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1. 发明专利

DE1572706A1 未知
公开(公告)号：DE1572706A1
公开(公告)日：1970-03-26
申请号：DE1572706
申请日：1967-06-19
申请人： KOLLMORGEN CORP
发明人： PATTERSON BENTLEY GEORGE , SAMUEL LORD JOSEPH
IPC分类号： G01J1/16 , G01J3/42 , H01J39/12
摘要： 1,163,063. Photo-electric sample analysis. KOLLMORGEN CORP. Feb. 6, 1967 [July 18, 1966], No.5527/67. Heading G1A. [Also in Division H4] In an arrangement in which a sample 16, Fig. 1, is investigated by light from a pulsating source 10, output noise arising from source pulse-amplitude variations is suppressed by developing a signal from the light pulses and applying it to vary the output signal from the photo-sensor either as developed or subsequently, the lamp may be a pulsed xenon arc and the light is focused to fall on the surface of a sample 16 or standard 15, according to the position of a rotating mirror M3, by an optical system comprising lenses L1, L2, and apertures A1, A2, 8% of the light energy being deflected by a partly silvered mirror M2 on to a pair of source monitoring transducers 20, 21 to develop the noise suppression signal. The light reflected or transmitted by the sample according to the nature of the test is applied alternately with that reflected or transmitted by the standard, to a photo-multiplier 25. The rotation of mirror M3 activates a switch 13 to appropriately pulse the source, and a switch 27 to direct the outputs representative of the standard and sample to appropriate circuits, each including a "boxcar" and an amplifier A1, A2 for comparison. Long term stabilization of the system is provided by a feedback on which the D.C. high voltage supply 40 to the photo-multiplier is adjustably controlled by the pulse height of the signal related to the standard, a tapped off portion of the signal across a potentiometer 36 being compared with a reference voltage in a comparator 41. The source monitoring photosensors may be photo-conductive, or photo-voltaic, and may control the potential on a further dynode of the photo-multiplier, may be connected in series or in shunt across the main sensor load circuit, or may control the gain of an amplifierin the main output path. More than one monitoring photo-sensor may be used in these circuits, and the sensors may comprise double-junction silicon diodes. In an arrangement carrying out a spectral test and using a plurality of photo-sensors all the sensor outputs may be controlled by a single monitoring sensor. In an amplifier gain control circuit, Fig. 6, the main and monitoring inputs are applied alternately, and the latter sets the impedance of an FET to determine the amount of feedback which is then maintained by a capacitor C1 whilst switches S1 S2 are in the "a" position. The switches may be solid state devices.

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