Abstract: The invention relates to a method for establishing a sealed connection between two electric conductors, in particular a strand of a carbon brush and a connecting conductor of a supplementary electric component, wherein contact sections (17, 18) of the conductors are exposed by menus of removing a protective sheathing (13, 27) covering the electric conductors, subsequently an electrically conductive connection of the contact sections is generated for forming a connecting site (14), subsequently a slip collar (19) made of shrinkable plastic material is positioned on the connecting site, said slip collar being provided with at least one axial slip opening (26), and subsequently a protective sheathing of the connecting site is formed from the slip collar using a forming process by supplying thermal energy to the slip collar.

Abstract: To make the fracturing position controlled conveniently with high precision when the substrate end of the probe contact is fractured and cut off. By compressing the front face of the substrate end portion with the pushing member, brittle fracture is generated on the substrate along the carved groove, and the substrate end portion is cut off from the substrate. The fracturing position in the above-mentioned fracturing is controlled so as to be along the fracturing position whose extension puts thereon the stress concentrating ends of two fracturing control structures. Here, the fracturing control structure is located with high positional precision on the front face of the substrate through the alignment technique of photolithography. In this way, resilient armatures constituted of the tips projected from the fracturing position coming to be the end of the substrate 11a can be stably formed with high precision.

Abstract: Various structures, such as microstructures and wall-like structures, can include parts or surfaces that are oblique. In some implementations, a cantilevered element includes a spring-like portion with a uniformly oblique surface or with another artifact of an oblique radiation technique. In some implementations, when a deflecting force is applied, a spring-like portion can provide deflection and spring force within required ranges. Various oblique radiation techniques can be used, such as radiation of a layer through a prism, and structures having spring-like portions with oblique radiation artifacts can be used in various applications, such as with downward or upward deflecting forces.

Abstract: An optical device includes an input/output optical coupler, a waveguide and a waveguide fragment. The optical coupler is configured to separate a received optical signal into first and second signal components. The waveguide is connected to the optical coupler and configured to propagate the first signal component via a first propagation mode. The waveguide fragment is located adjacent to the first waveguide and is configured to couple light from the first waveguide that propagates therein by a different second propagation mode.

Abstract: Microelectronic devices and methods for manufacturing microelectronic devices are disclosed herein. An embodiment of one such method includes forming a plurality of through holes in a substrate with the through holes arranged in arrays, and attaching a plurality of singulated microelectronic dies to the substrate with an active side of the individual dies facing toward the substrate and with a plurality of terminals on the active side of the individual dies aligned with corresponding holes in the substrate. The singulated dies are attached to the substrate after forming the holes in the substrate.

Abstract: In one embodiment, a neurostimulation lead comprises an elongated body of insulative material, comprising a first end portion and a second end portion; a plurality of terminals longitudinally positioned along the first end portion; a plurality of electrodes longitudinally positioned along the second end portion; a plurality of conductors electrically coupling the plurality of electrodes to the plurality of terminals; a flexible metal longitudinal stiffener positioned within the elongated body wherein the stiffener has a plurality of longitudinal zones and each zone has a different column strength, the column strength of one or more zones of the plurality of longitudinal zones being defined by cuts or gaps in the stiffener, the stiffener causing the neurostimulation lead to exhibit a greatest amount of column strength adjacent to one end portion of the elongated body and to transition to a lower column strength toward a medial portion of the elongated body.

Abstract: Device for removing an electrode from an electrode holder and/or fitting an electrode into an electrode holder, said electrode holder forming part of a welding device, said device comprising a spent electrode receptacle provided with an orifice and an assembly mounted on said orifice, said assembly comprising a through passage with a longitudinal axis connecting a housing to hold one end of the electrode holder forming a mandrel, and the receptacle, said longitudinal axis being designed to be approximately vertical, means of tightening or loosening an electrode holder mandrel, means of fixing the electrode to said device and means of enabling or disabling dropping of the spent electrode into the receptacle.

Abstract: The invention relates to contacting elements (910) for contacting one or more electrical components, such as e.g. electrochemical energy stores (901, 902), said contacting elements comprising first flat prismatic recesses for receiving the connecting elements of one or more electrical components, especially the conducting leads (903, 904, 905, 906, 907, 908) of one or more electrochemical energy stores, and second flat prismatic recesses for receiving electrical conductors (912, 913, 914, 915). The contacting elements have bores at a right angle to the first and second flat prismatic recesses, said bores receiving fastening means (909, 911).

