Analysis of diode detector

Hochdorf, Martin, 1920-

January 1952

No description available.

Radio detectors.

A synchronous detection system for high frequency use

Turner, Loyce Archibald

08 1900

No description available.

Radio detectors

Blind maximum likelihood sequence detection over fast fading communication channels

Reader, David

January 1996

Thesis (PhD)--University of South Australia, 1996

Radio detectors

Radio

Blind maximum likelihood sequence detection over fast fading communication channels

Reader, David

January 1996

Thesis (PhD)--University of South Australia, 1996

Radio detectors

Radio

Blind maximum likelihood sequence detection over fast fading communication channels

Reader, David

January 1996

Thesis (PhD)--University of South Australia, 1996

Radio detectors

Radio

High-performance frequency-demodulation systems

Kouwenhoven, Michael Hendrikus Laurentius,

January 1900

Thesis (doctoral)--Technische Universiteit Delft, 1998. / Includes bibliographical references.

High-performance frequency-demodulation systems

Kouwenhoven, Michael Hendrikus Laurentius,

January 1900

Thesis (doctoral)--Technische Universiteit Delft, 1998. / Includes bibliographical references.

Development of a QPSK demodulator for the Sunsat 1 groundstation

Kotze, P. P. A. (Pieter Paul Adriaan)

03 1900

Thesis (MEng)--Stellenbosch University, 2000. / ENGLISH ABSTRACT: The purpose of this thesis is the description of the development of a QPSK demodulator for the Sunsat 1 groundstation. A general overview of the functioning and requirements of a typical QPSK demodulator system is given. Several methods or algorithms for clock and carrier recovery are discussed. Specific attention is given to the QPSK demodulator chipset from Philips used for the implementation of the demodulator. The digital decoding logic used to serialize the parallel I and Q datastream is explained. Finally measurement techniques for performance evaluation of QPSK systems are investigated. As part of this the implementation loss of the developed QPSK demodulator is measured. / AFRIKAANSE OPSOMMING: Die doelwit van hierdie tesis is om die ontwikkeling van 'n QPSK demodulator vir die Sunsat 1 grondstasie te beskryf. 'n Algemene oorsig oor die funksionering en vereistes van 'n tipiese QPSK demodulator stelsel word gegee. Verskeie algoritmes en tegnieke vir klok en draersein herwinning word ondersoek en bespreek. Spesifieke verwysing word telkens gemaak na die QPSK demodulasie vlokkie paar van Philips gebruik vir die implementering van die demodulator. Die digitale dekodering logika benodig vir die datastroom verpakking word ondersoek en beskryf. Laastens word daar gekyk na meettegnieke en evaluasie van QPSK demodulasie stelsels se prestasie. As deel hiervan word die implementasie verlies van die ontwikkelde QPSK demodulator stelsel gemeet.

Demodulation (Electronics)

Artificial satellites

Imaging systems

Radio detectors

Satellite communication

Architecture and implementation of intelligent transceivers for ultra-wideband communications

Hsieh, Tien-ling, 1975-

02 October 2012

The wide bandwidth employed in the UWB system allows for high data-rate communications, while its broadband nature requires it to coexist with other systems. For instance, several communication systems, such as digital TV, wireless LANs, WiMAX, and satellite receivers, utilize spectrum that is in the UWB band. According to Federal Communications Commission (FCC) regulations, the power spectral density (PSD) of UWB devices for communication applications is limited to less than -41.25dBm/MHz in the 3.1-10.6GHz frequency band, to minimize the impact of UWB on other systems. The impact of narrowband signals on UWB systems can also be significant, even though these signals may occupy a small part of the UWB spectrum, due to their much larger power. The performance and capacity of UWB systems can be significantly degraded by these narrowband interferers. In-band interference can be tolerated by increasing the dynamic-range of the receiver such that the interferers are accommodated within the linear range of the receiver. Alternatively, if the interferers can be avoided altogether, the excessive linearity requirements imposed by the interferers can be relaxed. Such an avoidance mechanism requires the ability to detect interferers. This work presents a low-power and low-cost detector for this purpose that can be employed in multi-band approaches to UWB, including pulse-based schemes, and those employing OFDM. The UWB band is divided into narrower sub-bands in these schemes. During transmission, the carrier hops to a new sub-band every symbol. The detector is designed to provide a profile of interference over the entire UWB spectrum, during each symbol period. This information would be available to the main-path UWB receiver to decide a frequency sequence of sub-band hopping, in order to avoid sub-bands occupied by large interferers. This relaxes the dynamic-range requirement, and hence the power dissipation of the main-path receiver, thus compensating for the extra power dissipation of the detector. The detector is based on a cascade of image-reject downconverter stages. An implementation of the architecture is demonstrated in a 0.13[mu]m CMOS process. / text

Broadband communication systems

Ultra-wideband devices

Radio detectors

Radio--Transmitter-receivers

Electromagnetic interference

Architecture and implementation of intelligent transceivers for ultra-wideband communications

Hsieh, Tien-ling,

January 1900

Thesis (Ph. D.)--University of Texas at Austin, 2008. / Vita. Includes bibliographical references.