SU871155A1 - Two-chamber thermostat thermal regulator - Google Patents

Description

one

The invention relates to electronics, in particular to devices used in measuring the temperature-frequency characteristics of precision quartz resonators in a temperature range.

A thermostatting device 1 is known that is used in precision double-thermostats with thermostats. chamber construction. In this case, the main (internal) thermostat chamber is located in the auxiliary (external) chamber. The setting temperature of the external chamber is set below the internal temperature. At that, the temperature difference is chosen depending on the required conditions of the thermal balance of the thermostat.

The static temperature in these devices is kept constant, so it is unsuitable for removing the temperature-frequency characteristics of precision quartz resonators.

In some thermostats (especially technological for measuring the parameters of products), the temperature of setting in two-chamber thermostats should be set different in the specific temperature range under study. At various temperatures 30

The temperature difference between the inner and outer chambers should be kept constant. Each chamber is equipped with its own temperature sensor and thermostat 2.

However, in this device, when switching from one temperature to another to maintain the necessary temperature difference between the chambers, it is necessary to switch the corresponding circuits of both thermostats, which complicates the design of the thermostat, increases its cost and decreases reliability.

The closest technical solution to the invention is a device for stabilizing the temperature of compartments 3, comprising a relay bridge with thermal sensors in the adjacent arms of the bridge, one of which is in good thermal contact with the outer wall of the compartment and the other inside the compartment in close proximity to the nodes radio equipment, differential amplifier, power amplifier, heater.

The aim of the invention is to improve the accuracy of maintaining a constant temperature difference between the chambers over a wide range of temperatures.

This goal is achieved by having a thermostatic thermostat of a two-loop thermostat containing a series-connected resistive bridge with temperature sensors in adjacent arms, an operational amplifier, a power amplifier, and a heater, one of which is located in the inner chamber and the other in the external r-introduced Topolf resistive a bridge with a thermodatic bbm., a Ym is installed in the external chamber, and a second operational amplifier, the output of which is connected to the midpoint of the thermally independent arm of the first resistive bridge.

The drawing shows the scheme of a regulator.

It consists of the first resistive bridge formed by thermal sensors 1 and 2 h by constant resistors 3 and 4, operational amplifier 5, power amplifier b, heater 0 of the external chamber 7 and second resistive bridge 8-11 with thermal sensor 12 installed in the external chamber, and constant resistor 13, the second operational amplifier 14. 25

The device works as follows.

The thermostat of the external chamber provides a constant temperature difference due to the fact that it reacts JQ to the difference value of thermal sensors 1 and 2, which are placed structurally in different chambers, and electrically in the adjacent arms of the same thermo-dependent bridge. And when the jI changes the temperature of the inner chamber, the outer chamber automatically tracks changes in the inner chamber.

The invention greatly simplifies management and maintenance.

thermostatic device and increase its accuracy.

Claims (3)

1.Smagin A.G., Yaroslavsky M.I. Quartz piezoelectricity and quartz resonators. M., Energie, 1970. 2.Technical report Development of a methodology and set of instrumentation for the aging of precision quartz resonators with high resolution and automation of the measurement process 5t) 032l7 / at 27620 UDC 621. .372.412.62-187. 3. US patent 3197616, cl. 219-413, published. 1965 (prototype lll / - I