An analog/digital reconfigurable automatic gain control (AGC) circuit with a novel DC offset cancel- lation circuit for a direct-conversion receiver is presented. The AGC is analog/digital reconfigurable in order to be compatible with different baseband chips. What's more, a novel DC offset cancellation (DCOC) circuit with an HPCF (high pass cutoff frequency) less than 10 kHz is proposed. The AGC is fabricated by a 0.18μm CMOS process. Under analog control mode, the AGC achieves a 70 dB dynamic range with a 3 dB-bandwidth larger than 60 MHz. Under digital control mode, through a 5-bit digital control word, the AGC shows a 64 dB gain control range by 2 dB each step with a gain error of less than 0.3 dB. The DC offset cancellation circuits can suppress the output DC offset voltage to be less than 1.5 mV, while the offset voltage of 40 mV is introduced into the input. The overall power consumption is less than 3.5 mA, and the die area is 800×300μm2.
参考文献
| [1] | Zheng Y J,Yan J N,Xu Y P.A CMOS VGA with DC offset cancellation for direct-conversion receivers.IEEE Trans Circuits Syst Ⅰ-Regular Papers,2009,56(1):103 |
| [2] | Cheng J,Huang F Y,Wu L H,et al.A high-linearity,60-dB variable gain amplifier with dual DC-offset cancellation for UWB systems.5th International Conference on Wireless Communications,Networking and Mobile Computing,2009,1-8:2434 |
| [3] | Wang C C,Huang C C,Lee C L,et al.70 dB dynamic range CMOS wideband digital variable gain amplifier for AGC in DVB-T/H receivers.Circuits Systems and Signal Processing,2008,27(3):367 |
| [4] | Niwa A,Takagi S,Sato T,et al.Novel DC offset cancellation in direct conversion receivers.3rd International Symposium on Communications,Control and Signal Processing,2008,1-3:584 |
| [5] | Mak P I,S P U,Martins R P.On the design of a programmablegain amplifier with built-in compact DC-offset cancellers for very low-voltage WLAN systems.IEEE Trans Circuits Syst ⅠRegular Papers,2008,55(2):496 |
| [6] | Rahmatian B,Mirabbasi S.A low-power 75 dB digitally programmable CMOS variable-gain amplifier.Canadian Conference on Electrical and Computer Engineering,2007:522 |
| [7] | Jeon O,Fox R M,Myers B A.Analog AGC circuitry for a CMOS WLAN receiver.IEEE J Solid-State Circuits,2006,41(10):2291 |
| [8] | Zheng Y,Leow S W,Han D,et al.A DC offset free RF front-end for direct conversion receivers,IEE Radio Frequency Integrated Circuits (RFIC) Systems,Digest of Papers,2004,489:720 |
| [9] | Lin C W,Liu Y Z,Hsu K Y J.A low distortion and fast settling automatic gain control amplifier in CMOS technology.IEEE In ternational Symposium on Circuits and Systems,2004,5537:I541 |
| [10] | Kyung-Suc N,Byeong-Ha P.A 50-MHz dB-linear programmable-gain amplifier with 98-dB dynamic range and 2-dB gain steps for 3 V power supply.IEEE Trans Very Large Scale Integration (VLSI) Systems,2003,11(2):218 |
| [11] | Cheung H Y,Cheung K S,Lau J.A low power monolithic AGC with automatic DC offset cancellation for direct conversion hybrid CDMA transceiver used in telemetering.IEEE lnternational Symposium on Circuits and Systems,2001,45:390 |
| [12] | Drefiski T,Desclos L,Madihian M,et al.A BiCMOS 300 ns attack-time AGC amplifier with peak-detect-and-hold feature for high-speed wireless ATM systems.IEEE International SolidState Circuits Conference,Digest of Technical Papers,,1999 |
| [13] | Cloutier M,Varelas T,Cojocaru C,et al.A 4-dB NF GPS receiver front-end with AGC and 2-b A/D.Proceedings of the IEEE Custom Integrated Circuits Conference,1999:205 |
| [14] | Tadjpour S,Behbahani F,Abidi A A.A CMOS variable gain amplifier for a wideband wireless receiver.Symposium on VLSI Circuits.Digest of Technical Papers,1998 |
| [15] | Khoury J M.On the design of constant settling time AGC circuits.IEEE Trans Circuits Syst Ⅱ-Express Briefs,1998,45(3):283 |
| [16] | Behzad R.Design of analog CMOS integrated circuits.Xi'an Jiaotong University Press,2006 |
| [17] | Chang R C,Kuo L C.A new low-voltage charge pump circuit for PLL.IEEE International Symposium on Circuits and Systems Proceedings,2000,Vol.V:701 |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%