SU788054A1 - Pulsed probe for testing digital circuits - Google Patents

Description

The invention relates to computing, in particular to pulsed. devices, and can be used to find the most common malfunctions of digital 5 computing, measuring or control devices.

A well-known tester of digital integrated circuits, containing a trigger, a control button contact, 10 different-polarity pulse shapers, an output bus zero level indicator and a push-button switch for selecting the output pulse polarity (1).

The disadvantages * of the known device ^ are low operational characteristics and a significant impact on the controlled circuit.

A known logical probe containing a trigger "button, two one-shot, 20 two shapers of opposite polarity pulses and a diode circuit of the sides (2).

The disadvantage is the influence of the probe on the controlled circuit, since two pulses of opposite 25 are always formed of opposite polarity.

The purpose of the invention is to increase the reliability of functioning.

The goal is achieved in that in a pulse probe for monitoring digital circuits, 3 (f containing a starting device, the output of which is connected to the input terminal, a single pulse generator, the output terminal of which is connected to the first inputs of two formers of opposite polarity pulses, the outputs of which are through the diode assembly circuit are connected to the output bus of the pulse probe, and the inputs of the display unit are connected to the second inputs of two formers of opposite polarity pulses, a logic level discriminator and a delay element are introduced, the input of which dklyuchen the output bus, the output - to the input of the discriminator logic level, the outputs of which are connected to the second input of the bipolar pulse.

In addition, in order to simplify the device, in a pulse probe, the single pulse generator is made in the form of a standby multivibrator containing resistors, a diode, a capacitor and three AND-NOT elements, the first input of the first AND-NOT connected to the inputs of the second AND-NOT, the output of which is connected to the output terminal of the single pulse generator, and to the output of the third AND-NOT element, the inputs of which are connected through resistor to ob3 _; bus and through a capacitor to the connection point of the first terminals of the diode and the resistor, the second terminals of which are connected to the output of the first AND-NOT element, the second input of which is connected to the input terminal of the single pulse generator. ³

In FIG. Fig. 1 is a functional diagram of a pulse probe; Fig. 2 • timing diagrams.

The pulse probe contains a trigger device 1, the output of which is connected to the input terminal 2 of a single pulse generator 3, the output terminal of which 4 is connected to the first inputs of two shapers of opposite polarity pulses 5-6, the outputs of which 1.5 are connected to the output bus via an diode assembly 7 pulsed probe 8 and to the second inputs of ^'1 rovateley the formation of two opposite polarity pulses 5 and 6 are connected to inputs of the indication unit September 20, discriminator 10 and the logic level of the delay element 11, whose input is connected to the output line 8, and an output - to go logic level discriminator 10, whose outputs jj 12 and 13 are connected to the second input of the bipolar pulses 5 and 6.

In the pulse probe, the single-pulse generator is made in the form of a waiting multivibrator containing resistors, a diode, a capacitor and three NAND elements, the first input of the first NAND element 14 connected to the inputs of the second NAND 15 element, the output of which connected to the output terminal '5 of the single pulse generator 4, and to the output of the third element I-YE 16, the inputs of which are connected through a resistor 17 to a common bus and through a capacitor 18 to the connection point of the first 40 outputs of the diode 19 and resistor 20, the second conclusions which are connected to the output of the first ele cient and Ly-14, the second input of which is the single-pulse generator 2 is connected to the lead terminal 3. The elements 14, 16 form a single ⁴³ ^ vibrator. ¹ ___

The device operates as follows.

In the initial state (in the absence of electrical contact between the output bus 8 and the control point of the circuit) (the input of the discriminator 10 is at low potential. In this case, both outputs of the discriminator 10 will have zero levels. As a result, the formers ³³ 5 and 6 are disabled from the generator of single pulses 3, and the indicators of the display unit 9 do not light.

If there is an electrical contact between the probe’s output bus’s 8 and the control point of the circuit, the probe is automatically tuned to; depending on the following possible cases.

The control point is zero; | signal strength. 65

In this case, at the output 12 of discriminator 10, there will be a unit level. At the output 13 of the discriminator 10 will be, as at its input, a zero level. Thus, the shaper 5 is prepared for the formation of the pulse, and in addition, the valve 21 is turned on, which leads to the glow of the zero level indicator 22 (green LED).

