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Capacitive sensor

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01F-023/26
출원번호 US-0289981 (1994-08-12)
발명자 / 주소
  • Sotack John D. (Rochester NY) Dezen William L. (Penfield NY) Benedict Lawrence R. (Rushville NY) Zayed Gaith O. (Rochester NY) Werner
  • Jr. Alan J. (Rochester NY)
출원인 / 주소
  • Xerox Corporation (Stamford CT 02)
인용정보 피인용 횟수 : 147  인용 특허 : 0

초록

An apparatus for detecting the level of material in a container. The apparatus comprises a power source and a first electrode, positioned adjacent the container, electrically connected to the power source. The apparatus further comprises a second electrode. The second electrode is spaced from the fi

대표청구항

An apparatus for detecting the level of material in a container, comprising: a power source; a first electrode, positioned adjacent the container, electrically connected to said power source; a second electrode, spaced from said first electrode, positioned adjacent the container; an electrical ampli

이 특허를 인용한 특허 (147)

  1. Yamaguchi Chiseki,JPX, Apparatus and method for detecting toner density in a liquid developer.
  2. Slates, Richard D., Apparatus for determining a gap between a proximity probe component and a conductive target material.
  3. Slates, Richard D., Apparatus for determining dynamic gaps between a proximity probe and a conductive target material.
  4. Slates, Richard D., Apparatus for determining gaps between a proximity probe and a conductive target material.
  5. Danby, Hal C., Apparatus, method and flexible bag for use in manufacturing.
  6. Gilbert, Jr., Duane L.; Williams, Marcus R.; Okerholm, Andrea M.; Kristant, Elaine H.; Longo, Sheila A.; Kee, Daniel E.; Strauss, Marc D., Autonomous coverage robot.
  7. Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Autonomous coverage robot navigation system.
  8. Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Autonomous coverage robot navigation system.
  9. Gilbert, Jr., Duane L.; Williams, Marcus R.; Okerholm, Andrea M.; Kristant, Elaine H.; Longo, Sheila A.; Kee, Daniel E.; Strauss, Marc D., Autonomous coverage robot sensing.
  10. Hussey, Patrick Alan; Roy, Robert Paul; Neumann, Rogelio Manfred; Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Autonomous coverage robots.
  11. Jones, Joseph L.; Mack, Newton E.; Nugent, David M.; Sandin, Paul E., Autonomous floor cleaning robot.
  12. Jones, Joseph L.; Mack, Newton E.; Nugent, David M.; Sandin, Paul E., Autonomous floor-cleaning robot.
  13. Jones, Joseph L.; Mack, Newton E.; Nugent, David M.; Sandin, Paul E., Autonomous floor-cleaning robot.
  14. Jones, Joseph L.; Mack, Newton E.; Nugent, David M.; Sandin, Paul E., Autonomous floor-cleaning robot.
  15. Jones, Joseph L; Mack, Newton E; Nugent, David M; Sandin, Paul E, Autonomous floor-cleaning robot.
  16. Chiappetta, Mark J.; Frankel, James Paul, Autonomous mobile robot system.
  17. Cohen, David A.; Ozick, Daniel N.; Vu, Clara; Lynch, James; Mass, Philip R., Autonomous robot auto-docking and energy management systems and methods.
  18. Cohen, David A.; Ozick, Daniel N.; Vu, Clara; Lynch, James; Mass, Philip R., Autonomous robot auto-docking and energy management systems and methods.
  19. Cohen, David A.; Ozick, Daniel; Vu, Clara; Lynch, James; Mass, Philip R., Autonomous robot auto-docking and energy management systems and methods.
  20. Cohen, David A.; Ozick, Daniel; Vu, Clara; Lynch, James; Mass, Philip R., Autonomous robot auto-docking and energy management systems and methods.
  21. Cohen, David A.; Ozick, Daniel; Vu, Clara; Lynch, James; Mass, Philip R., Autonomous robot auto-docking and energy management systems and methods.
  22. Morse, Christopher J.; Ziegler, Andrew; Gilbert, Duane; Jones, Andrew, Autonomous surface cleaning robot for dry cleaning.
  23. Morse, Christopher J.; Ziegler, Andrew; Gilbert, Duane; Jones, Andrew, Autonomous surface cleaning robot for dry cleaning.
  24. Morse, Christopher John; Ziegler, Andrew; Gilbert, Jr., Duane; Jones, Andrew, Autonomous surface cleaning robot for dry cleaning.
  25. Ziegler, Andrew; Morse, Christopher John; Gilbert, Jr., Duane L.; Jones, Andrew, Autonomous surface cleaning robot for dry cleaning.
  26. Ziegler, Andrew; Gilbert, Duane; Morse, Christopher J.; Pratt, Scott; Sandin, Paul; Dussault, Nancy; Jones, Andrew, Autonomous surface cleaning robot for wet and dry cleaning.
  27. Ziegler, Andrew; Gilbert, Duane; Morse, Christopher J.; Pratt, Scott; Sandin, Paul; Dussault, Nancy; Jones, Andrew, Autonomous surface cleaning robot for wet and dry cleaning.
