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AN INTEGRATED LOW-NOISE BLOCK DOWNCONVERTERQun, Wu, Jinghui, Qiu, Shaof an, Deng 11 1900 (has links)
International Telemetering Conference Proceedings / October 30-November 02, 1995 / Riviera Hotel, Las Vegas, Nevada / In this paper, a small-sized low-noise integrated block downconverter (LNB) used for
Ku-band direct reception from broadcasting satellites (DBS) is proposed. The
operating frequency of the LNB is from 11.7 to 12.2GHz. The outlook dimension is 41
X 41 X 110mm^3. Measured results show that the average gain of the LNB is 57dB,
and noise figures are less than 1.7dB. It has been found that clear TV pictures have
been received using the LNB for the experiment of receiving the "BS-2b" (Japanese
broadcasting satellite) at Harbin region, Heilongjiang Province, P. R. China.
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Radio-Frequency Integrated-Circuit Design of Image-Reject Downconverter and Variable-Gain Amplifier for Wireless CommunicationsPu, Ta-Chun 24 July 2002 (has links)
This thesis presents a 2.4GHz image-reject downconverter fabricated in TSMC 0.25 1P5M CMOS process. The integrated active filter can not only filter out the image signal, but also reduce noise figure degraded by parasitic capacitance in the circuit. The differential LC oscillator fabricated in TSMC 0.35 1P4M CMOS process has properties of low phase noise and wide frequency turning range. Finally, a variable gain amplifier implemented in GCS GaAs HBT process was designed using signal summing architecture. The architecture is advantageous to reducing noise, distortion and increasing operating frequency. This thesis has studied what cause the difference between measurement and simulation for better performance in the future design.
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THE RESEARCH ON THE HSP50214 PDC CHIP APPLYING TO FDM TELEMETRY SYSTEMPeng, Song, XiaoLin, Zhang, Wei, Zhang 10 1900 (has links)
International Telemetering Conference Proceedings / October 18-21, 2004 / Town & Country Resort, San Diego, California / The content of this paper is putting forward an idea that applies the software radio technique to the subcarrier demodulation of frequency divided multiplexing telemetry system. Firstly, the article explains the basic thought and application of the software radio. It introduces the main function and the use of the programmable downconverter in HSP50214/ HSP50216. Secondly, it discusses the merit and shortcoming about the method of the subcarrier demodulation of frequency divided multiplexing telemetry system in common use. Finally, the article aims at ± 7.5% proportion bandwidth FM subcarrier channels that in common use in the military standard, introducing HSP50214/HSP50216 programmable downconverter in achievement of design and simulation result. The main problems in the design are discussed and a conclusion obtained.
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Design and Development of Timmi - An Interferometric RadarSrinivasan Venkatasubramanian, Karthik 01 January 2007 (has links) (PDF)
Interferometry has gained importance as a remote sensing technique to study topography, topographic change and volume and surface scattering properties of various natural targets. Interferometric radars rely on the ability to accurately measure amplitude and phase between signals received on two spatially separated antennas. The accuracy required for interferometric measurements place tight constraints on the performance of the radar hardware. This thesis details the development, construction and testing of a two-stage, two-channel Ku band downconverter ( also referred to as Dual Channel Downconverter or DDC)- which forms the core of the interferometer - to meet the requirements to make highly accurate interferometric measurements.
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Microcombs for Timekeeping and RF PhotonicsNathan Patrick O'Malley (17053956) 27 September 2023 (has links)
<p dir="ltr">Optical frequency combs have revolutionized metrology and advanced other fields such as RF photonics and astronomy. While powerful, they can be bulky, expensive, and difficult to manufacture. This tends to limit uses in real-world scenarios. Within the last decade or so, coherent frequency combs have begun to be generated in millimeter-scale, CMOS fabrication-compatible nonlinear crystals. These so-called “microcombs” have led to hopes of overcoming deployability constraints of more traditional bulk combs.</p><p dir="ltr">One of the first applications for \textit{bulk} frequency combs after their explosion in 2000 was the optical atomic clock. It promised extreme long-term time stability better than that of the Cesium clock that currently defines the SI second. More recently, interest in a fully portable optical atomic clock has grown. Such a device could reliably keep time even without the aid of GPS references, and potentially with greater accuracy than current GPS synchronization can provide.</p><p dir="ltr">Frequency combs have also been used to sample electrical signals more rapidly than traditional electronics can accomplish. This has been used to achieve dramatically increased effective frequency bandwidths for signal detection architectures. One can imagine how this capability would be beneficial in a portable (microcomb-driven) form: a lightweight, comb-enhanced receiver able to capture a broadband snapshot of its surrounding electromagnetic environment could be a powerful tool.</p><p dir="ltr">Timekeeping and RF photonics are the primary applications of microcombs focused upon here. I will attempt to roughly summarize important concepts and highlight relevant work in both subjects in the Introduction. Then I will move a step closer to the hands-on lab work that has largely kept me preoccupied over the last several years and describe important or commonly-employed Methods for experiments. A collection of three journal manuscripts (two published, and the third recently submitted) will follow in the Publications chapter, highlighting some experimental results. Finally, I will conclude with a brief Outlook.</p>
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