SU157533A1 - - Google Patents

Description

Measurement accuracy by known pulsed photometers containing a reference light source, a photomultiplier tube (PMT), a gain controller and an oscillographic indicator, is in some cases insufficient.

With the proposed pulsed photometer, greater measurement accuracy is achieved due to the use of a common optical system for the measured and reference light sources.

In addition, the measurement process is simplified by using a waiting electronic circuit to generate a reference pulse; This makes it possible to combine oscillograms of the measured and reference pulses on the oscillographic indicator screen in amplitude and time.

The drawing is a diagram of the proposed photometer. The cathode of the photoelectronic amplifier (PMT) 1 is simultaneously illuminated with a reference light source, which is used as an incandescent lamp 2, and a photometric light source, such as a pulsed light 3. For the design of the same cathode / light flux from lamps 2 and 5, a common optical a system containing a translucent mirror 4 and a lens 5. A voltmeter 6 serves to control the incandescent lamp 2 mode. The intensity of the luminous flux created by this lamp is adjusted using a neutral combi Nogo filter 7 used as the gain controller torus.

When the flash lamp 3 flashes, an impulse of polarizing polarity is removed from the anode resistance 8 of the PMT, which through the selection circuit 9 enters the delay line 10, the output of which through

No. 157533-2 -

the amplifier 11 is connected to the vertical plates of the oscillographic indicator 12. An impulse taken from the resistance 8 simultaneously arrives at the amplifier 13 and is used to start the generator of the standby sweep 14 connected through the amplifier 15 of the horizontal deflection of the beam 12 to the horizontal deflection plates of the indicator 12.

The measured pulse or voltage drop corresponding to the end of the sweep pulse is fed through the waiting electronic circuit 16 to the pulse generator 17, which produces a rectangular pulse of negative polarity applied to the first dynode of the PMT and used to lock the latter.

The impulse taken from the resistance 18, included in the circuit of the last dynode of the photomultiplier, goes through the selection circuit 9 to the load resistance 19 common to the reference and measured signals. The selection circuit is sigals. provides the output of the PMT of the measured and. this Yunnogo pulses of the same polarity.

On the display screen of indicator 12, one observes 20 pulses superimposed on one another and reference 21, which can be combined in amplitude using filter 7, which greatly simplifies the process of measuring the maximum pulse generated by lamp 3. The measurement accuracy is several percent.

To calibrate the 12 waveforms observed on the indicator screen, a calibrator of duration 22 and a cascade 23 for modulating the brightness of the electron beam of the indicator 12 are used. The photometer from block 24 is powered.

Subject invention

A pulsed photometer containing a reference light source, a photomultiplier tube (PMT), an amplification controller and an oscillographic indicator, characterized in that, in order to improve accuracy and simplify the measurement process, it uses a common optical system, which is used to measure and illuminate the cathode of the PMT. reference light sources and a stand-by electronic circuit for generating a reference pulse.