Enhancing the performances of recycling folded cascode OpAmp in nanoscale CMOS through voltage supply doubling and design for reliability. (22nd November 2012)
- Record Type:
- Journal Article
- Title:
- Enhancing the performances of recycling folded cascode OpAmp in nanoscale CMOS through voltage supply doubling and design for reliability. (22nd November 2012)
- Main Title:
- Enhancing the performances of recycling folded cascode OpAmp in nanoscale CMOS through voltage supply doubling and design for reliability
- Authors:
- Mak, Pui‐In
Liu, Miao
Zhao, Yaohua
Martins, Rui P. - Abstract:
- <abstract abstract-type="main"> <title>ABSTRACT</title> <p>Current‐oriented operational amplifier (OpAmp) design has been common for its orderly current‐to‐speed tradeoff. However, for high‐precision or high‐linearity applications, increasing the current does not help much, as the supply voltage (<italic>V</italic><sub>DD</sub>) and intrinsic gain of the MOSFETs in ultra‐scaled CMOS technologies are very limited. This paper introduces voltage‐oriented circuit techniques to address such limitations. Specifically, a 2x<italic>V</italic><sub>DD</sub>‐enabled recycling folded cascade (RFC) OpAmp is proposed. It features: (1) <italic>current recycling</italic> to enhance the effective trans conductance by 4x with no extra power; (2) <italic>transistor stacking</italic> to boost the output resistance by one to two orders of magnitude; and (3) <italic>V<sub>DD</sub> elevating</italic> to enlarge the linear output swing by 4x. Comparing with its 1x<italic>V</italic><sub>DD</sub> RFC and FC counterparts, the proposed solution achieves 20‐dB higher DC gain (i.e. 72.8 dB) in open loop and 20‐dB lower IM3 (i.e., –76.5 dB) in closed loop, under the same power budget of 0.6 mW in a 1‐V General Purpose 65‐nm CMOS process. In many applications, these joint improvements in a single stage are already adequate, being more power efficient (i.e. less current paths), stable (i.e. more phase margin), and compact (i.e. no frequency compensation) than multi‐stage OpAmps. Voltage‐conscious biasing<abstract abstract-type="main"> <title>ABSTRACT</title> <p>Current‐oriented operational amplifier (OpAmp) design has been common for its orderly current‐to‐speed tradeoff. However, for high‐precision or high‐linearity applications, increasing the current does not help much, as the supply voltage (<italic>V</italic><sub>DD</sub>) and intrinsic gain of the MOSFETs in ultra‐scaled CMOS technologies are very limited. This paper introduces voltage‐oriented circuit techniques to address such limitations. Specifically, a 2x<italic>V</italic><sub>DD</sub>‐enabled recycling folded cascade (RFC) OpAmp is proposed. It features: (1) <italic>current recycling</italic> to enhance the effective trans conductance by 4x with no extra power; (2) <italic>transistor stacking</italic> to boost the output resistance by one to two orders of magnitude; and (3) <italic>V<sub>DD</sub> elevating</italic> to enlarge the linear output swing by 4x. Comparing with its 1x<italic>V</italic><sub>DD</sub> RFC and FC counterparts, the proposed solution achieves 20‐dB higher DC gain (i.e. 72.8 dB) in open loop and 20‐dB lower IM3 (i.e., –76.5 dB) in closed loop, under the same power budget of 0.6 mW in a 1‐V General Purpose 65‐nm CMOS process. In many applications, these joint improvements in a single stage are already adequate, being more power efficient (i.e. less current paths), stable (i.e. more phase margin), and compact (i.e. no frequency compensation) than multi‐stage OpAmps. Voltage‐conscious biasing and node‐voltage trajectory check ensure the device reliability in both transient and steady states. No specialized high‐voltage device is necessary. Copyright © 2012 John Wiley &amp; Sons, Ltd.</p> </abstract> … (more)
- Is Part Of:
- International journal of circuit theory and applications. Volume 42:Number 6(2014:Jun.)
- Journal:
- International journal of circuit theory and applications
- Issue:
- Volume 42:Number 6(2014:Jun.)
- Issue Display:
- Volume 42, Issue 6 (2014)
- Year:
- 2014
- Volume:
- 42
- Issue:
- 6
- Issue Sort Value:
- 2014-0042-0006-0000
- Page Start:
- 605
- Page End:
- 619
- Publication Date:
- 2012-11-22
- Subjects:
- Electric circuit analysis -- Periodicals
621.319205 - Journal URLs:
- http://onlinelibrary.wiley.com/ ↗
- DOI:
- 10.1002/cta.1875 ↗
- Languages:
- English
- ISSNs:
- 0098-9886
- Deposit Type:
- Legaldeposit
- View Content:
- Available online (eLD content is only available in our Reading Rooms) ↗
- Physical Locations:
- British Library DSC - 4542.167000
British Library DSC - BLDSS-3PM
British Library STI - ELD Digital store - Ingest File:
- 3006.xml