Title :
A Polar-Transmitter Architecture Using Multiphase Pulsewidth Modulation
Author :
Chen, Jau-Horng ; Yang, Hao-Shun ; Lin, Hou-Chung ; Chen, Yi-Jan Emery
Author_Institution :
Dept. of Eng. Sci. & Ocean Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
This paper presents a transmitter architecture based on a pulse-modulated polar transmitter using multiphase pulsewidth modulation. The modulation to the radio-frequency input signal, instead of conventional drain modulation, significantly reduces the circuit complexity, while the multiphase modulation technique reduces the out-of-band emissions. An 836.5-MHz four-phase prototype transmitter using four class-C power amplifiers in parallel was constructed. Using the transmitter, single-phase, two-phase, and four-phase pulsewidth modulated signals were tested to verify the benefits of using the proposed multiphase architecture. Using a CDMA2000 1X signal, 46.8% efficiency at a 29-dBm output power level was measured while passing the spectral-mask requirements without using any kind of digital predistortion or calibration.
Keywords :
calibration; circuit complexity; code division multiple access; distortion; power amplifiers; pulse width modulation; radio transmitters; spectral analysis; CDMA2000 1X signal; calibration; circuit complexity; conventional drain modulation; digital predistortion; four class-C power amplifiers; four-phase prototype transmitter; four-phase pulsewidth modulated signals; multiphase architecture; multiphase modulation technique; multiphase pulsewidth modulation; out-of-band emissions; output power level; polar-transmitter architecture; pulse-modulated polar transmitter; radio-frequency input signal; single-phase pulsewidth modulated signals; spectral-mask requirements; two-phase pulsewidth modulated signals; Modulators; power amplifiers (PAs); pulsewidth modulation (PWM); radio transmitters;
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2010.2071918
