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Institution

Panasonic

CompanyKadoma, Ôsaka, Japan
About: Panasonic is a company organization based out in Kadoma, Ôsaka, Japan. It is known for research contribution in the topics: Signal & Layer (electronics). The organization has 49129 authors who have published 71118 publications receiving 942756 citations. The organization is also known as: Panasonikku Kabushiki-gaisha & Panasonic.


Papers
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Patent
Yasunobu Tsuji1, Kazuo Eda1, Yutaka Taguchi1, Katsuyuki Miyauchi1, Keiji Onishi1 
27 Mar 1996
TL;DR: In this article, a surface acoustic wave element is bonded to the dielectric substrate via a metal bump and a conductive resin formed on the electrode pad, and an insulating guard layer is added to the metal bump.
Abstract: A surface acoustic wave device including a dielectric substrate having an input electrode and an output electrode and a grounding electrode on a first surface of the dielectric substrate, and an outer electrode on a second surface of the dielectric substrate; and a surface acoustic wave element having an electrode pad and a comb-shaped electrode disposed on a first surface of the surface acoustic wave element. The surface acoustic wave element is bonded to the dielectric substrate via a metal bump and a conductive resin formed on the electrode pad. The surface acoustic wave device further includes an insulating resin deposited on the periphery of the metal bump, and a guard layer shorter in height than the surface acoustic wave element formed adjacent the surface acoustic wave element on the first surface of the dielectric substrate.

113 citations

Patent
12 Aug 2004
TL;DR: In this paper, a data communication unit receives encrypted digital data via a network and records the digital data on a primary recording medium, having been encrypted in different encryption methods according to the distributors, include attribute information indicating the encryption methods.
Abstract: A data communication unit receives encrypted digital data via a network and records the digital data on a primary recording medium. The digital data, having been encrypted in different encryption methods according to the distributors, include attribute information indicating the encryption methods. The encryption method of the digital data is determined and the encrypted data is decrypted by an appropriate decryption unit. Identification information of a secondary recording medium or a playback apparatus is obtained according to whether the secondary recording medium is removable from the playback apparatus. A controller selects an encryption unit among a plurality of encryption units according to the obtained identification information. The selected encryption unit creates an encryption key according to the identification information and re-encrypts the digital data. A recording unit records the digital data on the secondary recording medium. An accounting unit charges according to accounting information in the attribute information.

113 citations

Proceedings ArticleDOI
01 Dec 2009
TL;DR: In this article, a zero interface layer and optimized gate-electrode are used to achieve ultra low EOT and Tinv values of ∼5 A and ∼8 A respectively for both n and pMOS devices.
Abstract: A novel gate first integration approach enabling ultra low-EOT is demonstrated. HfO 2 based devices with a zero interface layer and optimized gate-electrode is used to achieve EOT and Tinv values of ∼5 A and ∼8 A respectively for both n and pMOS devices. The drive currents at I off =100 nA/µm with V DD =1 V is 1.4 mA/µm and 0.6 mA/µm (no SiGe source/drain) for n and pMOS respectively. The technology further offers low n/pMOS V T of 0.3/-0.4V, good V T -uniformity, and V T -matching and very high cutoff frequencies at ∼290-340 GHz for 38 nm nMOS devices. A replacement poly gate process is used to further improve upon the pMOS effective work function. TDDB lifetimes over 10 years are reported while BTI indicates potential reliability challenges.

113 citations

Patent
Kaoru Matsuoka1, Tadashi Maeoka1, Jirou Kajino1, Hitoshi Minabe1, Tetsurou Tanaka1 
17 Feb 1986
TL;DR: A magnetic tape recording and/or reproducing apparatus provided with a reversible motor, a rotary member rotated by the motor, an operating mode changer connected to the rotary members to change the operating mode of the apparatus, a tape loader movable in reciprocation between an inoperative position where a magnetic tape can be drawn out from a cassette and an operative position where the tape is drawn out and then wound onto a guide drum, and a drive driven intermittently by the Rotary member to cause the tape loader to reciprocate between the inoperative and operative positions, and
Abstract: A magnetic tape recording and/or reproducing apparatus provided with a reversible motor, a rotary member rotated by the motor, an operating mode changer connected to the rotary member to change the operating mode of the apparatus, a tape loader movable in reciprocation between an inoperative position where a magnetic tape can be drawn out from a cassette and an operative position where the tape is drawn out and then wound onto a guide drum, a drive driven intermittently by the rotary member to cause the tape loader to reciprocate between the inoperative and operative positions, and a lock for holding the drive when the tape loader is brought to the operative position. The motor is connected to a housing including therein a speed-reduction device so that the motor output is taken from the peripheral side surface of the motor to drive the rotary member. Thus, the apparatus is highly reliable, small-sized, low in power consumption, and light in weight.

113 citations

Patent
29 Oct 1993
TL;DR: In this paper, a method for predicting a traffic flow rate at a point on a road to control a traffic light signaling system measures a traffic density on the road to predict a traffic speed rate by utilizing the fact that a velocity of a vehicle is restricted by an interval between successive vehicles, since traffic density is locally increased when the vehicle interval is not uniform and therefore the spatial mean speed is lowered.
Abstract: A method for predicting a traffic flow rate at a point on a road to control a traffic light signaling system measures a traffic density on the road to predict a traffic flow rate by utilizing the fact that a velocity of a vehicle on the road is restricted by an interval between successive vehicles, since the traffic density is locally increased when the vehicle interval is not uniform and therefore the spatial mean speed is lowered. This method offers higher accuracy by utilizing a correction coefficient obtained from an actual vehicle distribution, for instance, a coefficient derived from entropy. An apparatus for controlling a traffic light signaling system installed on a point of a road by utilizing this predicting method, thereby smoothing a traffic condition, includes video cameras for picking up images of a traffic condition at an upper stream of an intersection, an A/D converter for converting an analog video output signal into a digital video signal, two sets of image memories for storing digital image data about two scenes imaged by the video cameras at a proper time interval, an image processing unit for extracting moving objects from the images, a data process/control unit for calculating a total number of vehicles within a predetermined area and each space headway, whereby a vehicle distribution pattern is recognized an a correction coefficient is calculated, and an input/output unit for interfacing with the traffic light signaling system installed on the road.

113 citations


Authors

Showing all 49132 results

NameH-indexPapersCitations
Yang Yang1712644153049
Hideo Hosono1281549100279
Shuicheng Yan12381066192
Akira Yamamoto117199974961
Adam Heller11138141063
Tadashi Kokubo10455749042
Masatoshi Kudo100132453482
Héctor D. Abruña9858538995
Duong Nguyen9867447332
Henning Sirringhaus9646750846
Chao Yang Wang9530726857
George G. Malliaras9438228533
Masaki Takata9059428478
Darrell G. Schlom8864141470
Thomas A. Moore8743730666
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
20231
20227
2021325
2020933
20191,527
20181,588