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Current-Reused 2.4-GHz Direct-Modulation Transmitter With On-Chip Automatic Tuning | IEEE Journals & Magazine | IEEE Xplore

Current-Reused 2.4-GHz Direct-Modulation Transmitter With On-Chip Automatic Tuning


Abstract:

This paper presents the design, analysis, and experimental verification of a self-calibrating current-reused 2.4-GHz direct-modulation transmitter for short-range wireles...Show More

Abstract:

This paper presents the design, analysis, and experimental verification of a self-calibrating current-reused 2.4-GHz direct-modulation transmitter for short-range wireless applications. The key contributions are the design/analysis of a stacked power amplifier (PA)/voltage-controlled oscillator (VCO) architecture, the nonlinear frequency-dependent analysis of a Gilbert-cell-based root-mean-square detector, and an on-chip LC-tank calibration circuit that needs no analog-to-digital convertor (ADC)/digital signal processor. The stacked architecture reduces the number of required regulators, utilizes supply headroom effectively, and allows for an “ADC-less” calibration loop that can dynamically tune the PA center frequency by sensing the transmitted signal. The very nature of direct-modulation architecture obviates additional high-purity signal generators, reducing complexity and allowing online calibration. The system was implemented in TSMC 0.18 μm CMOS, occupies 0.7 mm2 (TX)+0.1 mm2 (self-tuning), and was measured in a QFN48 package on an FR4 PCB. Automatically correcting PA/VCO tank misalignment in this case yielded >4 dB increase in output power. With the automatic tuning active, the transmitter delivers a measured output power >0 dBm to a 100-Ω differential load, and the system consumes 22.9 mA from a 1.8-V core-circuit supply.
Page(s): 732 - 746
Date of Publication: 05 April 2012

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