DD301412A7 - ELECTRONIC EVALUATION CIRCUIT FOR HITCH DISPLAY - Google Patents

Abstract

The invention relates to a circuit arrangement which is used in shooting ranges for scoring by the magnetic-inductive method. A projectile (1) magnetized with a fixed polarity passes through an induction loop (2) which represents a target and the induced voltage pulse is supplied to the evaluation circuit according to the invention - represented by the circuit diagram of the drawing. The immediate effects are that a clear distinction is made between the signal derived from a hit and the signal from a pass-by and that short spikes and higher-frequency spikes are effectively suppressed {evaluation circuit; Circuitry; Results display; magnetic-inductive method; Induction loop; Signal; glitches; parasitic oscillations}

Description

-2- 301412 Presentation of the Essence of the Invention

The invention has for its object to provide an electronic evaluation circuit for the magnetic-inductive hit-display method, which reliably distinguishes between the coming of a hit and from a Vorbeischuß signal even at high Ncchweisempfindlichkeit and effectively suppresses atmospheric discharges resulting short glitches ,

The object of the invention is achieved in that the trained as a target induction loop is connected to the input of an amplifier, the output of which is connected to the two inputs of a known arrangement of two input side parabolically switched threshold detectors, one of which a positive switching threshold and the other has a negative switching threshold. The positive threshold threshold detector is connected to the trigger input of a retriggerable monoflop. According to the invention, its output is connected to the trigger input of a second monoflop. The second monoflop has an enable input connected to the output of the negative threshold threshold detector.

The threshold value detector with a positive switching threshold starts the retriggerable monoflop with its switch-off edge. Its pulse trailing edge triggers the second monoflop, if this is enabled by the switched-threshold detector with a negative switching threshold. The output pulse of the second monoflop is used to display the hit. The invention will be explained in more detail with reference to a drawing by an embodiment.

embodiment

The drawing shows a circuit diagram of the expedient embodiment of the circuit arrangement according to the invention. The induced in the induction loop 2 by a magnetized projectile 1 signal is raised by a band-limited amplifier 3 in level and reaches the two inputs of an already known arrangement of two eingangsseitg parallel Schmitt triggers 4, 5 with positive and negative switching threshold. The amount of level increase, together with the level of the switching thresholds of the two Schmitt triggers 4, 5, determines the detection sensitivity of the device. The Schmitt trigger 4 responds when a positive switching threshold is exceeded, the Schmitt trigger 5 when a negative switching threshold is exceeded.

At the output of the Schmitt trigger 4 is the trigger input of a retriggerable monoflop 6, which is started by the Abschaltflanke of the Schmitt trigger 4. According to the invention, the output of the retriggerable monoflop 6 is connected to the trigger input of a second monoflop 7 with enable input whose enable input is connected to the output of the Schmitt trigger 5 in such a way that the monoflop 7 only when the Schmitt Trigger 5 can be triggered by the pulse trailing edge of the retriggerable monoflop 6.

If there is a hit pulse with a sufficiently large amplitude and the polarity sequence positive / negative at the input of this arrangement, then the Schmitt trigger 4 responds, switches back below its zero-crossing of the pulse when it falls below its cut-off voltage, whereby the retriggerable monoflop 6 is started , Then, the Schmitt trigger 5 is turned on by the negative pulse part of the hit signal and thus the monoflop 7 is released. The pulse duration of the retriggerable monoflop 6 is selected so that the pulse has already ended before the Schmitt trigger 5 switches back again and thus blocks the monoflop 7. The pulse trailing edge of the retriggerable monoflop 6 can therefore trigger the monoflop 7 in the case of a hit pulse, whose Auogangsimpuls is the hit indication signal of the circuit arrangement according to the invention.

