Title :
A Flip-Chip-Packaged 25.3 dBm Class-D Outphasing Power Amplifier in 32 nm CMOS for WLAN Application
Author :
Xu, Hongtao ; Palaskas, Yorgos ; Ravi, Ashoke ; Sajadieh, Masoud ; El-Tanani, Mohammed A. ; Soumyanath, Krishnamurthy
Author_Institution :
Intel Corp., Hillsboro, OR, USA
fDate :
7/1/2011 12:00:00 AM
Abstract :
A 2.4 GHz outphasing power amplifier (PA) is implemented in a 32 nm CMOS process. An inverter-based class-D PA topology is utilized to obtain low output impedance and good linearity in the outphasing system. MOS switch non-idealities, such as finite on-resistance and finite rise and fall times are analyzed for their impact on outphasing linearity and efficiency. Outphasing combining is performed via a transformer configured to achieve reduced loss at power backoff. The fabricated class-D outphasing PA delivers 25.3 dBm peak CW power with 35% total system Power Added Efficiency (includes all drivers). Average OFDM power is 19.6 dBm with efficiency 21.8% when transmitting WiFi signals with no linearization required. The PA is packaged in a flip-chip BGA package. Good linearity performance (ACPR and EVM) demonstrates the applicability of inverter-based class-D amplifiers for outphasing configurations.
Keywords :
CMOS integrated circuits; UHF power amplifiers; ball grid arrays; flip-chip devices; wireless LAN; BGA package; CMOS process; MOS switch nonideality; OFDM power; WLAN; WiFi signals; class-D outphasing power amplifier; flip-chip-packaging; frequency 2.4 GHz; inverter-based class-D PA topology; power added efficiency; size 32 nm; CMOS integrated circuits; Driver circuits; Linearity; Power generation; Radio frequency; Switches; Transistors; CMOS PA; OFDM; Outphasing; SOC; WLAN; class-D; power amplifier;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2011.2143930