Abstract: Disclosed herein are connectors for connecting a variety of wires at a blast site, for versatile set-up of lines extending for example between a blasting machine and detonators, or between different detonators. Also disclosed are methods for providing electrical connection between various components of a blasting apparatus at a blast site.

Abstract: A cathodic electrode includes at least one carrier having at least one active material applied or deposited thereon, wherein the active material includes a mixture made of a lithium/nickel/manganese/cobalt mixed oxide (NMC), which is not present in a spinel structure, and a lithium manganese oxide (LMO) in a spinel structure. An electrochemical cell includes said cathodic electrode and a separator includes at least one porous ceramic material.

Abstract: The disclosure relates to a method for producing a contact piece, for use in a vacuum interrupter chamber, especially in a low, medium or high voltage vacuum interrupter chamber. The aim of the disclosure is to improve multi-layer contact systems in such a manner that even larger layer thicknesses can be used to improve the electrical properties. For this purpose, the contact piece is comprised of at least two layers of powder-metallurgical pressed green compacts with a solder film inserted thereinbetween, the layers being soldered together in a soldering furnace in a desired relative position to each other at the same time the layers are sintered.

Abstract: Disclosed is a three layer process for making contact points to a high transition temperature superconductor (HTSC), particularly to (Bi,Pb)2 Sr2 Ca2 CU3019+x with and without silver in the superconductor. The contact structure is a three layer configuration with a perforated silver foil (3) sandwiched between two metal spray gun deposited silver layers (2,5) and subsequent heat treatment in air. The contact has been made on tubes and rods (1). The silver contacts are capable of carrying a continuous current of 200 Amps without adding any substantial heat load to the cryogen used to cool the HTSC. The contact resistance at 4.2 K is in the range of 1.5×10 (hoch?8) to 8.5? 10 (hoch?8) OHM in zero applied filed.

Abstract: A slide electricity structure according to the present invention uses grease for electrical contacts wherein contact resistance does not gradually increase even when exposed to sliding and lifetime is long, and has a silver-plated spring contact that contacts or separates by way of sliding and grease for electrical contacts that has been applied to the spring contact and contains perfluoropolyether oil having an average molecular weight between 2600 and 12500 as a base oil and PTFE having a primary particle diameter of 1 ?m or less as a thickener.

Abstract: Embodiments relate to coupling and/or holding devices for electrically and/or mechanically contacting circuit elements, such as power sources, sensors, transducers and other devices. In one embodiment, a coupling device comprises a substrate having at least one printed conductive element and at least one fold, flap, slit, slot, perforation or other alteration configured to encourage contact between a circuit element, such as a battery, sensor, transducer or other element, and the at least one printed conductive element.

Abstract: An energy storage device including an anode electrode comprising activated carbon with nitrogen containing surface groups that provide psuedocapacitive properties to the activated carbon, a cathode electrode, a separator, and an electrolyte.

Abstract: A process of fabricating a slip ring component, a slip ring component, and a slip ring assembly are disclosed. The process includes forming a first shot, forming a second shot, and immersion bathing the first shot and the second shot. The immersion bathing applies an electrically conductive plating to exposed surfaces of the second shot.

Abstract: A coaxial cable connector includes a connector body and a post member disposed within the connector body. A coupling nut is threadingly attached to the post member wherein a flanged portion of the post member provides an axial biasing force with regard to an attached interface port. In one version, the flanged portion is slotted.

Abstract: A low resistance, multi-contact point pin, configured for insertion into a pin receptacle having an electrically conductive plating, where the pin includes: a surface and more than one electrically conductive extrusion from the surface of the pin, with each extrusion extruding substantially orthogonal to a direction of insertion of the pin into the pin receptacle, and where the extrusions configured to electrically couple, with parallel resistance, the pin to the electrically conductive plating of the pin receptacle.