When the starting device is triggered, the generator 3 generates a pulse (up to 300 ns) of positive polarity, which, arriving at the shaper 5 prepared for work, is amplified by power and is supplied through the diode of the assembly circuit 7 to the output bus 8 of the probe. Due to the fact that the same pulse also arrives at the input of discriminator 10, which can cause shortening or loss of the pulse, a delay circuit 11 is applied, i.e. A positive-polarity pulse generated by the probe goes to the discriminator input with a delay that is slightly longer than the duration of the generated pulse.

The control point has a unit level.

In this case, the levels at outputs 12 and 13 are reversed, and this leads to the preparation of the shaper b and the indication of the unit level of the control point by glowing the indicator 23 (red LED). The pulse from the generator 3, amplified by the shaper 6, comes in the form of a pulse negative polarity to the output of 8 probe. As in the previous case, the delay element 11 prevents the shortening and disappearance of the pulse.

In both cases considered, until the pulse is formed, the probe does not affect the controlled circuit. The probe currents (flowing in and outgoing) turn out to be no more than the sum of the input currents of the emitter follower and the discriminator microcircuit 10. As for the drivers 5 and 6, the diode of the diode assembly 7 cuts off the input circuit at a single signal level, and the locked output transistor 6 at zero level "at the control point.

The control point, which is a connection of two or more microcircuits, has an inoperative level.

In this case, the discriminator 10 remains in its original state and the indicators 22 and 23 do not light up. You must use a different control point on the circuit.

The control point of the circuit is a free input of the chip.

, In this case, the discriminator 10 also remains in its original state ·, however, to form a pulse of the desired polarity at this point, it is necessary to connect it through a resistor (up to 1 k) .788054 either with a common bus or with a power bus.

Continuous generation at the control point.

At the same time, alternately opposite levels appear on both outputs of the discriminator 10 and both LEDs 22 and 23 of the display unit 9 glow in the full beam (normal operation of the probe is impossible).

The single pulse generator in the proposed probe is made on the basis of a 'single-vibrator, and a parallel diode-resistor circuit 19, 20 is included in its differentiating time-setting circuit 17, 18 so that through it “a fast charge and a comparatively slow discharge of the time-consuming capacitor 18 .

In the initial state, terminal 2 of generator 3 has a single level, and the input of element 16 is zero, since the 2Q resistance of resistor 17 does not exceed 800 cm. The output of element 14 is zero, the capacitor 18 is discharged and a one-shot on elements 14, 16 is prepared to work. When a short-time zero level is applied to the input of a single-vibrator, element 14 switches and the capacitor 18 starts charging through the chain 19, 20 and resistor 17. At the moment the capacitor starts charging, element 16, 30 opens, which at the output level maintains a single signal at the output of the element 14, and the capacitor 18 continues to be charged. Since the duration of the output pulse of one -35 vibrators is 14.26 less than the time of bounce (Even) of the closing contact 1 * of the starting device, usually amounting to tens of ms, in the absence of a diode-resistor chain 4Q 19, 20, the capacitor 18 would have time to discharge in time spurious pulses of bounce, and, again charging, would form a series of randomly located pulses during one press of a button. ^4.3

Since in the proposed circuit the discharge of the capacitor c · is carried out through a resistor 20, the value of which is 3050 times greater than the direct resistance 5Q of diode 19, for · short periods of time corresponding to spurious bounce pulses, it does not have time to discharge and prepare the one-shot for the formation of a new pulse jj sa. The matching element 15 serves to invert the negative pulse of the single-shot 14, 16 by transmitting it to the input valves of the shapers 5 and 6. As a starting device _, button 40 or a contactless circuit (tactile or photosensitive) can be used.

Starting (photosensitive) device 1 operates as follows.

In the initial state, when lighting the photoreistor, its resistance is small compared to the resistance of the resistor and the input of the generator 3 is under a unit level. With a short interruption of the light flux, the resistance of the photoresistor increases and zero potential arrives at the input of the generator 3, and the generator 3 generates a single pulse. Re-opening the access of light to the photoresistor, prepare the generator 3 for the next pulse.

