• Title/Summary/Keyword: Feedback circuit

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VCO fabrication using Microstrip Line operating at the UHF frequency band (UHF대역에서 동작하는 마이크로스트립라인을 이용한 VCO 제작)

  • Rhie, Dong Hee;Jung, Jin-Hwee
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2001.05c
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    • pp.55-58
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    • 2001
  • In this paper, we present the results of the design and fabrication of the VCO(Voltage controlled Oscillator) using RF circuit simulator GENESYS and electromagnetic field simulator EMpower Frequency range is fabricated VCO is 850 MHz ~ 950 MHz, which is used Colpitts Circuit. the fabricated VCO is consisted of resonator, oscillator and MSL(Microstrip Line) is used in LC tuning circuit.(operated by negative feedback) MSL(Microstrip Line), Varactor(Plastic package), low noise TR(SOT-23), chip inductor(1608), chip capacitor(1005), chip resistance(1005). 1005 type is used for sample fabrication of VCO. In the fabrication process, circuit pattern is screen printed on the alumina substrates of over 99.9% purity. Center frequency of the sample VCO is 850MHz at $V_T=1.5V$, while the simulated value was 1.0GHz at $V_T=1.5V$. Variable frequency range of the sample is 860~950MHz in contrast to the 1068~1100MHz of the simulated values.

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VCO fabrication using Microstrip Line operating at the UHF frequency band (UHF대역에서 동작하는 마이크로스트립라인을 이용한 VCO 제작)

  • Rhie, Dong-Hee;Jung, Jin-Hwee
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2001.05c
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    • pp.153-156
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    • 2001
  • In this paper, we present the results of the design and fabrication of the VCO(Voltage controlled Oscillator) using RF circuit simulator GENESYS and electromagnetic field simulator EMpower Frequency range is fabricated VCO is 850 MHz ~ 950 MHz, which is used Colpitts Circuit. the fabricated VCO is consisted of resonator, oscillator and MSL(Microstrip Line) is used in LC tuning circuit.(operated by negative feedback) MSL(Microstrip Line), Varactor(Plastic package), low noise TR(SOT-23), chip inductor(1608), chip capacitor(1005), chip resistance(1005). 1005 type is used for sample fabrication of VCO. In the fabrication process, circuit pattern is screen printed on the alumina substrates of over 99.9% purity. Center frequency of the sample VCO is 850MHz at $V_T$=1.5V, while the simulated value was 1.0GHz at $V_T$=1.5V. Variable frequency range of the sample is 860~950MHz in contrast to the 1068~1100MHz of the simulated values.

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Phase Noise Reduction in Oscillator Using a Low-frequency Feedback Circuit Based on Aactive Bias Circuit (능동 바이어스 회로로 구현된 저주파 궤환회로를 이용한 발진기의 위상잡음 감소)

  • 장인봉;양승인
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.8 no.1
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    • pp.94-99
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    • 1997
  • There are several factors that have influence on the phase noise of an oscillator. But one of the major factors is the flicker noise of a transistor, since the phase noise of an oscillator is generated by mixing the carrier with the low frequency noise near the DC having the characteristic of 1/f. In this paper, we have presented a method on reducing the phase noise of an oscillator by using a low-frequency feedback circuit based on an active bias circuit, and have fabricated a DRO for a DBS receiver. Measurement results show that the phase noise is -92 dBc/Hz at the 10 KHz offset frequency, and from these results we have found out that the reduction method is very effective.

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Feedback Circuit of Maximum LED Channel String Voltage Detection Converter for Energy Saving on Multichannel LED Module (Multi Channel LED 조명 Module 구동에서 최대 효율을 위한 최대 Channel 전압 감지회로)

  • Kim, Hyun-Sik;Kim, Ki-Woon;Kim, Gi-Hoon;Kim, Yu-Sin;Song, Sang-Bin
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.25 no.11
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    • pp.938-941
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    • 2012
  • LED is divided to multichannel in order not to exceed a certain voltage in aspects of electric standard. However, it's not possible to know in accordance with what channel SMPS controls the constant voltage and current. In order to solve this problem, it needs to detect the maximum LED String voltage which is applied to LED control circuit, and it is possible to minimize the voltage drop when a difference of LED string voltage occurs by each channel if LED is controlled by the maximum LED string voltage detected. In addition, it is also possible to maximize the efficiency of LED if change LED voltage by detecting the maximum voltage. Feasibility of this claim was verified through implementation of the circuit.

A Study on the Gap Estimation Circuit Design of the Magnetic Levitation System (자기 부상계의 변위추정 회로설계에 관한 연구)

  • Kim, C.H.;Ha, Y.W.;Sim, S.H.;Yang, J.H.
    • Journal of Power System Engineering
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    • v.1 no.1
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    • pp.144-153
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    • 1997
  • The magnetic levitation system is utilized in the magnetic bearing of high-speed rotor because of little friction, no lubrication, no noise and so on. The magnetic levitation system need the feedback controller for the stabilization of system, and gap sensors are generally used to measure the gap. The use of gap sensors brings out the increase of the number of troublesome, and the decrease of the control performance because of the dislocation between the measurement point and the control point. This paper presents the design of the gap estimation circuit for the sensorless method proposed by authors in the magnetic levitation system. We made the gap estimation circuit which was composed of both the superposition circuit and the measuring circuit. And we investigated the validity of the usefulness of the proposed sensorless method in the magnetic levitation system through results of actual experiment.

