Abstract: Various air-actuated components of a disk drive are disclosed. For instance, an air-actuated load/unload ramp may be used by a disk drive and which is movable between a parked position and an operational position. An air-actuated ramp lock may be used by a disk drive to lock a movable load/unload ramp (e.g., one that may move between a parked position and an operational position). Finally, an air-actuated head positioner assembly may be used by a disk drive to lock a head positioner assembly in its parked position. In each of these cases, air currents generated by a rotation of one or more disks used by the disk drive provide the motive force for moving the noted air-actuated component at least generally from one position to another.

Abstract: An assembly comprises a housing and a rotatable data disc within the housing. The rotatable data disc creates a gas flow within the housing when the rotatable data disc rotates. The assembly further comprises a filter at a perimeter position of the rotatable data disc positioned to capture a portion of the gas flow, a first support element fixed relative to the housing and adjacent an upstream side of the filter, wherein the portion of the gas flow circumscribes the first support element and a second support element fixed to the housing and adjacent a downstream side of the filter, wherein the portion of the gas flow also circumscribes the second support element.

Abstract: A method for making a highly birefringent optical fiber includes providing a preform with a substantially circular cross section. The preform includes a core region having a substantially circular cross section and a substantially elliptical cladding region adjacent the core region. The outer surface of the preform is modified to create a shaped preform with a non-circular cross section. The shaped preform is then drawn at a temperature and draw rate sufficient to provide an optical fiber with the non-circular cross section of the shaped preform.

Abstract: A detection system determines the position of an object moving along a first direction. The system includes a magnetic field source generating a magnetic field signal and a magnetic field detection system coupled to the object. The detection system includes a source interface module with magnetic field sensors positioned a known distance apart along a second direction different from the first direction. Each sensor detects the magnetic field generated by the magnetic field source and generates a magnetic field signal. A processing module processes the magnetic field intensity signal produced by the source interface module. The processing module generates data for each sensor in the source interface module, which is made up of points representing peak magnetic field and sensor location along the second direction. The points are compared to determine the distance of the object from the magnetic field source along the second direction.

Abstract: A preformed fiber optic applique having a backing layer is provided. The backing layer or film has an adhesive coating applied thereon. At least one optical fiber is routed and bonded to the adhesive layer providing a continuous optical signal path from one end to another. A releasable liner is releasably attached to the adhesive layer and positioned to cover the backing layer including the at least one optical fiber. Microstructures are provided on the backing layer in one embodiment. The microstructures are crushable structures that prevent the adhesive from immediately adhering to a substrate.

Abstract: The present invention is a process for manufacturing an optical fiber Bragg grating, which in a preferred embodiment includes the steps of: (a) removing at least a portion of a removable coating on an optical fiber element in at least one predetermined section to sufficiently expose the optical fiber in the section for a subsequent treatment by a source of optical radiation; (b) fixing the at least one section with respect to the source of optical radiation; (c) directing optical radiation from the source into the optical fiber to produce at least one Bragg grating in the at least one section; and (d) covering the at least one section. The present invention also extends to an apparatus for carrying out the process steps described above, which includes means for coating removal, means for fiber immobilization, means for writing a Bragg grating, and means for packaging.

Abstract: A composition that includes the following compounds: ##STR1## wherein R.sup.1, which may be the same or different, is a hydrophilic group; R.sup.2, which may the same or different, is selected from the group consisting of electron donating groups, electron withdrawing groups, and electron neutral groups; R.sup.3 is a positively charged heteroaromatic ring linked to the triazine backbone through a nitrogen atom in the R.sup.3 ring; and X.sup.- is a counterion. If R.sup.3 is an unsubstituted pyridine, the counterion X.sup.- may be selected from any counterion other than Cl.sup.- and OH.sup.-. Otherwise, the counterion X.sup.- may be selected from any counterion. The compound may be applied to a substrate to form a birefringent optical retardation device. The retardation device may be used in display devices such as computers and the like to correct the phase and polarization states of the display's emitted light and improve image quality at viewing angles away from the normal.

Abstract: A method of making an optical fiber device, which comprises the steps of providing an optical fiber element comprising an optical fiber having at least one thermally removable coating thereon, and thermally removing all or a predetermined portion of the thermally removable coating(s) to sufficiently expose said optical fiber for a subsequent processing step. Following removal of the thermally removable coating, the optical fiber has a predetermined median fracture stress, as measured according to FOTP-28. The optical fiber may then be processed into an optical fiber device and optionally recoated.

Abstract: A stubless optoelectronic device receptacle for connecting multifiber optical ribbon cables to optoelectronic semiconductor components is provided. The optoelectronic device receptacle consists of a receptacle alignment block portion contained in the receptacle body. The alignment block has a connector coupling surface for engaging the fiber optic ribbon connector. An optoelectronic semiconductor component is fixedly mounted to the connector coupling surface of the alignment block and a flexible circuit is then mounted to the electronic semiconductor component to provide power to the component. In the preferred embodiment, the alignment block contains mechanical features which perform precision alignment of the block to a connector attached to the fiber ribbon cable.

Abstract: The invention provides electrographic imaging sheets comprising a substrate carrying a layer of dielectric material which has abhesive properties suitable for the release of a multicolored toner image from the dielectric surface during image transfer, while also having good toning properties during the several development stages of a multicolor toner imaging process.

