SU841096A1 - Pulse shaper - Google Patents

Description

The invention relates to a pulse technique and can be used in discrete automation and radar devices. _

Known pulse shaper, ⁵ U containing three AND-NOT gates, two of which are connected in series through a time-setting capacitor, and the output of the device through a third AND ^and NOT gate is connected to the output of the logical · element through a resistor connected to the power supply, input connected to the signal source, while the connection point of the plate of the temporarily connecting capacitor and the input of the AND gate are NOT simultaneously connected to the output of the circuit connected in parallel with the power source, and with standing of 2θ adjustable resistor and zener fl].

The disadvantage of such pulse shapers is the presence of a large negative ejection, the inability to form pulses of long duration * 5.

Closest to the proposed technical essence is a pulse shaper containing three NAND gates, the output 30 of the first of which is connected to the anode of the diode through a timing capacitor [2].

A disadvantage of the known device is the presence of a large negative outlier.

The purpose of the invention is to increase the reliability of the shaper by eliminating the influence of negative outliers.

This goal is achieved in that a pulse shaper containing three INE logic elements, the output of the first of which is connected to the diode anode through a timing capacitor, introduces a resistor and a logical expander of the number of inputs OR, while the first and second logical elements are AND-NOT covered by cross-connections from the output of each to one of the inputs of the other, forming an RS-trigger, the first input of which is connected to the input signal bus, and the second - with the output of the third logical element AND-NOT, inputs connected through a resistor to the anode of the diode, the cathode of which is connected to the output of the second logical element AND-NOT and to the input of the logical expander of the number of inputs OR, the emitter of the output transistor of which is connected to the inputs of the third logical element INE, and the collector. to the bus of zero potential.

In FIG. 1 is a schematic diagram of a pulse shaper; in FIG. 2 - time diagrams of it (work.

The pulse shaper contains AND-NOT 1 and 2 logic elements (gates) covered by cross-connections from the output to the input, forming an RS trigger, the second input of which is connected to its single output through the AND-NOT (gate) 3 logic element 3 connected, resistor 4 and diode 5, the anode of which is connected through a timing capacitor 6 to the zero output of the RS flip-flop, to the unit output of which is also connected a logical expander of the number of inputs OR 7, the emitter of the output transistor 8 of which is connected to the input of the logic element AND NOT 3, and the collector - to the bus of zero potential. The single output 9 of the RS flip-flop is simultaneously the output of the device. In addition, an additional output of the device is output 10 - the end of the formation.

The pulse generator operates as follows.

When a supply voltage + Ep is applied to the device, the RS-flip-flop 'is set to a position characterized by a low voltage level at a single output 9 and high - at zero.

In the event that the RS-trigger at the time of power-up for some reason is set to a position characterized by a low level at the zero output and high at a single output, the device will return to the set state automatically, after charging the time-setting capacitor 6 with the input current of valve 3, the output of which, when the voltage at the time-setting capacitor reaches the threshold voltage of operation of the specified valve 3, a negative voltage drop is formed, which transfers the trigger to the opposite state. After the supply voltage + Ep is supplied to the device, the creeping capacitor 6 starts charging along the circuit: source + Ep, the resistance in the collector circuit of the output transistor of valve 2, diode 5, the resistance of the collector-emitter gap is the saturated output transistor of valve 1. At the output of the valve 3 v a high voltage level is active during this time, and the device is in a stable state. The logical expander of the number of inputs OR at the same time does not affect the operation of the shaper.

Under the influence of the input negative pulse (Fig. 2a), the RS trigger switches to a state characterized by a high voltage level (Fig. 26) at a single and low level at its zero outputs. The left (Fig. 1) lining of the time-setting capacitor 6 through the saturated output transistor of valve 2 is connected to the bus of zero potential. A negative voltage on the timing capacitor 6 is applied to the ^- anode of the diode 5, the timing capacitor b is disconnected from the trigger single output, and to the resistor 4.

Under the influence of a high voltage level ¹ due to the fact that the base-collector junction of this transistor operates in the inverse mode, the output transistor 8 of the logical expander 7 is saturated at a single output of the RS-flip-flop 7. The negative voltage (Fig. 2c) applied to the resistor 4 , at the input of gate 3, it turns out to be a limited level of saturation voltage (approximately equal to the common bus potential) of the collector-emitter gap of transistor 8. When, as a result of overcharging of the timing capacitor, b through the input circuit of voltage valve 3 it becomes equal to the potential on the bus zero potential, the base-emitter voltage of transistor 8 is locked, to a subsequent startup transistor 8 is in cutoff mode and operation of the device has no effect. The device returns to its original state when the voltage at the time-setting capacitor reaches the switching threshold of valve 3. At this point in time, a negative impulse is formed at the output of the device 10 (FIG.

Thus, the introduction of a resistor and an expander-number of inputs OR into a shaper containing an RS-trigger, a timed capacitor, a diode, an NAND gates, completely eliminates the effect of a negative ejection acting on the valve input on the reliability of the device, and increases the stability of the duration generated by the device pulses due to an increase in the angle of meeting of the voltage increasing on the time-setting capacitor and the line conditionally taken as the threshold voltage level of the valve, and also allows approximately th expand the range of pulse duration without further increasing the time constant of timing chain extend the functionality of the device due to the formation of a negative pulse End formation.