Claims (2)

The invention relates to computing, in particular, to pulsed devices, and can be used to find the most frequently encountered malfunctions of digital computing, measuring, or control devices. The known digital integrated circuit tester contains a trigger, a control button contact, a driver of different polarity pulses, a zero indicator for the output bus, and a push button switch for selecting the polarity of the output pulse 11. The disadvantages of the known devices are the low performance and a significant effect on the monitored scheme A logic probe is known that contains a trigger, a button, two single-oscillators, two masers of different-polarity pulses, and a diode circuit of the C2 sides. The disadvantage is the effect of the probe on the controlled circuit, since two impulses of opposite polarity are always formed. The purpose of the invention is to increase the availability of functioning. The goal is achieved in that a pulse probe for monitoring digital circuits containing a trigger, an output. which is connected to the input terminal of a single pulse generator, the output terminal of which is connected to the first inputs of two drivers of different polarity pulses, whose outputs through the diode assembly circuit are connected to the output bus of the pulse probe, and the inputs of the display unit are connected to the second inputs of two drivers of different polarity pulses, entered the discriminator of the logic level and the delay element, the input of which is connected to the output bus, the output - to the input of the discriminator of the logical level, the outputs of which are connected to orym input of Hetero-polar pulses. In addition, in order to simplify the device, in a pulse probe a single pulse generator is made in the form of a standby multivibrator containing resistors, a diode, a capacitor and three AND-NOT elements, with the first input of the first AND-NOT connected to the inputs of the second AND-NOT element, the output of which is connected to the output terminal of the generator of single pulses, and to the output, the third element of the NAND, whose inputs are connected through a resistor to the common bus and through a capacitor to the connection point of the first terminals of the diode and resistor, the second terminals of which are connected cheny to the output of the first AND-NO element, whose second input is connected to the input terminal hydrochloric single pulse generator .. In FIG. 1 shows the functional scheme of the pulse probe; FIG. 2 "time diagrams. The pulse probe contains a starting device 1, the output of which is connected to the input terminal 2 of a single pulse generator 3, the output terminals of which 4 are connected to the first inputs of two drivers of razopolarnyh pulses 5-6, the outputs of which are connected through the output bus of the pulse probe 8 and the inputs of the display unit 9, the discriminator of the logic level 10 and the delay element 11, the input of which is connected to the output bus 8, and the output to the input di criminator logic level 10, the outputs of which 12 and 13 are connected to the second inputs of shapers of bipolar pulses 5 and 6. In a pulse probe, a single pulse generator is made in the form of a standby multivibrator containing resistors, a diode capacitor, and three AND-NES elements, the first input. the first element AND-14 is connected f inputs of the second element-15 NOT, the output of which is connected to the output terminal of the generator of single pulses 4, and to the output of the third element AND-NOT 16 whose inputs are connected through a resistor 17 to the common bus and black Without capacitor 18 to the point of connection of the first pins of the diode 19 and resistor 20, the second pins of which are connected to the output of the first AND-NO element 14, the second input of which is connected to the high voltage terminal 2 of the single-pulse generator 3. The elements 14, 16 form one Avibrator. The device works as follows. In the initial state, (at the absence of a VII electrical contact of the output {circuit 8 with the control point of the circuit) (the input of the discriminator 10 is at a low potential. At the same time, the outputs of the discriminator 10 are zero levels. Due to this, the phiomizer 5 ib is disconnected from the generator single pulse 3, and the indicators of the display unit 9 are not illuminated. When there is an electrical contact, the output probe with the control point of the circuit of the probe automatically changes to: depending on the following possible cases. The control point has zero howling signal level. In this case, the output of the discriminator 10 will be a single level. At the output 13 of the discriminator 10 there will be a zero level, as well as at its input. Thus, a preamplifier 5 will form a pulse, and in addition a valve 21 will turn on which causes the indicator 22 to illuminate zero (green LED). When the starting device is triggered, the generator 3 generates a pulse (up to 300 not) of positive polarity, which is supplied to the driver 5, which is prepared for operation, is amplified in power and through the diode with orc 7 is supplied to the output line 8 probe. Due to the fact that the same pulse falls on the input of the discriminator 10, which can cause shortening or loss of a pulse, delay scheme 11 is applied, i.e. The positive polarity pulse generated by the probe is fed to the discriminator input with a delay that is slightly longer than the pulse duration. The control point has a single level. The levels at outputs 12 and 13 are reversed, and this leads to the preparation of the shaper b and the indication of a single level of the control point for the intermediate light of the indicator 