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Low Noise Phase Locked Loop with Negative Feedback Loop including Frequency Variation Sensing Circuit (주파수 변화 감지 회로를 포함하는 부궤환 루프를 가지는 저잡음 위상고정루프)

  • Choi, Young-Shig
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.13 no.2
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    • pp.123-128
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    • 2020
  • A low phase noise phase locked loop (PLL) with negative feedback loop including frequency variation sensing circuit (FVSC) has been proposed. The FVSC senses the frequency variation of voltage controlled oscillator output signal and controls the volume of electric charge in loop filter capacitance. As the output frequency of the phase locked loop increases, the FVSC reduces the loop filter capacitor charge. This causes the loop filter output voltage to decrease, resulting in a phase locked loop output frequency decrease. The added negative feedback loop improves the phase noise characteristics of the proposed phase locked loop. The size of capacitance used in FVSC is much smaller than that of loop filter capacitance resulting in no effect in the size of the proposed PLL. The proposed low phase noise PLL with FVSC is designed with a supply voltage of 1.8V in a 0.18㎛ CMOS process. Simulation results show the jitter of 273fs and the locking time of 1.5㎲.

Design of 4-Pole Low Noise Active Bandpass Filter Improving Amplitude Flatness of Passband (통과대역 평탄도를 개선한 4단 저잡음 능동 대역통과 여파기 설계)

  • 방인대;전영훈;이재룡;윤상원
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.15 no.6
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    • pp.590-598
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    • 2004
  • An active capacitance circuit which employs series feedback network for the implement of negative resistance and low noise operation is analyzed in depth and its application to low noise active RF BPF's is discussed. Whereas many authors reported a lot of circuits that embody negative resistance circuit most of them have concerns for the equivalent resistance and reactance value at the center frequency. In this case, it could be possible to face a problem that the negative resistance circuit becomes unstable, or have poor flatness in passband because of insufficient forecast for the negative resistance values as the frequency goes higher or lower. In this paper, we extracted the exact equivalent values of this circuit and analyzed the RF characteristics with the varying the values of active devices and feedback circuits and presented the method that the flatness of passband can be improved. We have designed a 4-pole active BPF, which has the bandwidth of 60 ㎒, 0.67 ㏈ insertion loss, 0.3 ㏈ ripple, and noise figure of 3.0 ㏈ at 1.99 ㎓ band.

Study on the Characteristics of Constant Voltage Transformer for the changes of the circuit parameters (정전압 변압기의 회로정수에 따른 특성 변화에 관한 연구)

  • Joo Hyeong-Gil;Han Jae-Won
    • Proceedings of the KIPE Conference
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    • 2001.07a
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    • pp.627-629
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    • 2001
  • The constant voltage transformer(CVT) is a voltage regulator that has a high reliability, a good short circuit characteristic, a high input power factor, and a relative immunity to lightning strike. Moreover, this has a good line regulation without a voltage feedback control. In this paper, the characteristics of CVT for the changes of input voltage and other circuit parameters are investigated.

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Test Technology of Digital Circuit Board Based on Serial Signature Analysis Technique in Production Line (생산라인에서 SSA 기법에 근거한 디지털 회로 보오드 검사 기술)

  • Ko, Yun-Seok
    • Proceedings of the KIEE Conference
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    • 2001.07d
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    • pp.2193-2195
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    • 2001
  • This paper proposes test strategy detecting the faulted digital device or the faulted digital circuit on the digital circuit board using signature analysis technique based on the polynoimal division theory. SSA(serial Signature Analysis) identifies the faults by comparing the reminder from good device and reminder from the tested device, which reminder is obtained by enforcing the data stream outputed from output pins of tested device on LFSR(Linear Feedback Shift Resister) representing the characteristic equation.

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A CV.CC Concurrent-Controled LED Converter (정전압.정전류 동시제어 LED 컨버터)

  • Mang, Chung-Yong;Lee, Won-Seok
    • Journal of the Institute of Electronics and Information Engineers
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    • v.49 no.11
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    • pp.193-198
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    • 2012
  • An LED converter used to operate an LED with high efficiency and long lifespan, activates an LED by keeping voltage and current constant. In spite of voltage drop by LED's overheating and over-voltage by damage of a power line and by circuit problem, most existing LED converters supply unchanged constant voltage and current to the LED. Eventually, LED is out of order because of over-voltage or over-current. To avoid the breakdown of an LED by over-voltage and over-current, we propose a new scheme which deactivate the PWM circuit in the event of over-current generating. The PWM circuit operates below the pre-determined level of current. While the over-voltage is generated in PWM circuit, the feedback circuit makes the PWM circuit stopped and therefore prevents LED from being damaged by over-voltage and over-current.