Claims (2)

The invention relates to a pulse technique and can be used in devices of discrete automation and radar. A pulse shaper is known that contains three NAND logic elements, two of which are connected through time by time: sequentially, the device output through the third INE logic element is connected to the output of the logic element, through a resistor connected to the power source, the input connected to the signal source, In this case, the junction point of the plate, the time of the driving capacitor and the input of the NAND logic element, is simultaneously connected to the output of the circuit connected in parallel with the power source, and s adjustable resistor and zener fl. The disadvantage of such pulse shapers is the presence of a large negative surge, the impossibility of forming long pulses. The closest to the proposed technical entity is a pulse maker containing three NAND logic elements, the output of the first of which is connected to the ан diode 2 through time. A disadvantage of the known device is the presence of a large negative overshoot. The purpose of the invention is to increase the reliability of the former by eliminating the effect of negative outliers. The goal is achieved by the fact that a pulse shaper containing three INE logic elements, the output of the first of which is connected to the anode of the diode through the preset time, a resistor and a logic expander of the number of OR inputs are inserted, while the first and second logical AND-NOT are covered by cross-connectors from the output of each to one of the inputs of the other, to form an RS-flip-flop, the first input of which is connected to the bus of input signals, and the second - to the output of the third NAND logic element, the inputs connected to a through a resistor The diode node whose cathode is connected to the output of the second NAND logic element and to the input of the logical expander of the number of OR inputs, the emitter of the output transistor of which is connected to the inputs of the third INE logic element, and the collector is. to the tire of zero potential. FIG. 1 is a schematic diagram of a pulse former in FIG. 2 - time diagrams of his work. The pulse shaper contains the logical elements (gates) AND-NOT 1 and 2, covered by cross-links from the output to the input, to form the RS trigger, the second input of which is connected to its single output through the series-connected logical element AND-NOT (gate) 3, resistor 4 and diode 5, the anode of which through time sets the capacitor 6 connected to the zero output of the RS flip-flop, to the unit output of which the logical expander of the number of inputs OR 7 is also connected, the emitter of the output transistor 8 of which is connected to the input of the logic element NTA NAND 3, and the collector - to zero potential bus. The single output 9 of the RS flip-flop is simultaneously the output of the device. In addition, output 10 — the end of formation — is an additional output of the device. The pulse shaper operates as follows. When applied to a power supply device + EP, the RS-flip-flop is set to a position characterized by a low voltage level at unit output 9 and a high level at zero. In case the RS-flip-flop at the moment of power supply for any reason is set to a position characterized by a low level at zero output and a high one at single output, the device will return to the set state automatically, after charging, the time of the setting capacitor b input current valve 3, at the output of which at the time when the voltage reaches the time of the driving capacitor 6 of the threshold operation voltage of the said valve 3, a negative voltage drop will be generated, which will transfer the trigger to the opposite state. After supplying the supply voltage to the voltage supply device, the driving capacitor 6 starts charging the circuit: n-Ep source, resistance in the collector circuit of the output transfistor of valve 2, diode 5, gap resistance of the collector-emitter of the saturated output transistor of valve 1. At the output of the valve 3 at this time, a high voltage level is in effect, and the device is in a steady state. The logical expander of the number of inputs OR 7 at the same time does not affect the operation of the driver. Under the influence of an input negative pulse (Fig. 2a), the RS trigger is switched to a state characterized by a high voltage level (Fig. 26) at a single voltage level and a low level at its zero output. The left (Fig. 1) plate of the time of the driving capacitor b is connected to the zero potential bus via the saturated output transistor of the gate 2. The negative voltage on the time of the charging capacitor b is applied to the K-anode of diode 5, the time setting capacitor b is disconnected from the single output; of the rigger, and to the resistor 4. Due to the high voltage level due to the fact that the base-collector junction the transistor operates in the inverse mode, at the single output of the RS flip-flop the output transistor 8 of the logic expander 7 is saturated. The negative voltage (Fig. 2c) applied to the resistor 4 at the input of the valve 3 is limited by the saturation voltage (approx. Equally equal to the potential of the common bus) gap of the collector-emitter of transistor 8. When, as a result of the recharge and the time of the capacitor b through the input circuit of the valve 3, the voltage across it becomes equal to the potential on the zero potential bus, the base-emitter junction of the transistor 8 is locked until the next start the transistor 8 is in cut-off mode and has no influence on the operation of the device. The device returns to its initial state at the moment of voltage reaching the switching capacitance threshold of the valve 3 at the time of driving the capacitor. At this time, a negative pulse is formed at the output 10 of the device (Fig. 2d), under the influence of which the RS flip-flop is reset to its original state (Fig. 26). Thus, an introduction to a driver containing an RS flip-flop, a time setting capacitor, a NAND logic gate, a resistor, and an expander — the number of inputs OR completely eliminates the effect on the reliability of a negative emission device acting on the input of the valve, increasing the stability of the duration the pulses generated by the device due to the increase in the angle of encounter of the voltage increasing at the time of the installation of the con- ainsator and the line conventionally taken as the threshold voltage of the valve, and also allows an example but to double the range of durations of the generated pulses without an additional increase in the constant time, the timing of the circuit, expand the functionality of the device due to the formation of a negative pulse. End of formation. Claims A pulse shaper comprising three NAND logic gates, the output of the first of which is connected to the anode of the diode through the time of the setpoint, characterized in that, in order to improve reliability by eliminating the effect of a negative surge, a resistor and a logic expander are inserted into it The number of inputs OR, the first and second logical elements AND-NOT covered by cross-links from the output of each to one of the inputs of the other, to form an RS flip-flop, the first input of which is connected to the bus input signal the second - from the output of the third logical element I – PE, the inputs through, connected through a resistor to the anode of the diode, the cathode of which is connected to the output of the second INE logic element and to the input of the logical expander of the number of inputs OR, the emitter of the output transistor of which is connected to the inputs of the third logical element NAND, and the collector - to the tire of zero potential. Sources of information taken into account in the examination 1. The author's certificate of the USSR 426306, cl. And 03 K 3/10, 06.26.72. 2. Authors certificate of the USSR 496656, - cl. H 03 K 3/02, 04/13/73 (prototype). tu