Abstract: A semiconductor device includes a semiconductor substrate including a main surface; a plurality of first interconnections formed in a capacitance forming region defined on the main surface and extending in a predetermined direction; a plurality of second interconnections each adjacent to the first interconnection located at an edge of the capacitance forming region, extending in the predetermined direction, and having a fixed potential; and an insulating layer formed on the main surface and filling in between each of the first interconnections and between the first interconnection and the second interconnection adjacent to each other. The first interconnections and the second interconnections are located at substantially equal intervals in a plane parallel to the main surface, and located to align in a direction substantially perpendicular to the predetermined direction.

Abstract: A Co silicide layer having a low resistance and a small junction leakage current is formed on the surface of the gate electrode, source and drain of MOSFETS by silicidizing a Co film deposited on a main plane of a wafer by sputtering using a high purity Co target having a Co purity of at least 99.99% and Fe and Ni contents of not greater than 10 ppm, preferably having a Co purity of 99.999%.

Abstract: An implantation step of a dopant ion for forming source and drain regions (S and D) is divided into one implantation of a dopant ion for forming a p/n junction with a well region (3), and one implantation of a dopant ion that does not influence a position of the p/n junction between the source and drain regions (S and D) and the well region with a shallow implantation depth and a large implantation amount. After conducting an activation heat treatment of the dopant, a surface of the source/drain region is made into cobalt silicide 12, so that the source/drain region (S and D) can have a low resistance, and a p/n junction leakage can be reduced.

Abstract: A character recognition device recognizing characters with low power consumption includes a data input unit for entering handwriting data representing a character to be recognized, a character recognition dictionary storing character recognition information required for character recognition as well as operating frequency information concerning the operating frequency of the character recognition device that is set in connection with the recognition processing, a character recognition processing unit recognizing the character based on the handwriting data and the character recognition information, a recognition result output unit which outputs the character recognized by the character recognition processing unit, and a power management unit changing the operating frequency of the character recognition processing unit based on the operating frequency information stored in the character recognition dictionary.

Abstract: A peripheral circuitry is provided adjacent to a memory array and conducts read and write operations from and to the memory array. A power supply voltage line and a ground line for supplying an operating voltage to the peripheral circuitry supply a power supply voltage and a ground voltage, respectively. The power supply voltage line and the ground line are arranged so that a magnetic field generated by a current flowing through the power supply voltage line and a magnetic field generated by a current flowing through the ground line cancel each other in the memory array.

Abstract: An insulating film provided below a floating gate electrode includes a first insulating film located at both end portions below the floating gate electrode, and a second insulating film sandwiched between the first insulating films and located in a middle portion below the floating gate electrode. The first insulating film and the second insulating film are formed in separate steps, and the first insulating film is thicker than the second insulating film. With this structure, when an insulating film is provided between the floating gate electrode and a silicon substrate to have a thickness more increased at its end portion than at its middle portion, the thickness can be increased more freely and a degree of the increase can be controlled more readily.

Abstract: When a conventional semiconductor container opening/closing apparatus opens a lid of a semiconductor container, foreign particles enter into the container from outside through a gap between the container and a wall surface of the container opening/closing apparatus and adhere to a wafer in the container. An apparatus is provided to reduce the number of foreign particles adhering to the wafer by preventing foreign particles from entering into the container at the time of opening the container by the opening/closing apparatus. To achieve this, a velocity-differential pressure ratio obtained by dividing the maximum velocity at the time of opening the lid of the container in a vertical direction to an opening of the container, by the differential pressure between the inside pressure and the outside pressure of said semiconductor manufacturing apparatus, is set to be 0.06 ((m/s) Pa) or less.

Abstract: A switching power supply circuit in which a series circuit comprising a resistive element and a capacitive element is provided in a parallel configuration with an inductor which supplies a load current to a load circuit, a voltage comparator having first and second threshold voltages discriminates a voltage obtained from a mutual connecting point of the series circuit therefrom and controls a switch element for supplying a current to the inductor, thereby varying the current supplied to the inductor in accordance with a variation in the load current is combined with a series power supply circuit which shares the load current of the load circuit.

Abstract: It is an object to obtain a semiconductor device including a capacitance having a great Q-value. In an SOI substrate comprising a support substrate (165), a buried oxide film (166) and an SOI layer (171), an isolating oxide film 167 (167a to 167c) is selectively formed in an upper layer portion of the SOI layer (171) with a part of the SOI layer (171) remaining as a P? well region (169). Consequently, an isolation (partial isolation) structure is obtained. An N+ diffusion region (168) is formed in the SOI layer (171) between the isolating oxide films (167a) and (167b) and a P+ diffusion region (170) is formed in the SOI layer (171) between the isolating oxide films (167b) and (167c). Consequently, there is obtained a junction type variable capacitance (C23) having a PN junction surface of the P? well region (169) provided under the isolating oxide film (167b) and the N+ diffusion region (168).

Abstract: A semiconductor device includes a semiconductor substrate including a main surface; a plurality of first interconnections formed in a capacitance forming region defined on the main surface and extending in a predetermined direction; a plurality of second interconnections each adjacent to the first interconnection located at an edge of the capacitance forming region, extending in the predetermined direction, and having a fixed potential; and an insulating layer formed on the main surface and filling in between each of the first interconnections and between the first interconnection and the second interconnection adjacent to each other. The first interconnections and the second interconnections are located at substantially equal intervals in a plane parallel to the main surface, and located to align in a direction substantially perpendicular to the predetermined direction.

