Abstract: A method of producing an antifuse, comprises the steps of: depositing a layer of undoped or lightly doped polysilicon on a layer of silicon dioxide on a semiconductor wafer; doping one region of the polysilicon P+; doping another region of the polysilicon N+, leaving an undoped or lightly doped region between the P+ and N+ regions; and forming electrical connections to the P+ and N+ regions.

Abstract: A conductive line varies in thickness to assist in overcoming RC delays and noise coupling. By varying line thickness, variation in conductor width is avoided if necessary to maintain a specified minimum pitch between conductors while maintaining predetermined desired RC parameters and noise characteristics of the conductive line. Conductor depth variation is achieved by etching a dielectric layer to different thicknesses. A subsequent conductive fill over the dielectric layer and in the differing thicknesses results in a conductive line that varies in thickness. Different conductive line thicknesses available at a particular metal level can additionally be used for semiconductor structures other than a signal or a power supply conductive line, such as a contact, a via or an electrode of a device. The thickness analysis required to determine how interconnect thickness is varied in order to meet a desired design criteria may be automated and provided as a CAD tool.

Abstract: An optical semiconductor device includes a laminated layer structure, an intermediate film formed on an end surface of the laminated layer structure, and a passivation film formed on the intermediate film. The passivation film has a quantity of ion projection than that of the intermediate film.

Abstract: The invention relates to a field effect transistor with a drain region, a source region, a channel region and a gate region. The gate region is provided with a metal layer.

Abstract: A liquid crystal display device; in the prior art has been high in its manufactural cost for the reason that TFTs have been fabricated using, at least, five photo-masks.

Abstract: Disclosed herewith is a semiconductor device improved to prevent withstand voltage defects that might occur in each MOSFET used therein and a system to be designed easily and prevented from withstand voltage defects that might occur in each semiconductor used therein. The system includes the first and second input circuits, each being constituted by MOSFETs manufactured in the same process. The first input circuit receives a voltage of a first signal inputted from a first external terminal and divided by first and second resistor means while the AC component of the input signal is transmitted to the input circuit through a capacitor disposed in parallel to the first resistor means. The second input circuit receives a second input signal inputted from a second external terminal and reduced in signal amplitude so as to become smaller than that of the first input signal.

Abstract: An electrostatic discharge (ESD) protection device having high holding current for latch-up immunity. The ESD protection circuit is formed in a semiconductor integrated circuit (IC) having protected circuitry. The ESD protection device includes a silicon controlled rectifier (SCR) coupled between a protected supply line of the IC and ground. A trigger device is coupled from the supply line to a first gate of the SCR, and a first substrate resistor is coupled between the first gate and ground. A first shunt resistor is coupled between the first gate and ground, wherein the shunt resistor has a resistance value lower than the substrate resistor.

Abstract: Novel heterojunction bipolar transistors (HBT's) with high current gain and extremely low offset voltage are disclosed. Owing to the insertion of spacer/&dgr;-doped sheet/spacer at base-emitter (B-E) heterojunction in this invention, the potential spike at B-E junction can be eliminated and the confinement effect for holes are enhanced. The potential spike is not observed under large B-E bias, and the offset voltage is still relatively small with small increase. In particular, for the HBT's with large conduction band discontinuity, the method of the invention is more efficient for completely eliminating the potential spike. For the example of InP/GaInAs HBT, a maximum common-emitter current gain of 455 and above 320 at IB=5 &mgr;A, and a low offset voltage less 60 mV are achieved.

Abstract: A power MOSFET includes a semiconductor substrate having a drift region therein and first and second transition regions of first conductivity type that extend between the drift region and a first surface of the semiconductor substrate. Each of the first and second transition regions has a vertically retrograded first conductivity type doping profile therein that peaks at a first depth relative to the first surface. First and second shielding regions of second conductivity type are provided in the drift region and define respective P-N junctions with the first transition region. The shielding regions extending laterally towards each other in a manner that constricts a neck of the first transition region to a minimum width at a second depth relative to the first surface. An anode electrode is provided. The anode electrode that extends on the first surface of the semiconductor substrate and defines a Schottky rectifying junction with the second transition region.

Abstract: A concentric polygonal metal-oxide-semiconductor field-effect transistor is designed to avoid overlap between corners of the central drain diffusion and inner corners of the surrounding annular gate electrode. For example, the gate electrode may be reduced to separate straight segments by eliminating the corner portions. Alternatively, the drain diffusion may have a cross shape, and the outer annular source diffusion may be reduced to straight segments facing the ends of the cross, or the source and drain diffusions and gate electrodes may all be reduced to separate straight segments. By avoiding electric field concentration in the corner regions, these designs provide enhanced protection from electrostatic discharge.

