FR2961313A1 - METHOD AND TESTING SYSTEM FOR AN ELECTRO-PYROTECHNIC INITIATOR - Google Patents

Abstract

- The test system (3) comprises means (4) for supplying electrical power to the electro-pyrotechnic initiator (1), means (5) for measuring the heating caused by the electric current in the initiator (1), means (6) for determining, with the aid of these measurements, a calibration curve, means for subjecting the initiator (1) to an electromagnetic field, means (5) for carrying out measurements. of the heating caused by this electromagnetic field in the initiator (1), and means (6) for determining, with the aid of these latter measurements and the calibration curve, the variation of the electric current induced in the initiator (1) according to the electromagnetic field, said power supply (4) being formed to supply the initiator (1) with a pulsed electric current.

Description

The present invention relates to a method and a test system for an electro-pyrotechnic initiator. Usually, an electro-pyrotechnic initiator comprises a pyrotechnic charge, in particular a pyrotechnic powder, which is initiated by a resistive element placed in contact with this charge. This resistive element may be formed of a filament, in particular a cylindrical filament, which is preferably made of an alloy of high resistivity. The generation of an electric current in the resistive filament causes the heating of the latter by Joule effect, and this heating can 1 o trigger the pyrotechnic charge. More particularly, although not exclusively, such an electro-pyrotechnic initiator is applied to a weapon system, including a missile. It is known that an electric current can be induced in the resistive filament of the electro-pyrotechnic initiator when the latter is subjected to an electromagnetic field. In certain surrounding circumstances, it may even happen that the electric current induced in the electro-pyrotechnic initiator is such that it triggers the latter. Consequently, when a system, in particular a weapon system, which is provided with such an electro-pyrotechnic initiator enters an area subjected to significant electromagnetic aggression, generated in particular by radars or by radio sources, these electromagnetic attacks may, in certain cases, cause an inadvertent tripping of the electro-pyrotechnic initiator and thus of the system in which it is mounted.

Also, to avoid such inadvertent tripping, it is necessary to test the electro-pyrotechnic initiator mounted on the corresponding system to verify if this assembly is able to withstand the electromagnetic attacks likely to be encountered in the operating conditions provided for said system or whether to protect it further. To carry out such a test, the following operations are generally carried out: a) in a first calibration step: the electro-pyrotechnic initiator is supplied with a continuous electric current, which is adjustable in intensity; optically, first measurements of the heating caused by this electric current in said electropyrotechnic initiator are performed; and - using these first measurements, a calibration curve is determined which illustrates the variation of the heating of the electropyrotechnic initiator as a function of the electric current which supplies it; and b) in a second test step: - the electro-pyrotechnic initiator is subjected to an electromagnetic field; secondly, measurements are made of the heating caused by this electromagnetic field in said electropyrotechnic initiator; and - using these second measurements and said calibration curve, the variation of the electric current induced in the electropyrotechnic initiator as a function of the electromagnetic field to which it is subjected is determined. This conventional method is very efficient for electromagnetic fields having continuous wave forms, since the electric currents induced in the electro-pyrotechnic initiator by this type of waveforms are continuous, as is the case for electric currents. taken into account in the calibration step of the test method.

