Title :
A 2.5 GHz High Efficiency High Power Low Phase Noise Monolithic Microwave Power Oscillator
Author :
Hong-Yeh Chang ; Chi-Hsien Lin ; Yu-Cheng Liu ; Wen-Ping Li ; Yu-Chi Wang
Author_Institution :
Dept. of Electr. Eng., Nat. Central Univ., Jhongli, Taiwan
Abstract :
This letter presents a 2.5 GHz high efficiency high power low phase noise monolithic microwave power oscillator using 0.5- μm GaAs enhancement- and depletion-mode pseudomorphic high-electron mobility transistor process. The class-E load network with finite dc-feed inductance is adopted in the power oscillators to achieve high efficiency. The shunt capacitance and load resistance of the class-E network can be larger than those of the class-E load network with the large dc-feed inductance. With a dc supply voltage of 4 V, the proposed power oscillator demonstrates a peak efficiency of 53%, a maximum output power of 24.8 dBm, and a minimum phase noise of -127 dBc/Hz at 1 MHz offset frequency.
Keywords :
HEMT integrated circuits; III-V semiconductors; MMIC oscillators; UHF oscillators; field effect MMIC; gallium compounds; GaAs; class-E load network; depletion-mode pseudomorphic HEMT; enhancement-mode pseudomorphic HEMT; finite DC feed inductance; frequency 2.5 GHz; high efficiency oscillator; high electron mobility transistor; high power oscillator; low phase noise monolithic microwave power oscillator; size 0.5 mum; voltage 4 V; Frequency measurement; Inductance; Phase noise; Power generation; Resistance; Voltage measurement; GaAs; MMIC; high efficiency power amplifiers; low phase noise oscillators; pHEMT;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2015.2479849