In the case of an input signal with the inverse polarity factor negative / positive, as it is generated by a previous bypass, on the other hand, no hit indication signal can be triggered, since in this case the monoflop 7 is already blocked again by the Schmitt trigger 5, before the Schmitt signal Trigger 4 responds from the output signal in conjunction with the retriggerable monoflop 6, the trigger signal for the monoflop 7 is only won.

A novel advantageous effect of the circuit arrangement according to the invention is that no output signal is generated at its output even if an interference impulse arrives at its input which, although positive / negative, has the corresponding polarity sequence but is shorter than a Trsffer pulse. Also in this case, the Schmitt trigger 5 has already switched back again and thus blocked the monoflop 7, before the output pulse of the retriggerable monoflop 6 whose trailing edge is used to trigger the monoflop 7, is completed.

Electronic evaluation circuit for the magnetic-inductive hit-display method, in which a trained as a target induction loop (2) is connected to the input of an amplifier (3) whose output with the two inputs of two input side parallel-connected threshold value detectors (4, 5), of which one threshold value detector (4) has a positive switching threshold and the other threshold value detector (5) has a negative switching threshold, and the output of the threshold value detector (4) has a positive switching threshold to the trigger input of a retriggerable monoflop (6), characterized in that its output is connected to the trigger input of a monoflop (7) with enable input and the enable input is connected to the output of the threshold value detector (5) with a negative switching threshold.

For this 1 page drawing

Field of application of the invention

The invention relates to the field of military technology and electronics and is applicable in shooting range systems for hit display by the magnetic-inductive method.

Characteristic of the known state of the art

The arrangement according to DD-PS 159668 as well as in the same vorgüächlagonen WP application called "method for electronic hit recording targets" based on the fact that a magnetized with a fixed polarity projectile flies through a designed as a target induction loop and thereby induces a characteristic signal in this. The characteristic signal is an N-shaped double pulse with the polarity sequence positive / negative or negative / positive, depending on whether the projectile passes the conductor loop inside or outside, thus the polarity sequence of the double pulse is a distinguishing feature between hit and pre-bosch of the characteristic signal in the magnetic inductive hit-display method is not yet known.

Known is merely a circuit arrangement according to US-PS 4193028 for distinguishing between error signal and unwanted noise signals in eddy current Defektoskopie. In this non-destructive material testing method, a differential signal is generated in a differential probe when an error in the material to be tested passes the probe. This signal also consists of a double pulse, the first pulse having a negative and the second pulse having a positive polarity. The length of the pulse depends on the relative velocity between the material and the probe. The known circuit arrangement consists of two input side parallel channels, each of which contains a threshold detector, a differentiator, a filter and a monostable. ^ Multivibrator (monoflop) with adjustable pulse length. At the parallel inputs of both threshold detectors is the probe signal. The one threshold value detector has a negative switching threshold of the appropriate height, the other threshold value detector has a positive switching threshold. The threshold detector with negative Si haltschwelle starts the monoflop arranged in this channel with its Abschaltflanke, while the threshold detector with positive threshold triggers the monoflop present in this channel with its switch-on edge. The outputs of the two monoflops are connected to the inputs of an AND gate. From the output of a signal is only issued when both monoflop pulses are present simultaneously. This is only the case if at the input of the known circuit arrangement a double pulse with sufficiently large amplitude and the polarity sequence negative / positive is applied, the slope in the vicinity of the zero crossing is large enough. The still accepted by the circuit smallest steepness wi ^r d determined by the choice of the length of that pulse the monostable multivibrator formed by the threshold detector with ^negat; is triggered for switching threshold. It is also known from DE-OS 2138405 an arrangement for controlling signals having a predetermined and maximum signal duration. In this circuit arrangement, a retriggerable monoflop is arranged to suppress high-frequency interference signals. This arrangement, the arrangement mentioned in US-PS 4193026 and also a combination of both arrangements are not suitable for scoring. An output signal would then also be output and thus a match would be simulated if at its input an interference pulse with the characteristic shape and polarity sequence of a hit pulse but with a shorter pulse duration arrives.

