Class / Patent application number | Description | Number of patent applications / Date published |
102202700 | Having an exploding bridgewire | 42 |
20080276819 | Multilayered microcavities and actuators incorporating same - A microcavity structure. In an illustrative embodiment, the microcavity structure includes a first substrate, which has a region of interest. A second substrate with a perforation therein is bonded to the first substrate. The perforation coincides with the region of interest. In a specific embodiment, the first substrate is implemented via a Printed Circuit Board (PCB). The region of interest includes one or more circuit components, including an actuator, such as a bridgewire, thereon or therein. A smoothing layer is included between the PCB and the actuator. A bonding gasket adheres the first substrate to the second substrate. The perforation accommodates energetic material that is selectively ignited via the actuator. | 11-13-2008 |
20090126592 | SEMICONDUCTOR BRIDGE, IGNITER, AND GAS GENERATOR - The invention provides a semiconductor bridge, an igniter, and a gas generator each of which satisfies a high-speed responsiveness required of, for example, an automotive side inflator. The semiconductor bridge includes a bridge part heated by being supplied with a current. The bridge part is disposed on a substrate. The bridge part includes a first layer and an ignition bridge layer. The first layer is formed on the substrate and has insulating properties. The ignition bridge layer serves as a second layer disposed on the first layer. The width of the bridge part at the first layer and the width of the bridge part at the second layer are substantially equal to each other. A space is provided around the bridge part. With this structure, the diffusion of current and heat into the substrate can be restricted to the minimum level, and the ignition time can be quickened as an ignition characteristic. Each of the igniter and the gas generator includes the semiconductor bridge. | 05-21-2009 |
20090223400 | MODULAR INITIATOR - An initiator for initiating detonation in a detonation cord of a perforating system, where the initiator comprises a modular electronic igniter that quick connects into a portion of high explosive. The high explosive is disposed in a housing having an end of detonation cord crimped therein. The electronic igniter may be shipped to the field and/or stored separate from the high explosive then the two may be assembled just prior to deploying the perforating gun assembly in a wellbore. Various methods of quick connecting the electronic igniter to the high explosive may be used. | 09-10-2009 |
20090255431 | MINIATURIZED PRIMING CHAIN - A modular miniaturized priming chain has a detonator and a priming booster assembly. The priming booster assembly includes a first priming booster and a second priming booster which can be modularly combined together depending on the respective power requirement at an output of the priming chain, or only the first priming booster is combined with the detonator, which is a miniature detonator. | 10-15-2009 |
20090266260 | ENERGETIC MATERIAL INITIATION DEVICE - An initiator that includes a header body, an insulating spacer, an initiator chip, a plurality of terminals and a plurality of contacts. The insulating spacer is coupled to the header body. The initiator chip that forms at least a portion of an exploding foil initiator and includes a plurality of electric interfaces. The initiator chip is secured to a side of the insulating spacer opposite the header body. The terminals extend through the header body. The contacts electrically couple the electric interfaces to the terminals. The cover is coupled to the header body and cooperates with the header body to house the insulating spacer, the initiator chip and the contacts. A method for forming an initiator is also provided. | 10-29-2009 |
20100000436 | PRIMER ELEMENT - The invention relates to a primer element, in particular for ammunition or similar, comprising at least one primer composition that has at least one sleeve acting as the housing for the primer element, at least one contact pin and a mass contact. Multiple wires, (at least two) are used, one end of said wires being connected to the contact pin and the other end of said wires to the mass contact. The multiple wires are embedded in the primer composition(s). | 01-07-2010 |
20100147175 | Explosive device and method for manufacturing such a device - The present invention relates to an explosive device comprising an explosive material, and at least one igniting stimulus configured to ignite the explosive material when activated. The explosive device further comprises a sheet of material provided with at least one hole at least partially filled with the explosive material, each hole forms an opening in a first side of said sheet material and said at least one igniting stimuli is arranged on said first side. The invention also relates to a method for manufacturing an explosive device. | 06-17-2010 |
