• Title/Summary/Keyword: DSB-SC

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Phase Noise Characterization with Optical Carrier Suppression Level on Continuous Wave in the Ranges of Millimeter Waves Generated by Photomixing of Optical Double Sideband-Suppressed Carrier(DSB-SC) (광 반송파가 억압된 양측 대역 방식의 광 혼합을 통하여 발생된 밀리미터파 대역 연속파에서 광 반송파 억압 레벨에 따른 위상 잡음 특성 분석)

  • Kim, Sung-Il;Kang, Kwang-Yong
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.20 no.9
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    • pp.974-982
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    • 2009
  • Photomixing techniques beating two optical signals with different wavelengths and strong correlations are also very useful techniques to make a continuous wave(CW) signals in the range of millimeter(mm) and terahertz(THz) frequencies. An optical double sideband-suppressed carrier(DSB-SC) technique is one of the popular techniques to generate two optical signals with different wavelengths and strong correlations. DSB-SC signals with strong correlations are generated by a CW modulation of an optical carrier with a local oscillator and an optical modulator. In the previous parers related the DSB-SC for producing the CW signals within the range of mm and THz frequencies, there have been no reports why the optical carrier should suppress. In order to clear that, we have analyzed and measured the characteristics of the mm-wave CW signals made by the DSB-SC photomixing in this paper. From our analysis and measurement results, compared with the case of the DSB with the maximized optical carrier, the power and phase noise have improved about 23.9 dB and 21 dBc/Hz(@ 1 MHz offset frequency) in the case of the DSB with the minimized optical carrier (that is to say, the DSB-SC). Consequently, it is evident reason that the optical carrier should sufficiently suppress to obtain the mm-wave CW signals with the high power and low noise. This paper has given very helpful data to make mm- and THz-wave CW signals using photomixing techniques with the DSB-SC because the reason why the optical carrier should be suppressed is reported in this paper based on the numerical and experimental results.

Optical Millimeter-Wave Generation Based on DSB-SC Modulation (DSB-SC 변조에 의한 광 밀리미터파 신호 발생)

  • Choi, Jae-Won;Choi, Gyung-Sun;Seo, Dong-Sun;Jeon, Young-Min;Lee, Seok
    • Proceedings of the Optical Society of Korea Conference
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    • 2002.11a
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    • pp.178-179
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    • 2002
  • We generate optical millimeter-waves by double-sideband suppressed carrier (DSB-SC) modulation using a Mach-Zehnder (MZ) modulator biased at the minimum power. The DSB-SC modulation allows the high-frequency intensity modulation for millimeter-wave generation at the twice of the MZ modulator driving frequency.

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Improvement of Phase Noise Characteristics of Continuous Wave in the Sub-Millimeter Bands Generated by Photomixing Using Polarization and Phase Mismatch (편광 및 위상 부정합을 이용한 광혼합을 통하여 발생된 서브 밀리미터파 대역 연속파의 위상 잡음 특성 개선)

  • Kim, Sung-Il;Kang, Kwang-Yong
    • The Journal of Korean Institute of Electromagnetic Engineering and Science
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    • v.21 no.6
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    • pp.617-626
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    • 2010
  • In this paper, we have proposed and experimentally performed a polarization and phase control method of an optical signal which has same wavelength with the optical carrier to improve phase characteristics of a continuous wave(CW) generated by the double sideband-suppressed carrier(DSB-SC) as one of the famous photomixing technique for making sub-millimeter and terahertz waves. A polarization and phase controlled optical signal has been coupled with the general DSB-SC on an optical coupler. The output of the optical coupler is then photomixed by a photomixer. From our analysis and measurement results, we have found that the amplitude of the generated sub-mm and terahertz CW signal is higher 1.5 dB and the phase noise is lower about 3 dB@10 kHz offset frequency than the general DSBSC. Consequently, since our proposed method has improved the amplitude and phase noise of CW signals in the sub-mm and terahertz bands, it can be helpful results to make low cost CW generator in sub-millimeter and subterahertz bands.

