SU446045A1 - Device for thermostat temperature stabilization - Google Patents

Description

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relates to electrically-HHKej, in particular, to the technique of obtaining frequencies, and can be used to stop quartz resonators and oscillators.

A device for stabilizing a teriostat temperature and containing a bridge sensor connected to a direct current heater connected to the heater winding and a power source are known.

To increase the efficiency in this case, the heat of the moving transistor is used and este with the heat of the heater; The transistor is placed at the end of the thermostat chamber, and the heating winding is located on the rest of the chamber surface.

The disadvantages of such a device are the change in temperature gradient along the longitudinal axis of the chamber and the decrease in the accuracy of maintaining the temperature in the chamber.

The purpose of the invention is to increase

accuracy of the device.

This is achieved by the fact that the proposed device contains a chain consisting of a parallel-diode and an additional winding of the heater connected to the power supply in series with the main winding of the heater.

The drawing shows a schematic diagram of the proposed device.

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It includes a temperature bridge sensor I, a DC amplifier 2, a transistor 3, a heater winding 4, an additional heater winding 5.6, DIODES 7.8,

5 power supply clips 9.10.

Sensor I responds to the temperature deviation in the thermostat, which converts this deviation into voltage, which, after amplification, is applied to an actuator consisting of transistor 3, windings 4-6 and diodes 7.8.

With a change in ambient temperature, the current through the winding and the transistor changes. A drop in winding is proportional to their resistance.

At low external ambient temperatures, the current is maximum, the voltage across the windings is large, and the diodes 7.8 are open, the winding shunt is 5.6. In this case, most of the power is allocated to the transistor 3 and the winding 4.

At higher ambient temperatures, the current through the transistor 3 and the winding 4 is reduced, leading to a decrease in the voltage drop across the winding 4, the diode 7 is closed, and the winding 5 is put into operation. This, in turn, leads to an increase in the total resistance of the windings, a decrease in the dynamic resistance of the transistor, and an equalization of the heat fluxes from the transistor and windings.

With a further increase in temperature, the diode 8 closes, winding b turns on, and the effect of equalizing heat fluxes

occurs in a similar way as described above.

The neck of a conventional diode can use zener diodes.

The number of additional windings with parallel diodes is determined by the required accuracy of temperature maintenance.

 INVENTIONS

A device for temperature stabilization of a thermostat, containing a bridge sensor, connected to a direct current junction, connected to the heater winding, and a power source, characterized in that it contains a chain consisting of parallel connected a diode and an additional heater winding, connected to the power supply, in series with the main heater winding.