Abstract: A method and apparatus is presented for obtaining high resolution positional feedback from motion stages 52 in indexing systems 10 without incurring the costs associated with providing high resolution positional feedback from the entire range of motion by combining low resolution/low cost feedback devices 72 with high resolution/high cost feedback devices 74, 76, 78, 80, 82, 84, 86, 88.

Abstract: A semiconductor wafer has a dielectric layer, a metal last layer, a passivation layer, and a redistribution layer. The metal last layer is formed over the dielectric layer, and the metal last layer has first and second locations that are spaced apart from each other. The passivation layer is formed over the metal last layer. The redistribution layer is formed over the passivation layer. The redistribution layer has a signal routing wire coupled to the first location of the metal last layer and to the second location of the metal last layer.

Abstract: A semiconductor light emitting apparatus includes a non-conductive sub mount; a metal layer provided on the sub mount; a solder material member provided on the metal layer; and a semiconductor light emitting device die-bonded to the metal layer by the solder material member. A surface of the metal layer includes a solder material attachment area having the solder material member attached thereto, and a metal layer exposed area where the surface of the metal layer is exposed. The solder material attachment area is electrically connected to the metal layer exposed area. The solder material attachment area is larger than a die-bond area of the semiconductor light emitting device. The metal layer exposed area has a metal layer removed area therein where the sub mount is exposed.

Abstract: A semiconductor chip is mounted on the substrate so that the first group of electrodes faces the first group of leads and the second group of electrodes faces the second group of leads. The first group of leads extends in a direction away from the second group of electrodes. Each of the second group of leads extends so as to pass between the first group of electrodes and is formed to be bent in the region between first and second straight lines.

Abstract: A Mask ROM and a method of manufacture of a Mask ROM on a semiconductor substrate comprises formation of a first plurality of conductor lines in a first array. A dielectric layer is formed upon the device with a matrix of openings therein in line with the first array. The openings expose the surface of the first conductor lines. Semiconductor diodes are formed in the matrix of openings in contact with the first conductor lines. A second plurality of conductor lines are formed on the surface of the dielectric layer in a second array of conductor lines orthogonal to the first plurality of conductor lines in the first array. A second plurality of conductor lines is aligned with the matrix and is in contact with the upper ends of the semiconductor diodes.

Abstract: A read-only memory (ROM) device of the type including an array of diode-based memory cells for permanent storage of binary-coded data. The ROM device is partitioned into a memory division and an output division. The memory cells are formed over an insulating layer in the memory division. The insulating layer separates the memory cells from the underlying substrate such that the leakage current that can otherwise occur therebetween can be prevented. Moreover, the coding process is performing by forming contact windows at selected locations rather than by performing ion-implantation as in conventional methods. The fabrication process is thus easy to perform. Since the memory cells are diode-based rather than MOSFET-based, the punch-through effect that usually occurs in MOSFET-based memory cells can be prevented. The diode-based structure also allows the packing density of the memory cells on the ROM device to be dependent on the line width of the polysilicon layers in the ROM device.

Abstract: A wafer layout for a multi-channel device for improving the yield of operative devices comprises a semiconductor wafer and a plurality of semiconductor devices formed in the semiconductor wafer, each device comprising a consecutive series of impurity regions formed in the semiconductor wafer, the impurity regions being arranged consecutively without separation between the respective semiconductor devices, such that each of the semiconductor devices is indistinguishable from the others, without regard to defective devices, and a single semiconductor device comprising a plurality of consecutive impurity regions formed in the semiconductor wafer may be cut from the wafer by cutting therefrom any of the plurality of consecutive impurity regions formed therein. The invention is particularly useful for the fabrication of strip diodes and the like.

Abstract: An integrated circuit 10 has a programmable Zener diode with diffusion regions 18 and 16 and metal contacts 34 and 32. A barrier metal 30 is disposed between one contact 32 and the substrate 12; another contact region 18 has no barrier metal on its surface. A polysilicon layer 22 is self-aligned with surface regions 18 and diffusion region 18. A silicide layer 128 may be used on the polysilicon layer 22 and on surface region 18.

Abstract: Each of the portions corresponding to the crossings of a plurality of first strip conductive layers serving as bit lines and a plurality of second strip conductive layers serving as word lines crossing the conductive layers at right angles is used as one memory cell. An oxide film is provided between the first strip conductive layers and the second strip conductive layers. The thickness of this oxide film is set in each memory cell according to stored data. Also a multi-value memory can be realized, since the amount of stored data in each memory cell is an arbitrary amount of 1 bit or more by making the stored data of a plurality of types of memory cells having different thicknesses in the tunnel oxide film 15 correspond to a plurality of different data. The size of each memory cell can be reduced since the occupying area of each memory cell on the semiconductor substrate is dependent on the width of the first strip conductive layer and the second strip conductive layer.

Abstract: A semiconductor memory cell and device having a tubular formed storage electrode of a capacitor through which a bit line passes. The source, gate and drain of a switching transistor are arranged in a direction parallel to a longitudinal axis of the tubular storage electrode. An active region also is arranged in a parallel or superposing direction relative to the bit line and in a perpendicular direction relative to the word line. A manufacturing method thereof includes forming a switching transistor, forming a part of the capacitor storage electrode connected with the drain of the switching transistor, forming an oxide film side wall, forming a bit line in parallel to a longitudinal axis of the active region, forming a capacitor storage electrode of tubular form, covering the surface of the capacitor storage electrode with a capacitor dielectric film, and forming a plate electrode of the capacitor thereon.