SU512393A1 - Autocompensation device - Google Patents

Description

(54) AUTOCOMPENSATION DEVICE

6 to 7 comparisons. Amplifier 3 lodklyuchen to measuring and working diagonal m bridge. The output sigal is removed indirectly from the thermometer 4 of the resistance and sets into the meter 8, which serves to measure the EoTelectric energy, which did not enter the resistance thermometer during the measurement time, and. The meter 8 is made in the form of a serially connected amplifier 9 -c constant (Coefficient strengthened and functional transducer, built in vnde quad 10, integrator 11 and recording Irbor 12, and also connected between Quad 10 and integrator 11 source 13 OiHopHoro na.

The device works as follows.

In steady-state mode, a portion of the output current of amplifier 3, equal to / o, flows through the resistance thermometer 4 and overheats it over the temperature of the thermostat 2 and maintains the temperature of the thermometer 4 constant. When the receiver is energized by a pulse of radiation, the thermometer 4 resists to start heating up, but even a small amount of heat leads to a decrease in the output current of the amplifier 5, and consequently, to a decrease in the heating current. This allows stabilizing the instantaneous temperature of the resistance thermometer 4 and during the transitional process caused by the release of a single pulse into the receiver / energy, automatic replacement of the released energy E1quivalentm heating energy, the value of which is measured by measuring 8, occurs. produces a linear conversion of the pulse energy reduction of the heating current into the output signal detected by the device 12. Indeed, if the instantaneous value of the power is in cases decoupling thermometer .soprotnvleni be less than the power dissipated by the original heating current / o, throughout the entire transition is consumed with a thermometer sonrotivlepi radiation energy "will zamenena- umenscheniem heating energy E, then

E ,,,, K ,, R, dt,

where /, is the instantaneous value of the heating current;

T is the transition time. | Velich.in /, -, measured as the voltage drop across the resistance. amplified by amplifier 9 to the value of f / out.) / / 4 / C9, where / Сe is the amplification factor of amplifier .9 over voltage. The voltage Ln.jv ,, is applied to the quad 10, the output of which is

signal. t / ab, xio (JiR KgKw}, where / Cio is the conversion coefficient of the quadrant 10. If you select the voltage of the reference source 13 so that, 3 (hR KgKioY and give the signal t / ,, U. - t / ,, ,,, xio and v.hod of the integrator 11, then a pair is allocated at the output of the latter, according to which the change in the heating energy

tt

out R (K, K ,, K ,, -, di

oo

where / d is the integrator conversion factor //. Thus, the device performs direct linear conversion of the measured pulsed energy into the output signal detected by device 12. At the same time, the speed of the device increases, since it performs a direct, without prior calibration, to emit the incoming pulsed energy to its input.

There is no margin in the device, caused by the non-equivalence of the effect on the radiation energy of the calibration energy and radiation, and on the baptism due to non-stability; my: on: the characteristics of pre-heating, as well as the instability and non-linearity of the conversion factor of the amplifier of the compensator, are processed by thermal feedback and taking into account the integration of the output signal during the transient process, it does not affect the measurement result.

The device can be used not only in the optical range, but also in the infrared, submillimeter, and microwave ranges with the corresponding performance of the radiation receiver.

Claims (1)

Invention Formula An autocompensation device containing a bridge circuit, one of whose arms includes a radiation receiver with a thermometer, a resistance amplifier, an auto-compensator amplifier, a voltage source, a functional converter and a recording device, characterized in that, in order to increase speed and accuracy with measuring the energy of single radiation pulses of optical quantum generators, the device is equipped with an integrator, and the voltage source SOURCE is connected between the output of the functional converter, Making a squarer in the form and the input of the integrator, whose output is connected to the recording device.