20100288148 | NETWORKED PYROTECHNIC ACTUATOR INCORPORATING HIGH-PRESSURE BELLOWS - A pyrotechnically powered actuator having a bellows that provides a force and stroke upon initiation is disclosed. The actuator includes a housing body with a first end and a second end. The bellows is coupled to the first end of the housing body. A cover is coupled to the second end of the housing body. An initiator is located within the housing body and includes a pyrotechnic material and a bridge element. The housing body, the bellows, and the cover define a hermetically sealed chamber. The bellows is compact, lightweight, and can withstand internal and external pressure at least as high as 3,000 psi. An exemplary embodiment includes a housing body that provides a compartment for adding supplemental pyrotechnic material. Further exemplary embodiments of the actuator include a chip initiator that requires less than 1 amp to function in less than 10 milliseconds. | 11-18-2010 |
20110005420 | SYSTEM AND METHOD FOR IGNITION OF A GASEOUS OR DISPERSED FUEL-OXIDANT MIXTURE - An improved system and method for ignition of a gaseous or dispersive fuel-oxidant mixture is provided where a gaseous or dispersive fuel-oxidant mixture is supplied to a detonator tube having a fill point and an open end and an igniter placed at an ignition point within the detonator tube is ignited while the gaseous or dispersive fuel-oxidant mixture is flowing through the detonator tube. A detonation impulse is produced at the ignition point that propagates to the open end of said detonator tube where it can be supplied to a detonation tube having an open end, to an internal combustion engine, a combustion chamber, and to a pulse detonation engine. | 01-13-2011 |
20110072997 | ENERGETIC MATERIAL INITIATION DEVICE - An initiator that includes a header body, an insulating spacer, an initiator, a plurality of terminals and a plurality of contacts. The insulating spacer is coupled to the header body. The initiator forms at least a portion of an exploding foil initiator and includes a plurality of electric interfaces. The initiator is secured to a side of the insulating spacer opposite the header body. The terminals extend through the header body. The contacts electrically couple the electric interfaces to the terminals. | 03-31-2011 |
20110107934 | ELECTRONIC COMPONENT DEACTIVATION DEVICE - An electronic component deactivation device including an electric match having a pair of electrical leads with a bridge wire coupled therebetween and a pyrotechnic layer of material contacting the bridge wire. A destructive charge is positioned in overlying relationship to the pyrotechnic layer, adjacent the bridge wire with at least a portion of the destructive charge contacting the bridge wire. The destructive charge and electric match are mounted in a housing with the pair of electrical leads extending externally of the housing for connection to an external circuit. The housing is constructed so as to mount the destructive charge and electric match on a circuit board or the like. | 05-12-2011 |
20110174181 | Remote Explosion Detonation System - According to one embodiment of the disclosure, a remote explosive detonation system includes a transmitter and at least one receiver having a detonator. The transmitter transmits an electro-magnetic signal having a transmitter identification code that may be received by the receiver. The receiver initiates the detonator if the transmitter identification code matches an internal identification code stored in the receiver. | 07-21-2011 |
20110219977 | INITIATOR MODULES, MUNITIONS SYSTEMS INCLUDING INITIATOR MODULES, AND RELATED METHODS - Initiator modules for munitions control systems include a mounting portion for receiving a portion of an initiation device, a detonator device disposed within the initiator module, a connection portion configured to connect the initiator module with a munitions control system, and an electronics assembly configured to electronically couple with a munitions control system and transmit a signal to the detonator device. Munitions systems may include initiator modules received in a socket of a munitions control system. Methods of igniting explosive devices include coupling a shock tube to an explosive device, connecting an initiator module to a munitions control system, mounting a portion of the shock tube to the initiator module, and igniting the shock tube with a detonator device disposed within the initiator module. | 09-15-2011 |
