Abstract: An apparatus for placing solder balls in a pattern on a substrate, e.g., to form a ball grid array, the apparatus comprising a template having a first plane, a second plane, and a plurality of holes passing substantially orthogonally through the first and second planes parallel to an axis and corresponding in location to the pattern. Each of the holes is slightly larger than a solder ball diameter. The apparatus also including a porous base having first and second planes, wherein the first plane of the base contacts the second plane of the template. The base is permeable to a fluid in a first direction from the first plane of the template toward the second plane of the base. The apparatus further includes a fluid controller in fluid communication with the base for selectively causing the fluid to pass through the holes and through the base in the first direction to force the solder balls into the holes.

Abstract: A lens aperture of an autostereoscopic camera is moved in a parallax scanning pattern through a plurality of disparity positions offset from the optical axis of the camera lens. Images of a scene being photographed, as viewed through the lens aperture in its various disparity positions, are recorded for subsequent display, which produces a three dimensional illusion when viewed on a conventional display with the unaided eye. The size of the lens aperture and the parallax scanning pattern are adjustable to suit conditions. The lens aperture may be defined by a through-hole in an opaque card, a plurality of interleaved leaf elements, or a planar array of cells switched between transparent and opaque states. In addition to stereoscopic imaging, the moving lens aperture principle of the present invention may be utilized in range-finding and camera image stabilization applications.

Abstract: A method and apparatus for setting and repeatably and reliably maintaining a desired image resolution. The invention features an optical, image acquiring device and a pair of light sources, the beams from which are caused to converge at a distance from the optical device which provides the desired resolution. Subsequently, positioning the optical device with the point of convergence of the beams on the surface of an object being imaged ensures the desired resolution. In preferred embodiments, the plane yielding the desired resolution is caused to be coincident with the plane of optimal focus.

Abstract: A process for increasing the etch resistance of photoresists, especially positive working 193 nm sensitive photoresists which are suitable for use in the production of microelectronic devices such as integrated circuits. A 193 nm photosensitive composition is coated onto a substrate, exposed to activating energy at a wavelength of 193 nm to decompose the polymer in the imagewise exposed areas; and developed to remove the exposed nonimage areas. Then the image areas are exposed to sufficient electron beam radiation to increase the resistance of the image areas to an etchant.

Abstract: A system and method for ordering and purchasing eyeglasses remotely via a network includes a user access unit, an eyeglass ordering and marketing service center, and a network that connects therebetween. The network eyeglass ordering and marketing system includes an eyeglass frame selection unit for selecting eyeglass frames from among a plurality of eyeglass frames in response to user input, a display generator for creating and displaying information concerning eyeglass frames, a vision test unit for testing the vision of the network user, and an eyeglass lens selection unit for selecting lenses from among a plurality of eyeglass lenses in response to user input. The system also includes an eyeglass ordering and marketing processor wherein the frame selection unit, the vision test unit, and the lens selection unit carry out a vision test in response to the requirements of the user. Appropriate eyeglass frames and eyeglass lenses are determined which best fit the user.

Abstract: The invention relates to an installation for signalling the deceleration of a motor vehicle. It comprises a signal lamp having an illuminating area divided into luminous sections, each equipped with its own light source, and means for controlling the lighting of a number of light sources which increases with the deceleration of the vehicle. The luminous intensity of the illuminating area remains substantially constant whatever the number of lighting sections lit. This constant intensity can be obtained by supplying the light sources with substantially constant power. The means for controlling the lighting of the light sources comprise a deceleration sensor and connection means which selectively link the light sources to an electrical-energy source as a function of an output signal from the sensor.