Abstract: A communication apparatus that constitutes a communication system including a group of communication apparatuses identified by a first identifier, and includes a storage unit, a control unit, and a broadcasting unit. The storage unit is configured to store a first identifier of a group to which the communication apparatus belongs. The control unit controls exchange of signals for setting a first identifier. The broadcasting unit broadcasts a first-identifier request signal to other communication apparatuses. Upon receipt of a first-identifier notification signal that includes a first identifier in response to the first-identifier request signal, the control unit stores the first identifier in the storage unit for use in communication.

Abstract: Shape dummy cells that are designed to have the same dimensions and structures as MTJ memory cells are additionally provided in the peripheral portion of an MTJ memory cell array in which normal MTJ memory cells for storing data are arranged in a matrix. The MTJ memory cells and the shape dummy cells are sequentially arranged so as to have a uniform pitch throughout the entirety. Accordingly, non-uniformity between MTJ memory cells in the center portion and in border portions of the MTJ memory cell array, respectively, after manufacture due to high and low densities of the surrounding memory cells can be eliminated.

Abstract: The invention comprises: processing for receiving an OFDM packet having a preamble and the following data transmission symbol, in which packet the subcarrier interval of the preamble is set wider than that of the data transmission symbol; processing for estimating a DC offset occurring at a receiving side by using the received preamble; processing for correcting the DC offset on the received data transmission symbol, according to the estimation result of the DC offset; and processing for demodulating the DC offset corrected data transmission symbol. Thus, it is possible to estimate a DC offset and then correct the DC offset according to the estimated value, in the OFDM packet with no nul symbol defined there.

Abstract: The present invention is directed to improve high frequency characteristics by reducing inductance of a source. In an HEMT assembled in a power amplifier device, each of a drain electrode, a source electrode, and a gate electrode is constructed by a base portion and a plurality of fingers projected in a comb-teeth shape from the base portion, and the fingers of the electrodes mesh with each other. In the source electrode, a width of the fingers positioned at both ends of the plurality of fingers is wider than a width of each of the fingers positioned between both ends. The width of each of the fingers positioned at both ends is a width equal to or larger than a sum of the widths of the plurality of fingers positioned between both ends, and the width of the base portion is wider than that of each of the fingers positioned at both ends. An electrode pad provided for the source base portion and an external electrode terminal are connected to each other via a conductive wire.

Abstract: There is provided a CMOS image sensor comprises a LOCOS isolation film 6 formed on the surface of a semiconductor substrate 100 containing a peripheral circuit 31 and a photodiode region 15, a gate electrode 1 formed on the surface of the peripheral circuit 31, a surface-protecting film 8 deposited on at least a portion of the photodiode region 15, and a sidewall 19 of the gate electrode formed without damaging the portion of photodiode region 15 on which a surface-protecting film 8 is deposited, thereby eliminating etching damage on the surface of the substrate to be expected for a photodiode during blanket etch-back, and suppressing fixed pattern noise (FPN).

Abstract: Provided is a nonvolatile memory with less element deterioration and good data retaining properties. In a nonvolatile memory formed by the manufacturing steps of a complementary type MISFET without adding thereto another additional step, erasing of data is carried out by applying 9V to an n type well, 9V to a p type semiconductor region, and ?9V to another p type semiconductor region and setting the source and drain of data writing and erasing MISFETs and data reading MISFETs at open potential to emit electrons from a gate electrode to a p well by FN tunneling. At this time, by applying a negative voltage to the p well having a capacitive element formed thereover and applying a positive voltage to the p well having the MISFETs formed thereover, a potential difference necessary for data erasing operation can be secured at a voltage low enough not to cause gate breakage.

Abstract: A semiconductor integrated circuit device is composed of logic gates each provided with at least two MOS transistors. The logic gates are connected to a first potential point and a second potential point. The semiconductor integrated circuit device includes a current control device connected between the logic gate and the first potential point and/or between the logic gate and the second potential point for controlling a value of a current flowing in the logic gate depending on an operating state of the logic gate. The circuit can be used in devices that cycle in operation between high and low power consumption modes, such as microprocessors that have both an operation mode and a low power back-up or sleep mode used for power reduction.

Abstract: A semiconductor device having a nonvolatile memory is reduced in size. In an AND type flash memory having a plurality of nonvolatile memory cells having a plurality of first electrodes, a plurality of word lines crossing therewith, and a plurality of floating gate electrodes disposed at positions which respectively lie between the plurality of adjacent first electrodes and overlap the plurality of word lines, as seen in plan view, the plurality of floating gate electrodes are formed in a convex shape, as seen in cross section, so as to be higher than the first electrodes. As a result, even when nonvolatile memory cells are reduced in size, it is possible to process the floating gate electrodes with ease. In addition, it is possible to improve the coupling ratio between floating gate electrodes and control gate electrodes of the word lines without increasing the area occupied by the nonvolatile memory cells.

Abstract: A resist film is applied to an entire surface and subjected to patterning substantially in the same form as an opening to bury the resist film inside the opening. When a positive resist is used, a photomask having a light-shielding portion with an area smaller than the opening is used in patterning. When a negative resist is used, a photomask having a light transmitting portion with an area smaller than the opening is used.

Abstract: ON resistance and leakage current of a vertical power MOSFET are to be diminished. In a vertical high breakdown voltage MOSFET with unit MOSFETs (cells) arranged longitudinally and transversely over a main surface of a semiconductor substrate, the cells are made quadrangular in shape, and in each of the cells, source regions whose inner end portions are exposed to the interior of a quadrangular source contact hole are arranged separately and correspondingly to each side of the quadrangle. Each source region is trapezoidal in shape, and a lower side of the trapezoid is positioned below a gate electrode (gate insulating film), while an upper side portion of the trapezoid is exposed to the interior of the source contact hole. The four source regions are separated from one another by diagonal regions of the quadrangle.