SEMICONDUCTOR INTEGRATED CIRCUITS

A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers

Zheng Gong, Xueqing Hu, Jun Yan and Yin Shi

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 Corresponding author: Gong Zheng, Email:rommel_gong@163.com

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Abstract: A power-efficient technique for pipeline analog-to-digital converters (ADCs) is proposed. By sharing amplifiers between I/Q channels, the power dissipation of the ADCs is reduced by almost one-half compared to conventional topologies, which makes this technique suitable for low-power direct-conversion WLAN receivers. A dual-channel ADC test chip is fabricated in 55 nm CMOS technology. The 10 bit ADC with on-chip reference generators dissipates 19.2 mW per channel from a 1.2 V supply. At an 80 MS/s sample rate, the measured spurious-free dynamic range, signal-to-noise and distortion ratio, and corresponding effective number of bits are 69.5 dB, 56.8 dB and 9.14 bits with a 1 MHz input frequency (fin), and 61.3 dB, 56.5 dB and 9.09 bits with a 15 MHz fin, respectively. The active area is 1.01×0.77 mm2.

Key words: ADCamplifier sharingI/Q amplifier sharingWLAN receiverreference buffer



[1]
Bult K, Geelen G J G M. A fast-settling CMOS opamp for SC circuits with 90-dB DC gain. IEEE J Solid-State Circuits, 1990, 25(6):1379 doi: 10.1109/4.62165
[2]
Sumanen L, Waltari M, Halonen K. A mismatch insensitive CMOS dynamic comparator for pipeline A/D converters. The 7th IEEE International Conference on Electronics, Circuits and Systems, 2000, 1(12):32 http://ieeexplore.ieee.org/document/911478/?arnumber=911478&contentType=Conference%20Publications
[3]
Cline D, Gray P. A power optimized 13-b 5-Msamples/s pipelined analog-digital converter in 1.2μm CMOS. IEEE J Solid-State Circuits, 1996, 31(3):294 doi: 10.1109/4.494191
[4]
Min B M, Kim P, Bowman F W, et al. A 69-mW 10-bit 80-MSample/s pipelined CMOS ADC. IEEE J Solid-State Circuits, 2003, 38(12):2031 doi: 10.1109/JSSC.2003.819166
[5]
Kurose D, Ito T, Ueno T, et al. 55-mW 200-MSPS 10-bit pipeline ADCs for wireless receivers. IEEE J Solid-State Circuits, 2006, 41(7):1589 doi: 10.1109/JSSC.2006.873888
[6]
Chen Zhenhai, Huang Songren, Zhang Hong, et al. A 27-mW 10-bit 125-MSPS charge domain pipelined ADC with a PVT insensitive boosted charge transfer circuit. Journal of Semiconductors, 2013, 34(3):035009 doi: 10.1088/1674-4926/34/3/035009
[7]
Ye Mao, Zhou Yumei, Wu Bin, et al. An optimized analog to digital converter for WLAN analog front end. Journal of Semiconductors, 2012, 33(4):045008 doi: 10.1088/1674-4926/33/4/045008
[8]
Miyazaki D, Kawahito S, Furata M. 10-b 30-MS/s low-power pipelined CMOS A/D converter using a pseudodifferential architecture. IEEE J Solid-State Circuits, 2003, 38(2):269
[9]
Murmann B, Boser B E. A 12 b 75 MS/s pipelined ADC using open-loop residue amplification. IEEE International Solid-State Circuits Conference, 2003:328 http://ieeexplore.ieee.org/document/1234320/
Fig. 1.  The architecture of the proposed I/Q amplifier sharing pipeline ADC.

Fig. 2.  The MDAC.

Fig. 3.  The gain-boosted OTA.

Fig. 4.  A low offset dynamic comparator.

Fig. 5.  The on-chip fully differential reference voltage generator.

Fig. 6.  ADC chip die photograph.

