Title :
New digital predistortion design based on mixed-signal cartesian feedback training for 3G homodyne transmitter
Author :
Sanaa, W. ; Gal, B. Le ; Dallet, D. ; Rebai, C. ; Deltimple, N. ; Belot, D. ; Kerherve, E.
Author_Institution :
CIRTA´´COM Res. Lab., Univ. of Carthage, Tunis, Tunisia
Abstract :
In this paper, a smart adaptive RF power amplifier linearization technique is presented. We invest a Mixed-Signal Cartesian Feedback Loop design to train an embedded Random Access Memory in order to overcome digital-stage latency and bandwidth limitation. The new design consists of a traditional analog stage including filters, I/Q modulator, feedback I/Q demodulator and an improved digital stage which adjusts the phase misalignment around the loop and updates the RAM. We used a not fully-pipelined CORDIC design for the digital part in order to improve the system operating frequency without increasing the silicon surface area. We implemented this design for the UMTS standard using ASIC 65nm low power technology. We reached 230 MHz with system power consumption less than 6 mw which is better than a fully analog system (8.8 mW).
Keywords :
3G mobile communication; application specific integrated circuits; distortion; elemental semiconductors; embedded systems; feedback; homodyne detection; modulators; pipeline arithmetic; power amplifiers; radio transmitters; radiofrequency amplifiers; random-access storage; silicon; 3G homodyne transmitter; ASIC low power technology; I-Q modulator; UMTS standard; bandwidth limitation; digital part; digital predistortion design; digital-stage latency; embedded Random Access Memory; feedback I-Q demodulator; frequency 230 MHz; fully analog system; fully-pipelined CORDIC design; improved digital stage; mixed-signal cartesian feedback training; phase misalignment; power 8.8 mW; size 65 nm; smart adaptive RF power amplifier linearization technique; system operating frequency; system power consumption; Application specific integrated circuits; Bandwidth; Power demand; Predistortion; Radio frequency; Random access memory; ASIC; CORDIC; Mixed-Signal Loop; Predistortion; RAM;
Conference_Titel :
New Circuits and Systems Conference (NEWCAS), 2012 IEEE 10th International
Conference_Location :
Montreal, QC
Print_ISBN :
978-1-4673-0857-1
Electronic_ISBN :
978-1-4673-0858-8
DOI :
10.1109/NEWCAS.2012.6328964