20110271863 | Electrically Initiated Inertial Igniters for Thermal Batteries and the Like - A method for electrically initiating an inertial igniter for a munition. The method including: generating a voltage over a duration of an acceleration of the munition; powering a circuit from the generated voltage for determining when the acceleration experienced by the munition is an all-fire condition; electrically activating a reserve battery by the generated voltage when the circuit determines that the acceleration experienced by the munition is the all-fire condition; and electrically initiating pyrotechnic materials at a specified time into a flight of the munition using the reserve battery. | 11-10-2011 |
20120024178 | LEAD-FREE PRIMERS FOR HOT WIRE APPLICATIONS - Described are hot-wire igniter devices comprising a bridgewire, an acceptor proximate a portion of the bridgewire, and an output configured to be ignited by the acceptor, wherein the acceptor comprises copper(I) 5-nitrotetrazole. The bridgewire may be configured to receive power from a power source. The bridgewire composition may comprise Tophet A, Tophet C, stainless steel, nichrome bridgewire materials, or stablohm bridgewire materials. The output may be an explosive, pyrotechnic, or propellant. | 02-02-2012 |
20120079956 | DETONATOR IGNITION PROTECTION CIRCUIT - An ignition circuit for a detonator is disclosed. The circuit includes an igniter, a transient voltage suppressor (TVS), an energy source and a switch, all electrically connected in series with each other. Current flow through the igniter sufficient to ignite the igniter is prevented until an ignition voltage is applied across the TVS that is equal to or greater than the breakdown voltage of the TVS. | 04-05-2012 |
20120132096 | SILICIDED MOS CAPACITOR EXPLOSIVE DEVICE INITIATOR - An explosive device using a semiconductor explosion initiator device provides an MOS capacitor formed on a semiconductor substrate and including a silicide layer formed over a doped silicon layer formed over an oxide layer. The oxide layer is formed on an N-well formed in a semiconductor substrate. A voltage source applies a voltage which may be a pulsed voltage, across the MOS capacitor sufficient to cause the avalanche breakdown of the oxide layer and the diffusion of metal from the silicide layer into the doped silicon of the N-well formed in the substrate. The chemical reaction between the metal and the doped silicon causes the generation of a plasma which ignites a pyrotechnic material or ignites or detonates other explosive material in contact with the semiconductor explosion initiator device. | 05-31-2012 |
20120152140 | LEAD-FREE PRIMERS - Embodiments of the present subject matter provide an improved percussion primer composition and improved hot-wire igniter acceptor, wherein lead styphnate is replaced with a lead-free material, 4,6-dinitro-7-hydroxybenzofuroxan, potassium salt (KDNP). Embodiments of the percussion primer composition include KDNP, a sensitizer, an oxidizer, calcium silicide, a fuel, and a binder. Embodiments of the hot-wire igniter device include a bridgewire, an acceptor, and an output, where KDNP is the acceptor. Power supply may be in the form of constant current/voltage or current flow from a capacitor discharge. Certain embodiments utilize a variety of output formulations, such as BKNO | 06-21-2012 |
20120174808 | SILICON-BASED EXPLOSIVE DEVICES AND METHODS OF MANUFACTURE - Silicon-based explosive devices and methods of manufacture are provided. In this regard, a representative method involves: providing a doped silicon substrate; depositing undoped silicon on a first side of the substrate; and infusing an oxidizer into an area bounded at least in part by the undoped silicon; wherein the undoped silicon limits an exothermic reaction of the doped silicon to the bounded area. Another representative method involves: providing a doped silicon substrate; depositing a masking layer of low-pressure chemical vapor deposited (LPCVD) Silicon nitride to the first side of the substrate; patterning the nitride mask and etching the porous silicon, and infusing oxidizer into an area bounded by the LPCVD nitride; wherein the silicon nitride limits an exothermic reaction of the doped silicon to the bounded area. | 07-12-2012 |