However, the electromagnetic aggressions encountered in the theaters of operations or during specific tests are not always of maintained form, but may especially be of impulse form, so as to generate non-continuous currents in the electropyrotechnic initiators. Therefore, the above-mentioned conventional testing method is not optimal for such types of electromagnetically unmaintained aggression. This usual test method, although very efficient in its usual field of use, does not appear to be able to perform tests for all the electromagnetic attacks that an electro-pyrotechnic initiator is likely to encounter. The present invention aims to overcome these disadvantages. It relates to a method for testing an electropyrotechnic initiator, which makes it possible to carry out tests relating to any type of electromagnetic field to which it may be subjected, and in particular electromagnetic aggression of non-maintained form. For this purpose, according to the invention, said method according to which the following operations are carried out: a) in a first step (of calibration): - the electro-pyrotechnic initiator is supplied with an electric current, and an optical first measurement of the heating caused by this electric current in said electropyrotechnic initiator, this measurement being repeated for different values of the electric current; and - using the first measurements thus obtained, determining a calibration curve which illustrates the variation of the heating of the electro-pyrotechnic initiator as a function of the electric current which supplies it; and b) in a second step: - the electro-pyrotechnic initiator is subjected to an electromagnetic field, and a second measurement of the heating caused by this electromagnetic field in said electro-pyrotechnic initiator is performed optically, this measurement being repeated for different values of the electromagnetic field; and it is determined, by means of the second measurements thus obtained and of said calibration curve, the variation of the electric current induced in the electro-pyrotechnic initiator as a function of the electromagnetic field to which it is subjected, is remarkable in that in step a), to determine said calibration curve, said pulsed electric current is supplied. The term "electro-pyrotechnic pulsinitiator with a" a regular and uniform variation in the form of pulses, the duration of which can be determined (or generation), and the duration of recurrence (or appearance), c that is, the frequency. Advantageously, in step a), the different values of the pulsed electric current have pulses of holding times and variable recurrence times, and in step b), the electro-pyrotechnic initiator is subjected to an electromagnetic field. having pulsed-shaped electromagnetic waves for determining said variation of the induced electric current. The present invention therefore proposes a new calibration step making it possible to determine the correspondence between the measured heating of an electro-pyrotechnic initiator and a pulsating electric current passing through it, which is at the origin of this heating, the resulting calibration curve that can be used to determine in step b) the electrical current actually flowing in the electro-pyrotechnic initiator as a function of a measured temperature rise that is generated by unmaintained electromagnetic aggression, which can be at the origin of electric currents of this type. Thus, thanks to the invention, a complete test method is obtained for testing the electro-pyrotechnic initiator with respect to all types of electromagnetic aggression, of maintained form (using the usual calibration method). ) or non-maintained form (using the new calibration method according to the invention). In the context of the present invention, said pulsed electric current for supplying the electro-pyrotechnic initiator may be generated by any type of conventional pulsed current generator. However, in a preferred embodiment, in order to generate said pulsed electric current, an electrical connection between electrical supply means of the electro-pyrotechnic initiator and said electro-pyrotechnic initiator is arranged to cut off the power supply, which is likely to cut durations and variable recurrences. Thus, the new calibration step can be implemented in a simple and low-cost manner by simply integrating a device for disconnecting the power supply into a conventional test system, as specified below. Furthermore, advantageously, in a further step c), using said variation of the electric current induced in the electro-pyrotechnic initiator as a function of the electromagnetic field, an electromagnetic field value which generates an electric current is determined. armature having a predetermined value, in particular the value causing the electro-pyrotechnic initiator to trip or a value lower than the latter by a predetermined margin. Thus, one can know the value of the electromagnetic field, from which the induced electric current may cause a triggering of the electro-pyrotechnic initiator. This information can be used, in particular, to ensure that this electro-pyrotechnic initiator can be used in the theaters of operations or in specific tests envisaged. The present invention also relates to a system for testing 1 o an electro-pyrotechnic initiator which is capable of being subjected to electromagnetic fields including in particular electromagnetic waves of non-maintained form. According to the invention, said test system, of the type comprising: - first means for supplying the electro-pyrotechnic initiator 15 with an electric current; second means for optically making first measurements of the heating caused by this electric current in said electro-pyrotechnic initiator, these measurements being repeated for different values of the electric current; Third means for determining, with the aid of these first measurements, a calibration curve which illustrates the variation of the heating of the electro-pyrotechnic initiator as a function of the electric current which supplies it; fourth means for subjecting the electro-pyrotechnic initiator 25 to an electromagnetic field; fifth means for optically performing second measurements of the heating caused by this electromagnetic field in said electro-pyrotechnic initiator, these measurements being repeated for different values of the electromagnetic field; and sixth means for determining, with the aid of these second measurements and of said calibration curve, the variation of the electric current induced in the electro-pyrotechnic initiator as a function of the electromagnetic field to which it is subjected, is remarkable in said first means are formed to supply the electro-pyrotechnic initiator with a pulsed electric current. In a preferred embodiment, which is simplified, said first means comprise: - power supply means of said electropyrotechnic initiator; and a device for disconnecting the electrical power supply capable of making breaks of variable durations and recurrences, which is arranged at the level of the electrical connection between the said power supply means and the said electro-pyrotechnic initiator. In addition, advantageously, said second, third, fifth, and sixth means are part of an optical temperature measurement unit, which simplifies the implementation of tests according to the present invention.

