Front end electronics for a variable field PET camera using the PMT-quadrant-sharing detector array design

Wai Hoi Wong; Guoji Hu; Nan Zhang; Jorge Uribe; Junming Wang; Hongdi Li; Weizhao Lu; Hossain Baghaei; Shigeru Yokoyama

doi:10.1109/23.597003

Front end electronics for a variable field PET camera using the PMT-quadrant-sharing detector array design

Wai Hoi Wong, Guoji Hu, Nan Zhang, Jorge Uribe, Junming Wang, Hongdi Li, Weizhao Lu, Hossain Baghaei, Shigeru Yokoyama

Cancer Systems Imaging

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

30 Scopus citations

Abstract

This is a front end electronic design for a PET camera with 8 arrays of position sensitive detectors. Each array has 16 BGO blocks (each block is composed of 49 crystals). The design goals are component and space reduction. Each PMT has its fast amplifier and triggered integrator. Nine flash ADCs serve an array of 27 PMTs and 784 crystals. The fast signals from one or more PMT clusters are summed. The fast summed signals are thresholded and sent to a programmable logic to determines the probable scintillation zone (4 blocks) and to turn on the associated 9 PMT integrators. After integration, the logic also drives a set of ultra-fast analog switches to connect the flash ADC set to the PMT integration channels in the scintillation zone. The 9 ADC outputs (integrated pulses with good photon statistics) are latched and compared. The comparator result determines which block in the zone is firing and the appropriate 4 ADCs are selected and bused into a position decoder. The decoder outputs the image-slice address and the crystal address. The circuit is pipelined and driven by a 250 MHz master clock.

Original language	English (US)
Pages (from-to)	1291-1296
Number of pages	6
Journal	IEEE Transactions on Nuclear Science
Volume	44
Issue number	3 PART 2
DOIs	https://doi.org/10.1109/23.597003
State	Published - 1997

ASJC Scopus subject areas

Nuclear and High Energy Physics
Nuclear Energy and Engineering
Electrical and Electronic Engineering

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title = "Front end electronics for a variable field PET camera using the PMT-quadrant-sharing detector array design",

abstract = "This is a front end electronic design for a PET camera with 8 arrays of position sensitive detectors. Each array has 16 BGO blocks (each block is composed of 49 crystals). The design goals are component and space reduction. Each PMT has its fast amplifier and triggered integrator. Nine flash ADCs serve an array of 27 PMTs and 784 crystals. The fast signals from one or more PMT clusters are summed. The fast summed signals are thresholded and sent to a programmable logic to determines the probable scintillation zone (4 blocks) and to turn on the associated 9 PMT integrators. After integration, the logic also drives a set of ultra-fast analog switches to connect the flash ADC set to the PMT integration channels in the scintillation zone. The 9 ADC outputs (integrated pulses with good photon statistics) are latched and compared. The comparator result determines which block in the zone is firing and the appropriate 4 ADCs are selected and bused into a position decoder. The decoder outputs the image-slice address and the crystal address. The circuit is pipelined and driven by a 250 MHz master clock.",

author = "Wong, {Wai Hoi} and Guoji Hu and Nan Zhang and Jorge Uribe and Junming Wang and Hongdi Li and Weizhao Lu and Hossain Baghaei and Shigeru Yokoyama",

note = "Funding Information: * This work is supported in part by NIH Grant R01-CA58980,N M Grat R01-CA61880, Grant RO1-CA589802S1, John Dunn Foundation Grant, University Cancer Foundation Cobb Fund, Texas Higher Education Advanced Technology Grant 15-025",

year = "1997",

doi = "10.1109/23.597003",

language = "English (US)",

volume = "44",

pages = "1291--1296",

journal = "IEEE Transactions on Nuclear Science",

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T1 - Front end electronics for a variable field PET camera using the PMT-quadrant-sharing detector array design

AU - Wong, Wai Hoi

AU - Hu, Guoji

AU - Zhang, Nan

AU - Uribe, Jorge

AU - Wang, Junming

AU - Li, Hongdi

AU - Lu, Weizhao

AU - Baghaei, Hossain

AU - Yokoyama, Shigeru

N1 - Funding Information: * This work is supported in part by NIH Grant R01-CA58980,N M Grat R01-CA61880, Grant RO1-CA589802S1, John Dunn Foundation Grant, University Cancer Foundation Cobb Fund, Texas Higher Education Advanced Technology Grant 15-025

PY - 1997

Y1 - 1997

N2 - This is a front end electronic design for a PET camera with 8 arrays of position sensitive detectors. Each array has 16 BGO blocks (each block is composed of 49 crystals). The design goals are component and space reduction. Each PMT has its fast amplifier and triggered integrator. Nine flash ADCs serve an array of 27 PMTs and 784 crystals. The fast signals from one or more PMT clusters are summed. The fast summed signals are thresholded and sent to a programmable logic to determines the probable scintillation zone (4 blocks) and to turn on the associated 9 PMT integrators. After integration, the logic also drives a set of ultra-fast analog switches to connect the flash ADC set to the PMT integration channels in the scintillation zone. The 9 ADC outputs (integrated pulses with good photon statistics) are latched and compared. The comparator result determines which block in the zone is firing and the appropriate 4 ADCs are selected and bused into a position decoder. The decoder outputs the image-slice address and the crystal address. The circuit is pipelined and driven by a 250 MHz master clock.

AB - This is a front end electronic design for a PET camera with 8 arrays of position sensitive detectors. Each array has 16 BGO blocks (each block is composed of 49 crystals). The design goals are component and space reduction. Each PMT has its fast amplifier and triggered integrator. Nine flash ADCs serve an array of 27 PMTs and 784 crystals. The fast signals from one or more PMT clusters are summed. The fast summed signals are thresholded and sent to a programmable logic to determines the probable scintillation zone (4 blocks) and to turn on the associated 9 PMT integrators. After integration, the logic also drives a set of ultra-fast analog switches to connect the flash ADC set to the PMT integration channels in the scintillation zone. The 9 ADC outputs (integrated pulses with good photon statistics) are latched and compared. The comparator result determines which block in the zone is firing and the appropriate 4 ADCs are selected and bused into a position decoder. The decoder outputs the image-slice address and the crystal address. The circuit is pipelined and driven by a 250 MHz master clock.

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Front end electronics for a variable field PET camera using the PMT-quadrant-sharing detector array design

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