SU1183908A1 - Impulse noise indicator - Google Patents

Description

The invention relates to devices for indicating the presence of voltage and can be used to study the noise immunity of electronic equipment. $

The purpose of the invention is the expansion of functionality by simultaneously searching for interference of any polarity and estimating the amplitude value of the interference. YU

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The drawing shows a diagram of the device.

The device contains expanders 1 and 2, the input of expander 1 is connected to the cathode of the first separation diode 3, the anode of which is connected to the first input terminal 4 of the device and to the cathode of the first shunt diode 5, the anode of which is connected to the positive lining of the first storage capacitor bis by the cathode of the first charging dibda 7, the anode of which. connected to the movable contact ^ of the level 8 switch and to the anode of the second charging diode 9, the cathode of which is connected to the positive plate of the second storage capacitor 10, through the second shunt diode 11 to the second input terminal ^ 0 12 of the device and to the anode of the second isolation diode 13, the cathode of which connected to the input of the second expander 2. The outputs A of the expanders 1 and 2 are combined and connected to the negative pole of the second power source 14 and to the movable contact of the variable resistor 15, connected with its findings to the pole m first power supply 16, the fingers 40 of which are connected to the inputs of the level switch 8. The negative plates of the capacitors 6 and 10 are connected to a common bus 17 connected to the negative pole of the first power source 45 16. A shunt resistor 18 is connected between the input of the first expander 1 and the common bus 17, and a shunt resistor 19 is connected between the input of the second expander 2 and the common bus 17. 50

The outputs B of expanders 1 and 2 are connected respectively to the 5 inputs of triggers 20 and 21, the K-inputs of which are connected to the trigger installation circuit 22 in O. The outputs of triggers 20 and 21 55 are connected to the indication circuit 23. Triggers 20 and 21 are powered from the second power source 14, and expanders 1 and 2 from the first power source 16.

The device operates as follows.

In the absence of an interference signal at the input of the expander 1 and 2 indicator, logical 1 is set due to the shunt effect of resistors 18 and 19 at their inputs. In this case, the storage capacitors 6 and 10. are charged through the charging diodes 7 and 9, respectively, to a voltage depending on the position of the level switch 8, which connects the taps of the power supply 16 to the anodes of the charging diodes 7 and 9, which serve to eliminate the mutual influence of the storage capacitors 6 and 10. Log. ’Ί arrives at

5-inputs of the triggers 20 and 21, which are set to zero by the signal from the circuit 22 to set to 0. However, the signal is not supplied to the display circuit 23.

When a pulse signal of positive polarity arrives at the input terminal 4, relative to terminal 12, the signal goes through the circuit: isolation diode 3, shunt resistor 18, storage capacitor 10, shunt diode 11, terminal 12. The presence of isolation 13 and shunt 11 diodes blocks the input of expander 2 .

The input signal, summing up with the voltage at the storage capacitor 10, is fed to the input of the expander 1. When the level of the signal exceeds the threshold of the expander 1, determined by the potential of the A-output, a logical 0 to the 5-input of the trigger 20 comes from the B-output of the expander 1, which changes its state and sends a signal to the display circuit 23.

If the input terminal 4 is relative. In addition to terminal 12, a pulse of negative polarity is supplied, the signal goes through the circuit: isolation diode 13, shunt resistor 19, storage capacitor 6, shunt diode 5, terminal 4. The presence of isolation diode 3 and shunt diode 5 blocks the input of expander 1.

The input signal, summing up with the voltage across the capacitor 6, is fed to the input of the expander 2. When the level of the signal exceeds the threshold of the expander 2, determined by the potential of the A-output of the expander 2, a logical O arrives at the 5-input of trigger 21, which changes its condition and sends a signal to the circuit 23 of the display.

Thus, the proposed scheme of the impulse noise indicator vos1183908 4 simultaneously determines the polarity of the interference, and also, using a simple scheme for regulating the response threshold, estimate the amplitude 5 of the pulse interference. The device provides impulse noise control in the absence of a potential difference between two controlled points.

Claims (1)

(, 57) PULSE INTERFERENCE INDICATOR, containing two power sources, a variable resistor, two short-circuit triggers, an indication circuit, a level switch, two expanders, two shunt resistors, a setting circuit of 0, and the expanders are connected to the first power source, the intermediate taps of which connected to the input contacts of the level switch, and short-circuit triggers connected to the second power source, the negative output of which is connected to the A-outputs of both expanders and with the control output of a variable resistor, 8-outputs will expand The fuses are connected to the corresponding 3 inputs of two KZ-flip-flops, the K-inputs of which are connected to the setting circuit at 0, and the outputs are connected to the display circuit, shunt resistors are connected to the inputs of the expanders, the terminals of the variable resistor are connected to the terminals of the first power source, characterized in that that, in order to expand the functionality, two isolation diodes, two shunt diodes, two charging diodes, two storage capacitors were introduced, and the cathode of the first isolation diode is connected ι to the input of the first expansion anode, and the anode of the first isolation diode is connected to the first input terminal of the device and to the cathode of the first shunt diode, the anode of which is connected to the cathode of the first charging diode and the positive lining of the first storage capacitor, the negative lining of which is connected to a common bus connected to the negative pole of the first power source , the input of the second extender is connected to the cathode of the second isolation diode, the anode of which is connected to the second input terminal of the device and the cathode of the second bypass d ode, the anode of which is connected to the cathode of the second charging diode and to the positive plate of the second storage capacitor, the negative plate of which is connected to the common bus, the anodes of diodes connected to the charging output contact movable switch.