Abstract
A highly reconfigurable open-loop analog baseband circuitry with programmable gain, bandwidth and filter order are proposed for integrated linear frequency modulated continuous wave (LFMCW) radar receivers in this paper. This analog baseband chain allocates noise, gain and channel selection specifications to different stages, for the sake of noise and linearity tradeoffs, by introducing a multi-stage open-loop cascaded amplifier/filter topology. The topology includes a course gain tuning pre-amplifier, a folded Gilbert variable gain amplifier (VGA) with a symmetrical dB-linear voltage generator and a 10-bit R-2R DAC for fine gain tuning, a level shifter, a programmable Gm-C low pass filter, a DC offset cancellation circuit, two fixed gain amplifiers with bandwidth extension and a novel buffer amplifier with active peaking for testing purposes. The noise figure is reduced with the help of a low noise pre-amplifier stage, while the linearity is enhanced with a power-efficient buffer and a novel high linearity Gm-C filter. Specifically, the Gm-C filter improves its linearity specification with no increase in power consumption, thanks to an alteration of the trans-conductor/capacitor connection style, instead of pursuing high linearity but power-hungry class-AB trans-conductors. In addition, the logarithmic bandwidth tuning technique is adopted for capacitor array size minimization. The linear-in-dB and DAC gain control topology facilitates the analog baseband gain tuning accuracy and stability, which also provides an efficient access to digital baseband automatic gain control. The analog baseband chip is fabricated using 130-nm SiGe BiCMOS technology. With a power consumption of 5.9~8.8 mW, the implemented circuit achieves a tunable gain range of −30~27 dB (DAC linear gain step guaranteed), a programmable −3 dB bandwidth of 18/19/20/21/22/23/24/25 MHz, a filter order of 3/6 and a gain resolution of better than 0.07 dB.
Highlights
The booming smart portable devices has led to an imperative demand for multi-standard compatibility on mobile/wireless receivers in recent years, such as Global System for MobileCommunications (GSM), Bluetooth, Global Position System (GPS), Wideband Code Division MultipleAccess (W-CDMA), Wireless Local Area Network (WLAN), Long Term Evolution (LTE), and so on.industrial corporations and academic institutions have released diverse integrated solutions with different RF front-ends covering various bands and sharing one analog baseband, which performs channel selectivity and gains tunability functions after down conversion mixers
The proposed analog baseband is implemented in a 130 nm SiGe BiCMOS technology
This paper proposed a reconfigurable analog baseband circuitry for linear frequency modulated continuous wave (LFMCW) RADAR receivers with bandwidth/gain/filter order programmability
Summary
The booming smart portable devices has led to an imperative demand for multi-standard compatibility on mobile/wireless receivers in recent years, such as Global System for Mobile. Electronics 2020, 9, x FOR PEER REVIEW between noise figure, linearity, power consumption, channel selection and gain/bandwidth/filter order integrated solutions with different RF front-ends covering various bands and sharing one analog programmability in itself. The closed-loop topology is intrinsically power-hungry and frequency limited since analog baseband topology, which integrates the channel selection and gain programmability in one the operational amplifier should exhibitthe gain bandwidth product (GBW) several times larger merged PGA/LPF biquad. A highly reconfigurable open-loop analog baseband prototype chip is proposed with optimized noise/linearity/power consumption performance, and digitally programmable with optimized noise/linearity/power consumption performance, and digitally programmable bandwidth/gain/filter order for integrated linear FMCW radar receivers.
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