Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications

A. Mercha; Y. Creten; J. Putzeys; P. Merken; P. De Moor; C. Claeys; C. Van Hoof; E. Simoen; A. Mohammadzadeh; R. Nickson

Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications

A. Mercha, Y. Creten, J. Putzeys, P. Merken, P. De Moor, C. Claeys, C. Van Hoof, E. Simoen, A. Mohammadzadeh, R. Nickson

Communication, Information, Systems and Sensors

Research output: UNPUBLISHED contribution to conference › Paper › peer-review

Abstract

This paper describes the impact of ionising irradiation, performed at liquid helium temperatures (LHT) on the characteristics of transistors that have been fabricated in a 0.7 μm CMOS technology. First, a brief description of the cryogenic irradiation set-up and the pre- and post-irradiation characterisation will be given. Next, the behaviour of the input and output characteristics at LHT is described before and after y-exposure to a total dose of 15 to 30 krd(Si), which is the expected total dose range for the Herschel mission, scheduled for launch in the spring of 2007. The observed changes in the static device parameters at LHT will be compared with earlier results, obtained after room temperature irradiations. Overall, it is concluded that the components are sufficiently radiation hard for the considered space mission, from a viewpoint of Total Ionisation Dose damage.

Original language	English
Pages	91-99
Number of pages	9
Publication status	Published - 2003
Event	Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices - Orlando, FL, United States Duration: 12 Oct 2003 → 16 Oct 2003

Conference

Conference	Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices
Country/Territory	United States
City	Orlando, FL
Period	12/10/03 → 16/10/03

Cite this

Mercha, A., Creten, Y., Putzeys, J., Merken, P., De Moor, P., Claeys, C., Van Hoof, C., Simoen, E., Mohammadzadeh, A., & Nickson, R. (2003). Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications. 91-99. Paper presented at Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices, Orlando, FL, United States.

@conference{bf0e607c462742eab8bc59a987336018,

title = "Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications",

abstract = "This paper describes the impact of ionising irradiation, performed at liquid helium temperatures (LHT) on the characteristics of transistors that have been fabricated in a 0.7 μm CMOS technology. First, a brief description of the cryogenic irradiation set-up and the pre- and post-irradiation characterisation will be given. Next, the behaviour of the input and output characteristics at LHT is described before and after y-exposure to a total dose of 15 to 30 krd(Si), which is the expected total dose range for the Herschel mission, scheduled for launch in the spring of 2007. The observed changes in the static device parameters at LHT will be compared with earlier results, obtained after room temperature irradiations. Overall, it is concluded that the components are sufficiently radiation hard for the considered space mission, from a viewpoint of Total Ionisation Dose damage.",

author = "A. Mercha and Y. Creten and J. Putzeys and P. Merken and {De Moor}, P. and C. Claeys and {Van Hoof}, C. and E. Simoen and A. Mohammadzadeh and R. Nickson",

year = "2003",

language = "English",

pages = "91--99",

note = "Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices ; Conference date: 12-10-2003 Through 16-10-2003",

}

Mercha, A, Creten, Y, Putzeys, J, Merken, P, De Moor, P, Claeys, C, Van Hoof, C, Simoen, E, Mohammadzadeh, A & Nickson, R 2003, 'Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications', Paper presented at Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices, Orlando, FL, United States, 12/10/03 - 16/10/03 pp. 91-99.

Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications. / Mercha, A.; Creten, Y.; Putzeys, J. et al.
2003. 91-99 Paper presented at Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices, Orlando, FL, United States.

Research output: UNPUBLISHED contribution to conference › Paper › peer-review

TY - CONF

T1 - Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications

AU - Mercha, A.

AU - Creten, Y.

AU - Putzeys, J.

AU - Merken, P.

AU - De Moor, P.

AU - Claeys, C.

AU - Van Hoof, C.

AU - Simoen, E.

AU - Mohammadzadeh, A.

AU - Nickson, R.

PY - 2003

Y1 - 2003

N2 - This paper describes the impact of ionising irradiation, performed at liquid helium temperatures (LHT) on the characteristics of transistors that have been fabricated in a 0.7 μm CMOS technology. First, a brief description of the cryogenic irradiation set-up and the pre- and post-irradiation characterisation will be given. Next, the behaviour of the input and output characteristics at LHT is described before and after y-exposure to a total dose of 15 to 30 krd(Si), which is the expected total dose range for the Herschel mission, scheduled for launch in the spring of 2007. The observed changes in the static device parameters at LHT will be compared with earlier results, obtained after room temperature irradiations. Overall, it is concluded that the components are sufficiently radiation hard for the considered space mission, from a viewpoint of Total Ionisation Dose damage.

AB - This paper describes the impact of ionising irradiation, performed at liquid helium temperatures (LHT) on the characteristics of transistors that have been fabricated in a 0.7 μm CMOS technology. First, a brief description of the cryogenic irradiation set-up and the pre- and post-irradiation characterisation will be given. Next, the behaviour of the input and output characteristics at LHT is described before and after y-exposure to a total dose of 15 to 30 krd(Si), which is the expected total dose range for the Herschel mission, scheduled for launch in the spring of 2007. The observed changes in the static device parameters at LHT will be compared with earlier results, obtained after room temperature irradiations. Overall, it is concluded that the components are sufficiently radiation hard for the considered space mission, from a viewpoint of Total Ionisation Dose damage.

UR - http://www.scopus.com/inward/record.url?scp=21644458230&partnerID=8YFLogxK

M3 - Paper

AN - SCOPUS:21644458230

SP - 91

EP - 99

T2 - Low Temperature Electronics and Low Temperature Cofired Ceramic Based Electronic Devices

Y2 - 12 October 2003 through 16 October 2003

ER -

Liquid helium temperature irradiation effects on the operation of 0.7 μm CMOS devices for cryogenic space applications

Abstract

Conference

Other files and links

Fingerprint

Cite this