DE19731219A1 - Igniter system for pyrotechnic gas generator e.g. for airbags - Google Patents

Abstract

A pyrotechnic gas generator has a safety interlock in which a coding circuit (14) generates a release code when the impact sensing circuit is activated. The release code is monitored by a decoding circuit (18) to activate the detonator. The safety circuit also isolates the detonator from voltage spikes and only operates the detonator when the correct release code is received.

Description

The invention relates to an ignition system for a pyrotechnic Gas generator, a gas generator for use in such System and an electrical igniter for this gas generator.

Gas generators for restraint systems in vehicles, in particular for restraint systems with an inflatable gas bag, contain one considerable amount of a pyrotechnic blowing agent. A gas gene rator, which is intended for a gas bag with a volume of 180 l, contains, for example, up to 250 g of solid fuel.

The misuse of such a gas generator would represent a high risk potential. The invention Possibility of improper use of a gas generator table eliminated. The ignition system according to the invention for a pyro technical gas generator used for the activation of a security systems in vehicles is intended to contain a control unit based on Sensor signals responsively emits an activation signal, and one electric detonator adjacent to the propellant charge inside the  Gas generator; According to the invention, a coding unit is provided, which converts the activation signal into a coded pulse sequence, and the detonator is provided with a decoder, which in Dependence on the agreement of the coded pulse sequence with a predetermined code, the application of an ignition signal to the igniter releases or blocks. Without precise knowledge of the predetermined code thus an activation of the gas generator is not possible. The coding can be done in a similar way to locking systems or Immobilizers for vehicles. Such systems are known to be equipped with a high level of security.

The invention further relates to a gas generator with a pyrotechnic propellant charge to activate a security system in vehicles with a response to an activation signal electric detonators adjacent to the propellant charge; according to the invention the detonator is provided with a decoding device, which in Dependence on the agreement of the activation signal with a predetermined code the application of an ignition pulse to the igniter releases or blocks.

Finally, an electric detonator is provided by the invention a controllable by applying an electrical ignition pulse Heating wire created to control a gas generator for a Security system in vehicles in response to an activation signal; according to the invention, the igniter includes a decoder tion depending on the compliance of the activation signals with a predetermined code to apply the ignition pulse releases or blocks the heating wire.

Further features and advantages of the invention result from the following description of a preferred embodiment and from the Drawing to which reference is made. The drawing shows:

Figure 1 is a schematic diagram of the ignition system. and

Fig. 2 is a diagram showing an encoded pulse train.

The ignition system shown in FIG. 1 consists of a control unit 10 , to which a plurality of sensors distributed in the vehicle, in particular acceleration sensors, are connected via lines 12 , a coding unit 14 connected to the output of control unit 10 , and a gas generator 16 with an igniter 18 . The igniter 18 is provided in a known manner with an electrical heating wire which is made to glow by the application of an ignition pulse. If one or more of the connected to the control unit 10 sensors provides a signal that evaluates the need for activation of the gas generator 16 in the controller 10, the controller 10 supplies an activation signal to the encoding unit fourteenth The coding unit 14 converts this activation signal into a previously defined coded pulse sequence. The igniter 18 is equipped with a decoding device which decodes this pulse sequence and only delivers an ignition pulse to the electrical heating wire of the igniter if it corresponds to the predetermined code.

Fig. 2 shows a coded pulse train, which is to be understood only as an example to illustrate the principle. In fact, the coding can be complex to achieve high security. It can be seen that the actual ignition signal is preceded by several pulses. In the example shown, there are five individual pulses. The decoder of the detonator can be equipped with a counter that counts the individual pulses. Additionally or alternatively, the pulse intervals and pulse widths can be evaluated.

An overvoltage protection is integrated in the igniter 18 , which limits the voltage applied to the electrical connection contacts from the outside to values which do not or only insignificantly exceed the voltage level of the trigger signal. As can be seen from FIG. 2, this voltage level is approximately 1 volt. The integrated surge protection reliably prevents the igniter from being activated by accidental or accidental application of a relatively high voltage.

Claims (5)

1. Ignition system for a pyrotechnic gas generator, which is intended for the activation of a safety system in vehicles, with a control unit ( 10 ) which emits an activation signal in response to sensor signals, and an electrical igniter ( 18 ) adjacent to the propellant charge inside the gas generator , characterized in that a coding unit ( 14 ) converts the activation signal into a coded pulse train and the igniter ( 18 ) is provided with a decoding device which, depending on the correspondence of the coded pulse train with a predetermined code, applies an ignition signal to the Detonator ( 18 ) releases or blocks. 2. Ignition system according to claim 1, characterized in that a Surge protection is built into the igniter, the inflated Voltage level of the activation applied to the igniter from the outside keeps signals at least from the heating wire. 3. Gas generator with a pyrotechnic propellant charge for activating a safety system in vehicles, with an electrical detonator ( 18 ) responding to an activation signal adjacent to the propellant charge, characterized in that the igniter ( 18 ) is provided with a decoding device which is a function of that the activation signal corresponds to a predetermined code enables or blocks the application of an ignition pulse to the igniter. 4. Electrical detonator with an electrical one Ignition pulse controllable heating wire, for activation of a gas gene rators for a safety system in vehicles in response to a Activation signal, characterized by a decoding device, the depending on the agreement of the activation signal with a predetermined code, the application of the ignition pulse to the heating wire releases or blocks. 5. igniter according to claim 4, characterized by an inte grated surge protection, the excessive voltage level of the Akti Vierungssignal keeps at least from the heating wire.