Title :
A 16 element quasi-optical FET oscillator power combining array with external injection locking
Author :
Birkeland, Joel ; Itoh, Tatsuo
Author_Institution :
Motorola Semicond. Product Sector, Tempe, AZ, USA
fDate :
3/1/1992 12:00:00 AM
Abstract :
The authors present analysis, design and experimental results of a 16 element planar oscillator array for quasi-optical power combining. Each element in the array consists of a single FET oscillator with an input port for injection of the locking signal and an output port which is connected to a patch radiator. The array is synchronized using a 16-way power dividing network which distributes the locking signal to the oscillating elements. The array is constructed using a two-sided microstrip configuration, with the oscillators and feed network on one side of a ground plane, and the patch radiators on the opposite side. An effective radiated power (ERP) of 28.2 W CW with an isotropic conversion gain of 9.9 dB was measured at 6 GHz. For an injected power of 10.3 dBm, a locking range of 453 MHz at a center frequency of 6.015 GHz was obtained; a bandwidth of 7.5%. Because of the simple nature of the individual oscillator elements, this approach is well suited to MMIC implementation
Keywords :
active antennas; antenna radiation patterns; microstrip antennas; microwave antenna arrays; microwave oscillators; solid-state microwave circuits; strip line components; synchronisation; 28.2 W; 6.015 GHz; 9.9 dB; external injection locking; feed network; isotropic conversion gain; patch radiator; planar oscillator array; power combining array; power dividing network; quasi-optical FET oscillator; quasioptical combining; two-sided microstrip configuration; Bandwidth; Enterprise resource planning; FETs; Feeds; Frequency synchronization; Gain measurement; MMICs; Microstrip antenna arrays; Oscillators; Power measurement;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
