• 조명전기설비학회논문지
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• 제29권3호
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• pp.69-80
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• 2015

This paper is writing about developing magnet power supply. It is very important for power supply to obtain output current in high precision and high stability. As a switching noise and a power noise are the cause of disrupting the stability of output current, to remove these at the front end, low pass filter with 300Hz cutoff frequency is designed and placed. And also to minimize switching noise of the current into magnet and to stop abrupt fluctuations, output filter should be designed, when doing this, we design it by considering load has high value inductance. As power supply demands the stability of less than 5ppm, high precision 24bit(300nV/bit) analog digital converter is needed. As resolving power of 24bit(300nV/bit) analog digital converter is high, it is also very important to design the input stage of analog digital converter. To remove input noise, 4th order low pass filter is composed. Due to the limitation of clock, to minimize quantization error between 15bit DPWM and output of ADC having 24bit resolving power, ${\Sigma}-{\Delta}$ modulation is used and bit contracted DPWM is constituted. And before implementing, to maximize efficiency, simulink is used.

• ETRI Journal
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• 제32권1호
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• pp.154-156
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• 2010

Oscillation-based testing of analog-to-digital converters represents a viable option for low-cost built-in self-testing in mixed-signal design. While numerous papers have addressed implementation issues, little attention has been paid to the measurement accuracy. In this letter, we highlight an inherent measurement uncertainty which has to be considered when deriving the parameters from the oscillation frequency.

• 대한전자공학회:학술대회논문집
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• 대한전자공학회 2003년도 하계종합학술대회 논문집 V
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• pp.2621-2624
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• 2003

In this paper, we designed 12Bit DAC(Digital to Analog Converter) that applied to multiple-valued logic system to Binary system. The proposed D/A Converter structure consists of the Binary to Quaternary Converter(BQC) and Quaternary to Analog Converter(QAC). The BQC converts the two input binary signals to the one Digit Quaternary output signal. The QAC converts the Quaternary input signal to the Analog output signal. The proposed DAC structure can implement voltage mode DAC that high resolution low power consumption with reduced chip area. And also, it has advantage of the easy expansion of resolution and fast settling time.

• 정보학연구
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• 제9권1호
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• pp.33-39
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• 2006

This study is for the contents of development to the hardware system and software driving algorithm to implement the frequency band of about 7KHz los pass digital filter which has the cut-off frequency of 392Hz by interfacing of a microprocessor with its peripheral analog-to-digital converter chip and digital-to-analog converter chip. The simplicity of digital filter design without difficulty and the implementation of programmed digital filter can be realized by providing the interfacing method to implement the law pass digital filter for the biological signals and the realization method of computer algorithm by a microprocessor.

• 한국분말재료학회지
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• 제19권4호
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• pp.297-303
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• 2012

In this study, voltammetry system for realizing high sensitivity nano-labeled sensor of detecting heavy metals was designed, and optimal system operating conditions were determined. High precision digital to analog converter (DAC) circuit was designed to control applied unit voltage at working electrode and analog to digital converter (ADC) circuit was designed to measure the current range of $0.1{\sim}1000{\mu}A$ at counter electrode. Main control unit (MCU) circuit for controlling voltammetry system with 150 MHz clock speed, main memory circuit for the mathematical operation processing of the measured current value and independent power circuit for analog/digital circuit parts to reduce various noise were designed. From result of voltammetry system operation, oxidation current peaks which are proportional to the concentrations of Zn, Cd and Pb ions were found at each oxidation potential with high precision.

• 대한전자공학회논문지
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• 제27권8호
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• pp.1255-1259
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• 1990

A new ripple analog-to-digital converter (ADC) has been developed. It consists of two parallel ADCs and a switching network. The circuit operates on the analog input signal in two serial steps. First, a coarse conversion is made to determine the most significant bits by the first parallel ADC. The resultant bits control the switching network to connect a series resistor segment, within which the analog signal is contained, to the second parallel ADC. At second step, a fine conversion is made to determine the least significant bits by the second parallel ADC. The circuit requires 2(2\ulcorner\ulcorner1) comparators, 2(2\ulcorner\ulcorner resistors, and 2(2\ulcorner\ulcorner swithches for N-bit resolution.

