DE3640189C1 - Device for determining the time interval between repetitive events and signals triggered by these events - Google Patents

Abstract

A device for determining the time interval between repetitive events and signals triggered by these events with an essentially constant time interval is described, which signals are converted by a signal pickup into electrical signals which are not significant in comparison with the signal noise. The device according to the invention is characterised by the fact that the output signal of the signal pickup is applied to one input terminal of an analog adding circuit, the other input terminal of which is connected to the output terminal of a CCD element and the output terminal of which is connected to the input terminal of the CCD element, that a synchronisation unit displaces the cell content of the CCD element at a fixed clock rate in such a manner that a correlation exists between the respective triggering event and the phase of displacement of the cell contents, and that the output signal of the CCD element is present at an evaluating unit which, when a particular threshold value of the accumulated signals stored in the CCD element is reached, determines the position of the maximum value of the signals stored in the individual cells for determining the time interval. This provides a device for determining the time interval between repetitive events and signals triggered by these events at an essentially constant time interval, in which, in comparison with the signal noise, ... Original abstract incomplete.

Description

The invention relates to a device for He averaging the time interval between themselves events and triggered by these events Signals according to the preamble of claim 1.

For a number of measurement tasks, general questions arise following problem: Through repetitive events signals are triggered whose time interval from the triggering events is approximately constant. Certainly this time interval should be.

This measurement task arises, for example, with a Distance measuring device in which the distance or the Distance is determined from the transit time of light pulses which a light transmitter emits and an object whose Distance to be measured on a light receiver reflected.

Often, however, the problem arises that this is triggered does not significantly differentiate the signal from the signal noise. In the case of a distance measuring device, for example occur wisely if the distance to be measured in ver equal to the light output is very large or the light im pulse strongly affected by weather conditions (fog etc.) is weakening.

It is known to start from repetitive events triggered output signals of the signal pickup, which differ from Do not raise noise significantly, thereby "visibly make "that so-called" boxcar averaging " leads. Known establishments based on the Boxcar-Avera  went principle work digitally; this means that the Signals of the signal pickup must be digitized. For example in the case of pulse / transit time distance According to the state of the art, this requires a very large measurement fast analog / digital converter. Fast analog / digital However, converters are very expensive and costly only in to represent large radar systems.

The invention has for its object a device to determine the time interval between them repetitive events and from those events triggered signals according to the preamble of the patent to specify claim 1, also in comparison to the signal no significant output signals of the recording mers that occur in very short time intervals to the triggering Events occur, determined with little effort can be.

An inventive solution to this problem is with their Developments characterized in the claims.

The invention is based on the basic idea of a Refrain from digitizing the signals and instead a "in-phase" reception of the signals using analog components. This will an analog / adder circuit used on one of them Input connector the output signal of the signal pickup is present, and their other input connection with the off output signal of a CCD element is connected, in which the with time intervals that are small to the time to be measured, occurring added signals are stored. Through the Synchronization unit used according to the invention takes place an "in-phase" addition of the added signal  the accumulated by the previous events Signals. Since the signals lying in the noise are coherent add rent, but the noise is only statistical which is always stored in the same place in the CCD element te useful signal after a series of events, the Signa le trigger, large compared to the statistically add th noise and can be used to determine the time interval be used.

Further developments of the invention are in the subclaims specified.

By the oscillator claimed in claim 2 is in simply provided a "time base" the small against the time interval to be determined can be selected and thus allows an accurate measurement.

The training characterized in claim 3 has the Advantage that - if the time of the signals trigger the events can be selected - on any start / stop Processes dispensed with and thus a stable work of the device according to the invention can be achieved.

If the time at which a signal is triggered Event is triggered, can not be freely selected proceed according to the training claimed in claim 4 will.

From the characterized in claims 5 to 7 Education ensures that the time interval after a "as small as possible" number of passes or, in other words, signal-triggering events nissen, can be determined.  

The device according to the invention can of course used to solve a wide variety of measurement problems will. A possible application is known in claim 8 draws.

Due to the correct phase implementation according to the invention One receives reception of the signals reflected on the object at a certain measuring distance with much smaller rer transmission power than with the known pulse laser remover voltage meter, so that under certain circumstances no measures must be taken for eye safety of the laser. On the other hand, when using a laser with large Performance over long distances even with unfavorable measuring conditions conditions such as fog etc. can be measured.

The invention is based on an embodiment for example with reference to the single figure of the Drawing described in more detail in the block diagram is shown.

The drawing shows a pulse laser rangefinder provided with a device according to the invention. This has, in a manner known per se, a light transmitter, for example a laser diode 1 , which emits a light beam onto an object, not shown, via an optics 2 which is only shown schematically, the distance of which is to be determined. The light reflected by this object is imaged on a light receiver 4 by means of optics 3 , which is also only shown schematically. The distance of the object can be calculated in a manner known per se from the time interval between a light pulse and the output signal of the light receiver 4 triggered by this.