The present invention thus makes it possible to know unambiguously, in the field of use considered, the value of the electric current flowing through the resistive filament of the electro-pyrotechnic initiator when the electromagnetic field to which it is subjected is of the pulsed type. It also allows, as specified below: - to know the field of use of the test system; and to improve the techniques for bonding an optical fiber of the optical measurement unit to the resistive filament of the electro-pyrotechnic initiator.

The figures of the appended drawing will make it clear how the invention can be realized. In these figures, identical references designate similar elements. FIG. 1 is the block diagram of an optical measurement unit that is applied to an electro-pyrotechnic initiator to perform a test according to the invention. Figure 2 is a graph for explaining the characteristics of a test according to the invention. The present invention is applied to an electro-pyrotechnic initiator 1 which is intended to be mounted in a system, and in particular in a weapon system such as a missile for example. An electro-pyrotechnic initiator 1 comprises, in the usual way, a pyrotechnic charge, in particular a pyrotechnic powder, which is initiated by a resistive element placed in contact with this charge. This resistive element is preferably formed of a filament 2, in particular cylindrical, which generally consists of an alloy of high resistivity. The generation of an electric current in the resistive filament 2 causes the heating of the latter by Joule effect and, from a certain value, this heating triggers the pyrotechnic charge of the initiator 1. The present invention relates to a method and a system 3 for testing such an electro-pyrotechnic initiator 1 This method comprises, in the usual way, a first calibration step, and a second test step.

To implement the calibration step, said system 3 comprises, as represented in FIG. 1: means 4 for supplying the electro-pyrotechnic initiator 1 with an electric current; means 5 for optically making first measurements of the heating caused by this electric current in said electro-pyrotechnic initiator 1, these measurements being repeated for different values of the electric current; and means for determining, with the aid of these first measurements, a calibration curve which illustrates the variation of the heating of the electro-pyrotechnic initiator 1 as a function of the electric current which supplies it. To carry out this calibration step, the electro-pyrotechnic 1 is preferably rendered inert by removing its pyrotechnic charge 1, in particular a pyrotechnic powder. This makes it possible to avoid triggering the load during calibration and to gain easier access to the filament 2 for performing the optical measurements of the heating. In a preferred embodiment, said means 5 and 6 are part of a unit 7 for optical temperature measurement. Such an optical measurement unit 7 has, in particular, the advantage of being insensitive to electromagnetic aggression and not to make the system generally sensitive to electric fields. Said unit 7 comprises: an optical fiber 8 equipped with an interferometer, one end 8A of which is bonded to the filament 2, the temperature of which it is desired to measure; an analysis unit 9 which notably performs the processing of the measurements made; and a man / machine interface 10, for example a portable computer, which is connected by a link 11 to said analysis unit 9 and which has a screen 12 to display the results of the measurements.

Furthermore, to implement the next test step which is preferably performed in an anechoic or reverberant chamber, said system 3 comprises: - usual means (not shown) for subjecting the electropyrotechnic initiator 1 to a field electromagnetic; and - means, preferably said optical temperature measuring unit 7 or a similar unit, for: - optically performing second measurements of the heating caused by this electromagnetic field in said electropyrotechnic initiator 1, these measurements being repeated for different values of the electromagnetic field; and - determining, with the aid of these second measurements and of said calibration curve, the variation of the electric current induced in the electro-pyrotechnic initiator 1 as a function of the electromagnetic field to which it is subjected. To implement this second (test) step, the electro-pyrotechnic initiator 1 is preferably mounted in the system for which it is intended, in particular in a weapon system such as a missile, for example to obtain test conditions as close as possible to the operating conditions. In addition, in this second step, said electro-pyrotechnic initiator 1 is not rendered inert. According to the invention, said means 4 of the test system 3 are formed so as to feed the electro-pyrotechnic initiator 1 with a pulsed electric current.