• 대한전자공학회:학술대회논문집
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• 대한전자공학회 2002년도 하계종합학술대회 논문집(2)
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• pp.149-152
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• 2002

The performance of a 1-bit DAC depends on that of the analog circuits. The mixed SC-CT (switched capacitor-continuous time) architecture is an effective design methodology for the analog circuits. This paper Proposes a new buffer scheme for the 1-bit digital-to-analog subconverter and a new SF-DSC(smoothing filter and differential-to-sig le converter) which performs both the smoothing filter and the differential-to-single convertor simultaneously.

• 한국정보통신학회:학술대회논문집
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• 한국정보통신학회 2012년도 춘계학술대회
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• pp.88-90
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• 2012

본 논문은 rail-to-rail 입력 범위를 가지는 10-bit 10-MS/s 비동기 축차근사형 (SAR: successive approximation register) 아날로그-디지털 변환기 (ADC: analog-to-digital converter)를 제안한다. 제안된 SAR ADC는 커패시터 디지털-아날로그 변환기 (DAC: digital-to-analog converter), SAR 로직, 그리고 비교기로 구성된다. 외부에서 공급되는 클럭의 주파수를 낮추기 위해 SAR 로직과 비교기에 의해 비동기로 생성된 내부 클럭을 사용한다. 또한 높은 해상도를 구현하기 위해 오프셋 보정기법이 적용된 시간-도메인 비교기를 사용한다. 면적과 전력소모를 줄이기 위해 분할 캐패시터 기반 차동DAC를 사용한다. 설계된 비동기 SAR ADC는 0.18-um CMOS 공정에서 제작되며, core 면적은 $420{\times}140{\mu}m^2$이다. 1.8 V의 공급전압에서 0.818 mW의 전력 소모와 91.8 fJ/conversion-step의 FoM을 가진다.

• 전자공학회논문지A
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• 제32A권12호
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• pp.220-228
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• 1995

An optimized 4-stage 12-bit pipelined CMOS analog-to-digital converter (ADC) architecture is proposed to obtain high linearity and high yield. The ADC based on a multiplying digital-to-analog converter (MDAC) selectively employs a binary-weighted-capacitor (BWC) array in the front-end stage and a unit-capacitor (UC) array in the back-end stages to improve integral nonlinearity (INL) and differential nonlinearity (DNL) simultaneously whil maintaining high yield. A digital-domain nonlinear error calibration technique is applied in the first stage of the ADC to improve its accuracy to 12-bit level. The largest DNL error in the mid-point code of the ADC is reduced by avoiding a code-error symmetry observed in a conventional digitally calibrated ADC is reduced by avoiding a code-error symmetry observed in a conventional digitally calibrated ADC is simulated to prove the effectiveness of the proposed ADC architecture.

• 대한전자공학회논문지SD
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• 제43권1호
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• pp.65-70
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• 2006

인간의 눈은 넓은 영역의 빛의 밝기를 받아들이기 위해 log 응답 특성을 갖는 반면 이미지 센서는 제한된 dynamic range를 갖는다. 선형 ADC(analog-to-digital converter)를 적용한 일반적인 CMOS 이미지 센서는 이미지의 어두운 부분을 확실하게 나타나게 하기 위하여 이득을 높이며 일부 밝은 부분의 포화 현상을 막을 수는 없다. 감마 보정은 인간의 눈의 반응에 맞추는 본질적인 방법이다. 그러나 디지털 감마 보정은 ADC 해상도와 센서 자체의 dynamic range의 한계 때문에 이미지의 질을 떨어뜨린다. 본 논문은 아날로그 감마 보정을 수행하는 비선형 ADC를 사용한 CMOS 이미지 센서를 제안한다. 제안된 비선형 ADC를 적용한 CMOS 이미지 센서는 $0.35{\mu}m$ CMOS 공정을 이용하였다. 제안된 비선형 ADC CIS를 적용한 아날로그 감마 보정이 기존의 디지털 감마 보정 방법에 비해 질적으로 향상된 이미지를 보였는데 수치적으로 200mV 미만 픽셀 출력으로 이루어진 저조도 이미지에서의 peak-signal-to-noise ratio (PSNR)는 제안된 아날로그 감마 보정이 27.8dB, 디지털 감마 보정이 25.6dB로 측정되어 아날로그 감마 보정이 디지털 감마 보정에 비해 저조도 양자화 잡음을 $28.8\%$ 개선되었음을 확인하였다.