20120180678 | Seismic Explosive System - An explosive package is provided for use in seismic exploration which comprises a seismic charge and an addressable switch for selecting that seismic charge for detonation. A fireset is operatively coupled to the addressable switch for receiving a firing voltage via the addressable switch and for producing an actuation voltage. The actuation voltage may, for example be produced by increasing the magnitude of the firing voltage. The actuation voltage is provided to a Detonating Device, which is a device that contains secondary explosives. Examples of a Detonating Device include an exploding bridge wire detonator, an exploding foil initiator detonator and a semiconductor bridge slapper device. Such explosive packages may be arranged in a system for use in seismic exploration which comprises a base unit for providing selection, firing and trigger signals and a plurality of explosive packages that are located at spaced intervals along the earth's surface. | 07-19-2012 |
20120186477 | ENHANCED RELIABILITY MINIATURE PISTON ACTUATOR FOR AN ELECTRONIC THERMAL BATTERY INITIATOR - A system for a piston actuator comprising a configuration with lead styphnate charge material and Nichrome® bridgewire, wherein the device configuration provides very high reliability, including piston actuator applications; resistance of the bridgewire is carefully controlled to optimize power transfer from the firing circuit to the bridgewire and charge material. | 07-26-2012 |
20120199030 | SHOCK HARDENED INITIATOR AND INITIATOR ASSEMBLY - Embodiments of an initiator support assembly that includes an initiator housing including an initiator cavity system are generally described herein. In some embodiments, a bridge substrate is positioned within the initiator cavity. The bridge substrate includes a substrate base including a uniform first planar surface and an opposed second surface. The bridge substrate further includes a first bridge contact extending over the substrate base. The first bridge contact is substantially flush with the first planar surface. A second bridge contact extends over the substrate base. The second bridge contact is substantially flush with the first planar surface. The first and second bridge contacts and the uniform first planar surface form a continuous planar mounting surface. An explosive charge, positioned within the initiator cavity, includes a charge mounting surface that is continuously coupled in surface-to-surface contact across the continuous planar mounting surface. | 08-09-2012 |
20120227606 | EXPLOSIVE FOIL INITIATOR AND METHOD OF MAKING - An exploding foil initiator is disclosed and is comprised of a substrate having a conductive bridge, a flyer, a barrel adjacent the flyer and an explosive packed sleeve adjacent the barrel. The flyer is comprised of a material which does not become more ductile upon a rise in temperature, for example a silicon dioxide material. The sleeve is comprised of a thermally compliant material, such as a silicone. The bridge is provided with a necked down section having a defined thickness which is less than the remainder of the bridge deposition. | 09-13-2012 |
20120234193 | IGNITER WITH A LOCKED CONSOLIDATED POWDER CHARGE - An igniter is described comprising a defined space filled with at least an ignition charge; a bridge wire that is at least partially in heat transmitting contact with the ignition charge; and a means for locking the ignition charge into place with respect to the bridge wire such that any substantial relative motion between the ignition charge and the bridge wire is prevented. This prevents movement of an ignition charge within an igniter, particularly movement of an ignition charge relative to a bridge wire in order to protect the bridge wire from failure such as detaching or breaking. | 09-20-2012 |
20130036930 | METHODS AND SYSTEMS FOR ELECTROPHORETIC DEPOSITION OF ENERGETIC MATERIALS AND COMPOSITIONS THEREOF - A product includes: a part including at least one component characterized as an energetic material, where the at least one component is at least partially characterized by physical characteristics of being deposited by an electrophoretic deposition process. A method includes: providing a plurality of particles of an energetic material suspended in a dispersion liquid to an EPD chamber or configuration; applying a voltage difference across a first pair of electrodes to generate a first electric field in the EPD chamber; and depositing at least some of the particles of the energetic material on at least one surface of a substrate, the substrate being one of the electrodes or being coupled to one of the electrodes. | 02-14-2013 |
20130042780 | High voltage explosive assembly for downhole detonations - A downhole explosive detonation comprises a high voltage electro-explosive initiator comprising an input high voltage power supply with a low impedance shunting fuse, a flexible electrical link and a capacitor discharge unit. Explosive is initiated in a direction approximately parallel, or in another version perpendicular to the capacitor discharge unit. A unique configuration and construction of the assembly allows installation through a small service port in the gun housing structure for more efficient gun arming. A real time downhole voltage monitoring is described that transmits voltage readings to the surface during a firing sequence. | 02-21-2013 |