Abstract: A polymeric front optical element blank is provided which may be laminated to a rear optical element blank. The polymeric front blank comprises an optical element having an exterior convex surface and an interior concave surface, with an edge between the exterior convex surface and the interior concave surface. The optical is provided with at least two projections which extend away from and higher than the edge on a side of the optical element having the concave surface. These projections assist in aligning an back optical element during lamination so that the two lenses will not move out of optical registry during lamination, especially where centrifugal forces are used to spread an adhesive between the front and rear lenses. It is preferred that there are at least three projections extending away from and higher than the edge on a side of the optical element having the concave surface.

Abstract: A universal frequency translation module (UFT) frequency translates an electromagnetic (EM) input signal by sampling the EM input signal according to a periodic control signal (also called an aliasing signal). By controlling the relative sampling time, the UFT module implements a relative phase shift during frequency translation. In other words, a relative phase shift can be introduced in the output signal by sampling the input signal at one point in time relative to another point in time. As such, the UFT module can be configured as an integrated frequency translator and phase-shifter. This includes the UFT module as an integrated down-converter and phase shifter, and the UFT module as an integrated up-converter and phase shifter. Applications of universal frequency translation and phase shifting include phased array antennas that utilize integrated frequency translation and phase shifting technology to steer the one or more main beams of the phased array antenna.

Abstract: The invention provides a pick and place system having a taper module that determines both placement and direction of the carrier tape by optically counting sprocket holes as they move in either direction. Compartments in a carrier tape are serially spaced along the longitudinal axis of the tape. The tape also includes a plurality of sprocket holes serially spaced along a line that is parallel to the longitudinal axis of the tape. The distance between compartments corresponds to a predetermined number of sprocket holes. Two optical couplers are set at a predetermined distance smaller than the s pacing between consecutive sprocket holes. Signals from the couplers will have a unique sequence depending on the direction of the tape. By using direction and number of sprocket holes, the exact position of the tape can be determined.

Abstract: A cosmetic system and technique are provided for improving the texture and appearance of an individual's skin. The system includes a light transport modifier that may be applied to a portion of the individual's epidermis. The light transport modifier is designed to displace naturally occurring water within that portion. Energy from an appropriate laser, infrared lamp, or the sun can then be directed to a treatment area beneath the epidermal layer without detrimental heat buildup in that area of the epidermis.

Abstract: The present invention relates to a device for the input and processing of information comprising sensor elements arranged in matrix form, which are integrally formed on a substrate. Each sensor element comprises output electronics (3) and at least one photovoltaic cell (PD), which is adapted to convert an optical signal incident upon the photovoltaic cell to an electrical signal. The device according to the invention is characterized in that each sensor element is adapted to perform compensation of an offset error in the output electronics (3) forming part of the sensor element and that each sensor element is adapted to perform the said offset compensation independently of the other sensor elements in the device.

Abstract: A pair of eyeglasses includes a lens having through-holes near both edges thereof. A lug connected to a temple is installed at one end of the lens. A connection member having a lens-holding portion, a columnar member and a supporting piece is formed at one end of the lug. The outer diameter of the columnar member is substantially equal to the inner diameter of the through-hole of the lens, and the distance between the inner side of the supporting piece and the columnar member is substantially equal to the distance between the end of the lens and the through-hole. A flexible washer is interposed between the head part of the fastener and the lens. A connection member is disposed at an end of a bridge, which is installed at other end of the lens.

Abstract: A method of making an optical element that includes a thermoplastic power portion, the method including laminating a first thermoplastic sheet to one side of a functional film, laminating a second thermoplastic sheet to a second side of the functional film, and affixing either the first thermoplastic sheet or the second thermoplastic sheet to the power portion, with the other of the first or second thermoplastic sheets being open to atmosphere.

Abstract: Compositions for topical ophthalmic application comprising an aqueous mixture of a non-steroidal anti-inflammatory agent. The compositions are formulated with a pH and concentration of agent chosen to maintain at least some of the therapeutic agent of the formulation in suspension.

