DE2610759A1 - PROCEDURE AND CIRCUIT ARRANGEMENT FOR COUNTING THE PASSAGE OF A SIZE TO BE MONITORED THROUGH A PRE-DETERMINED VALUE - Google Patents

Description

DIPLOM-ING BNIE UR

KARL-HEINZ SCIIAUMBURG

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TEtEX 522019 ESI'AT

1E 31 276 March 15, 1976

ELECTRONIQUE MARCEL DASSAULT

6, rue de Berri
75008 Paris (France)

Method and circuit arrangement for counting the runs of a system to be monitored Size by a predetermined value

The invention relates to a method and a circuit arrangement for counting the runs of a to be monitored Size by a first predetermined value depending on the achievement of a second, different from the first Worth.

In the field of monitoring mechanical processes, for example, there is sometimes a need to

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to count stepping a predetermined value through a monitored variable. This can be done depending on that the said variable after the predetermined word has passed through, for example, a lower, likewise predetermined one Assumes value. This is especially the case when it comes to the evaluation of stresses to which a Object or mechanical arrangement is exposed, or when an object or mechanical arrangement accelerates Experienced.

The invention now enables the runs of a variable to be monitored to be counted according to a purely electronic principle by a value that belongs to a first number of predetermined values, if the size is then a further predetermined number Assumes value which can belong to a second number of values, each of which is one or more values of the correspond to the first-mentioned number.

A method of the type mentioned at the beginning is according to the invention for this purpose designed such that the variable to be monitored is represented by an electrical voltage that this electrical voltage is compared with a reference voltage and that the reference voltage when one of the predetermined values is changed by the variable to be monitored to a value which corresponds to the other predetermined value .

A circuit arrangement for carrying out this method is characterized in a further embodiment of the invention that a voltage indicating the variable to be monitored is applied to one input of an electronic voltage comparator whose second input is connected to the reference voltage via a resistor bridge circuit, which is caused by an output signal of the voltage comparator between

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see two switching states can be switched if the The voltage indicating the variable to be monitored corresponds to one of the predetermined values.

According to the invention, it is therefore dependent on the ones to be counted States a circuit is activated that assumes a first switching state when the variable to be monitored is a ^ -n reaches the first value, while it assumes a second state when the size reaches a second value. This Circuit may contain a counting device which counts the number of times said circuit has the first or the second State.

According to one embodiment of the invention, several circuits can be provided, each of which is an electronic circuit Contains voltage comparator, one input of which is connected to a sensor that evaluates the variable to be monitored and whose other input is connected to said resistor .., - bridge circuit. Depending on the one with the Voltage comparator comparison result obtained success; then the switchover of the resistance bridge circuit from the first to the second switching state and vice versa.

An embodiment of the invention is described below with reference to the figures. Show it:

1 shows a circuit arrangement for carrying out the method according to the invention,

FIG. 2 is a diagram illustrating the mode of operation of the circuit arrangement according to FIG. 1 and

FIGS. 3A-D waveforms in that shown in FIG

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ORiGiMAL INSPEOItD

Circuit arrangement

In the switching arrangement according to FIG. 1, a sensor 11 is provided which, at its output 12, emits an electrical voltage proportional to a variable which, for example, can be an acceleration. The sensor 11 can therefore be an accelerometer or some other stress-evaluating device, for example a strain gauge. The voltage appearing at the output 12 is fed to an input Ji of a matching amplifier 14.

The voltage applied to line 15 at amplifier output 16 characterizes the variable to be monitored, for example acceleration or stress. The line 15 is led to a first input 17 ^, 17 ₂ , etc. of a number of electronic voltage comparators 18 ,,, 18p, etc., the number of which corresponds to the number of values for which the number of runs on the part of the variable to be monitored, for example the acceleration, is to be determined, on the condition that this variable finally assumes or has already assumed a further predetermined larger or smaller value for each of the stated values.

In the case of aircraft, for example, it can be determined how often the so-called "load multiple ¹¹ has assumed the value 3g, 4g, 5g, 6g, 8g (g = acceleration due to gravity), but under the condition that a lower value was previously present, for example 2g. In Fig Fig. 2 shows a diagram in which the abscissa indicates the time and the ordinate the load factor one

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Values of 5g and 6g, after which there is again a drop to point C, where a value smaller than g is reached. Then there is again an increase to point D, which is above 6g, then a decrease to point E, which is between 4g and 5g lies. Then the curve rises again to a point F, which is between 5g and 6g, and then falls to the Point G, which corresponds to a negative g-value. After that, the curve is close to zero, and so on.

The exemplary embodiment of the circuit arrangement shown in FIG. 1 to carry out the method according to the invention is designed so that it can be determined how often the Acceleration assumes the value 3g, provided that it then reaches a value smaller than 2g. Furthermore, it can be determined how often the acceleration assumes the value 4g, provided that each then reaches a value smaller than 2g, etc.

In the illustrated embodiment, the circuit arrangement contains five signal channels, each corresponding to a value of a first number of values 3g, 4g, 5g, 6g and 8g, and the counting of the processes in which the variable to be monitored assumes one of these values is only carried out if afterwards the variable to be monitored reaches the value 2g. This applies to all values of the first mentioned Number.