Abstract: Provided is electrochemical device, such as a nonaqueous electrolyte battery, which has excellent discharge characteristics and the like by forming a thick electrode using a metal porous body, such as an aluminum porous body, as a current collector. An electrode for an electrochemical device includes a metal porous body filled with an active material, in which the metal porous body is sheet-like and is a stacked porous body in which a plurality of single-layer metal porous bodies are stacked and electrically connected to each other. The metal porous body may be an aluminum porous body having a three-dimensional network structure.

Abstract: A method of processing a linked series of metallic plates, in which each plate (9) is connected to an adjacent plate along adjoining edges (8), the method comprising: providing the series of plates as a first fan-folded stack of plates (1); drawing the plates in sequence from the stack; applying a surface treatment to one or more of the plates; and stacking the plates in reverse order to form a second fan-folded stack of plates (5).

Abstract: Methods are disclosed for manufacturing electronic devices (e.g., transistors, and etc.), solar arrays, optical display arrays, portions of such devices and arrays, and the like. Utilizing a scrape coating and/or a tip printing process, various electronic and solar arrays are manufactured.

Abstract: A connector assembly includes a connector body and a tubular post having one end fitted in said connector body for securing a coaxial cable, the post including a basket portion at an opposite end. An adapter is further provided, the adapter having a set of internal threads for engaging the threads of an external interface port, said adapter further including a portion which is sized to engage within the interior of the basket portion of the tubular post.

Abstract: Method for applying an electrical contact to a hole (2) of a metal wall portion (1), comprising the steps of providing a bush (12), a punch (11) with a shaft (16), an expansion portion (19) and a connecting portion (20) thereof, a pulling device (21) with an abutment portion (22) and a pulling mechanism (23) for engaging the punch (11) and to pulling it proximally with respect to the abutment portion (22), inserting the punch (11) in a passage hole (25) of the bush (12) so that the connecting portion (20) protrudes proximally from the bush and the expansion portion (19) is located on end (14), bush connecting the punch (11) to the pulling device (21), inserting the preassembled bush (12)-punch (11)-unit from a proximal side of the wall portion (1) distally in the hole (2) and activating the pulling device (21) to pull the punch (11) proximally through the bush, thereby radially expanding bush and permanently anchoring it in the hole (2).

Abstract: The invention relates to a method for applying a connection material with a specified shape on at least one surface of at least one workpiece, wherein the connection material and the surface have complementary wetting or wettable properties, and wherein the connection material (3) is deposited on at least one of the surfaces (2) and a shaping device (10, 10?) is arranged at least for the period of a flowable state of the connection material adjacent to the connection material as well as at least partially surrounding this material on the surface (2), wherein this device has a surface (11, 12) that is non-wettable with respect to the wetting properties of the connection material and that is designed for the forced guidance of the flow of the still flowable connection material in the region of the non-wettable surface that thus assumes a specified shape; and the shaped connection material is hardened.

Abstract: An electrically conductive contact element can include a first base and a second base with elongate, spaced apart leaves between the bases. A first end of each leaf can be coupled to the first base and an opposite second end of the leaf can be coupled to the second base. A body of the leaf between the first end and the second end can be sufficiently elongate to respond to a force through said contact element substantially parallel with the first axis and the second axis by first compressing axially while said force is less than a buckling force and then bending while said force is greater than the buckling force.

Abstract: A circuit interrupting device is manufacturable in a number of different configurations providing current path options, conductor connectivity options and sensing options. The device may include a configurable solid insulation housing into which various operable components are installed. The device may include a core element including a sensor assembly and conductor members, from which the various configurations may be established including a plurality of different current path configurations. A plurality of circuit interrupting devices may be configured together in an assembly with corresponding disconnect assemblies. An interlock is provided to prevent operation of the disconnect assemblies unless the circuit interrupting devices are in an open state.

Abstract: A technique for anchoring carbon nanotube columns to a substrate can include use of a filler material placed onto the surface of the substrate into area between the columns and surrounding a base portion of each of the columns.

Abstract: A contact includes a plate with a width that ranges from 0.1 mm or more to 1 mm or less, and a stress concentrated place, where a surface roughness (Ra) on the stress concentrated place is 0.2 ?m or less. When samples whose surface roughness Ra is 0.040 ?m, 0.080 ?m, 0.120 ?m, and 0.180 ?m were used to study a number of repetitive fracture times, as the surface roughness Ra was smaller, the number of repetitive fracture times became larger. Particularly, it is found that the surface roughness Ra may be 0.200 ?m or less in order to satisfy 3000 times as a number of operating times of the battery connector. Further, the surface roughness Ra may be 0.080 ?m or less in order to satisfy 6000 times as the number of operating times when a safety factor is 2.