In the context of the present invention, the term "electric current (or electromagnetic field) pulsed" a variation of the electric current (or the electromagnetic field) which is in the form of regular pulses IM uniform over time t, the holding (or generation) times Ti, as well as the T2 (or appearance) recurrence times, can be determined as shown in FIG. 2 for an electric current i. It can also be irregular pulses, but that we know and that we know how to reproduce. In the example of FIG. 2, the pulses IM have an intensity of value i0. Therefore, in the calibration step, in order to carry out said first measurements, the means 4 generate different values of pulsed electric current which have pulses IM of holding times Ti and variable recurrence periods T2, and at the step of In order to carry out said second measurements, the electropyrotechnic initiator 1 is subjected to an electromagnetic field having variable electromagnetic waves also of pulsed shape. The present invention therefore proposes a new calibration step making it possible to determine the correspondence between the measured heating of an electro-pyrotechnic initiator 1 and a pulsating electric current passing through the latter, which is at the origin of this heating. The resulting calibration curve is then used to determine, in the test step, the electrical current actually flowing in the electro-pyrotechnic initiator 1 as a function of a measured temperature rise that is generated by non-electromagnetic electromagnetic aggression. maintained (which can be at the origin of electric currents of this type). Thus, the test system 3 in accordance with the invention is complete and makes it possible to test an electro-pyrotechnic initiator 1 with respect to all types of electromagnetic aggression, whether they are of maintained shape (using a curve conventional calibration obtained from a continuous electric current) or non-maintained form (using a calibration curve according to the invention, obtained from a pulsed electric current), in the field of identified employment.

In the context of the present invention, said pulsed electric current for supplying the electro-pyrotechnic initiator 1 may be generated by any type of conventional pulsed current generator. However, in a preferred embodiment, said means 4 comprise: conventional means 13 for supplying power to the electropyrotechnic initiator 1; and - a device 14 for cutting off the power supply which is capable of making cuts of durations and variable recurrences. 1 o This device 14 is arranged on an electrical connection 15 between said power supply means 13 and said electropyrotechnic initiator 1. This preferred embodiment makes it possible to implement the new calibration step in a simple and low-cost manner, by integrating only a device 14 for disconnecting the power supply in a conventional test system. Moreover, said system 3 (and in particular the unit 7) can determine, by means of said variation of the electric current induced in the electro-pyrotechnic initiator 1 as a function of the electromagnetic field, an electromagnetic field value which generates an induced electric current having a predetermined value, in particular the value causing the triggering of the electropyrotechnic initiator 1 or a value lower than the latter by a predetermined margin.

Thus, it is possible to know the value of the electromagnetic field, from which the induced electric current may cause an inadvertent tripping of the electro-pyrotechnic initiator 1. This information may be used, in particular, to reinforce the system provided with said electro-pyrotechnic initiator. electro-pyrotechnic initiator 1 when it is likely to be subjected to electromagnetic aggression capable of presenting at least one such value. The system 3 can also perform tests on different types of initiators 1 or on different variants of the same initiator 1 in order to search for an electro-pyrotechnic initiator 1 which is not triggered by the electromagnetic attacks likely to be encountered in the theaters of operations envisaged or in specific tests envisaged. The method and the system 3 in accordance with the invention therefore make it possible to know unambiguously the value of the electric current flowing through the resistive filament 2 of an electro-pyrotechnic initiator 1 when the electromagnetic field to which it is subjected is of the pulsed type. They also make it possible: to know the field of use of the test system 3, by defining from the tests the types of electromagnetic attacks that said test system 3 is able to detect. In particular, it is possible to define the limiting frequencies of the electromagnetic aggressions that can be measured by said test system 3; and to improve the techniques for bonding the optical fiber 8 of the optical measurement unit 7 to the resistive filament 2 of the electropyrotechnic initiator 1. In particular, the thermal coefficients of the materials used will influence the measurements made. . It is thus possible to look for types of gluing that make it possible to increase the resolution of the measurements. 25