  28. Ziegler, Andrew; Gilbert, Duane; Morse, Christopher John; Pratt, Scott; Sandin, Paul; Dussault, Nancy; Jones, Andrew, Autonomous surface cleaning robot for wet and dry cleaning.
  29. Ziegler, Andrew; Gilbert, Duane; Morse, Christopher John; Pratt, Scott; Sandin, Paul; Dussault, Nancy; Jones, Andrew, Autonomous surface cleaning robot for wet and dry cleaning.
  30. Ziegler, Andrew; Gilbert, Duane; Morse, Christopher John; Pratt, Scott; Sandin, Paul; Dussault, Nancy; Jones, Andrew, Autonomous surface cleaning robot for wet and dry cleaning.
  31. Ziegler, Andrew; Morse, Christopher John; Gilbert, Jr., Duane L.; Jones, Andrew; Pratt, Scott; Sandin, Paul E.; Dussault, Nancy, Autonomous surface cleaning robot for wet and dry cleaning.
  32. Konandreas, Stefanos; Ziegler, Andrew; Morse, Christopher John, Autonomous surface cleaning robot for wet cleaning.
  33. Konandreas, Stefanos; Ziegler, Andrew; Morse, Christopher John, Autonomous surface cleaning robot for wet cleaning.
  34. Amoah-Kusi, Christian; Knierim, David L.; Padgett, James Dudley, Capacitive drop mass measurement system.
  35. Anthony, James D.; Fournier, John C.; Jones, Kurt E., Capacitive probe toner level detector assembly.
  36. Barclay J. Tullis ; Carl Picciotto ; Jun Gao, Capacitive sensor for sensing the amount of material in a container.
  37. Fournier, John C.; Anthony, James D.; Beehler, Todd C., Capacitive toner level detection.
  38. Etter, Paul; Embry, Kerry Leland; Barry, Raymond Jay; Boyatt, III, Richard G., Capacitive toner level sensor and methods of use.
  39. Chiappetta, Mark J.; Frankel, James P., Celestial navigation system for an autonomous robot.
  40. Chiappetta, Mark J.; Frankel, James Paul, Celestial navigation system for an autonomous robot.
  41. Chiappetta, Mark J.; Frankel, James Paul, Celestial navigation system for an autonomous robot.
  42. Chiappetta, Mark J., Celestial navigation system for an autonomous vehicle.
  43. Chiappetta, Mark Joseph, Celestial navigation system for an autonomous vehicle.
  44. Kapoor, Deepak Ramesh; Dubrovsky, Zivthan A., Cleaning robot roller processing.
  45. Schnittman, Mark Steven; Dubrovsky, Zivthan A.; Mammen, Jeffrey W.; Solochek, Aaron, Compact autonomous coverage robot.
  46. Schnittman, Mark Steven; Dubrovsky, Zivthan A.; Mammen, Jeffrey W.; Solochek, Aaron, Compact autonomous coverage robot.
  47. Schnittman, Mark Steven; Dubrovsky, Zivthan A.; Mammen, Jeffrey W.; Solochek, Aaron, Compact autonomous coverage robot.
  48. Schnittman, Mark; Dubrovsky, Zivthan A.; Mammen, Jeffrey W.; Solochek, Aaron, Compact autonomous coverage robot.
  49. Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
  50. Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
  51. Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
  52. Svendsen, Selma; Ozick, Daniel N.; Casey, Christopher M.; Kapoor, Deepak Ramesh; Campbell, Tony L.; Won, Chikyung; Morse, Christopher John; Burnett, Scott Thomas, Coverage robot mobility.
  53. Schnittman, Mark Steven; Ozick, Daniel N.; Landry, Gregg W., Coverage robots and associated cleaning bins.
  54. Schnittman, Mark; Ozick, Daniel N.; Landry, Gregg W., Coverage robots and associated cleaning bins.
  55. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel, Debris sensor for cleaning apparatus.
  56. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N., Debris sensor for cleaning apparatus.
  57. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N., Debris sensor for cleaning apparatus.
  58. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N., Debris sensor for cleaning apparatus.
  59. Landry,Gregg W.; Cohen,David A.; Ozick,Daniel, Debris sensor for cleaning apparatus.
  60. Ozick, Daniel N.; Gilbert, Jr., Duane L., Detecting robot stasis.
  61. Ozick, Daniel N.; Gilbert, Jr., Duane L., Detecting robot stasis.
  62. Bachur, Jr., Nicholas R.; Neubert, John W., Detection method and apparatus for detecting microbial growth.
  63. Bachur, Jr., Nicholas; Neubert, John, Detection method and apparatus for detecting microbial growth.
  64. Matsumoto, Hideki; Sakurai, Kazushige; Shoji, Takeo; Karakama, Toshiyuki; Oguma, Toru; Kojima, Katsuhiro, Developing device, a process cartridge, and an electrophotographic image forming apparatus for detecting an amount of developer.
  65. Zirilli, Francisco, Development sub-system in-line cleaning system.
  66. Zirilli,Francisco, Development sub-system in-line cleaning system.
