Abstract
A system of 500 MHz transient digitizers based on gallium arsenide resistive gate charged coupled devices has been developed for an experiment studying rare K decays. CCDs with dynamic range of 8-bits and 128 or 320 pixels are used as analog pipelines. The CCD`s are driven by a single phase transport system. Data readout and manipulation occurs at 15.6 MHz. (authors). 12 refs., 15 figs.
Citation Formats
Bryman, D A, Constable, M, Cresswell, J V, Daviel, A, LeNoble, M, Mildenberger, J, and Poutissou, R.
500 MHz transient digitizers based on GaAs CCDs.
Canada: N. p.,
1996.
Web.
Bryman, D A, Constable, M, Cresswell, J V, Daviel, A, LeNoble, M, Mildenberger, J, & Poutissou, R.
500 MHz transient digitizers based on GaAs CCDs.
Canada.
Bryman, D A, Constable, M, Cresswell, J V, Daviel, A, LeNoble, M, Mildenberger, J, and Poutissou, R.
1996.
"500 MHz transient digitizers based on GaAs CCDs."
Canada.
@misc{etde_612971,
title = {500 MHz transient digitizers based on GaAs CCDs}
author = {Bryman, D A, Constable, M, Cresswell, J V, Daviel, A, LeNoble, M, Mildenberger, J, and Poutissou, R}
abstractNote = {A system of 500 MHz transient digitizers based on gallium arsenide resistive gate charged coupled devices has been developed for an experiment studying rare K decays. CCDs with dynamic range of 8-bits and 128 or 320 pixels are used as analog pipelines. The CCD`s are driven by a single phase transport system. Data readout and manipulation occurs at 15.6 MHz. (authors). 12 refs., 15 figs.}
place = {Canada}
year = {1996}
month = {Nov}
}
title = {500 MHz transient digitizers based on GaAs CCDs}
author = {Bryman, D A, Constable, M, Cresswell, J V, Daviel, A, LeNoble, M, Mildenberger, J, and Poutissou, R}
abstractNote = {A system of 500 MHz transient digitizers based on gallium arsenide resistive gate charged coupled devices has been developed for an experiment studying rare K decays. CCDs with dynamic range of 8-bits and 128 or 320 pixels are used as analog pipelines. The CCD`s are driven by a single phase transport system. Data readout and manipulation occurs at 15.6 MHz. (authors). 12 refs., 15 figs.}
place = {Canada}
year = {1996}
month = {Nov}
}