CS240785B1 - Temperature compensated transistor switch connection - Google Patents

Abstract

The invention solves temperature compensated engagement transistor switch with working resistance in the last emitter level in signal conversion with variable frequency or pulse alternation DC analog value especially with precision converters. Increase the accuracy of the transistor switch is achieved by regulating the supply voltage via the second transistor thermally bound to a switching transistor. Use especially in electrical engineering industry in regulatory and measuring technology.

Description

The invention solves the connection of a temperature compensated transistor switch with an operating resistor in the emitter, which is the last level step in converting the variable frequency or pulse frequency signals to a DC analog value.

In the prior art connections of transistor switches with working resistance in the emitter, the amplitude of the processed signals is influenced by the temperature dependence of the voltage drop on the beige-emitter or collector-emitter transition. This deficiency impairs the accuracy of the transmission of frequency information to voltage or duty cycle to voltage.

The disadvantage is eliminated by the connection of the temperature compensated transistor switch, which is based on the fact that the output of the inverter with open collector output is connected to the working resistor and to the base of the first transistor whose collector is connected to the voltage stabilizer output. the output of the connection, where the output of the emitter resistor is connected to a common conductor, to which the output of the potentiometer is connected, the slider of which is connected to the input of the voltage stabilizer, the input of the potentiometer is connected to the emitter of the second transistor. is connected to a voltage stabilizer output, wherein the voltage stabilizer power input is coupled to a working resistor output.

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The connection of a temperature compensated transistor switch with an operating resistance in the emitter allows to compensate for the effect of the temperature-dependent voltage drop of the switching stage and also increases the achievable accuracy of the further analogue signal processed, especially for precision frequency to voltage converters or duty cycle.

The specific connection of the temperature compensated transistor switch is shown in the attached drawing.

The output of an investor with open collector output 1 is connected to the base of the first transistor and the labor resistor 2 whose output is connected to the input supply voltage stabilizer eighth emitter of the first transistor is connected to an emitter resistor 4, ^from which it is output and output connections. The output of the emitter resistor 6 and the output of the potentiometer 21 are connected to a common conductor. The collector of the first transistor J and the divider resistor input 6 are connected to the voltage stabilizer output 8. The divider resistor output 6 is connected to the base of the second transistor 2, the emitter of which is connected to the potentiometer 2 input, the slider of which is connected to the voltage stabilizer input.

The function of the temperature compensated transistor switch according to the invention can be characterized in this way by impulses from the inverter 1 with a working resistor 2 driving the transistor 1 and are taken from the emitter resistor 4. The amplitude of these pulses depends on the supply voltage of the collector of transistor J and the temperature coefficient of drop K-E. The first transistor J is thermally coupled to the second transistor 6, whose transition B-E is coupled to the resistance of the divider 6 and the potentiometer 2 of the voltage stabilizer 8, thereby compensating for the amplitude error of the output pulses as the transient temperature changes.

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V j Φ

The solution according to the invention makes it possible to compensate for the influence of the temperature-dependent voltage drop K-E of the switching transistor and its use can be expected in the electrical industry, especially in the manufacture of precision voltage converters.

PURPOSE OF THE INVENTION

Claims (1)

Connection of a temperature compensated transistor switch consisting of an inverter, transistors and a voltage stabilizer, characterized in that the inverter output with the open collector output (1) is connected to a working resistor (2) and to the base of the first transistor (3) whose collector is connected to the output the voltage stabilizer (8), the emitter of the first transistor (3) is connected to the emitter resistor (4) and the wiring output, the output of the emitter resistor (4) being connected to a common conductor to which the potentiometer output (7) is connected is connected to the input of the voltage stabilizer (8), the input of the potentiometer (7) is connected to the emitter of the second transistor (5), the base of which is connected to the output of the divider (6) the voltage stabilizer input (8) is connected to the working resistor output (2).