20130133542 | REACTIVE CONDUCTORS FOR INCREASED EFFICIENCY OF EXPLODING FOIL INITIATORS AND OTHER DETONATORS - Provided among other things are reactive energetic material systems used for conductors in detonators for increased efficiencies. According to an embodiment, a detonator may include: a conductor including at least two constituents including (i) an electrically conductive constituent, and (ii) an electrically non-conductive constituent, that when subjected to sufficient electrical energy, result in an exothermic reaction; and a flyer plate having a non-conductive surface in contact with said conductor. When the sufficient electrical energy is supplied to said conductor, rapid heating and vaporization of at least a portion of the conductor occurs so as to explosively drive at least a portion of the flyer plate away from said conductor. In an embodiment, a multilayer conductor may be formed of alternating layers of at least one electrically conductive layer, and at least one electrically non-conductive layer, that when subjected to sufficient electrical energy, result in an exothermic reaction. | 05-30-2013 |
20130174754 | Inertially Operated Electrical Initiation Devices - An all-fire detection circuit for an electrically initiated inertial igniter munition. The all-fire detection circuit including: an input configured for receiving an input voltage over a duration responsive to an acceleration of the munition; an electrical storage device configured to receive a portion of the input voltage over the duration and to thereby accumulate a charge, an output coupled to the electrical storage device to deliver an all-fire indication when at least a portion of the charge exceeds a first predetermined voltage; and a first diode having a first anode coupled to the input and a first cathode coupled to the electrical storage device, the first diode selected to have a backward leakage draining the charge when the input voltage drops below a second predetermined voltage. | 07-11-2013 |
20130284042 | PYROTECHNIC ELECTRIC GENERATOR - A pyrotechnic electrical generator including an initiator charge mechanism, one or more field poles and an armature that creates a magnetic field, and a coil that produces an electric current is disclosed herein. The armature is positioned within a bore extending through the one or more field poles, and the initiator charge mechanism is positioned in proximity to the armature. The initiator charge mechanism when activated creates a pressure that drives the armature from one end of the bore to the other end of the bore. As the armature travels through the field poles, it creates an alternating magnetic flux in the field poles inducing an alternating current in the coil. The coil then carries the current to a storage device, for example a capacitor and/or battery, or applies the current to one or more other devices as an ignition charge. | 10-31-2013 |
20130284043 | SILVER BRIDGE ELEMENT SLAPPER DETONATOR - A slapper detonator includes a ceramic substrate, a silver bridge element attached on the substrate, electrical leads attached to the silver bridge element and the substrate, a flyer material covering the silver bridge, a spacer element attached to the ceramic substrate, an explosive pellet attached to the spacer element, electrical conductors attached to the electrical leads and a high voltage fireset attached to the electrical conductors. | 10-31-2013 |
20130305948 | IGNITER AND METHOD OF MANUFACTURING AN IGNITER FOR AN INFLATOR - A pyrotechnical igniter ( | 11-21-2013 |
20130319276 | Detonation of Explosives - An explosives detonator system includes a detonator housing within which is provided a detonation circuit that includes a conductive pathway having a fuse head integrated therewith such that the conductive pathway passes along both electrodes and a resistive bridge of the fuse head. An uncharged chargeable voltage source is also integrated with the detonation circuit and is electrically sensitive to a charging property which is included in a charging signal. Exposure to the charging property charges the voltage source, thereby rendering it capable of generating a potential difference between the electrodes at least to equal the breakdown voltage of the resistive bridge. The charging property is any one or more of a charging light pulse, a charging temperature, a charging pressure and a charging radio frequency. | 12-05-2013 |