Abstract: An integrated ophthalmic illumination method and system having two integrated light sources, a lamp and an infra-red (IR) diode laser. The lamp light source may be used to produce either monochromatic or color images, as necessary, at high resolution. In a preferred embodiment, color images are provided using an RGBT (red-green-blue-transparent) filter wheel. The filter wheel is divided into four sections or arc sections around the periphery of the wheel. Three of the four partitioned sections are larger and equal sections that comprise the three optical R, G and B filter sections. The fourth section is a transparent, or empty, narrow section that is used for transferring the full original content of the white beam when a monochromatic or chromatic image is desired. The RGBT wheel rotates at a speed of one third of the frame rate of a CCD camera, producing a sequence of definite R, G and B spectral light bursts.

Abstract: The present invention relates to an apparatus and method for using the apparatus for injecting an agent into a tissue, particularly into thin tissues such as the sclera of the eye. The invention provides an apparatus and method for effectively imbedding a needle into a tissue at a predetermined penetration approach angle and penetration distance thereby reducing the risk of penetrating the full thickness of the tissue. The invention includes a support element and a needle guide platform disposed on the support element with an external support surface and a channel extending therethrough and terminating in an aperture at the support surface. A needle disposed in the channel is axially movable along an axis of injection through the channel. The needle is movable from a first retracted position to an extended position corresponding to the penetration distance, along the axis of injection.

Abstract: A canalicular plug includes a throughbore provided with a valve. Preferably, the plug has a proximal occluding head, a central shaft and a distal body portion. The throughbore is preferably stepped and includes a large proximal portion for receiving an insertion tool and a smaller distal portion. The valve is preferably integrally molded with the canalicular plug, and the plug is preferably made from a resilient biocompatible material. According to a preferred aspect of the invention, the distal body portion includes at least one slot dividing the distal portion into a plurality of resilient portions which are biased apart and coupled by a foldable curtain portion extending between the resilient portions. The resilient portions are inwardly compressible about the slot. When compressed together, the distal ends of the resilient portions together form a generally conical or frustoconical shape which facilitates insertion through the punctal opening.

Abstract: Improved method and apparatus for hand-held portable illumination. A flashlight and corresponding method are described. The flashlight includes a housing, a plurality of LEDs, and an electrical circuit that selectively applies power from the DC voltage source to the LED units, wherein the flashlight is suitable for handheld portable operation by a user. In one embodiment, the first electrical circuit further includes a control circuit for maintaining a predetermined light output level of the LED units as a charge on a battery varies. In another embodiment, the control circuit maintains an average predetermined light output level of the LED units as the charge on the battery cell varies by changing a pulse width or frequency as the charge on the battery cell varies to maintain a given average light output.

Abstract: A system and method is provided for integrating corneal topographic data and ocular wavefront data with primary ametropia measurements to create a soft contact lens design. Corneal topographic data is used to design a better fitting soft contact lens by achieving a contact lens back surface which is uniquely matched to a particular corneal topography, or which is an averaged shape based on the particular corneal topography. In the case of a uniquely matched contact lens back surface, the unique back surface design also corrects for the primary and higher order optical aberrations of the cornea. Additionally, ocular wavefront analysis is used to determine the total optical aberration present in the eye. The total optical aberration, less any corneal optical aberration corrected utilizing the contact lens back surface, is corrected via the contact lens front surface design.

Abstract: An apparatus is provided for removing and transporting articles, such as contact lens sections from a manufacturing line to inspection and packaging stations. The lenses are deposited in a transparent plastic primary package which carries the lenses through the inspection station and becomes part of the primary package when a cover is sealed thereto. The invention includes various assemblies, including lens transfer assemblies, deionized water filling and removal assemblies, a water degassing assembly, a lens inspection assembly, and a lens package sealing assembly. The lenses are removed from pallets at a post hydration station, transported and spatially redistributed, and deposited in the primary packages disposed on a second set of pallets. The packages on the second set of pallets are filled with degassed deionized water. The contact lenses and packages are then transported to an inspection station.