Title :
WA 80 BGO calorimetry electronics
Author :
Wintenberg, A.L. ; Britton, C.L., Jr. ; Ericson, M.N. ; Maples, R.A. ; Young, G.R. ; Awes, T.C.
Author_Institution :
Oak Ridge Nat. Lab., TN, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
The authors describe instrumentation designed for bismuth germinate (BGO) scintillator-based calorimetry of particles covering a very wide range of energies. In the case of the WA 80 experiment, it was desired to cover the range from <50 MeV to >50 GeV with energy resolution limited by the BGO scintillator. It was decided that a goal of the electronics design should be 0.1% resolution over that energy range. The preamplifier and pulse processor developed specifically for the WA 80 experiment are described. The preamplifier was designed for high detector capacitance, low integral and differential nonlinearity and low power consumption. The pulse processor is a time-variant shaping amplifier with integral peak-detect-and-hold and automatic gain selection circuits. The preamplifier and pulse processor combination has more than 20 b of effective resolution when used with an external 12-b analog-to-digital converter (ADC). An array of BGO instrumented with 100 preamplifiers and pulse processors was used in beam tests at CERN. Preliminary results from those tests are presented
Keywords :
analogue-digital conversion; nuclear electronics; scintillation counters; 12-b analog-to-digital converter; BGO scintillator; Bi4Ge3O12; WA 80 BGO calorimetry electronics; automatic gain selection circuits; differential nonlinearity; electronics design; energy resolution; high detector capacitance; integral peak-detect-and-hold; low integral nonlinearity; low power consumption; pulse processor; scintillator-based calorimetry; time-variant shaping amplifier; Bismuth; Calorimetry; Capacitance; Circuit testing; Detectors; Energy consumption; Energy resolution; Instruments; Preamplifiers; Pulse amplifiers;
Journal_Title :
Nuclear Science, IEEE Transactions on
