DE3020996A1 - Flying missile arming distance detector - feeds reflected laser pulse to two distance gates with series-connected integrators whose voltages are evaluated - Google Patents

Abstract

The detector uses transmit time measuring of laser pulses for determination of the arming distance of a missile on its flight-path towards a target. The reflected pulse, as known, is supplied to distance gates (108,109) associated with a different distance. Behind the gates are series-connected integrators (110,111). An evaluator (112) can check-the integrator voltages by a continuous comparison. The comparison gives which ever is the first highest integration voltage, as well as the later equality of these voltages. If only a single distance gate is available, it is energised by a clock pulse generator and a gate exciter. The power control for each transmit pulse uses pulses of sequentially increasing time interval from the transmit pulse. To this gate may be sling-connected an integrator, with a control counter which also energises a multiplexer.

Description

Device for determining the triggering distance of

A missile to be moved towards a target The invention relates to a device for determining the triggering distance from a focus to a target to be moved missile by means of travel time measurement of laser pulses, the reflected Impulse at least two distance gates assigned to different distances is fed with downstream integrators.

E In the case of missiles used in the military, for example, shaped charge carriers it may be desirable to trigger the warhead at a certain distance before the Aim.

From US-PS 40 10 689 a device for target range measurement is known which installed in a bomb measure the exact distance to the target and when a predetermined distance is reached, the bomb is to trigger. For this electromagnetic radiation, preferably X-ray or gamma radiation, is emitted and the return radiation is fed to an amplifier with a downstream filter. That Filter is equipped with a threshold, whereby when the predetermined threshold is exceeded Threshold the trigger signal is generated. This known device can be satisfactory determine the distance on days free from the effects of the weather, however the device is not suitable for faster flying missiles, e.g. self-propelled Missiles, because then very high processing speeds required are. Satisfactory solutions can mainly be found here with laser distance measurement being found.

From DE-AS 19 35 319 a distance measuring device with transit time counting and register devices for several echo pulses known, which consists of several, E.g. echoes of a sent out due to atmospheric conditions Laser pulse - the right echo reflected by the target is to be found. For this a counting device that counts oscillator oscillations is provided, which one after the other briefly controlled gate circuits are connected downstream. Is achieved with this Device a registration and display of several belonging to the same transmission pulse -Echoes.

From DE-AS 12 34 811, finally, an aircraft radar device is for Known collision warning, in which the reflected signal gate circles with downstream Integrators. Controlled opening of the respective gates will the reflected signal according to the corresponding distance into the correct one Gate and, after integrating several transmitted signals, the detected one Distance displayed.

The object of the invention is to provide a device for the stated purpose of the type mentioned to create both an accurate determination of the trigger distance as well as their use regardless of weather conditions, especially smoke, Fog, rain permitted This object is achieved in that the reflected pulse, in a manner known per se, at least two, differently Distance assigned to distances interfere with downstream integrators is supplied and that an evaluation unit is available through which the voltages the integrators can continuously check which Integrator voltage is first higher and above the occurring voltages about the same are great.

Further refinements emerge from the subclaims. With the invention, the task at hand in a simple, components-saving manner without Loss of quality resolved, which is due in particular to use in missiles the low weight and space requirement is an advantage.

The invention is explained in more detail with reference to the figures. It shows Fig. 1 shows a block diagram of the device, FIG. 2 shows an embodiment of the invention, 3 shows a variant of the invention.

According to FIG. 1, a pulse generator 101 generates a transmission pulse 102 controlled with a laser diode 103. This diode is connected to the Target mapped. A small portion of the power of the transmission pulse goes directly into the receiving diode 107 via a light guide or some other light transmission device 113, while the signal reflected from the target via the optics 115 to the diode 107 get The signal is amplified via a preamplifier 106 and a trigger device 105, and at the same time the removal 108, 109. Via a generator 104, which is controlled by the trigger 105 and by the clock generator 101 is made ready, the distance gates 108, 109 are gated open. That The output signal of the distance gates 108, 109 is fed to an integrator 110, 111; while the output voltage of both integrators 110, 111 is an evaluation unit 112 is supplied. The signal processing of the circuit takes place accordingly 2. There the individual signals are shown as follows: The curve 202 shows the directly coupled transmission signal, while curve 204 shows the noise signal the receiving arrangement is shown; curve 203 shows the signal to a Point in time at which the distance d is still greater than the release distance DA. Curve 205 again shows the direct transmission signal, while the signal 206 at the time of triggering and distance dA is shown. At the same distance, the received signal is in curve 207, e.g. shown in rain and fog, which means that the signal curve is dependent on time 208 is raised, while the target signal 209 still protrudes with a certain distance. It can be clearly seen that already with the curve shape 207 all signal processing principles, the only one threshold, without, or with differentiation, or just a single threshold Be rich, fail, or fail. Waveform 210 shows the trigger 105, triggered by the direct transmission pulse, curve 211 shows the pulse at the distance gate 108, waveform 121 shows the impulse at distance gate 109. During the approach results The curve shape 213 appears at the distance gate 109 without disturbance about the distance or approach time, while in case of disturbance by fog or Regen results in curve shape 214. In the same way, under occurs at the integrator 110 normal conditions the curve shape 215, while with disturbances by fog or If the curve shape 216 is generated. The signal processing is carried out according to Fig. 1 executed in the form that the voltages at the integrators 110, 111 are continuous be checked to the effect that the voltage at the integrator 111 is higher first than the voltage at the integrator 110 and when a voltage equality occurs this process triggers. Through this type of signal processing, the green level through disturbances such as fog, rain or snow, or through semi-transparent ones Interference measures are completely suppressed and reliable triggering is also achieved if very small amounts of reflected light still hit the receiving arrangement.

According to FIG. 3, the signal processing can also be carried out in this way that a gate generator 404 is controlled directly by the clock generator 401, which in turn provides a single distance gate 408 to each transmission pulse Controls pulses that are sequentially an increasing time interval from the transmission pulse to have.

By assigning the signals via a controlled integrator 301, a counter 303, a multiplexer 302 and a memory 304 can be in an evaluation circuit those won in this way Signals in analog or digital form respectively can be compared with each other, and both fixed and variable distances between signal integrators gated adjacent or further apart Generation of preliminary or trigger signals can be evaluated.

The circuit complexity remains due to the signal processing method used very low in the field of fast signal processing, so that very easily a monolithic integration of the sensor in two semiconductor chips can be done.

Claims (3)

Device for determining the triggering distance from one on a target to be moved missile claims means for determining the Triggering distance from a missile moving towards a target by means of time-of-flight measurement of laser pulses, in that the reflected pulse, associated with at least two different distances in a manner known per se Distance gates (108, 109) with downstream integrators (110, 11) are supplied and that an evaluation unit (112) is present through which the voltages continuously verifiable to this effect at the integrators (110, 111) by means of comparison are which integrator voltage is higher first and whether the voltages that occur are about the same size. 2. Device according to claim 1, characterized in that g e -k e n n z e i c h n e t that only one distance gate (408) is present, which is from the control (Clock generator 401, gate generator 404) can be controlled directly, the control in each case to a transmission pulse with pulses takes place, the sequentially one increasing have a time interval from the transmission pulse. 3. Device according to claim 2, characterized in that g e -k e n n z e i c h n e t that the distance gate (408) is followed by a controlled integrator (301) is, the control by means of a counter (303) which also has a Multiplexer (302) controls and in turn depending on the signal evaluation can be set in an evaluation circuit (305) and the gate generator (404).