SEMICONDUCTOR INTEGRATED CIRCUITS

A wideband frequency synthesizer with VCO and AFC co-design for fast calibration

Liheng Lou1, 2, Lingling Sun2, , Haijun Gao2 and Haiting Zhan2

+ Author Affiliations

 Corresponding author: Sun Lingling, sunll@hdu.edu.cn

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Abstract: A wideband fractional-N frequency synthesizer is implemented in a 65 nm CMOS process. It employs a wideband LC voltage-controlled oscillator (VCO) with optimized VCO gain (KVCO) and a sub-band step to improve automatic frequency calibration (AFC) efficiency at negligible expense of phase noise performance. An agile AFC is realized by direct mapping based on the division ratio, and optional redundant counting and comparing calibration is introduced accommodating PVT variations, which samples the reference clock using the prescaled VCO output as a discriminating clock. A charge pump with switched charging current is adopted to compensate for the loop bandwidth variation. Measurement results show this directly-mapped AFC locates the target sub-band in 100 ns and only needs 1.2 μs for redundant calibration. The frequency synthesizer spans a frequency range from 0.62 to 1.52 GHz, with phase noise of-86 dBc/Hz at 10 kHz offset and-122 dBc/Hz at 1 MHz offset while consuming 9.76 mA from a 1.2 V supply.

Key words: frequency synthesizerfractional-NAFCKVCObandwidthCMOS



[1]
Lin T H, Lai Y J. An agile VCO frequency calibration technique for a 10-GHz CMOS PLL. IEEE J Solid-State Circuits, 2007, 42(2):340 doi: 10.1109/JSSC.2006.889360
[2]
Hajimiri A, Lee T H. Design issues in CMOS differential LC oscillators. IEEE J Solid-State Circuits, 1999, 34(5):717 doi: 10.1109/4.760384
[3]
Moon Y J, Roh Y S, Jeong C Y, et al. A 4.39-5.26 GHz LC-tank CMOS voltage-controlled oscillator with small VCO-gain variation. IEEE Microw Wireless Compon Lett, 2009, 19(8):524 doi: 10.1109/LMWC.2009.2024846
[4]
Kim J, Shin J, Kim S, et al. A wide-band CMOS LC VCO with linearized coarse tuning characteristics. IEEE Trans Circuits Syst Ⅱ:Express Briefs, 2008, 55(5):399 doi: 10.1109/TCSII.2007.914896
[5]
Kondou M, Matsuda A, Yamazaki H, et al. A 0.3 mm2 90-to-770 MHz fractional-N synthesizer for a digital TV tuner. IEEE International Solid State Circuits Conf, 2010:248 http://ieeexplore.ieee.org/document/5302628/authors
[6]
Shin J, Shin H. A 1.9-3.8 GHz delta-Sigma fractional-N PLL frequency synthesizer with fast auto-calibration of loop bandwidth and VCO frequency. IEEE J Solid-State Circuits, 2012, 47(3):665 doi: 10.1109/JSSC.2011.2179733
[7]
Lee K S, Yu H, Ahn H K, et al. A 0.13-μm CMOS Σ-Δ frequency synthesizer with an area optimizing LPF, fast AFC time, and a wideband VCO for WCDMA/GSM/GPRS/EDGE applications. IEEE Radio Frequency Integrated Circuits Symp, 2008:299
[8]
Lee H I, Cho J K, Lee K S, et al. A sigma-delta fractional-N frequency synthesizer using a wide-band integrated VCO and a fast AFC technique for GSM/GPRS/WCDMA applications. IEEE J Solid-State Circuits, 2004, 39(7):1164 doi: 10.1109/JSSC.2004.829938
[9]
Jeong C Y, Choi D H, Yoo C. A fast automatic frequency calibration (AFC) scheme for phase-locked loop (PLL) frequency synthesizer. IEEE Radio Frequency Integrated Circuits Symp, 2009:583 http://ieeexplore.ieee.org/document/5135609/?reload=true&arnumber=5135609&punumber%3D5076160
[10]
Shin J, Shin H. A fast and high-precision VCO frequency calibration technique for wideband delta-Sigma fractional-N frequency synthesizers. IEEE Trans Circuits Syst I:Regular papers, 2010, 57(7):1573 doi: 10.1109/TCSI.2009.2036057
[11]
Yin Yadong, Yan Yuepeng, Liang Weiwei, et al. A fast lock frequency synthesizer using an improved adaptive frequency calibration. Journal of Semiconductors, 2010, 31(6):065011 doi: 10.1088/1674-4926/31/6/065011
Fig. 1.  Block diagram of the proposed frequency synthesizer with directly mapped AFC: gray blocks in AFC refer to the optional calibration function.

Fig. 2.  $F$-$V$ of a VCO employing a 3-bit binary weighted capacitor.

Fig. 3.  Proposed VCO employing thermometer-weighted switched capacitor and varactor array.

Fig. 4.  Sub-band selection based on division ratio mapping.

Fig. 5.  Flow of the proposed directly mapped AFC with optional redundant calibration.

Fig. 6.  Chip microphotograph.

Fig. 7.  Measured $F$-$V$ of proposed VCO of constant $K_{\rm VCO}$ and step.

Fig. 8.  AFC operation span with directly mapping and optional redundant calibration activated.

