SU921071A1 - Device for converting voltage value to pulse duration - Google Patents

Description

(DEVICE FOR PREVENTION OF VOCATION OF THE VOLUME OF VOLTAGE. IN THE DURATION OF THE PULSE

Claims (1)

The invention relates to electronic technology and can be used, for example, in the construction of analog-digital converters, as well as in control and regulation systems. It is known to convert a voltage to a pulse duration containing a pulse generator, a master circuit, an amplifier stage and an input transistor, the emitter of the input transistor, the base of which is connected to the output, the master circuit, is connected to the input bus, and the collector of the input transistor is connected to the input transistor the input of the amplifier stage, the output of which is connected to the output bus SP. The drawbacks of the device are low conversion accuracy and limited functionality. The closest to that proposed by the technical entity and circuit implementation is a voltage-to-voltage conversion device in a pulse width containing the first, second and third transistors, capacitor and resistor, the emitters of the first and second transistors, the bases of which are connected to the input, device buses , are connected to the collector of the third transistor, the emitter of which is connected via a resistor to the first power supply bus C2I. A disadvantage of the known device is the low conversion accuracy. This is due to the fact that the output pulses of the known device have an irregular sawtooth shape and a significant level of the constant component, and to determine the magnitude of the input voltage, it is necessary to evaluate how much the duration of the output pulses differs from some initial value. The purpose of the invention is to improve the accuracy of the conversion. To achieve this goal, a voltage-to-pulse duration conversion device containing the first, second and third transistors, a capacitor and a resistor, the emitters of the first and second transistors, whose bases are connected to the input buses of the device, are connected to the collector of the third transistor. “The mter of which is connected to the first power supply bus through a resistor, a current stabilizer, an element with an S-shaped characteristic, such as a single junction transistor, a tunnel diode and a buffer stage, a capacitor, and electrical The S-shaped element is connected in parallel and connected to the base of the third tpaH3HCTOpa and the first power supply bus; the connection point of the capacitor and the c5 characteristic is connected to the second power supply bus through a current regulator; the collector of the first transistor is connected to the second power supply bus and through the buffer stage it is connected to the output bus of the device, the collector of the second transistor is connected to the second bus of the power source. The drawing is a schematic diagram illustrating an example of a specific embodiment of the device. The device for converting the voltage values of the pulse duration contains: the first 1, second 2 and third 3 transistors, resistor k, tunnel diode 5, buffer cascade 6, capacitor 7, single junction transistor 8 current stabilizer 9- The bases of transistors I and 2 are connected to input bus 10 and 11 respectively. The emitter of transistor 3 is connected via resistor A to the first power supply bus 12, and the collector of transistor 2 is connected to the second bus 13 of the power supply. The output of the buffer stage 6 is connected to the output bus 14 of the device. The device operates as follows. The capacitor 7 is charged by the current regulator 9. The voltage across it rises linearly and when the switching voltage of the unijunction transistor 8 is reached, it opens. The capacitor 7 through the transistor 8 is quickly discharged. Thereafter, transistor 14 torus 8 returns to its original state and the process repeats. The duration of the forward stroke of a linearly varying voltage is proportional to the capacitance of the capacitor 7. The sawtooth pulse voltage is applied to the base of the transistor 3 and converted into sawtooth pulses of the collector current. The current of transistor 3 is redistributed between transistors 1 and 2 in accordance with the sign and difference value of the compared voltages applied to the input buses 10, 11. The amplitude of the collector current of transistor 3 using a resistor C is selected so that when the input voltages are equal, the device is on the verge of triggering. For this, it is necessary that the current through the tunnel diode 5 be equal to the peak current. If the voltage on bus 10 is negative relative to bus 11, then tunnel diode 5 is in a state of high conductivity and voltage (on the output bus is close to zero, i.e. the device does not operate. If the voltage on bus 10 is positive relative to bus 11, when the collector current of the transistor 3 reaches a certain value, the tunnel diode 5 switches to a high conductivity state and a voltage equal to a positive voltage on the power supply bus 13 appears on the output bus 14. bus pulse k is determined by the voltage between the input buses 10 and 11, and at sufficiently small values of this voltage, the dependence is proportional. Thus, the proposed technical solution allows to obtain square pulses at the device output, the duration of which is proportional to the difference between compared voltages, which determines the high accuracy of the conversion for the proposed device. Claims The device converts the magnitude of the voltage into a pulse duration. sa containing the first, second and three