Linearity Enhanced Wide-Bandwidth Pulse-Modulated Polar Transmitters for LTE Femtocell Applications

Abstract

The pulse-modulated polar transmitter (PMPT) uses envelope information to pulse modulate phase information to implement highly linear and highly efficient polar transmitters. Previous implementations of the PMPT successfully achieved bandwidths up to 5 MHz. However, as the bandwidth of the signal increases, nonidealities of the PMPT limit the performance of this architecture. The nonidealities are predominantly aliasing from pulsewidth modulation (PWM) and distortions from switching, which degrade the spectral performance. By using aliasing-free digital PWM and digital pre-distortion concurrently, spectral performance of the PMPT can be improved for wide bandwidth applications. For validation, a prototype transmitter was tested with a 20-MHz bandwidth downlink long-term evolution (LTE) signal at 836.5 MHz. Using the proposed method, the prototype transmitter achieved an output power of 19.8 dBm and drain efficiency of 24.4% while passing the spectral requirements of the LTE standard for femtocell base stations.