Abstract
We present a compact 5 GHz, class A power amplifier (PA) applicable for a wireless combo-chip that supports multiple radio systems in 180 nm CMOS technology. The proposed two-stage linear PA consists of a cascode input stage with a transformer-based balun, combined with a balancing capacitor as the load, where the single-ended signal is converted into the balanced output and a second-stage, class A push–pull amplifier with another transformer-based balun, which efficiently combines the output power differentially to drive a single-ended 50 Ω load. The proposed single-ended PA with an internal balanced configuration can achieve a power supply rejection ratio of 9.5 to 65.9 dB at 0.1 to 3.5 GHz, which is around a 12 to 37 dB improvement compared to a conventional single-ended PA with the same power gain. The results show that the proposed PA has a gain of 15.5 dB, an output-referred 1 dB gain compression point of 13 dBm, an output intercept point of 22 dBm with a 5 MHz frequency offset, an output saturated power of 15.4 dBm, and a peak power-added efficiency of 15%. The implemented PA consumes a DC current of 72 mA under 1.8 V supply. The core chip size is 0.65 mm2 without pads.
Highlights
In wireless communication for mobile applications, a power amplifier (PA) is an essential block in the radio frequency (RF) front-end
A robust design to cope with interference should be accomplished in multiple radio applications, since various wireless systems are combined in a single chip
The output-referred 1 dB compression point (OP1dB) and the power-added efficiency (PAE) were measured with an Agilent
Summary
In wireless communication for mobile applications, a power amplifier (PA) is an essential block in the radio frequency (RF) front-end. A switch-mode PA theoretically has 100% of the drain efficiency, it cannot be directly applicable to the modulation scheme, which utilizes the amplitude of the transmitting signal To overcome this issue, a polar power amplifier has been introduced using a mixed-signal technique [3]. At the output of the first stage, the balun with a balancing shunt capacitor converts the single-ended signal to a differential one, which works as the inter-stage matching network, while the second balun combines the output power and converts the output port from the differential to the single-ended configuration With this architecture, the proposed PA can achieve substantially improved RF power supply rejection under multiple radio-system scenarios while delivering consistent performance, with a saturated power output of 15.4 dBm and a peak PAE of 15%. PA consumes only 0.65 mm without pads, owing to the transformer-based compact baluns
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
