Title :
A sixteen channel peak sensing ADC for singles spectra in the FERA format
Author :
Maier, M.R. ; Ludewigt, B. ; Rossington, C. ; Yaver, H. ; Zaninovich, J.
Author_Institution :
Lawrence Berkeley Lab., CA, USA
fDate :
6/1/1996 12:00:00 AM
Abstract :
To read out multi-element small X-ray detectors for X-ray fluorescence applications with synchrotron radiation one needs the capability to record multiple singles spectra for each detector element at high rates. We have developed a sixteen channel 11 bit peak sensing ADC in a CAMAC module. We use the FERA readout bus to place the data into a commercially available histogramming module developed to generate multiple histograms from FERA ADCs. The sixteen channels digitize shaped pulses from the detectors without external gating. The digitizing time is 8 μsec, the peak acquisition time is ⩾2 μsec. The module contains a LIFO to permit block transfers in order to minimize dead times associated with the readout. There is a common CAMAC controlled analog threshold for noise suppression and a 16 bit mask to enable or disable individual ADCs. Differential non linearity is less than +8%/-4%. A γ-ray spectrum collected using this ADC is presented
Keywords :
CAMAC; X-ray detection; X-ray fluorescence analysis; X-ray spectrometers; analogue-digital conversion; data acquisition; spectroscopy computing; CAMAC module; FERA format; FERA readout bus; LIFO; X-ray fluorescence applications; block transfers; commercially available histogramming module; common CAMAC controlled analog threshold; multi-element small X-ray detectors; multiple histograms; shaped pulses; singles spectra; sixteen channel peak sensing ADC; synchrotron radiation; CAMAC; Fluorescence; Histograms; Linearity; Noise shaping; Pulse shaping methods; Radiation detectors; Synchrotron radiation; X-ray detection; X-ray detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
