SU790123A1 - Single-shot multivibrator - Google Patents

Description

54) SINGLE VIBRATOR

one

The invention relates to a pulse technique and can be used to form pulses with steep edges, to select pulses according to the following frequency. S

A device containing a trigger and an inverter, the time master circuit made on resistors, a capacitor and a transistor. The input signal bus is connected to a single trigger input, the single output of which is connected to the master circuit through an inverter and a diode, while the output of the master circuit time is connected to the zero input trifs serge, the zero output of which is the output of the device 1.

However, this device has a low stability of the output pulse duration, a small steepness of the trailing edge 20 of the output pulse, and does not allow the selection of pulses according to the tracking frequency.

A device containing a trigger, a two-input logic element 25 AND-NOT, a diode and a time master circuit consisting of a capacitor is known. The timing circuit is connected between the first input and the output of the NAND logical element, the second input of which is AOR

connected to the input source. The single and zero inputs of the trigger are connected to the input source, and through the diode to the first input of the NAND logic element, the output of which is connected to the zero output of the trigger 2.

However, the known device does not allow an increase in the duration of the input pulse by a stable value, select the input pulses according to the follow frequency, and, moreover, has an insufficient steepness of the fronts of the output pulse.

A single-type vibrator of this type generates pulses of a constant, predetermined duration. Since the leading edge of the output pulse coincides with the trailing edge of the input pulse, the device does not allow the selection of input pulses according to the follow frequency.

Claims (2)

