Title :
FPGA implemented multi-level IFPWM power coding for class-S PA in an all-digital GHz LTE transmitter
Author :
Qiuyao Zhu ; Rui Ma ; Chunjie Duan ; Yamanaka, Keiji ; Koon Hoo Teo
Author_Institution :
Mitsubishi Electr. Res. Labs. (MERL), Cambridge, MA, USA
Abstract :
This work presents a new efficient multi-level intermediate frequency pulse width modulation (ML-IFPWM) power coding algorithm for switch-mode power amplifier. The merits of high power coding efficiency with distortion correction function are demonstrated by a FPGA implemented digital front end. Measurement results have shown power coding efficiency greater than 45%. To our knowledge, this is the firstly reported implemented discrete-time domain 3-level power encoding approach with 5-MHz LTE signal at RF carrier frequency around 2 GHz. This can be used to generate multi-level digital pulse-train for advanced class-S PA in cellular digital base stations.
Keywords :
Long Term Evolution; UHF power amplifiers; cellular radio; distortion; encoding; field programmable gate arrays; pulse width modulation; radio transmitters; switched mode power supplies; FPGA implemented multilevel IFPWM power coding; LTE signal; ML-IFPWM power coding algorithm; RF carrier frequency; all-digital GHz LTE transmitter; cellular digital base stations; class-S PA; discrete-time domain 3-level power encoding approach; distortion correction function; frequency 2 GHz; frequency 5 MHz; multilevel digital pulse-train generation; multilevel intermediate frequency pulse width modulation power coding algorithm; switch-mode power amplifier; Clocks; Encoding; Field programmable gate arrays; Power amplifiers; Pulse width modulation; Radio frequency; Table lookup; Digital-RF transmitter; FPGA; microwave power amplifiers; multi-level encoder; power coding efficiency; pulse width modulator (PWM); switch-mode PA;
Conference_Titel :
Wireless Symposium (IWS), 2014 IEEE International
Conference_Location :
X´ian
DOI :
10.1109/IEEE-IWS.2014.6864227
