Title :
Piezoelectric-transducer-controlled tunable microwave circuits
Author :
Yun, Tae-Yeoul ; Chang, Kai
fDate :
5/1/2002 12:00:00 AM
Abstract :
This paper introduces a new method to tune microwave circuits of phase shifters, filters, resonators, and oscillators, controlled by a piezoelectric transducer (PET) with computational and experimental results. An optimized PET-controlled phase shifter is demonstrated to operate up to 40 GHz with a maximum total loss of 4 dB and phase shift of 480°. PET-controlled tunable bandpass filter, ring resonator, and one-dimensional photonic-bandgap resonator show a very wide tuning bandwidth of 17.5%-28.5% near 10 GHz with little performance degradation. A new PET-controlled or voltage-controlled dielectric-resonator oscillator (DRO) is demonstrated with a tuning bandwidth of 3.7% at the center frequency of 11.78 GHz. The tuning bandwidth is slightly less than that of a mechanical tuning using a micrometer-head-controlled tunable DRO with a tuning bandwidth of 4.7%. The new tuning method should have many applications in monolithic and hybrid microwave integrated circuits
Keywords :
Fabry-Perot resonators; band-pass filters; beam steering; circuit tuning; dielectric resonator oscillators; microwave filters; microwave integrated circuits; microwave phase shifters; microwave photonics; piezoelectric transducers; voltage-controlled oscillators; 10 GHz; 11.78 GHz; Fabry-Perot resonator; VCO; bandpass filter; beam steering; dielectric-resonator oscillator; hybrid microwave integrated circuits; microstrip line substrate; monolithic microwave integrated circuits; one-dimensional photonic-bandgap resonator; phase shifters; piezoelectric-transducer-controlled; tunable filter; tunable microwave circuits; Band pass filters; Bandwidth; Circuit optimization; Microwave circuits; Microwave theory and techniques; Phase shifters; Tunable circuits and devices; Tuned circuits; Tuning; Voltage-controlled oscillators;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
