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Publications Past Presentations Patents Archives |
Acoustic Diagnostics Atomic Physics R&D Business Detector Physics DIAL/LIDAR Systems Diode Laser Sensors Dye Lasers Environmental Monitoring Fluid Dynamics Fuel Cells Microwave Physics High Speed Imaging Hypervelocity Impact Instrumentation Laser Devices Laser Diagnostics Metals Monitoring Ocean Sciences Optical Systems Solar Energy Space Environment Wind Tunnel Testing |
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R.A. Kroeger, W.N. Johnson, J.D. Kurfess, W.G. Schwarz, M.E. Read, M.D. Allen, G.T. Alley, C.L. Britton, L.C. Clonts, M.N. Ericson, M.L. Simpson, "CMOS Readout System for a Double-sided Germanium Strip Detector," presented at 1997 IEEE Nuclear Science Symp. and Medical Imaging Conf. (Albuquerque, NM) , Conf. Rec. N28-15 ( ) , (1997).
AbstractA wide variety of applications require a hard X-ray or gamma ray detector which combine both good spatial resolution and energy resolution. Double-sided solid-state strip detectors provide this capability. We report on the development of CMOS electronics designed for photon detection with strip detectors. These electronics include a low noise preamplifier, semi-gaussian shaping amplifier, discriminator, and peak detection circuitry. All circuits are designed to operate at low power. Circuits have been duplicated in both NMOS and PMOS to provide both polarities of signals. We have constructed an 8 channel system to test these prototype chips. Power consumption for the preamplifier through peak-detector circuit is 4 mW/channel. The test system has a conversion gain of ~35 mV/fC, system noise (equivalent noise charge) of ENC<220 e rms (0 pF), and a dynamic range of >100:1 in both NMOS and PMOS circuits. ws-ieee97
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