Title :
Design Considerations for a Direct Digitally Modulated WLAN Transmitter With Integrated Phase Path and Dynamic Impedance Modulation
Author :
Lu Ye ; Jiashu Chen ; Lingkai Kong ; Alon, Elad ; Niknejad, Ali M.
Author_Institution :
Berkeley Wireless Res. Center (BWRC), Univ. of California, Berkeley, Berkeley, CA, USA
Abstract :
A 65-nm digitally modulated polar TX for WLAN 802.11g is fully integrated along with baseband digital filtering. The TX employs dynamic impedance modulation to improve efficiency at back-off powers. High-bandwidth phase modulation is achieved efficiently with an open-loop architecture. Operating from 1.2-V/1-V supplies, the TX delivers 16.8 dBm average power at -28-dB EVM with 24.5% drain efficiency, 22% PAE, 19.3% system efficiency, and 247-mW power consumption including the entire on-chip TX chain; the noise floor is -125 dBm/Hz at 200-MHz offset without external filtering.
Keywords :
modulation; radio transmitters; wireless LAN; WLAN 802.11g; baseband digital filtering; design considerations; digitally modulated polar TX; direct digitally modulated WLAN transmitter; drain efficiency; dynamic impedance modulation; external filtering; high bandwidth phase modulation; integrated phase path; noise floor; on-chip TX chain; open loop architecture; power consumption; system efficiency; Amplitude modulation; Impedance; Metals; Phase modulation; Switches; Wireless LAN; Digital amplitude modulation; WLAN; efficiency enhancement; filter; impedance modulation; phase interpolator; phase modulator; polar transmitter (TX); power amplifier (PA); predistortion; transformer;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2281142
