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REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
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The Journal of Korean Institute of Communications and Information Sciences
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Journal DOI :
The Korean Institute of Communications and Information Sciences
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Volume & Issues
Volume 7, Issue 4 - Dec 1982
Volume 7, Issue 3 - Sep 1982
Volume 7, Issue 2 - Jun 1982
Volume 7, Issue 1 - Mar 1982
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A Study on the Per-Channel CPCM Method by means of the 1-Bit Interpolation
The Journal of Korean Institute of Communications and Information Sciences, volume 7, issue 2, 1982, Pages 47~54
In this paper, a improved per-channel PCM Coder with 1-bit interpolation is proposed. The coder converts a telephone signal to 15-segments u-law PCM signal of a large dynamic range. The A/D conversion technique of the proposed converter requires a feedback loop around a quantizer operates at high speed, and a accumulater for accumulating the quantized values to provide PCM outputs. To obtain both linear and compressed PCM signals a improved table look-up method is presented. The operations of the proposed converter are certified through the experiments to be good. The experimental circuit comprises TTL logic gates, a resistive D/Z converter and a simple differential amplifier. From the results of the experiments, it is known that the proposed converter has many advantage to be adopted economically for per-channel onverter used in rural area service.
An Useful Method for Evaluating the Threshold of the Optimum Detector
The Journal of Korean Institute of Communications and Information Sciences, volume 7, issue 2, 1982, Pages 55~58
An useful method for evaluating the threshold of the optimum detector can be used if sufficient statistics exists. This was done by giving examples. The design of the suboptimum detector can be carried out by finding the threshold of the appropriate test statistics. The results are conformed with the existing theory and the method given above is applicable in extensive area of designing the detectors.
A Study on the Thermally Stimulated Current in CdS Single Crystal
The Journal of Korean Institute of Communications and Information Sciences, volume 7, issue 2, 1982, Pages 59~65
In this paper, the CdS single crystal, which was grown as piper-polish method, was Ion-bombarded with Sb and In, and the thermally stimulated current of the spot that was Ionbombarded was measured. In the sample which was individually bombarded by Sb and In, the over-lapping peak was found, this over lapping peak was separated, by the method of thermal cleaning, showing the trap levels of 0.25(eV) and 0.31(eV) at the temperature of 147(K) and 181(K). While the spot is being cooled down and excited with photolight at the same time, the trap level 0.25(eV) disappeared and the new trap level of 0.85(eV) appeared. It can be said that the better photo-conductive crystals, the T.S.C is better measured.
A Data Communication Method for Real-Time Control Systems
The Journal of Korean Institute of Communications and Information Sciences, volume 7, issue 2, 1982, Pages 66~70
A data communication protocol and interface between a minicomputer and remote microprocessor-based real-time controllers are proposed and designed. Practically this method was implemented on a real-time data acquisition and on-line control system with a good performance.
X-Band Balanced Mixer by MIC Magic-Tee
The Journal of Korean Institute of Communications and Information Sciences, volume 7, issue 2, 1982, Pages 71~77
This poper proposes the method of the balanced-mixer realization in the X-Band frequency range by the MIC coplanar magic-tee. This magic-tee is composed with microstrip and slot, as suggested by Ronde. The characteristics of balancing and isolation in this magic-tee is more preferable to those of the rat-race or hybrid ring in the wide frequency range. So, experimentally in this paper the characteristics of the MIC balanced-mixed are obtained with the VSWR less than 1, 2(in Local and Signal Arms) and the Conversion Loss, 6 dB in that frequency range, when the mixer is designed in the 3rd order (in E-arm) and 2nd order(in H-arm) Chebyshev matching networks, and with two symmetrical Schottkey Barrier Diodes.