CS271691B1 - Monostable circuit connection - Google Patents

Abstract

In the branch of digital or automation technology there is a need for the electronic switching of the width of the impulse generated by a mono-stable circuit. The proposed connection solves the mono-stable circuit with an electronically switchable impulse width with the use of three integrated circuit gates. The input clamp for trigger impulses is connected to the input of the first disjunction gate or conjunction gate, whose output is through a condenser and resistor connected to a positive or negative clamp of the power supply. Then it is connected to interconnected inputs of the third gate and also through another resistor and condenser to the output of the second gate. The first input of the disjunction or conjunction gate is connected to the input clamp for switching the impulse width and the second input together with the second input of the first disjunction or conjunction gate together with the output of the third gate is connected to the mono-stable circuit output clamp. Using one integrated circuit that contains usually four gates, it is possible to achieve three different widths of the output impulse.<IMAGE>

Description

Monostable circuit connection

In the field of digital or automation technology, there is a need to electronically switch the pulse width generated by the monostable circuit. The proposed circuit solves a monostable circuit with an electronically switchable pulse width using three integrated circuit gates. The input terminal for the trigger pulses is connected to the input of the first summation or product gate whose output is connected via a capacitor and resistor to the positive or negative terminal of the power supply, further connected to the connected inputs of the third gate as well as through a resistor. second gate. The first input of the sum or gate is connected to the input terminal for switching the pulse width and the second input together with the second input of the first sum or gate and together with the output of the third gate is connected to the output terminal of the monostable circuit. By using one integrated circuit, which usually contains four gates, three different pulse widths can be achieved.

CS 271 691 Bl

CS 271 691 80

The invention relates to a monostable circuit with an electronically switchable pulse width.

Pulse width switching of monostable circuits is accomplished by changing one or both of the charging elements of the RC time constants, usually by a mechanical switch. Where electronic control is required, an analog switch, decoder or other separate electronic element is used to change the RC constant of the monostable circuit.

A disadvantage of the hitherto used circuits is that they comprise at least two packages of integrated circuits or a plurality of simple semiconductor elements.

In cases where only two different pulse widths of the monostable circuit need to be switched electronically, a simple wiring of the invention may be advantageously used.

The principle of the monostable circuit according to the invention is that the circuitry comprises at least three summation or three product gates, the input terminal for the trigger pulses being connected to the first input of the first summation or product gates whose output is connected via a first capacitor to positive or the negative terminal of the power supply, both on the connected inputs of the third sum or gate and on the second resistor connected in series with the second capacitor to the output of the second sum or gate, the first input of the second sum or gate is connected to the input terminal and the second input of the second sum or gate is coupled to the monostabil output terminal together with the second input of the first sum or gate and the output of the third sum or gate. circuit.

The monostable circuit connection can be expanded with additional sum or product gates and used to switch different pulse widths by connecting the first input of the added gate to the next input for switching the pulse width and its second input connected to the output of the third gate and the output of the added gate. connected via another department and capacitor to the connected inputs of the third gate.

The connection of the monostable circuit according to the invention allows that only three summation or three product gates of an integrated circuit, two capacitors and two resistors are sufficient to generate pulses whose width can be electronically switched to two different values. With one integrated circuit housing, which usually contains four gates, three different pulse widths can be achieved.

The connection of the monostable circuit according to the invention is shown in the attached drawing.

The input terminal 6 for the trigger pulses is connected to the first input 8 of the first summing gate 6, the output of which is connected via the first capacitor 6 to the positive terminal 6 of the power supply and to the connected inputs V and 9 of the third summing gate 10. on the other hand, via a second compartment 11 connected in series with the second capacitor 12 to the output 13 of the second summation gate 44. The first input 16 of the second summation gate 14 is connected to the input terminal 16 for switching the pulse width and the second input 17 of the second summation gate 14 is coupled to the second input 18 of the first summation gate 10 and together with the output 19 of the third summation gate 10 20 monostable circuit.

Upon the arrival of a positive trigger pulse at the first input prvého of the first summing gate £, a negative pulse is produced at its output,, which is transmitted via the capacitor na to the interconnected inputs třetí, £ of the third summing gate 00. The positive pulse from the output 19 of the third summing shaft 10 is transferred to the second input 17 of the second summing gate 14 and the second input 8 of the first summing gate 8 and keeps them at level 1 until the first capacitor 8 and the second capacitor 12 are charged over the first. the resistance na to a value such that the output level of the third summing gate 10 is changed. If the level 1 is at the pulse width switching input terminal 16, the output 13 of the second summing gate 14 remains at level 0;

CS 271 691 B1 the capacity of the capacitor 12 only slightly contributes to the function of the circuit. The pulse length is determined only by the magnitude of the first capacitor 2 ^{and the} first resistor 6. At level 0 at the pulse width switching terminal 16, the first and second summing gates 3 and 14 participate in the circuit function and the pulse length is determined by the sum The second resistor 11 limits the effect of the second capacitor 12 on the voltage waveform at the output of the first summation gate 6 when the output of the second summation gate 14 is permanently at level 0.

To connect a monostable circuit with a synergic gate, the circuit works with the opposite polarity of the input and output signals.

The monostable circuit connection according to the invention was advantageously used in a high-voltage switchgear power supply for portable devices, where the pulse width for the excitation machines was measured when the desired output voltage was switched. CMOD gates were used:

Claims (1)

SUBJECT OF THE INVENTION Monostable circuit connection, characterized in that it comprises at least three summation or product gates, wherein the trigger input terminal (1) is connected to the first input (2) of the first summation or product gate (3) whose output (4) is via the first capacitor (5) connected both via the first resistor (6) to the positive or negative terminal (7) of the power supply, and to the connected inputs (8, 9) of the third summation or product gate (10) and in series with the second capacitor (12) to the output (13) of the second summation or product gate (14), the first input (15) of the second summation or product gate (14) being connected to the input terminal (16) for switching pulse width and the second the input (17) of the second summation or product gate (14) is together with the second input (18) of the first summation or product gate (3) and together with the output (19) of the third sum or gate products (10) connected to the output terminal (20) of the monostable circuit.