Abstract: A power MOSFET comprising a drain layer of a first conductivity type, a drift layer of the first conductivity type provided on the drain layer, a base layer of a first or a second conductivity type provided on the drift layer, a source region of the first conductivity type provided on the base layer, a gate insulating film formed on an inner wall surface of a trench penetrating the base layer and reaching at the drift layer, and a gate electrode provided on the gate insulating film inside the trench, wherein the gate insulating film is formed such that a portion thereof adjacent to the drift layer is thicker than a portion thereof adjacent to the base layer, and the drift layer has an impurity concentration gradient higher in the vicinity of the drain layer and lower in the vicinity of the source region along a depth direction of trench.

Abstract: An insulating barrier extending between a first conductive region and a second conductive region is disclosed. The insulating barrier is provided for tunnelling charge carriers from the first to the second region, the insulating barrier comprising a first portion contacting the first region and a second portion contacting the first portion and extending towards the second region, the first portion being substantially thinner than the second portion, the first portion being constructed in a first dielectric and the second portion being constructed in a second dielectric different from the first dielectric, the first dielectric having a lower dielectric constant than the second dielectric.

Abstract: A method and apparatus for accessing internal nodes of an integrated circuit using a package substrate are provided. Embodiments of the present invention include an integrated circuit comprising an integrated circuit die comprising a principal side; a conductive element formed on the principal side of the integrated circuit die; a package substrate comprising a principal side facing the principal side of the integrated circuit die; a conductive element located on the principal side of the package substrate; a transmission path wherein a first end of the transmission path is coupled to the conductive element of the integrated circuit die and wherein a second end of the transmission path is coupled to the conductive element of the package substrate.

Abstract: An improved nanotip structure and method for forming the nanotip structure and a display system using the improved nanotip structure is described. The described nanotip is formed from a semiconductor having a crystalline structure such as gallium nitride. The crystalline structure preferably forms dislocations oriented in the direction of the nanotips. One method of forming the nanotip structure uses the relatively slow etching rates that occur around the dislocations compared to the faster etch rates that occur in other parts of the semiconductor structure. The slower etching around dislocations enables the formation of relatively high aspect ratio nanotips in the dislocation area.

Abstract: A light-emitting device includes an anode, a cathode, and at least one organic electroluminescent (“EL”) material positioned between the anode and the cathode. Nanoparticles of at least one photoluminescent material are dispersed in the organic EL material. The organic EL material emits a first electromagnetic (“EM”) radiation having a first spectrum in response to an applied electrical field. The PL material absorbs a portion of the first EM radiation emitted by the organic EL material and emits a second EM radiation having a second spectrum. A plurality of the light-emitting devices are arranged on a transparent substrate to provide a panel display or a lighting source.

Abstract: A method of fabricating a semiconductor device is disclosed. A wafer substrate is provided. A first silicon oxide layer is formed over the wafer substrate. A nitride layer is formed over the first silicon oxide layer using a low temperature deposition process. A second silicon oxide layer is formed over the nitride layer. The low temperature process can form a nitride layer for an oxide-nitride-oxide (ONO) dielectric structure at about a temperature of 700° C. By such a process, an ONO dielectric structure can be formed using a low temperature deposition process, which can reduce the thickness of the ONO dielectric structure.

Abstract: A flash memory structure is provided. The flash memory structure includes a P-type substrate, a deep N-well set up within the P-type substrate, a P-well set up within the deep N-well, a pair of gate structures set up over the substrate, a select gate set up between the pair of gate structure and N-type source/drain regions in the P-well on each side of the gate structure. Since each pair of neighboring gate structure uses a common gate, the level of integration of device can be increased.

Abstract: A semiconductor optical device with improved optical gain and enhanced switching characteristics. The semiconductor optical device includes positive and negative electrodes for providing holes and electrons, respectively. The semiconductor optical device also includes an active layer between the positive and negative electrodes. The active layer includes a multiple quantum well structure having p-type quantum well layers and barrier layers. The quantum well layers are doped with an impurity that diffuses less than zinc so that trapping holes are produced and excessive electrons contributing no light emission are quenched by the trapping holes. The impurity can be beryllium, magnesium, or carbon.

Abstract: A semiconductor memory having memory cells, each memory cell includes a selection transistor and a trench capacitor. The selection transistor is formed in the form of a vertical transistor. In such a case, two word lines are separated only by a connecting channel that enables an electrically conductive connection between a trench filling of the trench capacitor and a bit line.

Abstract: The quantum circuit device comprises: an asymmetrical coupled quantum dot of a main quantum dot 3a and an operational quantum dot 3b of a smaller size than the main quantum dot 3c; an asymmetrical coupled quantum dot of a main quantum dot 3c arranged at a distance which does not permit to substantially tunnel from the main quantum dot 3a, and an operation quantum dot 3d having a smaller size than the main quantum dot 3c and arranged at a distance which permits tunneling from the operational quantum dot 3b; and a laser device for applying to the asymmetrical coupled quantum dots a laser beam of a wavelength which resonates an inter-level energy the asymmetrical coupled quantum dots. In the sleep state, electron is present at the ground state of the main quantum dot, where no exchange interaction takes place, and in an operation, the electron is transited to an excited state of the operational quantum dot, whereby the operation is made by the exchange interactions between the adjacent operational quantum dots.