Such interference pulses occur in the magnetic-inductive hit-display method, especially due to atmospheric discharges and lead to problems when it must be worked with high sensitivity to detect hits small-caliber projectiles on large-scale targets.

Object of the invention

The object of the invention is an electronic evaluation circuit, which makes it possible to apply the magnetic inductive hit-display method also in small caliber ammunition practice shooting on large-area targets, without causing false indications due to atmospheric discharges.

-2- 301412 Presentation of the Essence of the Invention

The invention has for its object to provide an electronic evaluation circuit for the magnetic-inductive hit-display method, which reliably distinguishes even at high detection sensitivity between the originating from a hit and from a Vorbeischuß signal and effectively suppresses from atmospheric discharges short glitches ,

The object of the invention is achieved in that the trained as a target induction loop is connected to the input of an amplifier whose output is connected to the two inputs of a * known arrangement of two input side parallel-connected threshold detectors, one of which is a positive switching threshold and the other has a negative switching threshold. The positive threshold threshold detector is connected to the trigger input of a retriggerable monoflop. According to the invention, its output is connected to the trigger input of a second monoflop. The second monoflop has an enable input connected to the output of the negative threshold threshold detector.

The threshold value detector with a positive switching threshold starts the retriggerable monoflop with its switch-off edge. Its pulse trailing edge triggers the second monoflop, if this is enabled by the switched-threshold detector with a negative switching threshold. The output pulse of the second monoflop is used to display the hit. The invention will be explained in more detail with reference to a drawing by an embodiment.

embodiment

The drawing shows a circuit diagram of the expedient embodiment of the circuit arrangement according to the invention. The induced in the induction loop 2 by a magnetized projectile 1 signal is raised by a band-limited amplifier 3 in level and reaches the two inputs of an already known arrangement of two eingangsseitg parallel Schmitt triggers 4,5 with positive and negative switching threshold. The amount of level increase, together with the level of the switching thresholds of the two Schmitt triggers 4, 5, determines the detection sensitivity of the device. The Schmitt trigger 4 responds when a positive switching threshold is exceeded, the Schmitt trigger 5 when a negative switching threshold is exceeded.

At the output of the Schmitt trigger 4 is the trigger input of a retriggerable monoflop 6, which is started by the Abschaltionke the Schmitt trigger 4. According to the invention, the output of the retriggerable monoflop 6 is connected to the trigger input of a second monoflop 7 with enable input whose enable input is connected to the output of the Schmitt trigger 5 in such a way that the monoflop 7 only when the Schmitt Trigger 5 can be triggered by the pulse trailing edge of the retriggerable monoflop 6.

If there is a hit pulse with a sufficiently large amplitude and the polarity sequence positive / negative at the input of this arrangement, then the Schmitt trigger 4 responds, switches back below its zero-crossing of the pulse when it falls below its cut-off voltage, whereby the retriggerable monoflop 6 is started , Then, the Schmitt trigger 5 is turned on by the negative pulse part of the hit signal and thus the monoflop 7 is released. The pulse duration of the retriggerable monoflop 6 is selected so that the pulse has already ended before the Schmitt trigger 5 switches back again and thus blocks the monoflop 7. Therefore, in the case of a hit pulse, the pulse trailing edge of the retriggerable monoflop 6 can trigger the monoflop 7 whose output pulse is the hit indication signal of the circuit arrangement according to the invention.

With an input signal with the reverse polarity sequence negative / positive, as it is generated by a Vorbeischuß, however, no hit indication signal can be triggered, since in this case the monoflop 7 is already locked by the Schmitt trigger 5 again, before the Schmitt- Trigger 4 responds from the output signal in conjunction with the retriggerable monoflop 6, the trigger signal for the monoflop 7 is only won.

