Abstract
The design of the analog baseband circuit is based on 55 nm CMOS technology and is integrated in an IEEE 802.11ax concurrent dual band four antenna transceiver. A low-pass filter (LPF) of the receiver was multiplexed with an LPF-transmitter such that the last three stages of the fifth order LPF-receiver were used by the LPF-transmitter, and the first programmable gain amplifier (PGA) of the receiver was partially multiplexed with the PGA-transmitter such that the PGA-receiver and the PGA-transmitter shared the same operational amplifier and input resistance, thereby reducing the power consumption, noise, linearity, and area of intermediate frequency (IF) of the transmitter designed separately. The typical bandwidth of the IF-receiver is 10/20/40 MHz; that of the IF-transmitter is 12/24/50 MHz. The gain range of the IF-receiver and the IF-transmitter is 0.1–65.5 dB and −10.1 to 3.98 dB, respectively. Under the voltage of 1.5 V, the current of the IF-receiver is 3.86 mA. As for the IF-transmitter, the current is 1.78 mA when supply voltage is 1.5 V. The input referred noise (IRN) of the IF-receiver at 10 MHz bandwidth (BW) and 62 dB gain is 14.52 nV/√ Hz, while the IRN of the IF-transmitter at 10 MHz BW and −6 dB gain is 95.16 nV/√ Hz. The suppression ability of the DC offset cancellation circuit is 35.08/80.9/110.1/113 dB. The area of the analog baseband circuit is 0.17 mm2.
Highlights
Wi-Fi is one of the most popular wireless technologies and provides high-speed network services at a low cost [1]
The results reveal that the advantages of the intermediate frequency (IF)-receiver designed are its large gain range (0.1–65.5 dB), wide
The 5th order active RC Chebyshev low-pass filter (LPF), programmable gain amplifier (PGA) in closed-loop structure resistor feedback mode, and DC offset cancellation (DCOC) in continuous time feedback mode were adopted by the IF-receiver
Summary
Wi-Fi is one of the most popular wireless technologies and provides high-speed network services at a low cost [1]. The area of the chip determines its price; a smaller area is the key specification for chip competitiveness In view of this characteristic, an analog baseband circuit based on the LPF and PGA of transceiver multiplexing was proposed, that is, the IF-receiver and the IF-transmitter LPF and PGA were multiplexed, respectively. When designing LPF, it is necessary to consider the filter prototype (Butterworth or Chebyshev) and selection of Gm-C or active RC. The IF-receiver designed included LPF with 5th order active RC Chebyshev, PGA with closed-loop structure resistor feedback, and a DC offset cancellation (DCOC) circuit with continuous time feedback. The IF-transmitter designed included multiplexed 3rd active RC Chebyshev LPF and multiplexed closed-loop resistor feedback PGA. Through the analysis of Cadence software and Spectre simulator, simulation results verified the performance of the design
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