A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process

Te Fu Yang; Ru Yu Huang; Yi Ping Su; Ke-Horng Chen; Po-Hung Chen; Ying Hsi Lin; Shian Ru Lin; Tsung Yen Tsai; Chen Chih Huang; Chao Cheng Lee

doi:10.6329/CIEE.2014.06.02

A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process

Te Fu Yang, Ru Yu Huang, Yi Ping Su, Ke-Horng Chen, Po-Hung Chen, Ying Hsi Lin, Shian Ru Lin, Tsung Yen Tsai, Chen Chih Huang, Chao Cheng Lee

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

Abstract

An implantable medical device, such as cardiac pacemakers system is generally used to detect irregular heartbeats and correct it. For a none-error and long-term usage, the supply voltage should be well-regulated to ensure the regular function. A self-cancellation DC-DC Buck converter (SC-Buck) is proposed to overcome the mismatch caused by process, voltage and temperature (PVT) variation and provide high accuracy supplying voltage. The proposed technique also overcomes the discontinuity in conventional offset cancellation scheme and doesn't need large silicon area which is required to decrease mismatch in conventional operational amplifier (OPAMP). Monte Carlo analysis demonstrates the reduction of mismatch. Without any trimming process, the proposed technique provides an output voltage drift within the tolerance of standard IEC60601-1 [7]. The test chip fabricated in UMC 28nm CMOS technology proves the output voltage accuracy can be improved to 97% since the mismatch of error amplifier (EA) can be suppressed from 122% to 1%.

Original language	English
Pages (from-to)	215-223
Number of pages	9
Journal	International Journal of Electrical Engineering
Volume	21
Issue number	6
DOIs	https://doi.org/10.6329/CIEE.2014.06.02
State	Published - 1 Dec 2014

Keywords

DC-DC Buck converter (SC-Buck)
Offset cancellation
Process
Self-cancellation
Voltage and temperature (PVT) variation

Access to Document

10.6329/CIEE.2014.06.02

Cite this

Yang, T. F., Huang, R. Y., Su, Y. P., Chen, K.-H., Chen, P.-H., Lin, Y. H., Lin, S. R., Tsai, T. Y., Huang, C. C., & Lee, C. C. (2014). A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process. International Journal of Electrical Engineering, 21(6), 215-223. https://doi.org/10.6329/CIEE.2014.06.02

@article{c627ab6442b14c2cab54987dfc725a0b,

title = "A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process",

abstract = "An implantable medical device, such as cardiac pacemakers system is generally used to detect irregular heartbeats and correct it. For a none-error and long-term usage, the supply voltage should be well-regulated to ensure the regular function. A self-cancellation DC-DC Buck converter (SC-Buck) is proposed to overcome the mismatch caused by process, voltage and temperature (PVT) variation and provide high accuracy supplying voltage. The proposed technique also overcomes the discontinuity in conventional offset cancellation scheme and doesn't need large silicon area which is required to decrease mismatch in conventional operational amplifier (OPAMP). Monte Carlo analysis demonstrates the reduction of mismatch. Without any trimming process, the proposed technique provides an output voltage drift within the tolerance of standard IEC60601-1 [7]. The test chip fabricated in UMC 28nm CMOS technology proves the output voltage accuracy can be improved to 97% since the mismatch of error amplifier (EA) can be suppressed from 122% to 1%.",

keywords = "DC-DC Buck converter (SC-Buck), Offset cancellation, Process, Self-cancellation, Voltage and temperature (PVT) variation",

author = "Yang, {Te Fu} and Huang, {Ru Yu} and Su, {Yi Ping} and Ke-Horng Chen and Po-Hung Chen and Lin, {Ying Hsi} and Lin, {Shian Ru} and Tsai, {Tsung Yen} and Huang, {Chen Chih} and Lee, {Chao Cheng}",

year = "2014",

month = dec,

day = "1",

doi = "10.6329/CIEE.2014.06.02",

language = "English",

volume = "21",

pages = "215--223",

journal = "International Journal of Electrical Engineering",

issn = "1812-3031",

publisher = "Chinese Institute of Electrical Engineering",

number = "6",

}

TY - JOUR

T1 - A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process

AU - Yang, Te Fu

AU - Huang, Ru Yu

AU - Su, Yi Ping

AU - Chen, Ke-Horng

AU - Chen, Po-Hung

AU - Lin, Ying Hsi

AU - Lin, Shian Ru

AU - Tsai, Tsung Yen

AU - Huang, Chen Chih

AU - Lee, Chao Cheng

PY - 2014/12/1

Y1 - 2014/12/1

N2 - An implantable medical device, such as cardiac pacemakers system is generally used to detect irregular heartbeats and correct it. For a none-error and long-term usage, the supply voltage should be well-regulated to ensure the regular function. A self-cancellation DC-DC Buck converter (SC-Buck) is proposed to overcome the mismatch caused by process, voltage and temperature (PVT) variation and provide high accuracy supplying voltage. The proposed technique also overcomes the discontinuity in conventional offset cancellation scheme and doesn't need large silicon area which is required to decrease mismatch in conventional operational amplifier (OPAMP). Monte Carlo analysis demonstrates the reduction of mismatch. Without any trimming process, the proposed technique provides an output voltage drift within the tolerance of standard IEC60601-1 [7]. The test chip fabricated in UMC 28nm CMOS technology proves the output voltage accuracy can be improved to 97% since the mismatch of error amplifier (EA) can be suppressed from 122% to 1%.

AB - An implantable medical device, such as cardiac pacemakers system is generally used to detect irregular heartbeats and correct it. For a none-error and long-term usage, the supply voltage should be well-regulated to ensure the regular function. A self-cancellation DC-DC Buck converter (SC-Buck) is proposed to overcome the mismatch caused by process, voltage and temperature (PVT) variation and provide high accuracy supplying voltage. The proposed technique also overcomes the discontinuity in conventional offset cancellation scheme and doesn't need large silicon area which is required to decrease mismatch in conventional operational amplifier (OPAMP). Monte Carlo analysis demonstrates the reduction of mismatch. Without any trimming process, the proposed technique provides an output voltage drift within the tolerance of standard IEC60601-1 [7]. The test chip fabricated in UMC 28nm CMOS technology proves the output voltage accuracy can be improved to 97% since the mismatch of error amplifier (EA) can be suppressed from 122% to 1%.

KW - DC-DC Buck converter (SC-Buck)

KW - Offset cancellation

KW - Process

KW - Self-cancellation

KW - Voltage and temperature (PVT) variation

UR - http://www.scopus.com/inward/record.url?scp=84943419555&partnerID=8YFLogxK

U2 - 10.6329/CIEE.2014.06.02

DO - 10.6329/CIEE.2014.06.02

M3 - Article

AN - SCOPUS:84943419555

SN - 1812-3031

VL - 21

SP - 215

EP - 223

JO - International Journal of Electrical Engineering

JF - International Journal of Electrical Engineering

IS - 6

ER -

A self-cancellation DC-DC Buck converter (SC-Buck) with 97% output voltage accuracy for biomedical implant device in 28nm CMOS process

Abstract

Keywords

Access to Document

Other files and links

Fingerprint

Cite this