SU725267A1 - Device for regulating image brightness - Google Patents

Description

one

The invention relates to radio engineering and can be used in electro-optical converters when observing an object of variable magnitude. A device for adjusting the luminance of the image at the output of the electron-optical converter, containing a source of reference signal, is connected in series with a controlled integrator and a comparison unit, and a time-exposure block connected to the control inputs of the integrator and switch, the second control input of which is connected to the output of the comparison unit, the third input is connected to the power supply source, and the output is connected to the electron-optical converter 1.

However, when adjusting the relative brightness of the image elements, the integral brightness of the image changes from the various components of the radiation.

The purpose of the invention is to preserve the integral luminance of the image while adjusting the relative luminance of the image elements,

The goal is achieved by the fact that in the device for adjusting the brightness

2

images at the output of the electron-optical converter,. containing a reference source, a serially connected managed integrator and a comparison unit,

as well as a time delay block connected to the integrator control inputs, the second control input of which is connected to the output of the block

compare, the third input is connected

An additional integrator, rectifier and resistive-capacitive load are inputted in series with the power supply, and the output is connected to an electro-optical converter; the additional integrator's input is connected to the output of the reference source, the output of the time-delay unit is connected to the control input. an additional integrator, and the second input of the comparator unit is connected to the resistive-capacitive load output.

The drawing shows the functional diagram of the device for adjusting the brightness of the image.

The device contains a source of 1 reference signal, connected in series by a controlled integrator

2 and block 3 comparisons, as well as block

4 time delays connected to the control inputs of the integrator 2 and switch 5, the second control INPUT of which is connected to the Biakhadu of the comparison unit 3, and the third input is connected to the power source b, the output is connected to the OOP 7) optical converter.

Between source 1 and the second input of unit 3, an additional integrator 8, a rectifier 9 and a resistor-capacitive load 10 are connected in series. One of the outputs of the temporary holding unit 4 is connected to the control input of the additional integrator 8.

The device works as follows. .

The signal from time block 4 includes integrator 2 ,. additional integrator 8 and switch 5. Switch.5 connects power supply 6 to EOC 7. Additional integrator 8 integrates the signal from source 1 of the signal and via rectifier 9 charges the resistive-capacitive load 10 to the maximum potential value at its output, from where the signal is -on to the entrance. block 3. compare. The signal from integrator 2, with the total net total flux, the radiated EIT screen 7, is fed to the second input of the unit. 3, which, at the time of the convergence of the signals from the integrator 2 and the resistive-capacitive load 10, switches off the switch 5, which, in turn, turns off the image intensifier 7 from the power supply source B.

The next pulse of the time delay block 4 erases the previously accumulated signals on integrators 2 and 8 and starts integrators 2 and 8 and switch 5 after hours: its entire cycle repeats.

The synergy of the PCB, which is emitted by the screen of the image intensifier 7 during the time N eA ;; ny by the pulses of the time hold unit 4, is proportional to the signal at the output of the resistive-capacitive load 10, and the control of the integral image brightness at the output of the image intensifier 7 is achieved. The average level of coupling of the screen of the image intensifier 7 (i.e., the average image brightness) is controlled by the magnitude of the signal at the output of the source and the reference signal 1.

The relative brightness of the image elements is controlled by the pulse frequency of the time-exposure unit 4. When the Duration of the time intervals between pulses of the block 4 of the time of the LBB is changed, the maximum value of output at the output, the 71 of the integral integrator 8 changes proportionally; the duration of the time interval between the pulses of the block 4

time exposure. An increase in the duration of time intervals leads to a proportional increase in the maximum potential at the output of the additional integrator 8 and to the dosage of the resistive-capacitive load 10 to a new potential, and a decrease in the duration of the intervals to a corresponding decrease in the maximum potential at the output of the additional integrator 8 and to discharge the capacitive parts of resistance load capacity 10 to the new maximum potential value. In this case, the sum of the light flux emitted by the screen of the image intensifier 7 during any given period of time is defined as. the product of the number of pulses of time delay unit 4 contained in the specified time interval by the sum of the luminous flux emitted in one interval between pulses, time delay unit 4 remains unchanged since the number of pulses of time delay unit 4 changes in inverse proportion to the duration of the interval between pulses of block 4 is temporarily held. The sum of the luminous flux radiated in one interval varies in proportion to the signal on the output of the resistive-capacitive load 10, i.e. proportional to the duration of the time intervals between the pulses of the block 4 time exposure .. If TQ is a predetermined period of time, T is the duration of the time interval Between the pulses of the block 4 are temporary, PJ is the sum of the luminous flux emitted by the EOP 7 screen in one interval, then the number of time intervals T in the given time interval. Equally, the sum of the luminous flux emitted by the screen of the image intensifier 7 for a given period of time TQ is equal to Pnon «Kj (P. When the duration of the time interval between pulses is changed block 4 time exposure to the value of T is the sum of the total flow and changes to the value of Pj P Tj / T, and the number of time intervals Tj in a given period of time TO varies to the value

Kj TO / TS-K ,, ,, ..

Thus, the total sum of the luminous flux emitted by the screen of the image intensifier 7 remains unchanged with any change in the duration of the time intervals between pulses of the time-exposure unit P-i

The sum of the luminous flux from the image elements varies in proportion to the duration of the time interval between the pulses of the time-exposure unit 4, the splitting of the light pulse falls only in one time interval, and the sum of the luminous flux is proportional to the duration of this interval.

Thus, the sum of the light flux, gained by the light pulse, is the smaller the longer the interval between the pulses of the temporary holding block 4, i.e. it decreases to a total amount of light flux, due to radiation from the screen of image intensifier 7, for a predetermined period of time, which leads to a change in the brightness of the image elements.

The proposed device allows adjusting the relative brightness of the image from various amplitude-frequency components of the radiation while maintaining the integral image brightness. When registering light fluxes consisting of equal parts of a quasi-constant background and a pulsed component, the proposed device allows more than 300 times the relative brightness of the image elements with the increase in the brightness of the image elements by no more than two times.

Invention Formula

A device for adjusting the image at the output of an electron-optical converter, containing a reference signal source, a serially connected controlled integrator and a comparison unit, and a time-exposure block connected to the control inputs of the integrator and a switch connected to the control inputs of the integrator and switch, the second control which input is connected to the output of the comparison unit, and the third input is connected to the source

0, and the output is connected to an electron-optical converter, characterized in that, in order to preserve the integral luminance of the image elements while adjusting the relative luminance of the image elements, an additional integrator, rectifier and resistive-capacitive load are introduced into the device,

In this way, the additional integrator input is connected to the output of the reference source, the output of the temporary lock block is connected to the control input of the Additional integrator, and the second input of the comparison unit is connected to the output of the resistive-capacitive load.

Sources of information 0 taken into account during the examination

1J USSR Authorship Certificate (f. 554642.1 p (: l N 04 N 5/58, 1974.

Claims (1)

Claim A device for controlling the brightness of the image at the output of an electron-optical converter, containing a reference signal source, a controlled integrator and a comparison unit connected in series, and a time delay unit connected to the g control inputs of the integrator and the switch, connected to the control inputs of the integrator and the switch, the second control input of which is connected to the output of the comparison unit, and the third input is connected to a power source, and the output is connected to an electron-optical converter, This is because, in order to preserve the integrated brightness of image elements when adjusting the relative brightness of image elements, an additional integrator, a rectifier and a resistive-capacitive load are connected in series to the device, while the input of the additional integrator is connected to the output of the reference signal source, output the time-delay unit is connected to the control input of the Additional integrator, and the second input of the comparison unit is connected to the output of the resistive-capacitive load.