Title :
A Fully Integrated UHF CMOS Power Amplifier for Spacecraft Applications
Author :
Jeon, Jeongmin ; Kuhn, William B.
Author_Institution :
Kansas State Univ., Manhattan
Abstract :
A power amplifier (PA) is designed for a surface-to-orbit proximity link microtransceiver on Mars exploration rovers, aerobots, and small networked landers and works in conjunction with a 0.2-dB loss transmit/receive switch to allow nearly the full 1 W to reach the antenna. The fully integrated UHF CMOS PA with more than 30-dBm output is reported for the first time. A differential pMOS structure with floating-bias cascode transistors and 1:3-turn ratio output transformer are chosen to overcome low breakdown voltage (V bk) of CMOS and chip area consumption issues at UHF frequencies. The high-Q on-chip transformer on a sapphire substrate enables the differential PA to drive a single-ended antenna effectively at 400 MHz. The PA in a standard package delivers 30-dBm output with 27% power-added efficiency. No performance degradation was observed in continuous-wave operation and the design has been tested to 136% of its nominal 3.3-V supply without failure.
Keywords :
CMOS integrated circuits; MOSFET; Mars; UHF power amplifiers; space vehicle antennas; space vehicle electronics; transceivers; Mars; UHF CMOS power amplifier; aerobots; differential pMOS structure; floating-bias cascode transistor; frequency 400 MHz; on-chip transformer; sapphire substrate; single-ended antenna; spacecraft application; surface-orbit proximity link microtransceiver; voltage 3.3 V; Degradation; Frequency; Mars; Packaging; Power amplifiers; Propagation losses; Receiving antennas; Space vehicles; Switches; Transmitting antennas; CMOS; power amplifiers (PAs); transceiver; transformer; transmit/receive (TR) switch;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2007.905481