60 GHz Optical Carrier Generator using Quasi-Velocity-Matching Technique (Quasi-Velocity-Matching물 이용한 60 GHz 광캐리어 발생기)

  • Kim, W.K.;Yang, W.S.;Lee, H.M.;Lee, H.Y.;Jeong, W.J.;Kwon, S.W.
    • Korean Journal of Optics and Photonics
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    • v.17 no.2
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    • pp.181-185
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    • 2006
  • A novel 60GHz optical carrier generator with a polarization domain-inverted structure is suggested and is demonstrated. The two arms of the Mach-Zehnder optical waveguide are periodically poled for quasi-phase velocity matching between the optical wave at 1550nm and the RF wave at 30 GHz. The center frequency of band-pass modulation and the 3 dB bandwidth of the fabricated modulator were measured to be 30.3 GHz and 5.1 GHz, respectively. Sub-carriers with the frequency difference of 60GHz waeregenerated under appropriate DC biac voltage application while the carrier was suppressed to lead to the power ratio between the modulated sub-carrier and the suppressed fundamental carrier of 28 dB, which proves that double sideband- suppressed carrier(DSB-SC) operation can be realized by the suggested single device.

The transceiver design for telemedicine using DSP (DSP를 이용한 원격 진료용 송수신 단말기 설계)

  • 이종회;이주원;조원래;한석붕;이건기
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.3 no.1
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    • pp.97-104
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    • 1999
  • In this study we show a telemedicine system using a DSP, which gives fast and exact medical data such as the ECG signal of the external emergency patient and enables the patient to get temporary treatments under the direction of a doctor in the hospital. This transceiver, which is able to treat the real time transmission of dynamic medical data captured by the measuring instrument and bidirectional communication of voice signal, is implemented using DSB-SC as modulation and demodulation technique and digital filter of each terminal are implemented as FIR filter. The system designed with DSP in this study is very small and compact and it can k, furthermore, to support additional biomedical signals just by renewing the software.

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Improving the Productivity of Single-Chain Fv Antibody Against c-Met by Rearranging the Order of its Variable Domains

  • Kim, Yu-Jin;Neelamegam, Rameshkumar;Heo, Mi-Ae;Edwardraja, Selvakumar;Paik, Hyun-Jong;Lee, Sun-Gu
    • Journal of Microbiology and Biotechnology
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    • v.18 no.6
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    • pp.1186-1190
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    • 2008
  • Single-chain Fv (scFv) antibody against c-Met is expected to be employed in clinical treatment or imaging of cancer cells owing to the important biological roles of c-Met in the proliferation of malignancies. Here, we show that the productivity of scFv against c-Met in Escherichia coli is significantly influenced by the orientation of its variable domains. We generated anti-c-Met scFv antibodies with two different domain orders (i.e., $V_L$-linker-$V_H$ and $V_H$-linker-$V_L$), expressed them in the cytoplasm of E. coli trx/gor deleted mutant, and compared their specific activities as well as their productivities. Productivity of total and functional anti-c-Met scFv with $V_H/V_L$ orientation was more than five times higher than that with $V_L/V_H$ format. Coexpression of DsbC enhanced the yield of soluble amounts of anti-c-Met scFv protein for both constructs. The purified scFv antibodies of the two different formats exhibited almost the same antigen-binding activities. We also compared the productivities and specific activities of anti-c-Met diabodies with $V_H/V_L$ or $V_L/V_H$ formats and obtained similar results to the case of scFv antibodies.

A Correlation between Emile Sound and Other Waves (에밀레의 맥놀이와 다른 파동과의 상관관계)

  • 안정근;진용옥
    • The Journal of the Acoustical Society of Korea
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    • v.20 no.1
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    • pp.30-35
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    • 2001
  • The most important characteristic of Emile Bell's sound is a beating. It is modulation phenomenon which appears as a result of interference multiplication in time domain. This modulation phenomenon can be modeled as DSB-SC which suppress carrier and signals distributed both sides. The beatiog wave is observed in Laman distribution signal for polyvinyl speech signal, water vein wave, tide wave. The beating wave is caused by asymmetry Property of the bell.

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