• Title/Summary/Keyword: Digital Phase-locked-loop

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A Clock System including Low-power Burst Clock-data Recovery Circuit for Sensor Utility Network (Sensor Utility Network를 위한 저전력 Burst 클록-데이터 복원 회로를 포함한 클록 시스템)

  • Song, Changmin;Seo, Jae-Hoon;Jang, Young-Chan
    • Journal of IKEEE
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    • v.23 no.3
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    • pp.858-864
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    • 2019
  • A clock system is proposed to eliminate data loss due to frequency difference between sensor nodes in a sensor utility network. The proposed clock system for each sensor node consists of a bust clock-data recovery (CDR) circuit, a digital phase-locked loop outputting a 32-phase clock, and a digital frequency synthesizer using a programmable open-loop fractional divider. A CMOS oscillator using an active inductor is used instead of a burst CDR circuit for the first sensor node. The proposed clock system is designed by using a 65 nm CMOS process with a 1.2 V supply voltage. When the frequency error between the sensor nodes is 1%, the proposed burst CDR has a time jitter of only 4.95 ns with a frequency multiplied by 64 for a data rate of 5 Mbps as the reference clock. Furthermore, the frequency change of the designed digital frequency synthesizer is performed within one period of the output clock in the frequency range of 100 kHz to 320 MHz.

Ka-Band FMCW Sensor with High Linearity (고선형성을 갖는 Ka대역 FMCW 센서)

  • Kim, Jaehwan;Lee, Sungju;Kwon, Hyukja;Yang, Youngoo
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.25 no.6
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    • pp.671-678
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    • 2014
  • This paper presents a Ka-band FMCW sensor that has high linearity by improving a nonlinear behavior of the voltage controlled oscillator. Due to the nonlinear characteristics of the voltage controlled oscillator for the conventional method, the drift of beat frequency can cause inaccuracy and errors to the extracted results. A Ka-band FMCW signal with fast transition time could be generated by using both direct digital synthesizer and phase locked loop in this research. The implemented FMCW sensor showed very high accuracy in beat frequency through the test.

Design and Implementation of Photovoltaic Power Conditioning System using a Current-based Maximum Power Point Tracking

  • Lee, Sang-Hoey;Kim, Jae-Eon;Cha, Han-Ju
    • Journal of Electrical Engineering and Technology
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    • v.5 no.4
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    • pp.606-613
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    • 2010
  • This paper proposes a novel current-based maximum power point tracking (CMPPT) method for a single-phase photovoltaic power conditioning system (PV PCS) by using a modified incremental conductance method. The CMPPT method simplifies the entire control structure of the power conditioning system and uses an inherent current source characteristic of solar cell arrays. Therefore, it exhibits robust and fast response under a rapidly changing environmental condition. Digital phase locked loop technique using an all-pass filter is also introduced to detect the phase of grid voltage, as well as the peak voltage. Controllers of dc/dc boost converter, dc-link voltage, and dc/ac inverter are designed for coordinated operation. Furthermore, a current control using a pseudo synchronous d-q transformation is employed for grid current control with unity power factor. A 3 kW prototype PV PCS is built, and its experimental results are given to verify the effectiveness of the proposed control schemes.

A Digital DLL with 4-Cycle Lock Time and 1/4 NAND-Delay Accuracy

  • Kim, Sung-Yong;Jin, Xuefan;Chun, Jung-Hoon;Kwon, Kee-Won
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.16 no.4
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    • pp.387-394
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    • 2016
  • This paper presents a fully digital delay locked loop (DLL) that can acquire lock in four clock cycles with a resolution of a 1/4 NAND-delay. The proposed DLL with a multi-dither-free phase detector acquires the initial lock in four clock cycles with 1/2 NAND-delay. Then, it utilizes a multi-dither-free phase detector, a region accumulator, and phase blenders, to improve the resolution to a 1/4 NAND-delay. The region accumulator which continuously steers the control registers and the phase blender, adaptively controls the tracking bandwidth depending on the amount of jitter, and effectively suppresses the dithering jitter. Fabricated in a 65 nm CMOS process, the proposed DLL occupies $0.0432mm^2$, and consumes 3.7 mW from a 1.2-V supply at 2 GHz.

Digital Phase-Locked Loop(DPLL) Technique for UPS (무정전 전원장치용 디지털 위상동기화 기법)

  • 김제홍;최재호
    • The Proceedings of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.11 no.3
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    • pp.106-113
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    • 1997
  • In uninterruptible power supply(UPS), a high speed phase control is usually required to compensate transients in the output voltage at the instant of transfer from the ac line to the inverter when the ac line fails or backs to the ac line in case of the inverter fails. To overcome this problem, this paper pre¬sents the closed digital phase-locked loop(DPLL) techniques designed by full software with TMS320C31 digital signal processor and describes the functional operation of the proposed DPLL. Fi¬nally, the performance of the proposed DPLL is shown and discussed through simulation and experiment.