20130327240 | Reusable Remote Pyrotechnic Ignition System and Device - The present invention is a system and apparatus for providing reusable remote ignition of a pyrotechnic device having an igniter clip, nichrome wire, and an actuator. | 12-12-2013 |
20140208972 | ENERGETIC UNIT BASED ON SEMICONDUCTOR BRIDGE - The invention is an energetic unit comprised of: a container comprised of a base, an upper part, and a cover; a substrate located in the base and comprised of a thin, ribbon-like strip of flexible material that provides electrical contact to external firing circuits; a semiconductor bridge (SCB) chip electrically and physically attached to the substrate; and one or more layers of energetic material which, are packed into the upper part of the container between the SCB chip and the cover. | 07-31-2014 |
20150040786 | VOLTAGE MONITORING FOR FIRESET - An improved fireset for detonating an explosive includes a voltage monitor arranged to measure a voltage across a quickly dischargeable energy storage device (QDESD), such as a capacitor, and to perform a detonation sequence based at least in part on the voltage measured by the voltage monitor. The fireset employs feedback from the voltage monitor to promote accurate charging of the QDESD and accurate maintenance of charge during an armed state. The voltage monitor also promotes safety by allowing the fireset to indicate when the QDESD is discharged to a safe level, i.e., one which is assured not to result in detonation. | 02-12-2015 |
20150307058 | SURFACE MOUNT INITIATORS - An initiator assembly includes an SMI assembly board onto which at least a first and a second initiator are surface mounted. The first and second initiators each include a respective surface mount initiator board with which a respective igniter element is respectively mounted. Corresponding multi-initiator assemblies for automotive airbag inflator devices as well as automotive airbag inflator device combinations are also provided. | 10-29-2015 |
20150323295 | IGNITER WITH A LOCKED CONSOLIDATED POWDER CHARGE - An igniter with a charge sleeve is provided with a through hole having a cylindrical wall, a bridge wire extending at least partially within the through hole, and a consolidated ignition powder charge retained within the through hole of the charge sleeve such that the bridge wire is at least partially embedded in the ignition powder charge. The cylindrical wall comprises at least one of i) a protrusion embedded into consolidated ignition powder charge, ii) a dimple filled with the consolidated ignition powder charge, and iii) at least 2 cylindrical wall sections that are eccentric to each other. The at least one of the protrusion, dimple and 2 cylindrical wall sections positively interlock with the consolidated ignition and output powder charge to prevent the charge both from moving in a radial direction in relation to the bridge wire and from rotating in relation to the bride wire. | 11-12-2015 |
20150330750 | Plasma Gap Detonator with Novel Initiation Scheme - Disclosed is a method and apparatus for use in initiating explosives used in application including well perforating systems. The initiator uses an air gap separating an electrically triggered semiconductor bridge plasma energy creator and a reactive foil abutting an explosive. | 11-19-2015 |
20160084621 | Haptic feedback device for simulator - Haptic feedback system that simulates a detonation or explosive event. The system includes a power supply, an energy storage circuit, a switching circuit, and a conductor operatively connected to said energy storage circuit through said switching circuit whereby said conductor causes a haptic event when said energy storage circuit is electrically connected to said conductor by operation of said switching circuit. The system creates real explosions, shock waves and pressure waves in a safe manner for use in a simulator. | 03-24-2016 |
20160161237 | Electronic Primer Cap for Small-Caliber Ammunition - The invention relates to a primer cap for small-caliber ammunition, having an outer metallic cup in which is arranged a priming composition which generates hot combustion gases following initiation. To enable more versatile control of the initiation process in the weapon, it is proposed that a resistance bridge which can be initiated electrically, and an electrically conductive pole piece, are additionally arranged in the primer cap, wherein the first pole of the resistance bridge is connected to the cup and the second pole is connected to the cup and the second pole is connected to the pole piece, which protrudes out of the cup and is electrically insulated from the same. | 06-09-2016 |
20160169651 | Electromechanical Primer Cap | 06-16-2016 |
20160178333 | SHOCK HARDENED INITIATOR AND INITIATOR ASSEMBLY | 06-23-2016 |