The purpose of the invention is to ensure the formation of an output pulse, the duration of which is equal to the sum of the durations of the input pulse and a certain fixed value of the time interval, the possibility of ce; pulse pulsing by frequency. The goal is achieved by the fact that a one-shot containing a trigger and a logical NAND gate, the output of which is connected to its first input through time, is connected to its first input through a diode connected to its second input, the anode of which is connected to the first input of a logic element NAND, and the cathode - with a zero input of the trigger, the unit output of which is connected to the second input of the logic element NAND, the output of which is connected to the unit input of the trigger. To provide electronic adjustment of the output pulse duration in the device, the time of the master circuit is made up of a series-connected capacitor and a diode, which are connected via a resistor to the control signal source bus. FIG. 1 is a schematic electrical diagram of the proposed one-shot, FIG. 2 is a voltage chart at various points in the one-shot circuit. A single vibrator contains two-input logic elements AND-NOT 1, 2 and 3, diodes 4 and 5, the time setting circuit 6 consisting of capacitor 7. Logical elements AND-NOT 2 and 3 form trigger 3, input 9 of one-shot, output 10. Time the driver circuit (Fig. 1) for electronic adjustment of the pulse duration additionally contains a diode 11 and a resistor 12. The device also contains a terminal for connecting the source 13 of the control voltage The output of the NAND gate (the single output of the trigger 8) is connected to the second input of the logic element AND-NOT 1 directly, and to the first through diode 5. The output of the logical element AND-NOT 1 is connected to the zero input of trigger 8 (to the input of the logical element AND-NOT 2). The timing of the driver circuit 6, consisting of the capacitor 7, is connected between the first input and the output of the NAND 1 logic element. The unit input is three geres 8 directly, and the first input of the NAND 1 logic element is connected through diode 4 to the input 9. For enabling smooth electronic adjustment of the duration of the output pulses, time, the driver circuit 6 is performed in the form of a series-connected capacitor 7 and a diode 11, to the junction of which a resistor 12 is connected. Moreover, the capacitor 7 is connected to the first input, and the diode 11 is connected to the output cathode l cal AND-NO element 1. The resistor 12podklyuchaets to source control voltage present. The single vibrator works as follows. In the initial state at input 9 (Fig. 2 a), the logical level 1 (high potential) is maintained. The trigger 8 is set to a state where the logic level 1 is generated at the output of the NAND 2 logic element, and the NF (low potential) logic level of the FIG. 2 c, d). The position in which the trigger 8 at the logic level 1 at the input 9 is set to the opposite state is unstable, since in this case, at the output of the AND-NE logic element 1, over time, the logic level O is established, by which the trigger 8 is transferred to the opposite condition. In the initial state, the capacitor 7 is charged to a voltage corresponding to the level of logic 1, while a high potential is maintained at the output of the AND-NE logic element 1. The input impulse of the logic level O arriving at the input 9 of the one-shot (Fig. 2a), the time tJ closes the AND-NE element 3. The trigger 8 is transferred to the one state, in which the output level of the AND-NE element 3 sets the logic level 1, and the output of the element IS-NOT 2 is the logic level O (Fig. 2c, d, moment te). Switching of the trigger 8 occurs abruptly, since the voltage at the output of the element IS-NOT 1 at this moment remains high due to the charge on the capacitor 7 and does not interfere with trigger switching. 8. As a result of trigger switching 8, diode 5 is locked. At this point (the moment of arrival of the input pulse), diode 4 is turned off, as the level of logic O is set at input 9. At the output of the NAND 1 logic element, logic level 1 is maintained. This state of the one-shot remains until the input signal ends. a pulse of logic O (Fig. 2a, moment t). After the end of the input pulse, diode 4 is closed, the AND-NE element 1 is opened. The capacitor 7 begins to discharge through the input and output circuit of the AND-HE element 1, and the output voltage element and NOT 1 decreases according to a linear law (FIG. 2 b, the interval t - t). The process of discharge of the capacitor 7 continues until the voltage at the output of the element AND-NOT 1 decreases to the voltage to lock the element AND-NOT 2 (Fig. 2b, moment ta). As soon as the element AND-NOT 2 starts to lock, the positive feedback closes with its output to the input of the element AND-NO 3, while the trigger 8 jumps to the position where the output of the logical element AND-NO 2 sets the logical level 1, and the output of the logical element AND-NOT 3 is the level of the logical O. At the end of the output pulse, a recovery process begins, whereby the capacitor 7 recovers the charge that it had in its original state. Charge recovery occurs in the r circuit plus the power source, a small output impedance of the AND-NE 1 logic element, a small resistance of the open diode 5 and the AND-NE 3 logic element, and a minus power source. If the pulse frequency of the input pulses increases (Fig. 2a, time t) and the capacitor 7 does not have time to discharge during the pause between two input level pulses of the logic O, the logic level O is set at the output of the AND-HE 2, and the output of the logical element AND-NOT 3 - the level of the logical 1. Pulses in this case, the output of the one-shot are absent. In this case, the one-shot can be used as a pulse selector in terms of the following frequency. When electronically adjusting the duration of the output pulses, the time that drives the capacitor during the recovery process is charged through the resistor 12 to the potential of the control voltage source 13. Since the discharge rate of the capacitor 7 remains constant, the duration of the output pulse is determined by the potential of the control voltage source , and the duration is greater the higher the potential. The proposed device has a greater steepness of the falling edge of the pulse being formed as compared to the known one, since the formation of the falling edge occurs abruptly when triggering switch 8. The increase in the duration of the input pulse is controlled by choosing the size of the capacitor 7. The change in control voltage from logic level O to logic level 1 , when performing one vibrator on elements of the 136th series, leads to a change in the pulse width increment by 6-8 times. A change in the voltage supply HatlO% leads to a change in the increment of the pulse duration only by AND%. The proposed one-shot has a 3-5 times greater steepness of the fronts of the generated pulse compared to the known one, since the formation of fronts occurs in a jump-like manner. Claim 1. A single vibrator containing a trigger and a logical NAND element, the output of which through time sets the master circuit to its first input, which through the diode is connected to its second input, so that In order to form an output pulse, the duration of which is equal to the sum of the durations of the input pulse and a certain set value of the time interval, the possibility of selecting pulses according to the following frequency, an additional diode is inserted in it, the anode of which is connected to the first input the logical element AND-NOT, and the cathode - with a zero input of the trigger, the unit output of which is connected to the second input of the logic element AND-NOT, the output of which is connected to the single input of the trigger. 2. A single vibrator according to claim 1, characterized in that in order to provide electronic adjustment of the duration of the output pulse, the time of the driving circuit is made of a series-connected capacitor and a diode, which are connected via a resistor to the control signal source bus. Sources of information taken into account during the examination 1. USSR author's certificate No. 445140, cl. And 03 K 5/04, 1974. 2. USSR author's certificate number 565386, cl. And 03 K 3/02, 1975 (prototype). te i (rib1