kw.\*:("receiver")
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Combination of a light funnel concentrator with a deflector for orientated sunlight transmissionHONGFEI ZHENG; GANG WU; TAO TAO et al.Energy conversion and management. 2014, Vol 88, pp 785-793, issn 0196-8904, 9 p.Article
The effect of irradiation directional distribution on absorption in volumetric solar receiversDORON, P; KRIBUS, A.Journal of solar energy engineering. 1997, Vol 119, Num 1, pp 68-73, issn 0199-6231Article
Thermal behaviour of a multi-cavity volumetric solar receiver: design and tests resultsCAROTENUTO, A; REALE, F; RUOCCO, G et al.Solar energy. 1993, Vol 50, Num 2, pp 113-121, issn 0038-092XArticle
Comparison of receivers for solar dish collector systemSENDHIL KUMAR, N; REDDY, K. S.Energy conversion and management. 2008, Vol 49, Num 4, pp 812-819, issn 0196-8904, 8 p.Article
A computer search for Whistle points in a superheterodyne radio receiverONISHCHENKO, A. N; NABEREZHNYY, A. N.Telecommunications & radio engineering. 1990, Vol 45, Num 5, pp 68-69, issn 0040-2508Article
Final design of a multi cavity volumetric solar receiverREALE, F; RUOCCO, G; CAROTENUTO, A et al.Solar energy materials. 1991, Vol 24, Num 1-4, pp 284-292, issn 0165-1633Conference Paper
EMC regulations and methods of measurement for sound and television broadcast receivers in the Federal Republic of GermanyREICHELT, J.IEEE transactions on consumer electronics. 1985, Vol 31, Num 1, pp 32-38, issn 0098-3063Article
Design optimization of a tubular solar receiver with a porous mediumSEHWA LIM; YONGHEACK KANG; HYUNJIN LEE et al.Applied thermal engineering. 2014, Vol 62, Num 2, pp 566-572, issn 1359-4311, 7 p.Article
Exergy analysis of parabolic trough solar receiverVASQUEZ PADILLA, Ricardo; FONTALVO, Armando; DEMIRKAYA, Gokmen et al.Applied thermal engineering. 2014, Vol 67, Num 1-2, pp 579-586, issn 1359-4311, 8 p.Article
Calibration of piezoelectric transducers for electric discharge acoustic signals = Kalibrierung von piezoelektrischen Empfaengern fuer bei elektrischer Entladung erzeugte akustische SignaleSKUBIS, J.Journal of physics. E. Scientific instruments. 1984, Vol 17, Num 2, pp 116-118, issn 0022-3735Article
High performance receivers for optical communicationsO'REILLY, J. J.Electronics & communication engineering journal. 1989, Vol 1, Num 3, pp 129-137, issn 0954-0695, 9 p.Article
BER evaluation for phase and polarization diversity optical homodyne receivers using noncoherent ASK and DPSK demodulationSIUZDAK, J; VAN ETTEN, W.Journal of lightwave technology. 1989, Vol 7, Num 4, pp 584-599, issn 0733-8724, 16 p.Article
Performance analysis and experiment of a homodyne receiver insensitive to both polarization and phase fluctuationsCHENG, Y.-H; OKOSHI, T; ISHIDA, O et al.Journal of lightwave technology. 1989, Vol 7, Num 2, pp 368-374, issn 0733-8724, 7 p.Article
Modeling and simulation of 1 MW DAHAN solar thermal power tower plantERSHU XU; QIANG YU; ZHIFENG WANG et al.Renewable energy. 2011, Vol 36, Num 2, pp 848-857, issn 0960-1481, 10 p.Article
Heat transfer analysis of parabolic trough solar receiverVASQUEZ PADILLA, Ricardo; DEMIRKAYA, Gokmen; YOGI GOSWAMI, D et al.Applied energy. 2011, Vol 88, Num 12, pp 5097-5110, issn 0306-2619, 14 p.Article
Envelope correlation coefficient for logarithmic diversity receiversDE NEUMANN, B.Electronics Letters. 1989, Vol 25, Num 7, pp 459-460, issn 0013-5194, 2 p.Article
Performance analysis of coherent optical phase-diversity receivers with DPSK modulationNICHOLSON, G; STEPHENS, T. D.Journal of lightwave technology. 1989, Vol 7, Num 2, pp 393-399, issn 0733-8724, 7 p.Article
Broadband Five-Port Direct Receiver Based on Low-Pass and High-Pass Phase ShiftersPEREZ-LARA, Pablo; MOLINA-FERNANDEZ, Iñigo; GONZALO WANGÜEMERT-PEREZ, J et al.IEEE transactions on microwave theory and techniques. 2010, Vol 58, Num 4, pp 849-853, issn 0018-9480, 5 p.Article
Dual-receiver concept for solar towersBUCK, Reiner; BARTH, Christian; ECK, Markus et al.Solar energy. 2006, Vol 80, Num 10, pp 1249-1254, issn 0038-092X, 6 p.Conference Paper
Modeling and simulation of the pioneer 1 MW solar thermal central receiver system in ChinaZHIHAO YAO; ZHIFENG WANG; ZHENWU LU et al.Renewable energy. 2009, Vol 34, Num 11, pp 2437-2446, issn 0960-1481, 10 p.Article
Receiver techniques for reception of C-MAC DBS signalsHOPKINS, D. K. W; BEECH, B.Journal of the Institution of Electronic and Radio Engineers. 1985, Vol 55, Num 11-12, pp 386-390, issn 0267-1689Article
Photodetectors and compatible low-noise amplifiers for long-wavelength light wave systemsCAMPBELL, J. C.Fiber and integrated optics. 1984, Vol 5, Num 1, pp 1-21, issn 0146-8030Article
Determination of stagnation and convective zones in a solar cavity receiverPRAKASH, M; KEDARE, S. B; NAYAK, J. K et al.International journal of thermal sciences. 2010, Vol 49, Num 4, pp 680-691, issn 1290-0729, 12 p.Article
Equivalence of Optimum and Joint Processing Receivers for Space-Time Block Coded SystemsGARG, Parul; MALLIK, Ranjan K.IEEE transactions on wireless communications. 2009, Vol 8, Num 1, pp 51-54, issn 1536-1276, 4 p.Article
Numerical simulation study on the heat transfer characteristics of the tube receiver of the solar thermal power towerXIAOPING YANG; XIAOXI YANG; JING DING et al.Applied energy. 2012, Vol 90, Num 1, pp 142-147, issn 0306-2619, 6 p.Conference Paper