An initiator assembly that includes an end plate, a plurality of terminals, a plurality of epoxy plugs, an insulator layer and an exploding foil initiator. The end plate is formed of aluminum and has a plurality of first terminal apertures formed there through. Each of the terminals is received through a corresponding one of the first terminal aperture. Each epoxy plug is received in an associated one of the first terminal apertures and is sealingly engaged to the end plate and to an associated one of the terminals. The insulator layer is received over the end plate. The exploding foil initiator is abutted against the insulator layer and has a bridge and a pair of initiator contacts. Each of the initiator contacts is electrically coupled to a corresponding one of the terminals.

A sealing structure of a sealed container includes, a metallic cylindrical container having an opening, and a metallic closing member that closes the opening. The metallic closing member has an outer surface opposing an inner wall surface of the metallic cylindrical container, and the outer surface of the metallic closing member is one of plated with metal and covered with thermoplastic resin. The metallic closing member seals the opening of the metallic cylindrical container by one of melted metal and melted thermoplastic resin, and the one of melted metal and melted thermoplastic resin is a material different from a material of the metallic cylindrical container and the metallic closing member.

A modular initiator assembly comprising a receptacle and connector combination adapted to shunt the electrical contacts of the initiator as a default condition and to only unshunt the electrical contacts coupled to the initiator when the receptacle and connector establish a fully seated connection.

A wireless electronic detonator includes a primary source of energy and at least one functional module. A power switch is disposed between the primary source of energy and the functional module to connect or disconnect the functional module and the primary source of energy. A controller controls the power switch and includes an optical receiver to detect and demodulate a light signal emitted by a control console, The controller generates a control signal according to the demodulated light signal to at least control the power switch. A wireless detonation system includes the wireless electronic detonator and the control console configured to emit a light signal, and method for activating the wireless electronic detonator.

A circuit for controlling the firing of an exploding-foil pyrotechnic component including at least one capacitor and switch means, the capacitor being connected to the pyrotechnic component by an array of at least three diodes connected in series and in a direction that prevents the capacitor from discharging, the sum of the reverse voltages of these diodes being greater than the maximum voltage that can be delivered by the capacitor, the switch means including at least two field-effect transistors associated with the array of diodes.

A circuit for controlling the firing of an exploding-foil pyrotechnic component including at least one capacitor and switch means, the capacitor being connected to the pyrotechnic component by an array of at least three diodes connected in series and in a direction that prevents the capacitor from discharging, the sum of the reverse voltages of these diodes being greater than the maximum voltage that can be delivered by the capacitor, the switch means including at least two field-effect transistors associated with the array of diodes.

An igniter holding structure includes, an igniter provided with an ignition portion and a conductive pin, a first resin portion provided between the igniter and an attachment portion and holds the igniter such that the ignition portion and a distal end of the conductive pin are located opposite each other, and a second resin portion provided in a circumferential wall portion of the attachment portion and forming a connector insertion portion on an inner side of the circumferential wall portion, the connector insertion portion being a space into which a connector connected to the conductive pin can be inserted and the second resin portion being provided separated from the first resin portion on the inner side of the circumferential wall portion in a manner that an exposed surface, which is made of metal and exposed to the connector insertion portion, is formed in the circumferential wall portion.

A circuit for controlling the firing of an exploding-foil pyrotechnic component including at least one capacitor and switch means, the capacitor being connected to the pyrotechnic component by an array of at least three diodes connected in series and in a direction that prevents the capacitor from discharging, the sum of the reverse voltages of these diodes being greater than the maximum voltage that can be delivered by the capacitor, the switch means including at least two field-effect transistors associated with the array of diodes.

A circuit for controlling the firing of an exploding-foil pyrotechnic component including at least one capacitor and switch means, the capacitor being connected to the pyrotechnic component by an array of at least three diodes connected in series and in a direction that prevents the capacitor from discharging, the sum of the reverse voltages of these diodes being greater than the maximum voltage that can be delivered by the capacitor, the switch means including at least two field-effect transistors associated with the array of diodes.

An initiator for a gas generator of a vehicle safety device includes a cup defining an interior, a primary pyrotechnic material disposed in the interior of the cup, and a secondary pyrotechnic material disposed in the interior of the cup. A separator member hermetically separates the primary pyrotechnic material from the secondary pyrotechnic material.