Fig. 7.  The FFT spectrum at 80 MS/s with (a) 1 MHz $f_{\rm in}$ and (b) 15 MHz $f_{\rm in}$.

Fig. 8.  ADC ENOB versus sampling rate with a 15 MHz input signal.

Table 1.   The summarized experimental results.

[1]
Bult K, Geelen G J G M. A fast-settling CMOS opamp for SC circuits with 90-dB DC gain. IEEE J Solid-State Circuits, 1990, 25(6):1379 doi: 10.1109/4.62165
[2]
Sumanen L, Waltari M, Halonen K. A mismatch insensitive CMOS dynamic comparator for pipeline A/D converters. The 7th IEEE International Conference on Electronics, Circuits and Systems, 2000, 1(12):32 http://ieeexplore.ieee.org/document/911478/?arnumber=911478&contentType=Conference%20Publications
[3]
Cline D, Gray P. A power optimized 13-b 5-Msamples/s pipelined analog-digital converter in 1.2μm CMOS. IEEE J Solid-State Circuits, 1996, 31(3):294 doi: 10.1109/4.494191
[4]
Min B M, Kim P, Bowman F W, et al. A 69-mW 10-bit 80-MSample/s pipelined CMOS ADC. IEEE J Solid-State Circuits, 2003, 38(12):2031 doi: 10.1109/JSSC.2003.819166
[5]
Kurose D, Ito T, Ueno T, et al. 55-mW 200-MSPS 10-bit pipeline ADCs for wireless receivers. IEEE J Solid-State Circuits, 2006, 41(7):1589 doi: 10.1109/JSSC.2006.873888
[6]
Chen Zhenhai, Huang Songren, Zhang Hong, et al. A 27-mW 10-bit 125-MSPS charge domain pipelined ADC with a PVT insensitive boosted charge transfer circuit. Journal of Semiconductors, 2013, 34(3):035009 doi: 10.1088/1674-4926/34/3/035009
[7]
Ye Mao, Zhou Yumei, Wu Bin, et al. An optimized analog to digital converter for WLAN analog front end. Journal of Semiconductors, 2012, 33(4):045008 doi: 10.1088/1674-4926/33/4/045008
[8]
Miyazaki D, Kawahito S, Furata M. 10-b 30-MS/s low-power pipelined CMOS A/D converter using a pseudodifferential architecture. IEEE J Solid-State Circuits, 2003, 38(2):269
[9]
Murmann B, Boser B E. A 12 b 75 MS/s pipelined ADC using open-loop residue amplification. IEEE International Solid-State Circuits Conference, 2003:328 http://ieeexplore.ieee.org/document/1234320/
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    Received: 28 February 2013 Revised: 19 March 2013 Online: Published: 01 September 2013

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      Zheng Gong, Xueqing Hu, Jun Yan, Yin Shi. A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers[J]. Journal of Semiconductors, 2013, 34(9): 095004. doi: 10.1088/1674-4926/34/9/095004 Z Gong, X Q Hu, J Yan, Y Shi. A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers[J]. J. Semicond., 2013, 34(9): 095004. doi: 10.1088/1674-4926/34/9/095004.Export: BibTex EndNote
      Citation:
      Zheng Gong, Xueqing Hu, Jun Yan, Yin Shi. A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers[J]. Journal of Semiconductors, 2013, 34(9): 095004. doi: 10.1088/1674-4926/34/9/095004

      Z Gong, X Q Hu, J Yan, Y Shi. A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers[J]. J. Semicond., 2013, 34(9): 095004. doi: 10.1088/1674-4926/34/9/095004.
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      A 1.2 V dual-channel 10 bit pipeline ADC in 55 nm CMOS for WLAN receivers

      doi: 10.1088/1674-4926/34/9/095004
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      • Corresponding author: Gong Zheng, Email:rommel_gong@163.com
      • Received Date: 2013-02-28
      • Revised Date: 2013-03-19
      • Published Date: 2013-09-01

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