Abstract: A thin plug connector includes an insulator body having a tongue plate protruding from one side thereof, and a pair of holding portions disposed on two opposite ends thereof. A plurality of terminals are disposed on the insulator body with each terminal including a contact portion disposed on the tongue plate and a soldering portion, wherein the soldering portion is disposed on a first side of the insulator body. A metallic casing covers the insulator body, and has a first opening to permit the tongue plate to extend through the first opening to expose the contact portions of the terminals. The first and second side plates respectively cover the first side and the second side opposite the first side. A pair of connecting plates connecting the first and second side plates blocks the holding portions to limit movement of the insulator body in the direction towards the first opening.

Abstract: A plug for a tool changing system for electrically connecting a tool to a robot hand, including a plug housing to be fastened on a robot arm or on a tool. The plug housing includes a contact chamber and an accommodating chamber arranged substantially above the contact chamber. A connection module having electrically conductive elements is connected to a first peripheral device. The connection module can be arranged in the contact chamber, and a wear module having electrically conductive elements to be connected to a second peripheral device. The connection module and the wear module are arranged in the accommodating chamber. The electrically conductive elements of the connection module can be connected to the electrically conductive elements of the wear module; and the accommodating chamber is arranged in a frame element which is configured separately from the plug housing. The frame element can be connected to the plug housing.

Abstract: During assembly of a medical electrical lead, the tubular lead component is slid over the outer surface of the lead body to a desired location on the lead. The ends of the tubular lead body are sealed and a space is defined between the inner surface of the tubular lead component and the outer surface of the lead body. Medical adhesive is injected through the port(s) to substantially fill the space between the tubular component and the lead body. The adhesive is then cured. Any ports extending away from the sleeve are removed after the curing step.

Abstract: A terminal insertion apparatus having a connector housing holding unit, a terminal insertion unit, and a control unit. The connector housing holding unit holds a connector housing movably in horizontal and vertical directions. The terminal insertion unit inserts a terminal attached to an electric wire into a terminal accommodating chamber of the connector housing. After the terminal insertion unit has inserted an end of the terminal into the terminal accommodating chamber, the control unit controls a movable supporting unit of the connector housing holding unit so as to move a holding jig by amounts of movement in horizontal and vertical directions so that the terminal is not caught on an inner surface of the terminal accommodating chamber, and then the terminal is completely inserted in the terminal accommodating chamber.

Abstract: Various exemplary embodiments relate to an optical waveguide coupler including: a first optical waveguide including a first area and a tapered area having a tapered width; a second optical waveguide including a first area and a tapered area having a tapered width; wherein the first area of the of the second optical waveguide overlaps the tapered area of the first optical wave guide, and wherein the tapered area of the second optical waveguide overlaps the first area of the first optical waveguide.

Abstract: The manufacturing method for a thermal head includes: forming a hollow concave portion and a marking concave portion having a depth larger than a depth of the hollow concave portion on one surface of a thin plate glass; a bonding step of bonding a supporting plate onto the one surface of the thin plate glass, in which the hollow concave portion and the marking concave portion are formed in the concave portion forming step; a thinning step of thinning the thin plate glass onto which the supporting plate is bonded in the bonding step until the marking concave portion extends through the substrate from a side of a back surface opposite to the one surface; and a heating resistor forming step of forming a heating resistor on the back surface of the thin plate glass thinned in the thinning step so as to be opposed to the hollow concave portion.

Abstract: A connector assembly for a medical device includes at least one contact assembly, and each of the at least one contact assembly includes a mounting member, a first contact clip and a second contact clip. A method for assembling the connector assembly includes mounting the first contact clip to one of a first pair of opposing mounting sidewalls, on a first side of a shoulder of the mounting member, and mounting a second contact clip to one of a second pair of opposing mounting sidewalls of the mounting member, on a second side of the shoulder. The mounting member includes a bore, to receive axial insertion of a medical electrical lead connector therein, and the first and second pairs of opposing mounting sidewalls extend about the bore, such that opposing curved legs of each of the mounted connector clips bend into and out from the bore.

