Design of a CMOS highly linear front-end IC with auto gain controller for a magnetic field transceiver

Yeon Kug Moon; Kang Yoon Lee; Yun Jae Won; Seung Ok Lim

Design of a CMOS highly linear front-end IC with auto gain controller for a magnetic field transceiver

Yeon Kug Moon, Kang Yoon Lee, Yun Jae Won, Seung Ok Lim

Korea Electronics Technology Institute

Research output: Contribution to journal › Article › peer-review

Abstract

This paper describes a low-voltage and low-power channel selection analog front end with continuous-time low pass filters and highly linear programmable gain amplifier (PGA). The filters were realized as balanced Gm-C biquadratic filters to achieve a low current consumption. High linearity and a constant wide bandwidth are achieved by using a new transconductance (Gm) cell. The PGA has a voltage gain varying from 0 to 65dB, while maintaining a constant bandwidth. A filter tuning circuit that requires an accurate time base but no external components is presented. With a 1-Vrms differential input and output, the filter achieves -85dB THD and a 78dB signal-to-noise ratio. Both the filter and PGA were implemented in a 0.18um 1P6M n-well CMOS process. They consume 3.2mW from a 1.8V power supply and occupy an area of 0.19mm2.

Original language	English
Pages (from-to)	906-910
Number of pages	5
Journal	World Academy of Science, Engineering and Technology
Volume	79
State	Published - Jul 2011
Externally published	Yes

Keywords

Channel selection filters
Component
DC offset
Programmable gain amplifier
Tuning circuit

Cite this

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title = "Design of a CMOS highly linear front-end IC with auto gain controller for a magnetic field transceiver",

abstract = "This paper describes a low-voltage and low-power channel selection analog front end with continuous-time low pass filters and highly linear programmable gain amplifier (PGA). The filters were realized as balanced Gm-C biquadratic filters to achieve a low current consumption. High linearity and a constant wide bandwidth are achieved by using a new transconductance (Gm) cell. The PGA has a voltage gain varying from 0 to 65dB, while maintaining a constant bandwidth. A filter tuning circuit that requires an accurate time base but no external components is presented. With a 1-Vrms differential input and output, the filter achieves -85dB THD and a 78dB signal-to-noise ratio. Both the filter and PGA were implemented in a 0.18um 1P6M n-well CMOS process. They consume 3.2mW from a 1.8V power supply and occupy an area of 0.19mm2.",

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AU - Moon, Yeon Kug

AU - Lee, Kang Yoon

AU - Won, Yun Jae

AU - Lim, Seung Ok

PY - 2011/7

Y1 - 2011/7

N2 - This paper describes a low-voltage and low-power channel selection analog front end with continuous-time low pass filters and highly linear programmable gain amplifier (PGA). The filters were realized as balanced Gm-C biquadratic filters to achieve a low current consumption. High linearity and a constant wide bandwidth are achieved by using a new transconductance (Gm) cell. The PGA has a voltage gain varying from 0 to 65dB, while maintaining a constant bandwidth. A filter tuning circuit that requires an accurate time base but no external components is presented. With a 1-Vrms differential input and output, the filter achieves -85dB THD and a 78dB signal-to-noise ratio. Both the filter and PGA were implemented in a 0.18um 1P6M n-well CMOS process. They consume 3.2mW from a 1.8V power supply and occupy an area of 0.19mm2.

AB - This paper describes a low-voltage and low-power channel selection analog front end with continuous-time low pass filters and highly linear programmable gain amplifier (PGA). The filters were realized as balanced Gm-C biquadratic filters to achieve a low current consumption. High linearity and a constant wide bandwidth are achieved by using a new transconductance (Gm) cell. The PGA has a voltage gain varying from 0 to 65dB, while maintaining a constant bandwidth. A filter tuning circuit that requires an accurate time base but no external components is presented. With a 1-Vrms differential input and output, the filter achieves -85dB THD and a 78dB signal-to-noise ratio. Both the filter and PGA were implemented in a 0.18um 1P6M n-well CMOS process. They consume 3.2mW from a 1.8V power supply and occupy an area of 0.19mm2.

KW - Channel selection filters

KW - Component

KW - DC offset

KW - Programmable gain amplifier

KW - Tuning circuit

UR - https://www.scopus.com/pages/publications/79960763599

M3 - Article

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SN - 2010-376X

VL - 79

SP - 906

EP - 910

JO - World Academy of Science, Engineering and Technology

JF - World Academy of Science, Engineering and Technology

ER -

Design of a CMOS highly linear front-end IC with auto gain controller for a magnetic field transceiver

Abstract

Keywords

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