As already stated, with such pulse laser Rangefinders often face the problem that this is received gene signal compared to signal noise not signifi is edged. To also the time interval between the this signal triggering light pulse and the signal To be able to determine the signal will follow through in the the described inventive training in phase receive:

For this purpose, the output terminal of the light receiver is connected to the one input terminal of an analog adder 5 , the output terminal of which is connected to the input terminal of a CCD element 6 . The output terminal of the CCD element 6 is connected both to a threshold switch 7 and to the other input terminal of the analog adder 5 . Furthermore, an oscillator 8 and a counter 9 are provided. The output terminal of the oscillator, which oscillates at a frequency whose period is substantially smaller than the time to be measured, is connected to both the trigger input terminal of the CCD element 6 and to the input terminal of the counter 9 . The output terminal of the counter 9 is connected to a trigger input terminal of the transmitter 1 in such a way that a light pulse is triggered at a specific counter interval of the counter 9 .

Furthermore, a differentiating element 10 , a further counter 11 , a display unit 12 and a switching element 13 are provided. The input terminal of the differentiating element 10 is connected to the output terminal of the threshold switch 7 and the output terminal of the differentiating element is connected to the counter 11 , the output terminal of which is connected to the display element 12 .

The described inventive device works as follows:

After switching on, the signal level in the cells of the CCD element is initially (almost) zero. The oscillator 8 oscillates at an impressed frequency which not only shifts the cell content of the cells of the CCD element 6 , but also increases the count of the counter 9 with each pulse. When a certain meter reading is reached, this triggers the light transmitter 1 , so that a laser pulse is emitted. This laser pulse is received after a transit time to the object whose distance is to be measured and back via the receiving optics 3 from the receiver 4 . The signal received by the receiver 4 , which - as assumed - is not significant in comparison to the signal noise caused, for example, by ambient lighting, electronic effects, etc., is present at the one input connection of the analog adder 5 , which has the output signal to the content of the respective CCD storage elements added. Since the CCD element 6 is "advanced" by the oscillator pulses, after a "pass" the noise with the useful pulse from the start of the oscillator to the point in time at which the light flash was emitted until the end of the measurement is stored.

Following this, the entire process is repeated at the next corresponding counter reading of counter 9 . If nothing has changed in the object distance, which is guaranteed with a fast repetition rate of the light pulses, then the receive pulse will occur at the same time relative to the counter reading in the receiver. This receive pulse is in turn applied to the analog adder and added by this to the content of that memory cell of the CCD element which received the receive pulse in the noise of the previous cycle. This means that the received pulse is added linearly from measurement to measurement, while the noise is only added statistically and is thus lagging behind the useful signal.

Has the useful signal in the CCD element by the analog pha sen correct (coherent) adding large enough, the threshold switch 7 is addressed so that the memory content of the CCD element is present at the differentiator 10 . The differentiator 10 delivers a pulse at its output terminal; this pulse is the pulse that corresponds to a pulse laser range finder in which the received pulse stands out significantly from the signal noise. The time delay of this pulse is measured via the counter 11 , to which the oscillator signals are also applied. The counter reading is displayed by means of the display unit 12 and is a direct measure of the object distance.

The switching element 13 allows the case to be selected in which a plurality of distance pulses are present at the same time with similar relevance.

The invention is based on an exemplary embodiment game without limiting the general inventive concept kens. Of course they are various modifications possible.

For example, a correlation module networked with the transmitter 1 can also be used instead of the differentiator; the correlation function determined by this then forms a measure of the distance.

Also, the transmission signal cannot be just a pulse signal; In addition, a "pseudo-noise" signal or a differently coded signal can be used.

Claims (8)

1. A device for determining the time interval between repetitive events and signals triggered by these events with an essentially constant time interval, which a signal transducer converts into electrical signals that are not significant compared to signal noise,
characterized in that the output signal of the signal transducer is applied to one input terminal of an analog adder whose other input terminal is connected to the output terminal of a CCD element and whose output terminal is connected to the input terminal of the CCD element,
that a synchronization unit shifts the cell content of the CCD element at a fixed clock rate such that there is an association between the respective triggering event and the phase of shifting the cell contents, and
that the output signal of the CCD element is present at its evaluation unit which, when a certain threshold value of the accumulated signals stored in the CCD element is reached, for determining the time interval, determines the position of the maximum value of the signals stored in the individual cells. 2. Device according to claim 1, characterized in that the synchronization unit a  Has oscillator, the output terminal with the Sliding connection of the CCD element and the input connection of a counter is connected, which is reached when a certain event a signal triggering event nis triggers. 3. Device according to claim 2, characterized in that the second and the following events triggering a signal at counter readings can be triggered, which is about the number of cells of the Distinguish CCD elements. 4. Device according to claim 2, characterized in that in each work cycle in which an event triggering a signal is triggered only so many pulses from the oscillator to the CCD element and the Counters are created like the CCD element cells points. 5. Device according to one of claims 1 to 4, characterized in that the evaluation unit a Counter, the counter input terminal of the pulses of the Oscillator counts, and has a pulse discriminator, which stops the counter when that is stored in a cell te signal exceeds a certain value. 6. Device according to one of claims 1 to 4, characterized in that the evaluation unit a correction lationselement, which from the CCD element read signals with the pulses of the oscillator or correlated with the transmission signal.   7. Device according to one of claims 1 to 6, characterized in that the evaluation unit Decision circuit that recognizes if more as a signal associated with the triggering event occurs. 8. Distance measuring device with a light transmitter and a light receiver and a device that consists of the Duration of light pulses determines the distance characterized by a device according to one of the Claims 1 to 7, the light pulses from the light transmitter triggers and in which the signals of the light receiver to the Adding circuit are created.