SU1048332A1 - Photometer - Google Patents

Abstract

A PHOTOMETER containing a photo-receiver mounted behind the obturator, connected to the input of the measuring amplifier, a key, through which the measuring amplifier amplifier is connected to the integrator's input, and a device registering, the key is kinematically connected to the obturator, i is connected and so that, in order to improve the accuracy of measurements of threshold signals | 1ov while maintaining speed, an inverting amplifier and an additional key were entered into it, and the integrator was made with memory feedback feedback, including a sampling key, Exit integrator is connected to the recording device, and a control input KINEMATIC sampling switch (and associated with the obturator, which is also coupled to an additional key, through which the output of the inverting amplifier is connected to the input of the integrator, the output of the measuring amplifier is connected to the inverting input of amplifier ..

Description

The invention relates to optical spectral instruments and can be used for spectral and quantitative photometric measurements. The device for measuring photometric values, containing a shutter, a photodetector, a measuring amplifier, a key, an integrator, and a registering device 1, is known. The disadvantages of the known device are complexity and limited speed. The closest technical solution to the invention is a photometer containing a photodruiler mounted behind the obturator, connected to the input of the measuring amplifier, the key through which the output of the measuring amplifier is connected to the input of the integrator, and a recording device, the key being kinematically connected with the obturator 2. The disadvantage of this device is slow, especially when measuring threshold light signals, when the fluctuations caused by the dark current of the photodetector and parasitic highlights, reduce measures with a useful signal. The purpose of the invention is to increase the accuracy of measuring threshold signals while maintaining speed. To achieve this goal, a photometric receiver mounted behind the obturator is connected to a measuring amplifier, through which the output of the measuring amplifier is connected to the integrator input, and a recording device, the key is kinematically connected to the obturator, and an inverting amplifier is inserted into the device. and an additional key, and the integrator is made with a memory feedback, including the sample key, the integrator output is connected to the recording device, and The key to the sample key input is kinematically connected to the shutter, with which an additional key is also connected, through which the output of the inverting amplifier is connected to the input of the integrator, and the output of the measuring amplifier is connected to the input of the inverting amplifier. The drawing shows a diagram of the device. The device includes an obturator 1 installed between the source of the measured radiation and the photodetector 2 connected to the input of the measuring amplifier 3. The latter is connected via a switch 4 to the input of the integrator 5 with memory feedback and to the input of the inverting amplifier 6 built on the operational amplifier. 7. The output of the inverting amplifier 6 is connected via an additional switch 8 to the input of the integrator 5. The output of the integrator 5, formed by the integrating amplifier 9, the selection key 10, the buffer amplifier 11, resistors 12 and 13 and cond nsatorami 14 and 15, connected to the input of the recording device 16. The key 4, additional key 8 and the sampling switch 10 is kinematically linked to the shutter 1, and is provided sleduKhtsy their mode of operation: the key 4. closed during the measuring interval, the second key 8 - during the dark pause, and the key of the sample 10 is closed for a short time at the time t <T (where T is the period of rotation of the obturator) in each cycle of the obturator. The device works as follows. At the input of the integrator 5 with a memory reverse; Zyu periodically with a period T is provided: using a key 4 totalized by an amplifier 3 dark current signal IT of the photodrupper 2 and current Gu determined by the light flux Fizm; using the second key 8, amplified by the measuring amplifier 3 and the inverted dark current signal - i-. Using sample key 10, the results of integrating signals 1 + mt period T are sampled and stored on the capacitor 15. The output signal at the output of the buffer amplifier 11 is proportional to the value TJOx / 4-4) tl J averaged over the period where k is a factor proportional to I - TI. The feedback from the buffer amplifier 11 to the input of the integrating amplifier 9 provides the integrator with a mode of operation that simultaneously with the integration of the value of the signal of the photoreceiver 2, the emulsions are continuously subtracted iodine measurements. The invention allows for measurements with the highest possible speed. High measurement accuracy is realized due to accurate compensation of the dark current signal, as well as due to the exception of many errors, and introduced by the drift zero: measuring amplifier by sequential subtraction of signals at the input of the integrator 5 during the working interval and the dark pause. Identical averaging conditions as measured are provided in the device. 310483324

of the measuring signal and the signaling of the measuring process of the current during their process, especially when measuring small readings, which are significantly higher fluxes, when the fluctuations of the dark

accuracy and dynamic ha-gokas are commensurate with the useful signal.

Claims (1)

A PHOTOMETER containing a photodetector installed behind the obturator [connected to the input of the measuring amplifier, a key through which the output of the measuring amplifier is connected to the obturator kinematically, so that with the aim of to increase the accuracy of measuring threshold signals while maintaining speed, an inverting amplifier and an additional key are introduced into it, and the integrator is implemented with memory feedback, including a sampling key, the integrator output is connected to a recording device, and the control input d sampling switch is kinematically connected with the obturator, which is also connected with an additional key, through which the output of the inverting amplifier is connected to the input of the integrator, the output meter> yo 00 s