A novel advantageous effect of the circuit arrangement according to the invention is that at its output, no hit-indicating signal is generated even if at its input an interference pulse passes, although the positive or negative has the hit corresponding polarity sequence, but is shorter than a hit pulse. Also in this case, the Schmitt trigger 5 has already switched back again and thus blocked the monoflop 7, before the output pulse of the retriggerable monoflop 6 whose trailing edge is used to trigger the monoflop 7, is completed.

Claims (1)

Electronic evaluation circuit for the magnetic-inductive hit-display method, in which a trained as a target induction loop (2) is connected to the input of an amplifier (3) whose output with the two inputs of two input side parallel-connected threshold value detectors (4, 5), of which one threshold value detector (4) has a positive switching threshold and the other threshold value detector (5) has a negative switching threshold, and the output of the threshold value detector (4) has a positive switching threshold to the trigger input of a retriggerable monoflop (6), characterized in that its output is connected to the trigger input of a monoflop (7) with enable input and the enable input is connected to the output of the threshold detector (5) with a negative threshold. For this 1 page drawing Field of application of the invention The invention relates to the field of military technology and electronics and is applicable in shooting range systems for hit display by the magnetic-inductive method. Characteristic of the known state of the art The arrangement according to DD-PS 159668 as well as in the same time proposed WP application called "method for electronic shotgun hits" based on the fact that a magnetized with a fixed polarity bullet through a designed as a target induction loop and thereby induces a characteristic signal in this. The characteristic signal is an N-shaped double pulse with the polarity sequence positive / negative or negative / positive, depending on whether the projectile passes the conductor loop inside or outside, thus the polarity sequence of the double pulse is a distinguishing feature between hit and pass of the characteristic signal in the magnetic inductive hit-display method is not yet known. Known is merely a circuit arrangement according to US-PS 4193028 for distinguishing between error signal and unwanted noise signals in eddy current Defektoskopie. In this non-destructive material testing method, a differential sign generates a distinctive sign when an error in the material to be tested passes the probe. This signal also consists of a double pulse, the first pulse having a negative and the second pulse having a positive polarity. The length of the pulse depends on the relative velocity between the material and the probe. The known circuit arrangement consists aun two input side parallel channels, each of which contains a threshold detector, a differentiator, a filter and a monostable multivibrator (monoflop) with adjustable pulse length. At the parallel inputs of both threshold detectors is the probe signal. The one threshold detector has a negative threshold of appropriately selected height, the other threshold detector has a positive threshold. The threshold value negative-thresholded doping node destroys the monoflop arranged in this channel J with its switch-off edge, while the positive threshold threshold detector triggers the monoflop present in this channel with its switch-on edge. The outputs of the two monoflops are connected to the inputs of an AND gate. In front. its output will only output a signal if both monoflop pulses are present simultaneously. This is only the case if at the input of the known circuit arrangement a double pulse with sufficiently large amplitude and the polarity sequence negative / positive is applied, the slope in the vicinity of the zero crossing is large enough. The least steepness still accepted by the circuit is determined by the choice of the pulse length of the one monoflop which is triggered by the negative threshold threshold detector. It is also known from DE-OS 2138405 an arrangement for controlling signals mii a predetermined and maximum signal duration. In this circuit arrangement, a retriggerable monoflop is arranged to suppress high-frequency interference signals. This arrangement, the arrangement mentioned in US-PS 4193026 and also a combination of both arrangements are not suitable for scoring. An output signal would then also be output and hence a hit would be simulated if at its input an interference pulse with the characteristic shape and polarity sequence of a hit pulse but with a shorter pulse duration arrives. Such interference pulses occur in the magnetic-inductive hit-display method, especially due to atmospheric discharges and lead to problems when it must be worked with high sensitivity to detect hits small-caliber projectiles on large-scale targets. Object of the invention The object of the invention is an electronic evaluation circuit, which makes it possible to apply the magnetic inductive hit-display method also in small caliber ammunition practice shooting on large-area targets, without causing false indications due to atmospheric discharges.