Sampling and Averaging Techniques in the Analysis of Fast Random Signals

Problems arising when averaging fast signals random in shape and occurrence time are systematically examined. A setup is described, comprising a sampling oscilloscope and a memory unit, allowing high speed random operation. The system logic, which insures one‐to‐one delay‐channel correspondence under the most stringent conditions, allows averaging signals satisfying various specified conditions and optimizes the statistical accuracy of the results. An add‐subtract method allows elimination of synchronous transient noise, either external or arising from the sampling unit itself. Signals of 30 μV were averaged out in this way with a 0.1 nsec instrumental risetime. Applications are shown to a broad range of problems which include fast signal enhancement, optical signal measurements, photomultiplier single electron response studies, illumination function measurements for fast organic and slow scintillators, and semiconductor detector risetime observation. Two‐dimensional representation of random signal proper...

[1]  Emilio Gatti,et al.  Stabilisation of a sampling oscilloscope for statistical measurements on wideband signals , 1967 .

[2]  G. Bonnet Etude theorique de l'extraction d'un signal periodique dans un bruit par accumulation de donnees , 1965 .

[3]  G. Amsel,et al.  Processing of Detector Signals at Very High Counting Rates for Precision Pulse-Height Analysis , 1967 .

[4]  R. R. Ernst,et al.  Sensitivity Enhancement in Magnetic Resonance. II. Investigation of Intermediate Passage Conditions , 1965 .

[5]  I. B. Berlman,et al.  VERSATILE TECHNIQUE FOR MEASURING FLUORESCENCE DECAY TIMES IN THE NANOSECOND REGION , 1963 .

[6]  R. R. Ernst Sensitivity Enhancement in Magnetic Resonance. I. Analysis of the Method of Time Averaging , 1965 .

[7]  M. Strauss,et al.  PULSE SHAPE DISTRIBUTIONS FROM GAMMA-RAYS IN LITHIUM DRIFTED GERMANIUM DETECTORS. , 1967 .

[8]  G. Amsel,et al.  USE OF FAST INFRARED EMITTING DIODES WITH SEMICONDUCTOR DETECTORS , 1964 .

[9]  T. A. McMath,et al.  A risetime spectrometer for studying pulse shapes in Ge(Li) gamma-ray detectors , 1968 .

[10]  R. Bosshard,et al.  SHORTENING OF DETECTOR SIGNALS WITH PASSIVE FILTERS FOR PILE UP REDUCTION: CALCULATIONS AND EXPERIMENTAL. , 1969 .

[11]  A. Adin,et al.  The analysis of random amplitude nanosecond pulses , 1968 .

[12]  R. C. Axtmann,et al.  Transient Response of Surface Barrier Detectors as a Function of Fission Fragment Energy , 1967 .

[13]  M. Moszynski,et al.  The shape of pulses generated by alpha-particles in silicon drifted detectors , 1968 .

[14]  H. R. Zulliger,et al.  Technique and Apparatus for Determining the Response of Scintillators and Semiconductors to Low Energy X-Ray Excitation , 1966 .

[15]  T. Yogi,et al.  RETRIEVAL OF MICROSECOND SIGNALS FROM NOISE BY SAMPLING AND AVERAGING. , 1965, The Review of scientific instruments.

[16]  P. Bernaudin,et al.  Simulation des signaux de scintillateurs par diodes emettrices de lumiere pour l'essai et le controle d'ensembles de detection , 1969 .