2.4 GHz CMOS digitally programmable power amplifier for power back-off operation

2016 IEEE 7th Latin American Symposium on Circuits & Systems (LASCAS) Pub Date : 2016-02-01 DOI:10.1109/LASCAS.2016.7451034
F. Santos, A. Mariano, B. Leite
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引用次数: 13

Abstract

This paper presents the simulation results of a linear, fully integrated, two-stage digitally programmable 130 nm CMOS power amplifier (PA) operating at 2.4 GHz. Its power stage is composed of a set of amplifying cells which can be enabled or disabled independently by a digital control circuit. All seven operational modes are univocal in terms of 1 dB output compression point (OCP1dB), saturated output power (PSAT) and power gain at 2.4 GHz. The lowest power mode achieves an 8.1 dBm PSAT, a 13.5 dB power gain and consumes 171 mW DC power (PDC) at an OCPMB of 6 dBm, whereas the highest power mode reaches an 18.9 dBm PSAT and a 21.1 dB power gain and consumes 415 mW PDC at an OCPmb of 18.2 dBm.
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2.4 GHz CMOS数字可编程功率放大器,用于功率回退操作
本文给出了一种工作频率为2.4 GHz的线性、全集成、两级数字可编程130nm CMOS功率放大器(PA)的仿真结果。它的功率级由一组放大单元组成,这些放大单元可以通过数字控制电路独立地使能或使能。所有七种工作模式在1dB输出压缩点(OCP1dB)、饱和输出功率(PSAT)和2.4 GHz的功率增益方面都是统一的。最低功率模式的PSAT为8.1 dBm,功率增益为13.5 dB,在OCPMB为6 dBm时消耗171 mW直流功率(PDC),而最高功率模式的PSAT为18.9 dBm,功率增益为21.1 dB,在OCPMB为18.2 dBm时消耗415 mW PDC。
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2016 IEEE 7th Latin American Symposium on Circuits & Systems (LASCAS)
2016 IEEE 7th Latin American Symposium on Circuits & Systems (LASCAS)
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