SU736042A1 - Two-threshold monitoring device - Google Patents

Description

The invention relates to the field of electronic technology and can be used in automation and telemechanics.

Known devices designed to control voltages made on the basis of transistor amplifiers [1] and [2]. ^{5 * * * *}

Known devices are complex and do not provide sufficient accuracy.

Closest to the invention in technical essence is a device ¹⁰ for two-threshold control, comprising voltage dividers on resistors connected to an input signal source, a first amplifier made on a transistor, the base of which is connected through the first zener diode to the middle terminal of the first voltage divider, and the collector through two a series-connected load resistor is connected to a bus of zero potential, the second amplifier is made on a transistor, the base of which is through a second zener diode under It is connected to the middle terminal of the second voltage divider across the resistors, and the limiting resistor · However, this device is characterized by insufficient accuracy of operation of the device at threshold values.

The purpose of the invention is to increase the accuracy of operation of the device.

This is achieved by the fact that an additional amplifier made on a transistor is introduced into the device for two-threshold control, the base of which is connected to the common output of the load resistors, the emitter is connected to the zero potential bus, and the collector is the output of the device, the emitters of the transistors of the first and second amplifiers are connected through the limiting resistor to the bus of the positive potential of the input signal source, and the collector of the transistor of the second amplifier is connected to the middle terminal of the first voltage divider.

The drawing shows a diagram of a device for dual threshold control.

The device for two-threshold control comprises a first voltage divider on resistors 1 and 2 of the lower threshold, a zener diode 3, a second voltage divider on resistors 4 and 5 of the upper threshold, a zener diode 6, amplifiers made on transistors 7 and 8, load resistors 9 and 10 the collector circuit of transistor 8, an additional amplifier on transistor 11, a limited resistor 12.

The base of transistor 11 of the additional amplifier is connected to the common output of resistors 9 and 10, which determine the choice of the operating point of transistor 11, which operates 15 in key mode. The emitters of transistors 7 and 8 are connected through a limiting resistor 12 to the casing for the input and output points of the device.

Resistor 12 is designed to improve the accuracy of operation of the device at threshold voltage values.

The operation of the device is considered in three characteristic modes

where 1) _Η η is the voltage of the lower threshold; U _Bn is the voltage of the upper threshold.

1.υ _Βχ · <υ _ΗΙ1 . The voltage on the resistor 2 is less than the stabilization voltage of the zener diode 3, the current through which does not flow, transistors 8 and 11 are closed. There is no output voltage .. -

U _en . In this case, the voltage across the resistor 2 exceeds the stabilization voltage of the Zener diode 3, through which a current flows, which is amplified by the transistor 8. The current flowing through the resistors 9 and 10 opens the transistor 11, and a voltage equal to Vbk is applied to the load Kc.

3. U _Bx > U _bn . The voltage across the resistor 5 exceeds the stabilization voltage of the zener diode 6. By the current of the zener diode 6, the transistor 7 is unlocked, the shunt resistor 2

The device for two-threshold control works from the signal source, provides the ability to track changes in voltage values equal to the input within the tolerance. The circuit provides a clear response of the device at threshold voltage values. In addition, the inventive device has a higher load capacity than the prototype.

Claims (3)

The invention relates to the field of electronic technology and can be used in automation and telemechanics. Devices for voltage control, made on the basis of transistor amplifiers 1 and 2, are known. The known devices are complex and do not provide sufficient accuracy of operation. The closest to the invention to the technical essence is a device for two-threshold control, containing voltage dividers on resistors connected to an input source, a first amplifier made on a transistor, the base of which is connected to the middle output of the first voltage divider through the first Zener diode and the collector through two series-connected load resistors connected to the zero potential bus, a second amplifier, made on a transistor, the base of which is through the second zener diode. Connected to the average output of the second voltage divider across the resistors, vi limiting resistor 3j. However, this device is characterized by insufficient accuracy of the device operation at threshold values. The purpose of the invention is to improve the accuracy with the device. This is achieved by introducing an additional amplifier into the device for two-threshold control, which is made on a transistor, the base of which is connected to the common output of the load resistors, the emitter is connected to the zero potential bus, and the collector is the output of the device, the emitters of the first and second transistors through the limiting resistor connected to the positive potential bus of the input source, and the collector of the transistor of the second amplifier is connected to the middle output of the first voltage divider. The diagram shows a device for two-threshold control. The device for two-threshold control contains the first voltage divider on resistors 1 and 2 of the null threshold, Zener diode 3, the second voltage divider on resistors 4 and 5 of the upper threshold, Zener diode 6, amplifiers made on transistors 7 and 8, load resistors 9 and 10 of the collector the transistor 8 circuit, an additional amplifier on the transistor 11, the limiting resistor 12. Bea transistor 11 an additional amplifier is connected to the common output of resistors 9 and 10, determined by choking the operating point of the transistor 11 operating in the key mode. The emitters of the transistors 7 and 8 are connected through the limiting resistor 12 to the common point for Ecode and the device output. Resistor 12 is designed to increase the accuracy of the device at threshold voltages. The operation of the device is considered in three characteristic modes Je.% 4.n..enVUex.n, Where the voltage of the lower threshold Ug, n is the voltage of the upper threshold 1. and. At the same time, the voltage of ya resistor 2 is lower than the voltage of stabilization of Zener diode 3, the current through which does not flow, transistors 8 and 11 are closed. The output voltage is absent., - 2. (, Npw this voltage on the resistor 2 exceeds the stabilization voltage of the zener diode 3, through which current flows, which is amplified by the transistor 8, the current flowing through the resistors 9 and 10 opens the transistor 11 and The load R is applied to a voltage almost equal to Ugjt, 3.Ugjj Ug, the voltage on the resistor 5 exceeds the voltage stabilized for-days of the zener diode 6. The current of the zener diode 6 is opened by the transistor 7, the shunt the resistor 2 becomes the voltage across the resistor 2 becomes less stabilization voltage Itonron 3, which causes the transistors 8, 11 to be closed, and the output voltage drops. 7 24 The device for two-threshold control operates from a signal source, providing 1–1 the ability to track changes in the voltage values equal to the input voltage in the tolerances. the circuit ensures a clear operation of the device at voltage thresholds. In addition, the claimed device has a higher value than. prototype load capacity. DETAILED DESCRIPTION OF THE INVENTION A device for two-threshold control, comprising voltage dividers on resistors connected to an input source, a first amplifier, made on a transistor,. the base of which is connected to the middle output of the first voltage divider via the first Zener diode, and the collector is connected to the zero potential potential terminal via two series-connected load resistors; the second amplifier is made on a transistor, the base of which is connected to the secondary output resistors, limiting resistors, characterized in that, with a &amp;amp; accuracy improvement, an additional device is added to it, which is implemented on the transistor, the base of which is connected to the common terminal of the load resistors; the emitter is connected to the zero potential bus; the conclusion of the first divider strains and. Sources of information taken into account in the examination 1. US patent number 3487233 ,. cl. 307-235, 197O. 2. The patent of Germany No. 202981G, cl, 21 E 23 / O2, 1972, 3. USSR author's certificate No. 432466, G 05 V 23/02, 1972 (prototype),