The second input 19-] of the voltage comparator 18 ^ is connected to a terminal 21,. a first resistor bridge circuit 22 ,, connected, which has two series-connected resistors R ₁ and R ¹ , j. The connection point 23 ^ of these two resistors is connected to the terminal 21 ^ via a line 24 ^. The second connection of the resistor R '^ is with

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■ i-

Connected to ground potential, while the second terminal of the resistor R _{1 is} connected to a reference voltage source 26 via a line 25 ^.

The line 24,] is also connected to ground potential via a circuit 27 ₁ , which contains a third resistor R ¹ '., And an electronic switch 28 ^.

For example, if channel V _{1 is} controlled with a value 3g, the values of resistors R ₁ and R ^ are selected so that the voltage at input 1S) ₁ for increasing load multiple or increasing acceleration is equal to the voltage at input 17 ^ when the acceleration value detected by the feeler 11 becomes 3g. For this value, a signal appears at the output 32 _{1 of} the voltage comparator 1S _{1 , which is fed to the electronic switch 2S 1} via a signal path 33-j, so that it is closed.

The value of the resistor R ¹ ^ is chosen so that the voltage comparator Ie ₁ resumes its first state when the value 2g is reached when the acceleration drops. This then opens the electronic switch 2S ₁ again.

The signal appearing at the output 32 _{1 of} the voltage _{comparator Ie 1} has the form shown in FIG. 3A. The leading edge f corresponds to the closing of the electronic switch 2S ₁ and thus the switching on of the resistor R ¹ ^ in the bridge circuit 22 _1f, the trailing edge f ¹ corresponds to the opening of the electronic switch 2S ₁ .

The output 32 ^ of the voltage comparator Ie ₁ is connected to the input 3 ^ of a circuit 35-j, which at its output

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BATH ORIGINAL

Output 3O ₁ emits a Signal_al which identifies the edges f and f · and has the form shown in FIG. 3B. The circuit 35-j is connected to a differentiator 37-j which processes only positive or negative signals. The differentiator 37, j is followed by a signal shaping circuit 38 ^, the output of which emits a signal, the course of which is shown in FIG. 3C for positive signals and in FIG. 3D for negative signals from the differentiator 37 ^. The signal formed in this way controls a pulse counter 39-j, which is switched one step further when the acceleration or the load multiple decreases after a value 3g to the value 2g.

The second channel V ₂ is constructed analogously to the first channel V ^, but the values of the resistors R ₂ and R ' ₂ are selected, for example, so that they correspond to a value 4g for the acceleration. In the embodiment shown in Fig. 2, the value of the third resistor R ^ff _{2 of} the second resistor _{bridge circuit 22 2} is chosen so that the advancement of the counter 39 ₂ corresponds to the passage of the acceleration through the same low value 2g as for the counter 39 ^.

According to another embodiment, the value for the resistance R " _{2 can} be selected such that the condition for the further counting of the states of the passage from 4g is different from the condition which applies to the further counting of the states of the passage of the acceleration through 3g.

The invention also enables a test method to be carried out for this purpose, a voltage is fed to the matching amplifier 14 via a second input 51, for example, which changes according to a predetermined law, initially increasing up to the one fixed with the sensor 11

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Asked size maximum value to be expected and then decreasing to the minimum value expected. So you can take into account the counting results obtained in this test with the various counters 39 the correct state of the Determine circuit arrangement.

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Claims (9)

Claims 1. Procedure for counting the runs of a to be monitored Size by a first predetermined value depending on the achievement of a second, different from the first Value, characterized in that the variable to be monitored by an electrical Voltage is represented that this electrical voltage is compared with a reference voltage and that the reference voltage when one of the predetermined values is reached by the variable to be monitored on a Value corresponding to the other predetermined value is changed. 2. Circuit arrangement for performing the method according to claim 1, characterized in that a voltage indicating the variable to be monitored on one input (17) of an electronic voltage comparator (18), the second input of which is connected to the reference voltage (26) via a resistor bridge circuit (22) is connected, which can be switched between two switching states by an output signal of the voltage comparator (18) is when the voltage indicating the variable to be monitored corresponds to one of the predetermined values. 3. Circuit arrangement according to claim 2, characterized in that the resistance bridge circuit (22) contains a resistor (R ' ¹ ^) which can be switched on as a function of an output signal from the voltage comparator (18) by means of an electronic switch (28). - 10 - 709822/0631 ORIGINAL JNSPboTED ■ κ ,. 4. Circuit arrangement according to claim 2 or 3, characterized in that the voltage comparator (18) a differentiator (37) and a pulse counter (39) are connected downstream. 5. Circuit arrangement according to one of claims 2 Ms 4, characterized in that several channels (V _{4. F} Vp) are provided which correspond to several fourths to be passed through from the variable to be monitored and enable a counting of the respective passes. 6. Circuit arrangement according to claim 5, characterized in that the resistors (R ¹ ·) which can be switched on by the output signal of the voltage comparator (18) are selected so that matching counting conditions exist for the counters (39) of the various channels (V). 7. Circuit arrangement according to claim 5, characterized in that the fourth of said Resistors are chosen so that the counting conditions for the values of the specified number of values are different and correspond to several values of a second number of values. 8. Circuit arrangement according to one of claims 2 to 7, characterized in that the resistance bridge circuits (22) are connected to a common reference voltage source (26). 9. A method for testing a circuit arrangement according to one of claims 2 to 8, characterized in that it is marked 7098 22/0631 net that the inputs of the voltage comparator (18) a voltage is supplied which is determined according to the various values of the first-mentioned number of values and according to the different values of the second-mentioned number of values increases and decreases.