Abstract: A grounding strip is described configured to be installed along an edge portion of a substrate for establishing electrical grounding contact between the substrates and a card guide. The grounding strip includes integral grounding members. Each grounding member includes opposing sidewall portions defining a channel configured to receive the edge portion of the substrate therein. The sidewall portions of each grounding member are configured to engage the substrate when the edge portion of the substrate is received in the channel to help retain the edge portion of the substrate in the channel. Each grounding member also includes a contact element disposed generally over the channel. The contact element is integrally formed with at least one of the opposing sidewall portions of the grounding member and is configured to establish electrical contact with the card guide when the grounding strip is installed to the substrate and located in the card guide.

Abstract: A MEMS hysteretic thermal device may be formed having two passive beam segments driven by a current-carrying loop coupled to the surface of a substrate. The first beam segment is configured to move in a direction having a component perpendicular to the substrate surface, whereas the second beam segment is configured to move in a direction having a component parallel to the substrate surface. By providing this two-dimensional motion, a single MEMS hysteretic thermal device may by used to close a switch having at least one stationary contact affixed to the substrate surface.

Abstract: The invention relates to a flexible tube head (40, 40?) comprising a dispensing port which is defined by an edge (41, 41?) and a shoulder (42, 42?), the shoulder connecting the edge to the flexible skirt (30) of the tube. The invention is characterized in that it comprises an electronic component (20) which can be used for the electrically contactless exchange of information with a read or read/write device, normally a Radio Frequency Identification (RFID) type component.

Abstract: An ear plug (200) comprises a shell (206) with at least two electrodes (201-205) adapted for measuring brain wave signals, said electrodes (201-205) being connected with means for processing the measured signals, wherein the contours of the outer surface of the ear plug (200) and the electrodes (201-205) are individually matched to at least part of the ear canal and the concha of the user. The invention further provides a method for producing an ear plug.

Abstract: In one embodiment, a method of fabrication of a stimulation lead comprising a plurality of segmented electrodes for stimulation of tissue of a patient, the method comprises: providing an elongated, substantially cylindrical substrate, the substrate comprising a plurality of recesses defined in an outer surface of the substrate; coating the substrate with conductive material; patterning conductive material on the substrate to form a plurality of electrode surfaces for at least the plurality of segmented electrodes and a plurality of traces connected to the plurality of electrode surfaces, wherein each electrode surface and its corresponding trace are defined in the recesses on the outer surface of the substrate and are electrically isolated from other electrode surfaces and traces; providing insulative material over at least the plurality of traces; and electrically coupling the plurality of traces to conductive wires of a lead body.

Abstract: Methods of fabricating components for microelectronic devices, microelectronic devices including memory cells or other components, and computers including memory devices include forming memory cells. For example, one embodiment is directed toward a method of fabricating a memory cell on a workpiece having a substrate, a plurality of active areas in the substrate, and a dielectric layer over the active areas. One embodiment of the method includes constructing bit line contact openings in the dielectric layer over first portions of the active areas and cell plug openings over second portions of the active areas. The method also includes depositing a first conductive material into the bit line contact openings to form bit line contacts and into the cell plug openings to form cell plugs. A conductive line is formed in a trench in the substrate.

Abstract: A method for using a cable assembly apparatus for coupling a connector to a cable having a base supporting an interface pedestal dimensioned to receive the connector; an inductor coil coupled to an inductor coil actuator operable to move the inductor coil between a load position and an operation position proximate the interface pedestal; a grip clamp operable by a clamp actuator to move between an open position and a closed position above the interface pedestal; and a temperature sensor configured to read a temperature proximate the interface pedestal. The method includes using the apparatus for retaining the pre-assembled connector and cable in an aligned orientation for controlled heating by the induction heater to heat a solder perform to solder the connector to an outer conductor of the cable.

Abstract: A power cable termination for aerial connection houses an end of a power cable and a conductor extension rod connected to an end of a conductor of the cable in a bushing. The bushing is filled with an insulating filler. The insulating filler is composed of any one of: (1) a mixture of a silicone oil and a silicone rubber; (2) a mixture of a silicone oil and a silicone gel; and (3) a mixture of silicone oil, a silicone rubber and a silicone gel.