Fig. 9.  Measured phase noise @ 1.12 GHz.

Fig. 10.  Measured uniform phase noise and loop bandwidth across entire frequency range.

Table 1.   Performance comparison.

[1]
Lin T H, Lai Y J. An agile VCO frequency calibration technique for a 10-GHz CMOS PLL. IEEE J Solid-State Circuits, 2007, 42(2):340 doi: 10.1109/JSSC.2006.889360
[2]
Hajimiri A, Lee T H. Design issues in CMOS differential LC oscillators. IEEE J Solid-State Circuits, 1999, 34(5):717 doi: 10.1109/4.760384
[3]
Moon Y J, Roh Y S, Jeong C Y, et al. A 4.39-5.26 GHz LC-tank CMOS voltage-controlled oscillator with small VCO-gain variation. IEEE Microw Wireless Compon Lett, 2009, 19(8):524 doi: 10.1109/LMWC.2009.2024846
[4]
Kim J, Shin J, Kim S, et al. A wide-band CMOS LC VCO with linearized coarse tuning characteristics. IEEE Trans Circuits Syst Ⅱ:Express Briefs, 2008, 55(5):399 doi: 10.1109/TCSII.2007.914896
[5]
Kondou M, Matsuda A, Yamazaki H, et al. A 0.3 mm2 90-to-770 MHz fractional-N synthesizer for a digital TV tuner. IEEE International Solid State Circuits Conf, 2010:248 http://ieeexplore.ieee.org/document/5302628/authors
[6]
Shin J, Shin H. A 1.9-3.8 GHz delta-Sigma fractional-N PLL frequency synthesizer with fast auto-calibration of loop bandwidth and VCO frequency. IEEE J Solid-State Circuits, 2012, 47(3):665 doi: 10.1109/JSSC.2011.2179733
[7]
Lee K S, Yu H, Ahn H K, et al. A 0.13-μm CMOS Σ-Δ frequency synthesizer with an area optimizing LPF, fast AFC time, and a wideband VCO for WCDMA/GSM/GPRS/EDGE applications. IEEE Radio Frequency Integrated Circuits Symp, 2008:299
[8]
Lee H I, Cho J K, Lee K S, et al. A sigma-delta fractional-N frequency synthesizer using a wide-band integrated VCO and a fast AFC technique for GSM/GPRS/WCDMA applications. IEEE J Solid-State Circuits, 2004, 39(7):1164 doi: 10.1109/JSSC.2004.829938
[9]
Jeong C Y, Choi D H, Yoo C. A fast automatic frequency calibration (AFC) scheme for phase-locked loop (PLL) frequency synthesizer. IEEE Radio Frequency Integrated Circuits Symp, 2009:583 http://ieeexplore.ieee.org/document/5135609/?reload=true&arnumber=5135609&punumber%3D5076160
[10]
Shin J, Shin H. A fast and high-precision VCO frequency calibration technique for wideband delta-Sigma fractional-N frequency synthesizers. IEEE Trans Circuits Syst I:Regular papers, 2010, 57(7):1573 doi: 10.1109/TCSI.2009.2036057
[11]
Yin Yadong, Yan Yuepeng, Liang Weiwei, et al. A fast lock frequency synthesizer using an improved adaptive frequency calibration. Journal of Semiconductors, 2010, 31(6):065011 doi: 10.1088/1674-4926/31/6/065011
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    Received: 20 June 2012 Revised: 17 July 2012 Online: Published: 01 January 2013

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      Liheng Lou, Lingling Sun, Haijun Gao, Haiting Zhan. A wideband frequency synthesizer with VCO and AFC co-design for fast calibration[J]. Journal of Semiconductors, 2013, 34(1): 015008. doi: 10.1088/1674-4926/34/1/015008 L H Lou, L L Sun, H J Gao, H T Zhan. A wideband frequency synthesizer with VCO and AFC co-design for fast calibration[J]. J. Semicond., 2013, 34(1): 015008. doi: 10.1088/1674-4926/34/1/015008.Export: BibTex EndNote
      Citation:
      Liheng Lou, Lingling Sun, Haijun Gao, Haiting Zhan. A wideband frequency synthesizer with VCO and AFC co-design for fast calibration[J]. Journal of Semiconductors, 2013, 34(1): 015008. doi: 10.1088/1674-4926/34/1/015008

      L H Lou, L L Sun, H J Gao, H T Zhan. A wideband frequency synthesizer with VCO and AFC co-design for fast calibration[J]. J. Semicond., 2013, 34(1): 015008. doi: 10.1088/1674-4926/34/1/015008.
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      A wideband frequency synthesizer with VCO and AFC co-design for fast calibration

      doi: 10.1088/1674-4926/34/1/015008
      Funds:

      the Natural Science Foundation of Zhejiang Province, China Y1110991

      Project supported by the Major State Basic Research Development Program of China (No. 2010CB327403), the National Natural Science Foundation of China (No. 61102027), and the Natural Science Foundation of Zhejiang Province, China (No. Y1110991)

      the Major State Basic Research Development Program of China 2010CB327403

      the National Natural Science Foundation of China 61102027

      More Information
      • Corresponding author: Sun Lingling, sunll@hdu.edu.cn
      • Received Date: 2012-06-20
      • Revised Date: 2012-07-17
      • Published Date: 2013-01-01

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