rotating magnetic field of induction motor and lags behind the voltage. Generally capacitor is used for power-factor compensation of inductive load. Self-excitation occurs when the capacitive reactive current from the capacitor is greater than the magnetizing current of the induction motor. When this occurs, excessive voltages can result on the terminals of the motor. This excessive voltage can cause insulation degradation and ultimately result in motor insulation failure. In this paper, we analyzed that how the magnetizing current and condenser current is operating at the allowable limit by the load variation. Condenser current is below allowable limit of magnetizing current but magnetizing current is above allowable limit at the lower load operation condition.

Characteristics of Solenoid Actuated Hydrogen Injector (솔레노이드 구동 수소인젝터의 성능특성)

  • Yi, H.S.;Kim, H.J.;Kim, E.S.
    • Transactions of the Korean Society of Automotive Engineers
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    • v.3 no.6
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    • pp.134-144
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    • 1995
  • The solenoid actuated hydrogen injector and the capacitive peak-hold type driving circuit were designed and made, and the hydrogen supply system for in-cylinder injection was constructed with these. The performance of the injector was investigated through measuring the pintle lift profiles and the injection quantities, and the performance of the hydrogen supply system was confirmed through the experiments at the single cylinder engine. The injection quantity increased linearly as the duration of driving signal increased. At the single cylinder engine, the hydrogen injector was operated stably. The hydrogen flow rate of the injector with the peak-hold type driving circuit could be controlled precisely at high engine speed or low load condition only with the variation of signal duration.

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a Energy Recovery Circuit using auto-transformer for the Driving of Capacitive Load (용량성 부하 구동을 위한 단권변압기를 사용한 에너지 회수 회로)

  • Baek, J.B.;Park, J.H.;Cho, B.H.
    • Proceedings of the KIPE Conference
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    • 2008.06a
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    • pp.443-445
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    • 2008
  • 용량성 부하를 사용하는 응용사례가 늘어남에 따라 에너지 회수 회로의 중요성 또한 더욱 부각되고 있다. 특히, 고전압 구동의 경우 에너지 회수를 하지 않을 경우 손실이 크게 발생하며 충방전시 돌입 전류로 인한 노이즈 문제 또한 발생하게 된다. 본 논문에서는 단권변압기를 사용한 새로운 형태의 에너지 회수 회로를 제안한다. 제안한 회로는 모든 스위치가 동일한 전압, 전류 스트레스를 받으며 항상 스위치를 통해 흐르는 전류가 대칭적으로 분배되기 때문에 도통 손실을 줄일 수 있으며 단권변압기를 통하여 용량성 부하가 연결되기 때문에 영전압 실패시 발생 할 수 있는 돌입 전류로 인한 전자파 발생 및 도통, 스위칭 손실을 막을 수 있다는 장점을 갖는다. 이에 대한 이론적 해석과 시뮬레이션과 용량성 부하를 이용한 실험을 통해 타당성을 검증하였다.

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A Study on the Discharge Characteristics of an Ac PDP with the Variation of Scan Electrode Driver (PDP 스캔 전극 구동방식에 따른 방전 특성의 변화에 관한 연구)

  • Kim, Joong-Kyun
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.19 no.8
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    • pp.13-18
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    • 2005
  • The variation of discharge characteristics of an ac PDP was observed with the charge of scan electrode driving circuit. Conventional scan electrode driving circuit provides two switches per one scan line, and the suggested one can be constituted by one switch per one scan line with the consideration of capacitive load characteristic of an ac PDP. To verify the workability of the suggested scheme, the performances of the ac PDP was investigated. The dynamic voltage margin was slightly decreased with the adoption of the suggested scheme, which is estimated to result from the misfiring of unselected discharge cells due to the deformation of voltage level of the neighboring scan electrode. In the observation of the delay characteristics of addressing discharge, the performances of the conventional circuit and the suggested one are assumed to be equivalent.

A Study on the Design of Amplifier for Source Driver IC applicable to the large TFT-LCD TV (대형 TFT-LCD TV에 적용 가능한 Source Driver IC 감마보정전압 구동용 앰프설계에 관한 연구)

  • Son, Sang-Hee
    • Journal of IKEEE
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    • v.14 no.2
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    • pp.51-57
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    • 2010
  • A CMOS rail-to-rail high voltage buffer amplifier is proposed to drive the gamma correction reference voltage of large TFT LCD panels. It is operating by a single supply and only shows current consumption of 0.5mA at 18V power supply voltage. The circuit is designed to drive the gamma correction voltage of 8-bit or 10-bit high resolution TFT LCD panels. The buffer has high slew rate, 0.5mA static current and 1k$\Omega$ resistive and capacitive load driving capability. Also, it offers wide supply range, offset voltages below 50mV at 5mA constant output current, and below 2.5mV input referred offset voltage. To achieve wide-swing input and output dynamic range, current mirrored n-channel differential amplifier, p-channel differential amplifier, a class-AB push-pull output stage and a input level detector using hysteresis comparator are applied. The proposed circuit is realized in a high voltage 0.18um 18V CMOS process technology for display driver IC. The circuit operates at supply voltages from 8V to 18V.