This paper presents a novel multilevel radio frequency (RF) pulsewidth modulation (PWM) method for all-digital transmitters (ADTx) that actively eliminates the selected harmonics of RF-PWM. Compared with existing multilevel RF-PWM… Click to show full abstract
This paper presents a novel multilevel radio frequency (RF) pulsewidth modulation (PWM) method for all-digital transmitters (ADTx) that actively eliminates the selected harmonics of RF-PWM. Compared with existing multilevel RF-PWM techniques, this method uses several adaptive thresholds and controls the pulsewidth of the corresponding subpulses to make the selected harmonics cancel each other out and keep the fundamental frequency component proportional to input envelope. For the third-harmonic elimination, the corresponding five-level RF-PWM scheme presented in this paper shows that it can significantly relax the filtering requirements and improve the wideband performance of the ADTx. The proposed scheme is verified by extensive simulations and offline measurements. The simulations show good potential for high-frequency operation up to gigahertz ADTx. The measured results show that the third-harmonic suppression of the proposed scheme has increased with the decreasing of the time resolution for digital implementations. For a 3.80-dB peak-to-average power ratio (PAPR) QPSK signal and a 6.04-dB PAPR 16QAM signal at 200-MHz carrier, the proposed scheme can achieve above −51- and −48-dBc third-harmonic suppression, respectively, when the time resolution is 50 ps and relative time resolution is 1%, and improves above 30 dBc to the existing schemes.
               
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