H -Band Power Amplifiers in 65-nm CMOS by Adopting Output Power Maximized G max-Core and Transmission Line-Based Zero-Degree Power Combining Networks
IEEE Journal of Solid-State Circuits(2023)
摘要
This article proposes high-gain, high-output-power, and high-power-added efficiency (PAE) power amplifiers (PAs) by adopting an output power maximized (OPM) maximum achievable gain (
$G_{\text {max}}$
)-core with the transmission line (TL)-based zero-degree power combiners (ZDCs) and zero-degree splitters (ZDSs). By utilizing the proposed small- and large-signal two-port network parameter-based analysis for implementing the
$G_{\text {max}}$
-core, the last-stage OPM
$G_{\text {max}}$
-core can maximize large-signal output power and small-signal gain at the same time. In addition, by adopting the
$G_{\text {max}}$
-concept in all amplifying stages, the amount of gain per stage can be maximized, leading to higher PAE. For implementing the low-loss power combining (PC) and splitting networks, ZDC and ZDS are adopted. By adopting the proposed OPM
$G_{\text {max}}$
-core and ZDCs and ZDSs, six-stage 250-GHz two- and four-way PC PAs are implemented in a 65-nm CMOS process. The two PAs achieve
$P_{\text {sat}}$
of 9.2 and 10.5 dBm,
$\text {OP}_{1\,\text {dB}}$
of 6 and 7.7 dBm, PAE of 4.6% and 2.8%, and power gains of 28 and 26 dB at 245 and 243 GHz, respectively.
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关键词
Amplifier,CMOS,gain boosting,large-signal model,maximum achievable gain (Gmax),power amplifier (PA),sub-terahertz (sub-THz)
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