SU345375A1 - - Google Patents

Description

The invention relates to the field of building and construction, in particular to the measurement of temperature, 31 of which can be eluted over a wide range.

Temperature measuring devices are known that contain a thermistor, including one of the shoulders of a bridge circuit, a transistor DC amplifier and an emitter follower, connected to a measuring device and a regulator.

Odiako well-known devices that serve to prevent transformation of the resistance of a thermistor from a thermistor to a voltage (current) have a significant non-linearity of the characteristic and sufficient complexity.

In order to improve measurement accuracy and enable automatic temperature control in a wide range, the thermoresistor of the proposed device is connected to the base of the transistor collector of the direct current amplifier, the base of this transistor through the diode 11 is a resistor, and the collector is connected via a resistor to the terminals and terminals. The collector of the transistor amplifier is connected to the base of the emitter follower transistor.

The scheme of the proposed device is presented in Figure 1a.

the voltage across the resistor 2, the diode 5 and the thermoresistor 4. To the collector of the transistor / connect except thermistor 3 through the resistor 4, the source of negative voltage is t / o and the base of the transistor (J emitter follower, between the emitter of which potentiometer 7 is switched on a voltmeter 8 whose readings are proportional to the change in temperature of the AG sensor.

The meter is also connected to the temperature controller 9.

The principle of operation of the device is as follows.

Current, irotekayun1, through the base of the transistor. close to zero, which is possible due to the equality of the currents flowing through the resistor 2, diode 3 and thermistor 4. Thus, the voltage taken from the emitter of transistor 6 is determined by the resistor 4 of the sensor 4 and is almost independent of the parameters of the traysistors / and 6 (amplification coefficients and voltage between Uca base-emitters and transitions, which are functions of the temperature of the surrounding environment of the transistor). taken from the emitter of the transistor 6) can be represented as - (1 + ADH). „where dd is the dynamic resistance of ode 5; t / o is the supply voltage. The t / Bbix voltage is almost independent of changes in the gain factors and the base-emitter voltage values of the device's transistors. A voltmeter 5 connected to the slider of the potentiometer 7 of the device at the initial temperature () indicates "zero" (the offset voltage t / cM on slider 7 is chosen to be equal to Lo. With this in mind the voltage drop t / y on the voltmeter is, Ai. D g, and + dd RoUo -state of the device, not hanging from the temperature of the resistance sensor and other components of the device. The proposed device is mounted, set up tested to measure the "temperature control of the thermocoagulant head and showed positive results. The temperature measurement accuracy The values in the range O-200 ° C were not worse than 0.5%, non-linearity of the characteristic was not detected. The readings of the voltmeter practically did not depend on the connection to the output of the load-resisting device (i.e. the temperature controller input), changing within wide limits (from 00 to 1000 ohms). Subject of the invention A temperature measuring device comprising a thermistor, a transistor DC amplifier and an emitter follower connected to a measuring device and a regulator, characterized in that, in order to increase the accuracy and measuring and ensuring conditions for automatic temperature control in a wide range, the thermistor is connected to the base and collector of the amplifier transistor, the base of this transistor is through a diode and resistor, and the collector is connected to a base through a resistor, and the collector of the amplifier transistor is connected to the base transistor emitter repeater.

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