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Design of Fractional-N Digital PLL for IoT Application (IoT 어플리케이션을 위한 분수분주형 디지털 위상고정루프 설계)

  • Kim, Shinwoong
    • Journal of IKEEE
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    • v.23 no.3
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    • pp.800-804
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    • 2019
  • This paper presents a dual-loop sub-sampling digital PLL for a 2.4 GHz IoT applications. The PLL initially performs a divider-based coarse lock and switches to a divider-less fine sub-sampling lock. It achieves a low in-band phase noise performance by enabling the use of a high resolution time-to-digital converter (TDC) and a digital-to-time converter (DTC) in a selected timing range. To remove the difference between the phase offsets of the coarse and fine loops, a phase offset calibration scheme is proposed. The phase offset of the fine loop is estimated during the coarse lock and reflected in the coarse lock process, resulting in a smooth transition to the fine lock with a stable fast settling. The proposed digital PLL is designed by SystemVerilog modeling and Verilog-HDL and fully verified with simulations.

디지틀 교환망에서의 망동기

  • 김옥희;박권철
    • Proceedings of the Korean Institute of Communication Sciences Conference
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    • 1986.04a
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    • pp.160-163
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    • 1986
  • In a digital telecommunication network, the clock synchronization is inevitable to prevent the data loss caused by inconsistency of clock frequencies. This paper descries the considerations necessary for synchronization and the implementation of the clock synchronization system using digital processing phase locked loop method in TDX-1 switching system.

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Surpassing Tradeoffs by Separation: Examples in Transmission Line Resonators, Phase-Locked Loops, and Analog-to-Digital Converters

  • Sun, Nan;Andress, William F.;Woo, Kyoung-Ho;Ham, Don-Hee
    • JSTS:Journal of Semiconductor Technology and Science
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    • v.8 no.3
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    • pp.210-220
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    • 2008
  • We review three examples (an on-chip transmission line resonator [1], a phase-locked loop [2], and an analog-to-digital converter [3]) of design tradeoffs which can in fact be circumvented; the key in each case is that the parameters that seem to trade off with each other are actually separated in time or space. This paper is an attempt to present these designs in such a way that this common approach can hopefully be applied to other circuits. We note reader that this paper is not a new contribution, but a review in which we highlight the common theme from our published works [1-3]. We published a similar paper [4], which, however, used only two examples from [1] and [2]. With the newly added content from [3] in the list of our examples, the present paper offers an expanded scope.

Hybrid Type Structure Design and DLT-Replacement Circuit of the High-Speed Frequency Synthesizer (고속 스위칭 동작의 주파수 합성기를 위한 하이브리드형 구조 설계와 DLT 대체 회로 연구)

  • Lee Hun-Hee;Heo Keun-Jae;Jung Rag-Gyu;Ryu Heung-Gyoon
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.15 no.12 s.91
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    • pp.1161-1167
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    • 2004
  • The conventional PLL(phase locked loop) frequency synthesizer takes a long switching time because of the inherent closed-loop structure. The digital hybrid PLL(DH-PLL) which includes the open-loop structure into the conventional PLL synthesizer has been studied to overcome this demerit. It operates in high speed, but the hardware complexity and power consumption are the serious problem because the DLT(digital look-up table) is usually implemented by the ROM which contains the transfer characteristic of VCO(voltage controlled oscillator). This paper proposes a new DH-PLL using a very simple DLT-replacement digital logic instead of the complex ROM-type DLT. Also, a timing synchronization circuit for the very small over-shoot and shorter settling time is designed for the ultra fast switching speed at every frequency synthesis. The hardware complexity gets decreased to about $28\%,$ as compared with the conventional DH-PLL. The high speed switching characteristic of the frequency synthesis process can be verified by the computer simulation and the circuit implementation.

English Digital Signal Processing Circuit in HD Monitor using Synchronization Signal Optimization (동기신호 최적화 기법을 통한 고품위급 모니터의 디지털 신호처리회로 구현)

  • 천성렬;김익환;이호근;하영호
    • The Journal of Korean Institute of Communications and Information Sciences
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    • v.28 no.11C
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    • pp.1152-1160
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    • 2003
  • Start The current paper proposes an improved HD(High Definition) monitor that can support a signal input with various resolutions. Due to the inadequate performance of the built-in digital PLL(Phase-locked Loop) of an ADC(Analog to Digital Converter) and poor tolerance of ADC ICs, there are problems in the stable processing of synchronization signals with various input signals. Accordingly, the proposed synchronization signal optimization technique regenerates the horizontal synchronization signal in the vertical blanking interval based on the regularity of the synchronization signal, i.e. the timing of the falling edge signal remains constant, thereby solving the above problem and minimizing the interference of the system. As a result, the proposed system can stabilize various synchronization signals with different resolution modes.