• The Magazine of the IEIE
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• v.43 no.10
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• pp.35-42
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• 2016

• Proceedings of the KIEE Conference
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• 2008.07a
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• pp.1923-1924
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• 2008

본 논문에서는 실리콘 기반에 집적화 가능한 새로운 구조의 K-band 4포트 직접변환 수신기 구조를 제안하며, 복조기를 측정하기 위한 K-band 변조 신호를 구현할 수 있는 변조기 모듈을 제작, 변조 신호와 복조기를 검증하였다. 제안된 수신 구조는 CMOS와 같은 실리콘 기반의 IC에서 집적화 할 수 있는 소형화된 새로운 방법이며, 회로를 검증하기 위하여 0.18um CMOS 공정을 이용 제작, 구조의 가능성을 검증하였다. 또한 비교적 낮은 변조 신호를 이용하여 K-band 대역 이상의 변조 신호를 만들 수 있는 방법을 제안, 제작 측정하였다.

• Electronics and Telecommunications Trends
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• v.37 no.3
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• pp.11-22
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• 2022

The development and application of silicon photonics technology to terabit optical transmission are expected in the future. Silicon photonics technology is recognized as the only technology focusing on increasing the bandwidth of data center switches. High-density integration-based small optical subassemblies, optical engines, and optical transceivers are converged with the silicon photonics technology to accelerate a revolution in optical interfaces.

• The Journal of Korean Institute of Electromagnetic Engineering and Science
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• v.25 no.1
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• pp.130-136
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• 2014

This paper reviews the research on silicon based phased array system operating from microwave to millimeter wave frequencies. First, the design of phase shifter using CMOS technology is presented. The passive phase shifter is applied to the transmit/receive module from one to 16 channel in a single chip. The 35 GHz 4-element T/R module consumes less than 200 mW both transmit and receive modes. The architecture can extend to 16-channel operating at 44 GHz, thereby improving transmit power and linearity. The Ku-band 2-antenna 4-element receiver was developed using active phase shifter based on vector sum method. It is important to minimize coupling between beams because the chip contains four independent beams. The method of coupling is presented and verified.