J. Min, A. Rofougaran, V. Lin, M. Jensen, H. Samueli, A. A. Abidi, G. Pottie, and Y. Rahmat-Samii, "A low-power Handheld Frequency-hopped spread spectrum transceiver hardware architecture," Virginia Tech's Third Symposium on Wireless Personal Communications Proceedings, Blacksburg, VA, June, 1993, p. 10/1-8. Home/Search Document Not in Database Summary Related Articles Check |
This paper is cited in the following contexts:
Adaptation and Mobility in Wireless Information Systems - Katz (1995) (116 citations) (Correct)
....in some applications, even wireless devices that could be worn have been proposed. At the heart of the terminal is a high degree of processing made possible by application specific integrated circuits (ASICs) providing a mixed analog digital capability. For low power, CMOS circuitry is preferred [Min 93] Millimeter microwave integrated circuit (MMIC) technology may make possible small formfactor radio devices for higher frequency ranges. It is more likely that MMICs will be used in the transmitter infrastructure than in the mobile devices. Embedded software implements the various control ....
Min, J., A. Rofongaran, V. Lin, M. Jensen, H. Samueli, A. Abidi, G. Pottie, Y. Rahmat-Samii, "A Low Power Handheld Frequency-Hopped Spread Spectrum Transceiver Hardware Architecture," UCLA EE Department Technical Report, 1993.
A 915 MHz CMOS Frequency Synthesizer - Rael (1995) (Correct)
No context found.
J. Min, A. Rofougaran, V. Lin, M. Jensen, H. Samueli, A. A. Abidi, G. Pottie, and Y. Rahmat-Samii, "A low-power Handheld Frequency-hopped spread spectrum transceiver hardware architecture," Virginia Tech's Third Symposium on Wireless Personal Communications Proceedings, Blacksburg, VA, June, 1993, p. 10/1-8.
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