Abstract
This paper presents a highly efficient InGaP/GaAs HBT power amplifier (PA) implemented using a proposed high- Q single- and two-winding transformer. A single- and two-winding transformer is designed with a printed circuit board (PCB) to combine the output power with a reduced passive loss. Compared to a typical 1:2 two-winding transformer, an additional unit amplifier is connected at the mid-point of the secondary winding to construct a single-winding transformer without additional windings. An IMD3 cancellation technique using a single- and two-winding transformer is also proposed to obtain a high linear output power with high power-added efficiency (PAE) without additional design circuitry. The IMD3 components of the two input currents in the single- and two-winding transformer are 180° out-of-phase cancelling each other at output. The proposed PA is integrated with an InGaP/GaAs HBT process using a PCB transformer. The experimental results demonstrate that the PA achieves a saturated output power of 33.3 dBm, with a PAE of 61.3% at 0.91 GHz. The proposed PA is also tested with an orthogonal frequency-division multiplexing (OFDM) 64-quadrature amplitude modulation (QAM) signal having a bandwidth of 10 MHz and peak-to-average power ratio (PAPR) of 7.8 dB at 0.91 GHz to evaluate the improvement in linearity. The PA achieves an adjacent channel leakage ratio (ACLR) of -42 dBc up to an output power of 26.0 dBm with a PAE of 26.8% and current consumption of 297 mA.
Highlights
There is an increasing demand for high data rates in modern high-speed wireless communications
A linear power amplifier (PA) is required with this signal to operate in the back-off region from its saturated output power to satisfy the linearity requirements
The linear output power is reduced with a large back-off from the saturated output power, and the power-added efficiency (PAE) decreases significantly
Summary
There is an increasing demand for high data rates in modern high-speed wireless communications. When an additional amplifier is combined with powercombining passive circuits, the required impedance transformation is reduced by half, resulting in an improved passive loss. To effectively combine multiple unit amplifiers, a high-Q singleand two-winding transformer is proposed in our paper. A low quality factor in an output transformer can limit the overall performance, such as the output power and PAE of the implemented PAs. in this work, a single- and twowinding transformer is implemented with a printed circuit board (PCB), providing a thick Cu metal layer. To enhance the linearity performance of the HBT PA, IMD3 cancellation using a single- and two-winding transformer is proposed.
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