Document Type
Article
Publication Date
1-1-2009
Abstract
This straightforward design shows how to assemble commercial components into a low-noise 14.4-to-15.5-GHz frequency synthesizer with 625-kHz tuning steps for digital microwave radio systems.
Divisions
sch_ecs
Publication Title
Microwaves & RF
Volume
48
Issue
1
Additional Information
ISI Document Delivery No.: 401SZ Times Cited: 5 Cited Reference Count: 18 Cited References: EGAN WF, 2008, PHASE LOCK BASICS Crawford JA, 2008, ARTECH HSE MICROW LI, P1 Chenakin A., 2007, MICROWAVE J MAY, P256 Best R. E., 2007, PHASE LOCKED LOOPS D MAAS S, 2007, MICROWAVE J APR, P24 ROHDE UL, 2007, MICROWAVE J JUN, P50 Banerjee D., 2006, PLL PERFORMANCE SIMU BIGLARBEGLAN B, 2006, P INT NAT C COMP COM, P857 Vendelin George D., 2005, MICROWAVE CIRCUIT DE Rohde UL, 2005, DESIGN OF MODERN MICROWAVE OSCILLATORS FOR WIRELESS APPLICATIONS: THEORY AND OPTIMIZATION, P1 MANASSEWITSCH V, 2005, FREQUENCY SYNTHESIZE GRAY PR, 2001, ANAL DESIGN ANALOG I, pCH10 RAZAVI RFB, 1998, MICROELECTRONICS Rohde U.L., 1997, MICROWAVE WIRELESS S Crawford J. A., 1994, FREQUENCY SYNTHESIZE KROUPA VF, 1982, IEEE T COMMUN, V30, P2242 Appleton E.V., 1922, Proceedings of the Cambridge Philosophical Society, V21 GREBENKEMPER J, LOCAL OSCILLATOR PHA Ameri, H. Moghavvemi, M. Penton media, inc New york