Abstract: A electromagnetic-power-absorbing composite, comprising a binder and a plurality of multilayered flakes dispersed in the binder. The multilayered flakes include at least one layer pair comprising one thin film crystalline ferromagnetic metal layer adjacent to one thin film dielectric layer. The multilayered flakes are preferably present in an amount in the range from about 0.1% to about 10% by volume of the composite. The composite is useful for absorbing electromagnetic power having a frequency in the range from 5 to 6000 MHz so as to produce heat.

Abstract: An optical fiber connector ferrule that satisfies the existing need for providing an easy to manufacture, inexpensive optical connector having multiple alignment methods is provided. In particular, an optical fiber connector ferrule having a fiber engaging and alignment surface for engaging and aligning at least one optical fiber is provided. The ferrule also has a connector engagement surface. Additionally, the connector ferrule of the present invention has the capability of providing multiple alignment methods for providing compatibility with many different connector devices. Examples of the multiple alignment methods include ball and socket alignment, pin and socket alignment, and edge alignment methods.

Abstract: A preformed fiber optic applique having a backing layer is provided. The backing layer or film, has an adhesive coating applied thereon. At least one optical fiber is routed and bonded to the adhesive layer providing a continuous optical signal path from one end to another. A releasable liner is releasably attached to the adhesive layer and positioned to cover the backing layer including the at least one optical fiber. Microstructures are provided on the backing layer in one embodiment. The microstructures are crushable structures that prevent the adhesive from immediately adhering to a substrate.

Abstract: A line light source comprising a point line source, e.g., a light emitting diode (LED), and a light pipe having a rectangular, e.g., square, cross-section. Light rays from the point light source enter one end of the light pipe and travel along the length of the pipe. The light rays are reflected off notches or step-facets on one of the four sides of the light pipe. The light rays then pass across the light pipe and exit from the side of the light pipe opposite the notched/faceted side. The square cross-section of the light pipe of the present invention preserves the modes emitted from the point light source, i.e., the cone of emission from the light pipe is about the same as that from the light source. The light source converts a point light source to a line light source which emits light rays at a relatively uniform intensity along the length of the light pipe.

Abstract: Method for making Z-axis interconnections between adjacent circuit layers with electrically conductive traces, in multi-layered circuits, include connecting a conducting member of a deformable material to a circuit board layer and depositing an adhesive layer over an adjacent circuit board layer. The adjacent circuit layers are aligned, with the conducting member substantially collinear with the conductive traces of the adjacent circuit layers, and the circuit layers are brought together by pressure, such that the conducting member penetrates the adhesive layer and deforms until it "cracks". The cracking exposes fresh (unoxidized) material that contacts a conductive trace, joining the circuit layers together and creating a low resistance electrical connection. The adhesive serves to bound expansion of the deformable conducting member, reducing any potential contacts with adjacent conducting members.

Abstract: The present invention is a fiber optic cable connector for providing a low cost connector that provides strain relief to optical fibers without compromising an optical coupling. The cable connector has a connector body that has front and back ends. The front end of the cable body has a pair of latching members extending therefrom and a mounting post that also extends therefrom. The back end of the connector body is tapered to form a cable transition member. A connector body cover is provided to protect optical fibers residing between the connector body and the body cover. A fiber alignment block, or ferrule, is provided that has a fiber receiving surface for receiving at least one optical fiber and a connector body engagement surface and an optical interface surface. A plurality of alignment grooves are formed in the receiving surface for aligning the at least one optical fiber.

Abstract: Electromagnetic and electrical apparatuses use a laminate structure having a thermoplastic elastomer with variable dielectric loss as a dielectric layer. A conductive layer laminated to the thermoplastic elastomer allow use for applications such as printed circuit boards and slot antennas. Additional conductive and dielectric layers still allow use as a printed circuit board as well as other antenna structures. Some embodiments of the apparatuses disclosed exhibit many desired properties, such as flexibility, conformability and weatherability.

Abstract: A high-density optical fiber connector in which a plurality of ferrules containing the terminal ends of optical fibers are individually sprung and axially and transversely free to provide improved interconnection reliability. The present invention is a three component fiber optic connector for high density interconnection environments. The first component, a first male connector member, will typically be mounted on an edge of a generally planar substrate such as, for example, a circuit board, and includes a plurality of independently sprung, axially and transversely free optical fiber ferrules. The second component, a second male connector member, also includes a plurality of independently sprung, axially transversely free optical fiber ferrules. The third component, a coupling member, receives and couples together the first and second male members.

Abstract: The present invention discloses an optoelectronic device receptacle for connecting at least one fiber cables to optical semiconductor components and a method for manufacturing the same. The optoelectronic device receptacle comprises a receptacle alignment block subassembly and a coupling body. The receptacle alignment block subassembly comprises a first alignment block portion having at least one groove formed therein. A second alignment block portion is provided for mating with the first alignment block portion. An optical fiber is disposed in the first alignment block portion. Each optical fiber is for transmitting light through the optoelectronic interface device. Finally, an adhesive is provided to secure the first and second device portions together. The receptacle alignment block subassembly further comprises an optoelectronic device array optically aligned to the alignment block, and a method of providing electrical contact to the optoelectronic devices.

Abstract: An optical fiber element includes an optical fiber having a numerical aperture ranging from 0.08 to 0.34 and a protective coating affixed to the outer surface of the optical fiber. The protective coating has a Shore D .?.hardnees.!. .Iadd.hardness .Iaddend.value of 65 or more and remains on the optical fiber during connectorization so that the fiber is neither damaged by the blades of a stripping tool nor subjected to chemical or physical attack.