23 (red LED}. The pulse from the generator 3, enhanced by the shaper 6, comes in the form of a pulse negative polarity at the probe output 8. As in the previous case, the delay element 11 prevents the pulse from shortening and disappearing. In both cases considered, until the moment of pulse formation, the probe does not affect the controlled The currents of the probe (flowing and flowed out) are no more than the sum of the input currents of the emitter follower and the discriminator chip 10. As for the formers 5 and 6, the diode of the diode assembly 7 cuts off the input circuit at a single signal level, and the locked output transistor of the former 6 - at zero level "at the control point. The control point, which is a combination of two or several microcircuits, has a non-working level. In this case, the discriminator 10 remains in the initial state and the indicators 22 and 23 are not illuminated. You must use a different control point circuit. The control point of the circuit is a free chip input. At the same time, the discriminator 10 also remains in the initial state. However, to form a pulse of the desired polarity at this point, it is necessary to connect it through a resistor (up to 1 k) to either the common bus or the power bus. Continuous generation at the test point. In this case, alternately opposite levels appear at both outputs of the discriminator 10 and both LEDs 22 and 23 of the display unit 9 light up completely (normal operation of the probe is impossible). A single pulse generator in the proposed probe is made on the basis of a single vibrator, and at its differential time the driver circuit 17, 18 is connected to a parallel diode resistor for the chain 19, 20 so that through it a fast charge and a relatively slow discharge time of the capacitor 18. In the initial state of terminal 2, the rator 3 gene has a single level, and the input of element 16 is zero, since the resistance of resistor 17 does not exceed 800 cm. At the output of element 14, the zero level, capacitor 18 is discharged, and a one-shot on alimony 14, 16 prepared for work. When a short zero-level one-shot is applied to the input, the element 14 switches off and the capacitor 18 begins to charge through the chain 19, 20 and the resistor 17. At the moment the capacitor starts charging, the element 16 opens, which, at its zero output, maintains a single signal at the output element 14, and the capacitor 18 continues to charge. Since the duration tTj of the output pulse of one-shot 14.26 is less than the time -fc of the chatter (link) of the closing contact 1 of the starting device, usually 10 ms, then in the case of a diode-resistor chain 19, 20 the capacitor 18 would have time to discharge the time T of parasitic bounce pulses, and, once again charging, would form a series of random pulses at the same time as one button is pressed. As in the proposed scheme, the discharge capacitor with. through a resistor 20, the magnitude of which is 3050 times the direct resistance of diode 19, then in a short period of time T corresponding to parasitic bounce pulses, it does not have time to discharge and prepare a single vibrator to form a new impulse. The matching element 15 serves to invert the negative impulse of the one-shot 14, 16 before feeding it to the input valves of the driver 5 and 6. As a starting device, the. The C7ba can be used with a button or a contactless circuit (tactile-sensitive or photosensitive) The starting (photosensitive) device 1 operates as follows. In the initial state, when the photoresistor is illuminated, its resistance is low compared to the resistance of the resistor and the generator 3 input is below the unit level. During a brief interruption of the light the flow resistance of the photoresistor increases and a zero potential arrives at the input of the generator 3, the generator 3 produces a single pulse. Opening the light access to the photoresistor, preparing the generator 3 for the next pulse. 1. Pulse probe for controlling digital circuits containing a trigger device, the output of which is connected to the input pulse generator, the output terminal of which is connected to the first inputs of two polarizer drivers pulses, the outputs of which are connected via the diode circuit of the assembly to the output bus of the pulse probe, and the inputs of the indication unit are connected to the second inputs of two shapers of different polarity pulses and, in order to increase the reliability of operation, a logic level discriminator and a delay element, whose input is connected to the output bus, are entered into it, the output is connected to the logical level discriminator, the outputs of which are connected to the second inputs of different polarity pulse generators. 2. An impulse probe according to claim 1, characterized in that, in order to save equipment costs, a single pulse generator is designed as a standby multivibrator containing resistors, a diode, a capacitor and three NAND elements, the first input of the first AND element NOT connected to the inputs of the second NAND element, whose output is connected to the output terminal of a single pulse generator, and to the output of the third NAND element, whose inputs are connected via a resistor to the common bus and through a capacitor to the connection point of the first diode and resistor, the second terminals of which are connected to the output of the first I-NP unit, the second input of which is connected to the input terminal of the generator of single pulses. Sources of information that were taken into account in the examination The tester of digital integrate ICIS circuits. Technical Description and Operating Instructions, 1976. 2.. Radio, 1977, No. 11, p.29, fig. 2 788054 7- / f /, Yy I FIG. Tzs. Ifufl