Title :
Self-Shielded Quad-Band EGPRS Transceiver With Spur Avoidance
Author :
Hietala, Alex W. ; Humphreys, Scott R. ; Arkiszewski, Roman Z. ; Hunt, Barry T., Jr. ; Morris, Scott
Author_Institution :
RF Micro Devices (RFMD), Greensboro, NC
fDate :
4/1/2009 12:00:00 AM
Abstract :
The next generation of global system for mobile communications/EDGE large signal polar modulation transceivers from RF micro devices (RFMD), Greensboro, NC, is described. The transceiver is realized as a single die in 0.18-mum CMOS. A very low intermediate frequency receiver architecture at 175 kHz is implemented with automatic image calibration. A novel fractional-N offset phase-locked loop with digital automatic frequency correction allows wider bandwidth operation, as well as the ability to change the IF to avoid channel-dependent spurious responses. An AM loop is added to reduce variations in total radiated power, as well as to limit power amplifier current and voltage. The solution is realized as two self-shielded modules using conformal shielding. Only one additional external capacitor is required to realize the entire radio from the DigRF interface to the antenna.
Keywords :
3G mobile communication; automatic frequency control; packet radio networks; phase locked loops; shielding; transceivers; EDGE large signal polar modulation transceivers; RF microdevices; conformal shielding; digital automatic frequency correction; fractional-N offset phase-locked loop; mobile communications; quad-band EGPRS transceiver; self shielding; spur avoidance; Conformal shielding; EDGE; digital automatic frequency correction (AFC); fractional-$N$ ; global system for mobile communications (GSM); polar; transceiver; very low intermediate frequency (VLIF);
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2009.2014431
