A 460MHz Doherty power amplifier for IMT-Advanced systems

Abstract

In this work, a Doherty power amplifier is presented for IMT-Advanced system at 450–470MHz frequency band. An imperfect Quarter-wave transmission line, which consisted of two shunt capacitors and a series microstrip line, is adopted to replace the bulky impedance inverter quarter-wave transmission line for designing the Doherty power amplifier (PA). Both the traditional and proposed structures for the Doherty power amplifiers were implemented. Comparing with the traditional Doherty amplifier, the size of the circuit and the manufacturing costs are decreased obviously. The measurement results of the proposed Doherty PA exhibit good performance as well as the traditional Doherty power amplifier. For a input signal with a 7.8dB Peak to Average Power Ratio (PAPR), the measured drain efficiency of the proposed Doherty power amplifier is 48.5% at an average output power of 43.0 dBm, which is a 7.8dB backed — off the peak output power. Moreover, in order to improve the linearity of the proposed Doherty power amplifier, the augmented Hammerstein and polynomial predistorter are used to linearize the proposed Doherty power amplifier. After digital predistortion, the adjacent channel leakage ratio (ACLR) reaches −45.5dBc at an average output power of 43.0 dBm, which can satisfy the requirements of the IMT-Advanced systems.