SU817984A1 - One-shot multivibrator - Google Patents

Description

(54) SINGLE VIBRATOR

one

The invention relates to a pulse technique and can be used in devices for generating pulses and a time delay.

A one-shot is known, containing two inverters, in whose circuit a transistor is inserted, the base of which is connected to the connection point of time of the driving capacitor and resistor, the collector is connected to the common wire, and the emitter is connected to the input of the second inverter 1.

The disadvantage of this device is the longer recovery time.

A one-shot is also known, which contains a first two-input inverter, whose control input is connected to the input bus, a second inverter, a first resistor, a capacitor, and a diode 2.

The disadvantages of the known one-shot are the recovery time, low stability and a narrow range of generated pulses.

The purpose of the invention is to obtain a minimum recovery time, increase

stability and expansion of the range of generated pulses.

The goal is achieved by the fact that in the one-oscillator containing the first two-input inverter, the control input of which is connected to the input bus, the second inverter, the first resistor, capacitor and diode, the transistor and the second resistor are inserted, the output of the first inverter is connected to the input of the second inverter and connected with the first output of the one-shot, the second 0 input of the first inverter is connected to the collector of the transistor and through the second resistor is connected to the power source, the base of the transistor is through the first resistor and the capacitor is connected power source, an emitter connected to the output of the second inverter, the second output of the monostable and the anode of the diode, the cathode of which is connected .s first resistor and a capacitor.

The drawing shows an electrical circuit of a one-shot with a short recovery time.

The single-oscillator consists of two inverters 1 and 2 on the circuits of AND-NOT TTL logic, resistors 3 and 4, transistor 5, diode 6

and a capacitor 7, an input bus 8 and an output bus 9 and 10.

The capacitor 7 and the resistor 4 are connected between the base of the transistor and the power supply and form a time driving circuit. The diode 6 connected by the cathode to the connection point of resistor 4 and capacitor 7, and the anode to the connection point of the emitter of transistor 5 and the output of inverter 2, forms the discharge circuit of capacitor 7. Resistor 3 connected between the collector of transistor 5 and the power source is a collector load transistor. Positive feedback is achieved by connecting the collector of the transistor to the feedback input of the inverter 1.

In the initial state, the capacitor 7 is discharged, a high potential is present at the inputs of the inverter 1, a low potential at the output of the inverter 1, and a transistor 5 at the output of the inverter .2. When a negative trigger pulse arrives at the bus 8 input, the potential at the output of inverter 2 becomes low, transistor 5 opens and capacitor 7 is charged through resistor 4 with the base current of the transistor. The voltage across the collector of the transistor 5 drops and is applied through the positive feedback circuit to the input of the inverter 1. The leading edge of the pulse is formed. The pulse duration depends on the constant time of the RC circuit of resistor 4 and capacitor 7, the degree of saturation of the transistor, and the threshold voltage of inverter 1. As the capacitor charges, the base and, therefore, collector currents of transistor 5 decrease and the voltage on its collector begins to increase . When a certain value of this voltage, equal to the threshold for this type of inverter, is reached, the voltage at the output of inverter 1 drops, and the output of inverter 2 increases, locking the transistor 5. Due to positive feedback, an avalanche-like process occurs and the back front of the pulse is formed. A pulse of positive polarity is removed from the output bus 10, and from bus 9 a negative pulse is removed. From this point in time, the capacitor is instantaneously discharged through the open diode and the output of the second inverter.

In the proposed one-shot, the duration of the control pulse is not included in the duration of the pulse being formed, which leads to an increase in the stability of operation. The duration of the generated pulse depends on the RC time constant and the degree of saturation of the transistor. Since the RC circuit is included in the base circuit of the transistor, the magnitude of the charging resistor can be in the range of 10-100 kΩ, which makes it possible to extend the range of generated pulses in the millisecond range compared to the known single-oscillator.

Thus, when testing a sample, the following results are obtained: with a capacitor capacitance of 10 µF and a resistor R resistance of 30 kΩ, a pulse width of 1 ms 800 ms with a duty ratio of Q: -1 is 1.1, while the pulse width generated by a known single vibrator is with the same parameters, less than 2 ms.

Claims (2)

Invention Formula A single vibrator containing a first two-input inverter, the control input of which is connected to the input bus, a second inverter, a first resistor, a capacitor and a diode, characterized in that, in order to reduce the recovery time, increase stability and extend the range of the generated pulses, a transistor and the second resistor, the output of the first inverter is connected to the input of the second inverter and connected to the first output of the one-shot, the second input of the first inverter is connected to the collector of the transistor and through the second p ican connected to a power source, the transistor base through a first resistor and a capacitor connected to a power source, whose emitter is connected to the output of the second inverter, the second output of the monostable and the anode of the diode, the cathode of which connected to the first resistor and capacitor. Sources of information taken into account in the examination 1. "Radiofernsehen elektronik 1978, № 3, p. 193. 2. Patent of Germany No. 2537200, cl. N. 03 K 3/284, 1971. f -AND