A 2 GHz surface transverse wave oscillator with low phase noise

Author

Eichinger, Ludwig ; Fleischmann, Bernd ; Russer, Peter ; Weigel, Robert

Author_Institution

Work Microwave GmbH, Holzkirchen, West Germany

Volume

36

Issue

12

fYear

1988

Firstpage

1677

Lastpage

1684

Abstract

A hybrid oscillator at 1.9805 GHz using acoustic surface transverse wave (STW) delay lines operating at the third harmonic as the frequency controlling element is discussed. The STW delay lines were fabricated on 37.5 degrees -rotated Y-cut quartz substrates with a photolithographic technique. A very thin metallization (25 nm) was used to obtain low insertion loss. A split isolated electrode design was used for the transducers. The Q-value and the untuned insertion loss of the STW filter were 3400 and 21 dB, respectively. The phase noise and temperature stability of the oscillator were characterized. At a power output of 6.5 dBm a single-sideband phase noise-to-carrier ratio of -100 dBc/Hz at 1 kHz was attained.<>

Keywords

acoustic microwave devices; hybrid integrated circuits; microwave integrated circuits; microwave oscillators; radiofrequency oscillators; surface acoustic wave devices; ultrasonic delay lines; 1.9805 to 2 GHz; 21 dB; SAW device; UHF; Y-cut quartz substrates; acoustic surface transverse wave; delay lines; frequency controlling element; hybrid oscillator; low insertion loss; low phase noise; microwave oscillator; photolithographic technique; split isolated electrode design; surface transverse wave oscillator; temperature stability; thin metallization; third harmonic; transducers; Delay lines; Electrodes; Frequency; Insertion loss; Metallization; Oscillators; Phase noise; Power harmonic filters; Surface acoustic waves; Surface waves;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/22.17399

Filename

17399