CS253051B1 - Monostable circuit - Google Patents

Abstract

The connection is solved by a monostable circuit using a double flip-flop. The cathode of the diode, the third resistor and the third input of the double flip-flop are connected to the input terminal of the monostable circuit via an input capacitor. The output of the third resistor is connected to the first output. The second capacitor and the second resistor are connected to the first input of the double flip-flop, and the first capacitor and the first resistor are connected to the second input. The outputs of the first and second resistors are connected to the fourth output and the second outputs of the first and second capacitors are grounded.

Description

The invention relates to a monostable circuit. Monostable circuits for use in digital technology for TTL logic are now solely solved using integrated monostable circuits or conventional wiring using NAND gates. Depending on the method used, one to two monostable circuits per housing.

The disadvantage of the present solution is that the mentioned circuits are of foreign production and in the case of classical connection the monostable circuit is more demanding on the number of components.

The above-mentioned disadvantages eliminate the connection of the monostable circuit according to the invention, which is based on the fact that an input capacitor is connected to the input terminal of the monostable circuit, to the other of which the cathode of the diode is connected. The anode of the diode is grounded. A third resistor is connected to the input terminal, the output of which is connected to the first output of the double flip-flop and the third input of the double flip-flop. A second capacitor and a second resistor are connected to the first double flip-flop input, a first capacitor and a first resistor connected to the second double flip-flop input.

The second terminals of the first resistor and the second resistor are connected to the fourth output of the dual monostable circuit, and the second terminals of the first capacitor and the second capacitors are grounded.

The solution can be used in applications with multiple monostable circuits. It enables to realize four monostable circuits with one integrated circuit.

An example of a monostable circuit is shown in the drawing. Fig. 1 is a wiring diagram; Fig. 2 is a function table for this wiring.

The input capacitor 8 is connected to an input capacitor 83, the other end of which is connected to the cathode of the diode 85, the third resistor 14 ', and the third input 12 of the double flip-flop 62. The anode of the diode 15 is grounded. The outlet of the third resistor 14 is connected to the first output 2 of the double flip-flop 66. A second capacitor 7 and a second resistor 6 are connected to a first input 10 of the double flip-flop 16 and a second capacitor 8 and a first resistor 6 are connected to its second input 11. The second terminals of the first resistor 6 and the second resistor 6 are connected and connected to the fourth output 6 of the dual monostable circuit 64. The second terminals of the first capacitors 6 and the second capacitor 6 are grounded. Depending on the flip-flop D 16 used, the first output 2 is designated Q1, the second output Q2, the third output 4 Q2, and the fourth output Q1. The first capacitor 6 and the second capacitor 6 are capacitors for circuit timing. The first input 10 is input D1, the second input 11 Dj and the third input 12 is input CL.

A pair of monostable circuits is triggered by a rising edge at the input terminal 6. At the first input 10 and the second input 11 we assume level H at the time of the rising edge of the clock pulse, at the first output £ and the third output £ the level L, at the second output £ and the fourth output 5 the H level. 10 and the second input £ 1 will overwrite to the first output 2 and the third output £, 'i.e. the level H and to the second output £ and the fourth output £ the level L. High level on the fourth output £ holds the clock input to log 1 open circuit. The first capacitor 8 and the second capacitor 7 discharge via the first resistor a and the second resistor.. When the voltage reaches log 0 at inputs 0, 11, the output is rewritten. Hence the condition that the relations 1 - * T2 apply. After the end of the pulse ° ukončení? 1, the transcription from inputs to outputs is blocked and the circuit is reset. The values of resistors £ and £ can be in the range of 0- + 50052. The capacitances of capacitors £ and £ are free. The pulse length is given by * 1? = 0.7 RC

Claims (1)

SUBJECT OF THE INVENTION A monostable circuit, characterized in that an input capacitor (13) is connected to its input terminal (1), to the other end of which a cathode of a diode (15) whose anode is grounded is connected, a third resistor (14) whose terminal is connected a first output (2) of the double flip-flop (16) and a third input (12) of the double flip-flop (16), the second capacitor (7) and the second resistor (9) connected to the first input (10) of the double flip-flop ), the first capacitor (6) and the first resistor (8) are connected to the second input (11) of the double flip-flop (16), the second terminals of the first resistor (8) and the second resistor (9) are connected to the fourth output (5) the monostable circuit (16) and the second terminals of the first capacitor (6) and the second capacitor (7) are grounded.