Title :
Low-power-consumption direct-conversion CMOS transceiver for multi-standard 5-GHz wireless LAN systems with channel bandwidths of 5-20 MHz
Author :
Maeda, Tadashi ; Yano, Hitoshi ; Hori, Shinichi ; Matsuno, Noriaki ; Yamase, Tomoyuki ; Tokairin, Takashi ; Walkington, Robert ; Yoshida, Nobuhide ; Numata, Keiichi ; Yanagisawa, Kiyoshi ; Takahashi, Yuji ; Fujii, Masahiro ; Hida, Hikaru
Author_Institution :
Syst. Devices Res. Labs., NEC Corp., Kanagawa, Japan
Abstract :
This paper describes a low-power-consumption direct-conversion CMOS transceiver for WLAN systems operating at 4.9-5.95 GHz. Its power consumption is reduced by using a resonator-switching wide-dynamic-range LNA. The broad tuning range needed for multiple-channel-bandwidth systems is provided by a single widely tunable low-pass filter based on negative-source-degeneration-resistor transconductors, and its automatic frequency-band-selection PLL supports multiple standard 5-GHz WLAN systems. The system noise figure is 4.4 dB at a maximum gain of 74 dB, and the receiver IIP3 is +5 dBm and -21dBm for the minimum and maximum gain modes, respectively. The error vector magnitude (EVM) of the transmitted signal is 2.6%. The current consumption is extremely low, 65 mA in the transmitter path and 60 mA in the receiver path.
Keywords :
CMOS integrated circuits; IEEE standards; low noise amplifiers; low-pass filters; low-power electronics; phase locked loops; telecommunication standards; transceivers; wireless LAN; 4.4 dB; 4.9 to 5.95 GHz; 5 to 20 MHz; 60 mA; 65 mA; 74 dB; CMOS transceiver; automatic frequency-band-selection; channel bandwidths; current consumption; direct-conversion transceiver; error vector magnitude; low-pass filter; low-power-consumption; multiple-channel-bandwidth systems; negative-source-degeneration; noise figure; phase locked loop; receiver path; resistor transconductors; resonator-switching LNA; transmitter path; wide-dynamic-range LNA; wireless LAN systems; Bandwidth; Energy consumption; Frequency; Low pass filters; Phase locked loops; Resonator filters; Transceivers; Transconductors; Tuning; Wireless LAN; CMOS transceiver; HiSWANa; HiperLAN/2; IEEE 802.11a; frequency synthesizer; low-noise amplifier (LNA); low-pass filter (LPF); orthogonal frequency division multiplexing (OFDM); wireless LAN (WLAN);
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2005.862339
