1
Marcos Laraia
Jose Marcos Laraia, Masahisa Niwa, Robert P Moehrke, Jose G Taveira: Reactive sensor modules using Pade Approximant based compensation and providing module-sourced excitation. AMI Semiconductor, Matsushita Electric Works, MacPherson Kwok Chen & Heid, Gideon Gimlan, February 28, 2006: US07006938 (28 worldwide citation)

Reactive sensors typically exhibit nonlinear response to temperature variation. Systems and methods are disclosed for compensating for the nonlinear and/or temperature dependent behavior of reactive sensors and for calibrating the post-compensation output signals relative to known samples of the phy ...


2
Shiro Nankai, Mariko Kawaguri, Toshihiko Yoshioka, Haruhiro Tsutsumi, Kyozo Terao, Naoki Tanimoto, Masahiro Yoshioka, Hiroshi Hyodo, Takatoshi Uchigaki: Quantitative analysis method and its system using a disposable sensor. Matsushita Electric Industrial, Kyoto Daiichi Kagaku, November 30, 1993: US05266179 (754 worldwide citation)

A sensor 13 is inserted into a connector 14. A constant voltage required to obtain a response current is applied across the connector 14 by a voltage applying source 15 at timings required. A response current of the sensor 13 inserted into the connector 14 is converted into a voltage by a current-to ...


3
Shiro Nankai, Mariko Kawaguri, Mayumi Ohtani, Takashi Iijima: Biosensor and a process for preparation thereof. Matsushita Electric Industrial, Stevens Davis Miller & Mosher, June 9, 1992: US05120420 (717 worldwide citation)

A biosensor of the invention comprises an insulating base board (1) having formed thereon, in sequence, leads (2, 3, 3'), an electrode system mainly made of carbon (4, 5, 5'), an insulating layer (6) and a reaction layer (14) composed of an enzyme and an electron acceptor, and being provided thereon ...


4
Shin Ikeda, Toshihiko Yoshioka, Shiro Nankai, Haruhiro Tsutsumi, Hideyuki Baba, Yoshinobu Tokuno, Syoji Miyazaki: Biosensor, and a method and a device for quantifying a substrate in a sample liquid using the same. Matsushita Electric Industrial, Renner Otto Boisselle & Sklar, December 10, 1996: US05582697 (613 worldwide citation)

The biosensor of this invention can quantify a substrate in a sample liquid by electrochemically measuring the amount of an electron acceptor that has been reduced by electrons generated in a reaction between the substrate and an oxidoreductase. The biosensor has an electrically insulating substrate ...


5
Toshihiko Yoshioka, Shiro Nankai: Biosensor and a method for measuring a concentration of a substrate in a sample. Matsushita Electric Industrial, Renner Otto Boisselle & Sklar, November 23, 1993: US05264103 (611 worldwide citation)

The present invention provides a biosensor comprising an electrical insulating substrate, a main electrode system formed on the substrate and having a working electrode and a counter electrode, a reaction layer provided in contact with or in the vicinity of the main electrode system and containing a ...


6
Kenichi Nakamura, Shiro Nankai, Takashi Iijima, Masataro Fukuda: Enzyme electrode. Matsushita Electric Industrial, Wenderoth Lind & Ponack, September 23, 1980: US04224125 (558 worldwide citation)

An enzyme electrode, which comprises an oxidoreductase including, where necessary, a coenzyme; a redox polymer acting as an electron mediator in an enzymatic reaction; and an electron collector, wherein the oxidoreductase and the redox polymer are both maintained in the immobilized state on or in th ...


7
Shiro Nankai, Mariko Kawaguri, Tashi Iijima: Biosensor and method for making the same. Matsushita Electric Industrial, Lowe Price LeBlanc Becker & Shur, January 30, 1990: US04897173 (486 worldwide citation)

This invention relates to a biosensor which comprises an insulative base, an electrode system formed on the substrate and primarily made of carbon, and a perforated body having an enzyme and an electron acceptor and integrally combined with the electrode system whereby a concentration of a specific ...


8
Nankai Shiro, Kawaguri Mariko, Fujita Mayumi, Iijima Takashi: Biosensor and process for its production.. Matsushita Electric, March 28, 1990: EP0359831-A1 (480 worldwide citation)

A biosensor of the invention comprises an insulating base board (1) having formed thereon, in sequence, leads (2, 3, 3'), an electrode system mainly made of carbon (4, 5, 5'), an insulating layer (6) and a reaction layer (14) composed of an enzyme and an electron acceptor, and being provided thereon ...


9
Hiroyoshi Yuasa, Tadashi Satake, Mario Jose Cardona, Hisataka Fujii, Akira Yasuda, Koji Yamashita, Satoru Suzaki, Hideki Ikezawa, Masami Ohno, Akira Matsuzaki, Junichi Suzuki, Junko Nakano: Virtual LAN system. Matsushita Electric Works, Greenblum & Bernstein, July 4, 2000: US06085238 (458 worldwide citation)

A virtual LAN system forms a virtual group which is based on elements having physical attribute or logical attribute and constituting a virtual LAN, sets a client address and priority of the virtual group in a virtual group registration table, and allocates unicast and broadcast traffic bands in gro ...


10
Edward M Filangeri: Physiological monitoring. Matsushita Electric Works, Fish & Richardson P C, July 25, 2000: US06093146 (454 worldwide citation)

A physiological monitoring system includes a base station, the base station having a first wireless transceiver, and a patient monitor, the patient monitor comprising a data input, the data input configured to receive data regarding a physiological condition of a patient, the patient monitor further ...



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