SU552521A1 - Photometer with a pulsed radiation source - Google Patents

Description

through the device setting the division factor 7.

The photometer works on the principle of direct reference with a digital display of measurement results. The radiation flux of the pulsed source 1 is divided into two parts in the optical system 2, with the greater part through the camera 3 entering the photoreceiver 4 (measuring channel), and the rest of the notes is directed into the comparison channel to the photoreceiver 5. From the outputs of the photodetector voltage The proportional radiation energies are fed to a discrete autocompensator (analog-to-digital converter) with a digital reading device (not shown in the drawing). The converter determines the ratio of these factors.

The reading of the readout device will be the value of the transmittance (reflection) of the object under study, if prior to installing the object in camera 3, the signals at the inputs of the autocompensator are equalized. The alignment of the signals is performed automatically using a calibration divider 8. Previously, the maximum transmission coefficient (for a given divider), for example, equal to one, is determined by the signal from device 7. Then, during one pulse of the radiation source, the auto-compensator determines the ratio of signals from photodetectors, the absence of the object under investigation in chamber 3. The obtained ratio value, recorded in divider 9, is transferred to divider 8 using device 7, and divider 9 is returned to its original state further used to measure the transmittance (reflection) of objects placed in the chamber 3.

The photometer described has several advantages over the prototype. Due to the constant loads of the dividers, there is no effect of the bypass of the dividers on the measurement error. In addition, increased requirements for the electrical characteristics of all elements of the channel of comparison are made only in a narrow dynamic area in which calibration is performed.

All this allows two to three times to reduce the measurement error. With the serial production of such a photometer reducing the number of elements in the scheme (by 15% compared with the prototype) and simplify its settings

will reduce the cost of the device and increase its reliability.

Claims (1)

Invention Formula A photometer with a pulsed radiation source containing a two-channel optical system, a camera for the sample under study, a pulsed radiation source, photodetectors of the measuring and comparative channels, a calibration discrete divider, a digital autocompensator including a comparator, a control device and an oyno discrete divider, characterized in that with the aim of increase measurement accuracy and simplify the design, the calibration divider is made with the number of bits and bit weights identical to the number of bits and bit weights the main divider, and is included in the comparative channel in series with the main divider, and the coding elements of the main and calibration dividers are connected via a device for setting the division factor.