论文信息 - Design of a 2.4-GHz Fully Differential Zero-IF CMOS Receiver Employing a Novel Hybrid Balun for Wireless Sensor Network

Design of a 2.4-GHz Fully Differential Zero-IF CMOS Receiver Employing a Novel Hybrid Balun for Wireless Sensor Network

A novel compact model for a five-port transformer balun is proposed for the efficient circuit design of hybrid balun. Compared to the conventional model, the proposed model provides much faster computation time and more reasonable values for the extracted parameters. The hybrid balun, realized in 0.18 ㎛ CMOS, achieves 2.8 ㏈ higher gain and 1.9 ㏈ lower noise figure than its passive counterpart only at a current consumption of 0.67 ㎃ from 1.2 V supply. By employing the hybrid balun, a differential zero-IF receiver is designed in 0.18 ㎛ CMOS for IEEE 802.15.4 ZigBee applications. It is composed of a differential cascode LNA, passive mixers, and active RC filters. Comparative investigations on the three receiver designs, each employing the hybrid balun, a simple transformer balun, and an ideal balun, clearly demonstrate the advantages of the hybrid balun in fully differential CMOS RF receivers. The simulated results of the receiver with the hybrid balun show 33 ㏈ of conversion gain, 4.2 ㏈ of noise figure with 20 ㎑ of 1/f noise corner frequency, and -17.5 ㏈m of IIP3 at a current consumption of 5 ㎃ from 1.8 V supply.

Kwang-Ho Won | Hyunchol Shin | Shinil Chang | Jubong Park

[1] J.R. Long,et al. Monolithic transformers for silicon RF IC design , 2000, IEEE Journal of Solid-State Circuits.

[2] Jaewook Shin,et al. A Delta-Sigma Fractional-N Frequency Synthesizer for Quad-Band Multi-Standard Mobile Broadcasting Tuners in 0.18-µm CMOS , 2007 .

[3] Ali M. Niknejad,et al. Analysis, design, and optimization of spiral inductors and transformers for Si RF ICs , 1998, IEEE J. Solid State Circuits.

[4] Hyunchol Shin,et al. A 2.4-GHz 0.82-mW Hybrid Balun for Low-Power Fully-Differential Direct Conversion Receivers in 0.18 μm CMOS , 2007, 2007 IEEE Radio Frequency Integrated Circuits (RFIC) Symposium.

[5] Changhyun Kim,et al. BER Simulator Development for Link Compliance Analysis , 2008 .

[6] R. Castello,et al. A 72-mW CMOS 802.11a direct conversion front-end with 3.5-dB NF and 200-kHz 1/f noise corner , 2005, IEEE Journal of Solid-State Circuits.

[7] Jong-Ho Lee,et al. Design Consideration of Bulk FinFETs with Locally-Separated-Channel Structures for Sub-50 nm DRAM Cell Transistors , 2008 .