Title :
Optimum preamplification and shaping of signals delivered by photodetectors without internal amplification: a theoretical analysis
Author_Institution :
Dept. of Electron. for Autom., Brescia Univ., Italy
fDate :
5/1/2000 12:00:00 AM
Abstract :
The use of photodetectors without internal amplification is an appealing choice in the design of low-cost solid-state optical instrumentation. However, once photodiodes are used in the detection unit, the instrument sensitivity is related not only to the photodetector characteristics, but mainly to the front-end electronics noise performance. Therefore, great care has to be taken in the design of the preamplification and shaping electronics in order to minimize their noise contribution. The present paper introduces, from the theoretical point of view, the optimum front-end electronics to process signals delivered by photodetectors without internal amplification. In the analysis performed, with simple formalism, the optimum signal-to-noise ratio and the minimum detectable signal have been calculated. Moreover some practical realizations, which approximate the optimum signal processor, are presented
Keywords :
amplification; analogue processing circuits; circuit noise; circuit optimisation; feedback amplifiers; network analysis; optical signal detection; photodetectors; preamplifiers; signal processing equipment; time-varying networks; front-end electronics noise performance; instrument sensitivity; low-cost solid-state optical instrumentation; minimum detectable signal; optimum SNR; optimum front-end electronics; optimum preamplification; optimum signal processor; optimum signal shaping; optimum signal-to-noise ratio; photodetectors; Instruments; Noise shaping; Optical design; Optical noise; Optical sensors; Photodetectors; Photodiodes; Signal processing; Solid state circuits; Stimulated emission;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
