Abstract: An optical device and method for bidirectional communication in both high and low bit rate applications simultaneously using a polarization-sensitive beam splitting cube and optical port assemblies. The device provides optical isolation for a transmitting laser optic source and provides optical reflection of an optical beam to a receiver, simultaneously, over a single fiber optic link.

Abstract: An apparatus which aligns a ball grid array (BGA) device over a substrate. The apparatus preferably includes a cup-shaped member for cupping and holding the solder balls of the BGA device, and an elongate member attached to the cup-shaped member. The cup-shaped member is attached between the BGA device and the substrate at two or more different positions so that the solder balls of the BGA device become aligned over the terminals of the substrate by operation of gravity.

Abstract: A method of improving the performance of optical fiber which is interconnected between a first point of support on a first device in a piece of equipment and a second point of support in a second device in said piece of equipment comprising: a. determining the axis of said piece of equipment through said first point of support; a first line through said first point of support and perpendicular to said axis; a second line through said second point of support and perpendicular to said axis; the interconnect span, ; along said axis between said first point of support and said second perpendicular line; the lateral misalignment, &Dgr;, between said axis and said second point of support along said second perpendicular line; the angular misalignment, &agr;, of said first device in a counterclockwise direction versus said first perpendicular line; and the angular misalignment, &bgr;, of said second device in a clockwise direction versus said second perpendicular line; b.

Abstract: A process for fabricating a silica-based optical device on a silicon substrate is disclosed. The device has a cladding formed in a silicon substrate. The device also has an active region, and that active region is formed on the cladding. The cladding is fabricated by forming a region of porous silicon in the silicon substrate. The porous silicon is then oxidized and densified. After densification, the active region of the device is formed on the cladding.

Abstract: The invention in one aspect is an optical modulator which includes a waveguide region of semiconductor material. In order to achieve a gradual, essentially linear transfer function, the bandgap of the waveguide region is graded along the direction of light propogation or perpendicular thereto. In accordance with another aspect, the invention is an electroabsorption modulated laser where the portion of the waveguide region defining the modulator has a graded bandgap. In accordance with a method aspect, the waveguide region of the modulator is grown using a mask having a varying width to achieve the graded bandgap.

Abstract: A sub-miniature push-on RF connector for connecting a transmission line to a signal sink. The connector has a shielded transmission line section having a signal line and a ground line extending axially through the connector. A center pin is coupled to the signal line and extends from the center of a front face of the connector in an axial direction. A semicircular tab coupled to the ground line extends from the front face of the connector substantially along the length of the center pin and partially surrounding the center pin to reduce an air gap impedance, the tab having first and second wire bonding surfaces at the ends of the semicircular shape thereof and disposed adjacent to said center pin.

Abstract: The present invention teaches a novel technique for properly aligning the various channel positions of an optical signal splitter/combiner device, such as a DWDM, and associated optical transmitter(s), often a laser. In particular, the described technique establishes and utilizes feedback links between the operating temperature of the splitter/combiner and the operating temperature or operating current of the transmitter(s) to accurately manipulate the wavelengths of these devices in a manner that results in accurate alignment of the device wavelengths to the desired grid of channel positions, &lgr;0, &lgr;1, &lgr;2, &lgr;3, . . . , &lgr;n. Furthermore, by providing this active alignment or tracking scheme, the techniques of the present invention allows optical systems to more effectively operate at smaller channel spacings, i.e. ≦ about 50 GHz between adjacent channel positions, and with larger number of channels per device, i.e. ≧ about 32 channels.

Abstract: A wavelength stabilized laser system includes a laser that produces a laser light. The laser light has an amplitude and a wavelength that vary with the laser temperature. A first detector provides a first signal representing the amplitude of the laser light. A filter has a gain that is a function of the wavelength of the laser light. The filter receives the laser light and outputs a filtered light having an amplitude that varies with the wavelength of the laser light. A second detector provides a second signal representing the amplitude of the filtered light. A transformer has a primary and a secondary. The primary is electrically coupled to the first and second detectors. The primary of the transformer includes a first coil connected to the first detector and a second coil connected to the second detector. The first and second coils of the primary are opposite in polarity from each other.

Abstract: A variable attenuator device is disclosed that may be magnetically and latchably controlled such that it does not require a continuous power supply to maintain a particular loss level. The variable attenuator comprises two optical components disposed in spaced apart relation to define a gap between them and a magnetic shutter positioned within the gap. The shutter is movable, due to its magnetic properties, from a first position to at least a second position, where the second position may be within, partially within, or outside of the gap. A mechanism is provided for magnetizing or actuating the shutter to cause it to move from the first position to the at least second position. When the shutter is in the first position, it causes a certain amount of attenuation in the signal being transmitted between the two optical components, and when it moves to the at least second position, a different amount of attenuation is caused, such that movement of the shutter causes a variation in the attenuation.

Abstract: A process for fabricating a MEMS device is disclosed. The device has at least one hinged element. The MEMS device including the hinged element is delineated and defined on a semiconductor substrate. The substrate is placed device side down in a chamber. The MEMS device is then exposed to a release expedient for sufficient amount of time for the release expedient to dissolve a sacrificial material connecting the element to the substrate. Upon the dissolution of the sacrificial material, the element is released from the substrate and pivots away from the surface.

