Title :
A 2×13-bit all-digital I/Q RF-DAC in 65-nm CMOS
Author :
Alavi, Morteza S. ; Voicu, G. ; Staszewski, Robert Bogdan ; de Vreede, Leo C. N. ; Long, John R.
Author_Institution :
Tech. Univ. Delft, Delft, Netherlands
Abstract :
This paper presents a 2×13-bit I/Q RF-DAC-based all-digital modulator realized in 65 nm CMOS. The proposed quadrature up-converter uses a 25% duty-cycle clock to isolate the in-phase (I) and quadrature-phase (Q) modulating signals before combining. Using a 1.2 V supply and an on-chip power combiner, the modulator provides more than 21 dBm RF output power within a frequency range of 1.36 to 2.51 GHz. The peak RF output power, overall system and drain energy efficiencies of the modulator are 22.3 dBm, 31.5%, and 39.7%, respectively. Applying digital predistortion (DPD), 64 & 256 constellation points are measured with EVM better than -30 dB. The measured noise floor is below -160 dBc/Hz, with an IQ image rejection and LO leakage of -65 and -63 dBc, respectively. Its linearity has been evaluated with WCDMA modulation. Using DPD, the linearity improves by more than 15 dB.
Keywords :
CMOS integrated circuits; code division multiple access; digital-analogue conversion; power combiners; CMOS integrated circuit; DPD; IQ image rejection; LO leakage; WCDMA modulation; all-digital I-QRF-DAC; all-digital modulator; digital predistortion; duty-cycle clock; frequency 1.36 GHz to 2.51 GHz; in-phase modulating signals; noise floor; on-chip power combiner; quadrature up-converter; quadrature-phase modulating signals; size 65 nm; voltage 1.2 V; Baseband; Clocks; Frequency modulation; Power generation; Radio frequency; Transmitters;
Conference_Titel :
Radio Frequency Integrated Circuits Symposium (RFIC), 2013 IEEE
Conference_Location :
Seattle, WA
Print_ISBN :
978-1-4673-6059-3
DOI :
10.1109/RFIC.2013.6569551
