Title :
Temperature drift compensation technique for a hybrid LTCC oscillator at 20GHz
Author :
Baras, Torben ; Jacob, Arne F.
Author_Institution :
Defence Electron., EADS Deutschland GmbH, Ulm, Germany
Abstract :
A temperature drift compensation method for a K-band LTCC hybrid voltage-controlled oscillator is presented. After an initial review of the vertically integrated resonator structure, an extracted temperature drift profile of the ceramic substrate is utilized to estimate the temperature dependence of the oscillation frequency of the entire circuit. Adding a low sensitivity tuning structure combined with a low complexity thermistor-network, the temperature shift can be significantly reduced from plusmn50 MHz to about plusmn5 MHz in an interval of 50 K, entirely compensating the drift at around room temperature. Finally, the impact of the additional tuning structure on the phase noise performance is analyzed.
Keywords :
cavity resonators; ceramic packaging; circuit noise; circuit tuning; compensation; microwave oscillators; phase noise; thermistors; voltage-controlled oscillators; K-band hybrid voltage-controlled oscillator; LTCC hybrid voltage-controlled oscillator; ceramic substrate; frequency 20 GHz; low complexity thermistor-network; low sensitivity tuning structure; low temperature co-fired ceramics; oscillation frequency; phase noise; rectangular cavity resonator; temperature drift compensation; vertically integrated resonator structure; Ceramics; Circuit optimization; Frequency estimation; K-band; Performance analysis; Phase noise; Temperature dependence; Temperature sensors; Tuning; Voltage-controlled oscillators;
Conference_Titel :
Microwave Integrated Circuits Conference, 2009. EuMIC 2009. European
Conference_Location :
Rome
Print_ISBN :
978-1-4244-4749-7