Abstract: A micro-electro-mechanical (MEM) optical device having a reduced footprint for increasing yield on a substrate. The MEM device includes an optical element having an outer edge and supported by a support structure disposed on a substrate. The support structure is mechanically connected to the substrate through first and second pairs of beams which move the structure to an active position for elevating the optic device above the substrate. When in an elevated position, the optical device can be selectively tilted for deflecting optic signals. The beams are connected at one end to the support structure, at the other end to the substrate and are disposed so that the first and second beam ends are located proximate the optical device outer edge. In a preferred embodiment, a stiction force reducing element is included on the outer edge of the optical device for reducing the contact area between the optic device edge and the substrate.

Abstract: A method is disclosed for inserting test points in RTL VHDL designs or other high level circuit designs such that after a synthesis process the resulting gate-level design contains test points which improves fault coverage in a Full Scan BIST environment.

Abstract: A small sample of a refractory material, e.g., about 0.1 g to about 10 g, is heated to at least 1000° C., generally under a pressure of less than about 10−5 Torr. Evolved hydrogen-containing gases and/or carbon-containing gases are monitored, e.g., by mass spectrometry, and, based on the amount of the evolved gases, the concentration of hydrogen and/or carbon in the sample is calculated. It is therefore possible to accurately determine the hydrogen and carbon concentration from a small sample of a material, by a process much less burdensome than conventional techniques.

Abstract: A system is provided for removing large semiconductor work pieces from an adhesive film. A pick and place apparatus is provided with a collet bar with elongated sides and opposed ends. A channel extends into a cavity on a lower surface of the collet bar. The channel receives a vacuum. The collet bar is angled from a longitudinal axis of the larger work piece to be removed. The work piece may be aligned with a cylindrical roller located under the adhesive film. The angle is chosen to extend the bar across a majority of the width of the work piece. By lowering the collet bar, a first end contacts the work piece, which may be tilted on the roller. Further lowering of the collet bar tilts the semiconductor work piece up into the same plane as the lower surface of the collet bar.

Abstract: A method is disclosed for frequency stabilization of an optical source, using data obtained from a frequency stabilization system based on an optical frequency discriminator to stabilize the output of a laser to a particular grid channel. The data is mathematically manipulated to double the number of channels as compared to prior art methods and allows arbitrary channel spacing about the channels.

Abstract: A fiber optic apparatus and a method for altering the orientation of a mirror of the fiber optic apparatus using a laser. The fiber optic apparatus comprises an optical wave guide with at least one optical fiber, a retaining structure, and a mirror. The retaining structure includes at least one lens disposed therein. The optical wave guide is coupled to a first end of the retaining structure and the mirror is coupled to a second end of the retaining structure so that the lens is disposed between the wave guide and the mirror. When the apparatus is being assembled, a portion of the retaining structure is illuminated with a laser to correct misalignments of the components of the apparatus.

Abstract: A non-mechanical electrically adjustable delay device which does not suffer from interruptions in impedance inherent in multiple-tap delay lines. The wide band electrical delay line is capable of delaying a wide band of signals without significant distortion, e.g., up into the microwave range, and allows continuous transmission of a signal between the input port and the output port. The exemplary wide band electrical delay line comprises two transmission lines, preferably parallel to one another, and having different propagation velocities. A plurality of electrical cross connect circuits are connected between the two transmission lines. The electrical cross connect circuits are spaced along the lengths of the two transmission lines, e.g., preferably to form evenly spaced distances therebetween. The total delay through the wide band electrical delay line is adjusted by selectively activating an appropriate one of the plurality of cross connect circuits between the two transmission lines.

Abstract: Overlapped coupler combination Photonic Lightguide Circuits for routing optical signals within an optical communication system include at least two couplers whose planar slab waveguides are disposed in supportedly overlying relation so as to conserve wafer real estate. In a preferred form of the invention wherein a Dragone router is implemented, output waveguides of a first of the couplers are connected to the input waveguides of a second of the couplers at a predetermined angle so as to create path length differences in the individual optical signals traversing through the various waveguides. These path length differences ensure that the optical signals have good wavelength differentiation so that a large number of channels can be accommodated. The signals traverse through the couplers in uniform or non-uniform spaced channels of less than about 100 GHz, and more preferably less than about 25 GHz. The coupler combination devices are particularly useful as Dragone routers and other types of DWDM routers.

Abstract: The invention is an optical waveguide device and a method for forming the device which provides enhanced stability. The device includes a pyroelectric substrate such as lithium niobate where the bulk resistivity of at least a portion of the substrate is reduced to 1013 ohm cm or less by heating the substrate in a reducing atmosphere. This causes the substrate to be less susceptible to temperature variants which can otherwise result in dc bias drift and variation.

Abstract: A method of depositing material on a substrate using a shadow mask. The mask includes a plurality of etched features which correspond to a plurality of features in the substrate. Spheres are provided in the features of the mask or substrate so that the mask and substrate are aligned when each of the spheres occupy both of the corresponding features in the mask and substrate.