  67. Froger Marie-Helene,FRX ; Coudray Pascal,FRX, Device for determining quantities of consumable products contained in reservoirs and a document printing device having several different reservoirs of pigmented products.
  68. Rich Slates, Digital eddy current proximity system: apparatus and method.
  69. Slates, Richard D., Digital eddy current proximity system: apparatus and method.
  70. Danby,Hal C.; Scharf,Michael W.; Swan,Julian F.; Bacehowski,David V., Flexible bag for fluent material dispenser.
  71. Knierim, David L.; Slotto, Steven Ross; Weimer, Blake Terry, Fluid level sensor with combined capacitance and conductance.
  72. Song, B. Jerry; Bayer, Ethan E.; Moscherosch, Ben W.; Koch, Calvin K., Humidity determination and compensation systems and methods using an intake oxygen sensor.
  73. Toda, Atsushi; Shoji, Takeo; Sunahara, Satoshi; Hasegawa, Hideaki, Image forming apparatus and method of detecting amount of residual developer.
  74. Hidetoshi Yamashita JP, Image forming apparatus having detection electrode outside developing thereof.
  75. Disilvestro,Mark R., In vivo joint implant cycle counter.
  76. Disilvestro,Mark R.; Sherman,Jason T.; Dietz,Terry L., In vivo joint space measurement device and method.
  77. Christopher A Schantz ; Wen-Li Su, Ink level sensing method and apparatus.
  78. Park, Young-Un, Level sensing apparatus.
  79. Danby,Hal C.; Scharf,Michael W.; Swan,Julian Francis Ralph; Bacehowski,David V., Liquid dispenser and flexible bag therefor.
  80. Gutmann, Steffen; Eade, Ethan; Fong, Philip; Munich, Mario, Localization by learning of wave-signal distributions.
  81. Watkins Joseph Albert ; Fredell James Edmund ; Kirk Duane Blair, Making of film scrolls for prewind cameras.
  82. Di Giugno, Mario; Giovanelli, Flavio; Tiraboschi, Simone; Villa, Pietro, Measuring device, container and system for monitoring and managing a container.
  83. Puukangas Pertti,FIX ; Sarela Antti,FIX, Method and arrangement for measuring liquid level.
  84. Froger Marie-Helene,FRX ; Coudray Pascal,FRX, Method and device for determining the quantities of consumable products contained in reservoirs grouped together next to one another and document printing device using this method.
  85. Coudray Pascal,FRX ; Froger Marie-Helene,FRX, Method and device for determining the quantity of product present in a reservoir, a product reservoir and a device for processing electrical signals intended for such a determination device.
  86. Coudray Pascal,FRX ; Froger Marie-Helene,FRX ; Truffaut Christophe,FRX, Method and device for determining the quantity of product present in a reservoir, notably that of ink present in an image forming device.
  87. Froger Marie-Helene,FRX ; Coudray Pascal,FRX ; Lorgeoux Mickael,FRX, Method and device for monitoring the consumption of a product, for example a printing ink, using a low-pass filter.
  88. Froger Marie-Helene,FRX ; Coudray Pascal,FRX, Method and device for monitoring the consumption of a product, such as an ink, contained in a reservoir.
  89. Jones, Joseph L.; Mass, Philip R., Method and system for multi-mode coverage for an autonomous robot.
  90. Jones, Joseph L.; Mass, Philip R., Method and system for multi-mode coverage for an autonomous robot.
  91. Jones, Joseph L.; Mass, Philip R., Method and system for multi-mode coverage for an autonomous robot.
  92. Slates, Richard D., Method for digitally measuring electrical impedance.
  93. Bertoni, Cristina; Uhov, Andrei; Zanon, Elvio, Method for dispensing a liquid into a container and related dispenser.
  94. Slates, Richard D., Method for measuring a characteristic of a conductive target material using a proximity probe.
  95. Slates, Rich, Method for measuring a gap between a proximity probe and a conductive target material.
  96. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  97. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  98. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  99. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  100. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  101. Slates, Richard D., Method for measuring a gap between a proximity probe and a conductive target material.
  102. Slates, Richard D., Method for measuring a position of a conductive target material.
  103. Coriale, Matthew Christopher; Frey, Jonathan Carey; Portig, Harald; Richey, John Parker; Tseng, Wen-hsiung Adam; Wang, Liqun Larry, Method of detecting waste toner in a container of an image forming apparatus.
  104. Hopper,Samuel Neely; Jepsen,Eric W., Method, system, and program for monitoring a consumable resource used by a system.