Claims (8)

REVENDICATIONS1. A test method for an electro-pyrotechnic initiator subjected to an electromagnetic field, the method in which the following operations are carried out: a) in a first step: - the electro-pyrotechnic initiator (1) is supplied with an electric current, and performs optically a first measurement of the heating caused by this electric current in said electro-pyrotechnic initiator (1), this measurement being repeated for values 1 o different from the electric current; and - using the first measurements thus obtained, determining a calibration curve which illustrates the variation of the heating of the electro-pyrotechnic initiator (1) as a function of the electric current which supplies it; and b) in a second step: - the electro-pyrotechnic initiator (1) is subjected to an electromagnetic field, and a second measurement of the heating caused by this electromagnetic field in said electro-pyrotechnic initiator (1 ), this measurement being repeated for different values of the electromagnetic field; and the variation of the electric current induced in the electro-pyrotechnic initiator (1) as a function of the electromagnetic field to which it is subjected is characterized, with the aid of the second measurements thus obtained and of the calibration curve, characterized in that in step a), to determine said calibration curve, said electro-pyrotechnic initiator (1) is supplied with a pulsed electric current. 2. Method according to claim 1, characterized in that in step a), the different values of the pulsed electric current have pulses holding times (Ti) and variable recurrence times (T2). 3. Method according to one of claims 1 and 2, characterized in that in step b), the electropyrotechnic initiator (1) is subjected to an electromagnetic field having pulsed-shaped electromagnetic waves to determine the said variation. induced electric current. 4. Method according to one of claims 1 to 3, characterized in that, to generate said pulsed electric current, is arranged at the electrical connection (15) between means (13) of the power supply of the electro-pyrotechnic initiator (1) and said electro-pyrotechnic initiator (1), a device (14) for cutting off the power supply, which is capable of making cuts of durations and variable recurrences. 5. Method according to one of claims 1 to 4, characterized in that in a further step c), using said variation of the electric current induced in the electropyrotechnic initiator (1) in electromagnetic field function, an electromagnetic field value that generates an induced electric current having a predetermined value. 6. A system for testing an electro-pyrotechnic initiator subjected to an electromagnetic field, said system (3) comprising: first means (4) for supplying the electropyrotechnic initiator (1) with an electric current; second means (5) for optically making first measurements of the heating caused by this electric current in said electro-pyrotechnic initiator (1), these measurements being repeated for different values of the electric current; third means (6) for determining, with the aid of these first measurements, a calibration curve which illustrates the variation in the heating of the electro-pyrotechnic initiator (1) as a function of the electric current supplying it. ; fourth means for subjecting the electro-pyrotechnic initiator (1) to an electromagnetic field; fifth means (5) for optically performing second measurements of the heating caused by this electromagnetic field in said electro-pyrotechnic initiator (1), these measurements being repeated for different values of the electromagnetic field; and sixth means (6) for determining, with the aid of these second measurements and of said calibration curve, the variation of the electric current induced in the electro-pyrotechnic initiator (1) as a function of the electromagnetic field, to which it is subjected, characterized in that said first means (4) are formed so as to supply the electro-pyrotechnic initiator (1) with a pulsed electric current. 20 7. System according to claim 6, characterized in that said first means (4) comprise: - means (13) for power supply of the electropyrotechnic initiator (1); and a device (14) for disconnecting the electrical power supply capable of producing interruptions of variable durations and recurrences, which is arranged at an electrical connection (15) between the said power supply means (13) and said electropyrotechnic initiator (1). 8. System according to one of claims 6 and 7, characterized in that said second, third, fifth, and sixth means are part of a unit (7) optical temperature measurement.