Abstract: On aspect relates to an electrical bushing for use in a housing of an implantable medical device. The electrical bushing includes at least one electrically insulating base body and at least one electrical conducting element. The conducting element is set up to establish, through the base body, at least one electrically conductive connection between an internal space of the housing and an external space. The conducting element is hermetically sealed with respect to the base body. The at least one conducting element includes at least one cermet. The electrical bushing includes an electrical filter structure. The at least one conducting element forms at least one conducting section of an inductor of the filter structure. Moreover, one aspect relates to an implantable medical device, for example, a cardiac pacemaker or defibrillator, having at least one electrical bushing according to one embodiment.

Abstract: Disclosed are apparatus comprising single-path and multiple-path compliant interconnects that are coupled between electrical contacts and that allow for increased electrical performance without compromising mechanical reliability. Exemplary apparatus comprises a conductive vertical anchor coupled at a first end to an electrical contact; and one or more conductive arcuate beams coupled at a first end to a second end of the vertical anchor, and coupled at a second end to a second electrical contact. One electrical contact comprises a die contact pad and the other electrical contact comprises a substrate contact pad. Alternatively, one electrical contact comprises a substrate contact pad and the other electrical contact comprises a printed circuit board contact pad. Also, one electrical contact comprises a die contact pad and the other electrical contact comprises a printed circuit board contact pad. Methods of fabricating the apparatus are also disclosed.

Abstract: An electrical connector for connecting to ground and first and second signal lines includes a ground contact, a first signal contact, a second signal contact, and a switch connected to the first signal contact and the ground contact. The switch is biased “on” until after the first signal contact is connected to the first signal line, the ground contact is connected to the ground, and the second signal contact is connected to the second signal line. The switch, during connection of the connector to ground and first and second signal lines, is thereby automatically triggered to “off” during connection of the connector. If the first and second signal lines are differential signals, the switch, instead, electrically connects and disconnects the first signal contact to the second signal contact.

Abstract: In one embodiment, a process, for fabricating a medical lead for stimulation of tissue of a patient, comprises: forming a plurality of electrode assemblies wherein each electrode assembly of the plurality of electrode assemblies comprises a respective plurality of segmented electrodes angularly separated by ribs formed in one or more segments of thermoplastic tape; electrically coupling a conductor to each segmented electrode; molding polymer material around each segmented electrode of the plurality of segmented electrodes to interlock each segmented electrode with polymer material to form a distal end of the medical lead; and fusing the one or more segments of thermoplastic tape of each of the plurality of electrode assemblies with the polymer material.

Abstract: Described is an implantable lead comprising a flexible body extending between a proximal end and a distal end and a distal assembly coupled to the distal end of the body. The distal assembly includes a housing having a distal end and a proximal end, the proximal end fixedly coupled to the distal end of the lead body, a coupler rotatably disposed within the housing, the coupler having a proximal end and a distal end, and a helical electrode fixedly secured to the distal end of the coupler. The helical electrode comprises a proximal axial length portion that comprises a non-degradable material, and a distal axial length portion that comprises a biodegradable material. The coupler and the helical electrode are configured to rotate and therefore translate relative to the housing.

Abstract: A data cable connector module with a fixation element for the positioning and fixation of the cable conductors of a multi core cable, conductor receiving units for bent IDCs, IDC receiving units for fixation of connected IDCs; a centric metallic shield star electrically conductively connected with a fixation element housing; and a contact module with a contact module metal housing, an isolation socket for the reception of bent slide circuit board contacts; at least one circuit board, a front connector face; and a fixation element connector face with at least one end isolator block guided plug-in contacts, the fixation element and the contact module being developed so that they can be brought into contact with the IDCs, causing the cable conductors of the fixation element to be electrically conductively connected with the slide contacts of the contact module; and a process for the assembly of the module to a cable.

Abstract: A method for manufacturing a corrosion sensor includes applying a first layer of non-conductive material to a substrate, writing a conductive material at discrete locations on the non-conductive material, and writing the conductive material at discrete locations on the previously written conductive material. The method further includes applying a second layer of non-conductive material over the conductive material and machining at least a portion of the second layer of non-conductive material to expose at least a portion of the conductive material.