Title :
BPSK to ASK signal conversion using injection-locked oscillators-part II: experiment
Author :
López-Villegas, José María ; Macías-Montero, José Gabriel ; Osorio, Joan Aitor ; Cabanillas, Jose ; Vidal, Neus ; Samitier, Josep
Author_Institution :
RF Group, Univ. of Barcelona
Abstract :
This paper demonstrates the feasibility of a new circuit for the conversion of binary phase-shift keying signals into amplitude-shift keying signals. In its simplest form, the converter circuit is composed by a power divider, a couple of second harmonic injection-locked oscillators, and a power combiner. The operation of the converter circuit relies on the frequency synchronization of both oscillators and the generation of an interference pattern by combining their outputs, which reproduces the original phase modulation. Two prototypes of the converter have been implemented. The first one is a hybrid version working in the 400-530-MHz frequency range. The second one has been implemented using multichip-module technology, and is intended to work in the 1.8-2.2-GHz frequency range
Keywords :
UHF frequency convertors; UHF oscillators; amplitude shift keying; injection locked oscillators; multichip modules; phase shift keying; power combiners; power dividers; synchronisation; 1.8 to 2.2 GHz; 400 to 530 MHz; amplitude-shift keying signals; binary phase-shift keying signals; converter circuit; frequency synchronization; multichip-module technology; phase modulation; power combiner; power divider; second harmonic injection-locked oscillators; signal conversion; Amplitude shift keying; Binary phase shift keying; Coupling circuits; Frequency synchronization; Injection-locked oscillators; Interference; Phase shift keying; Power combiners; Power dividers; Power system harmonics; Amplitude-shift keying (ASK); CMOS analog integrated circuits; converters; injection-locked oscillators (ILOs); multichip modules (MCMs); phase shift keying;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2005.860335