  105. DiBernado, Enrico; Pirjanian, Paolo, Methods and apparatus for position estimation using reflected light sources.
  106. DiBernardo, Enrico; Pirjanian, Paolo, Methods and apparatus for position estimation using reflected light sources.
  107. Pearce, David J.; Walsh, Martin R., Methods and systems for sensing an amount of material in a toner cartridge.
  108. Won, Chikyung; Sandin, Paul E.; Burnett, Scott Thomas; Kapoor, Deepak Ramesh; Hickey, Stephen A.; Rizzari, Robert; Dubrovsky, Zivthan A.; Svendsen, Selma, Modular robot.
  109. Won, Chikyung; Svendsen, Selma; Sandin, Paul E.; Burnett, Scott Thomas; Kapoor, Deepak Ramesh; Hickey, Stephen A.; Rizzari, Robert; Dubrovsky, Zivthan A. C., Modular robot.
  110. Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J., Navigating autonomous coverage robots.
  111. Ozick, Daniel N.; Okerholm, Andrea M.; Mammen, Jeffrey W.; Halloran, Michael J.; Sandin, Paul E.; Won, Chikyung, Navigating autonomous coverage robots.
  112. Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  113. Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  114. Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  115. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N.; Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  116. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N.; Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  117. Landry, Gregg W.; Cohen, David A.; Ozick, Daniel N.; Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  118. Landry, Gregg W; Cohen, David A.; Ozick, Daniel N.; Chiappetta, Mark J.; Jones, Joseph L., Navigational control system for a robotic device.
  119. Casey, Christopher M.; Cross, Matthew; Ozick, Daniel N.; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  120. Casey, Christopher M.; Cross, Matthew; Ozick, Daniel N.; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  121. Casey, Christopher M.; Cross, Matthew; Ozick, Daniel N.; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  122. Casey, Christopher M.; Cross, Matthew; Ozick, Daniel N.; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  123. Casey, Christopher; Cross, Matthew; Ozick, Daniel; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  124. Casey, Christopher; Cross, Matthew; Ozick, Daniel; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  125. Casey, Christopher; Cross, Matthew; Ozick, Daniel; Jones, Joseph L., Obstacle following sensor scheme for a mobile robot.
  126. Disilvestro, Mark R.; Hastings, Robert S.; Dietz, Terry L.; Sherman, Jason T., Orthopaedic element with self-contained data storage.
  127. Wayman, William H.; Lux, Richard A., Partial electrical discharge system and method.
  128. Danby, Hal C., Pump having flexible liner and compounding apparatus having such a pump.
  129. Dubrovsky, Zivthan A.; Landry, Gregg W.; Halloran, Michael J.; Lynch, James, Remote control scheduler and method for autonomous robotic device.
  130. Dubrovsky, Zivthan; Landry, Gregg; Halloran, Michael John; Lynch, James Kenneth, Remote control scheduler and method for autonomous robotic device.
  131. Won, Chikyung; Hickey, Stephen A.; Schnittman, Mark Steven; Dubrovsky, Zivthan A.; Svendsen, Selma; Lowry, Jed; Swett, David; Devlin, John, Removing debris from cleaning robots.
  132. Won, Chikyung; Hickey, Stephen A.; Schnittman, Mark Steven; Dubrovsky, Zivthan A.; Svendsen, Selma; Lowry, Jed; Swett, David; Devlin, John, Removing debris from cleaning robots.
  133. Won, Chikyung; Hickey, Stephen A.; Schnittman, Mark; Dubrovsky, Zivthan A.; Svendsen, Selma; Lowry, Jed; Swett, David; Devlin, John, Removing debris from cleaning robots.
  134. Jones, Joseph L.; Mass, Philip R., Robot confinement.
  135. Jones, Joseph L.; Mass, Philip R., Robot confinement.
  136. Jones, Joseph L.; Mass, Philip R., Robot confinement.
  137. Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
  138. Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
  139. Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
  140. Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
  141. Halloran, Michael J.; Mammen, Jeffrey W.; Campbell, Tony L.; Walker, Jason S.; Sandin, Paul E.; Billington, Jr., John N.; Ozick, Daniel N., Robot system.
  142. Winkens, Frank, Sensor for the contactless detection of the level of a liquid and adhering high-conductivity medium, especially blood, through a non-metal wall of a container.
  143. Dietz,Terry; DiSilvestro,Mark; Hastings,Bob; Matthews,Frank D.; Petrella,Tony; Slamin,John E.; Tomaszewski,Paul, Telemetric tibial tray.
  144. Allen Ross R. ; Tullis Barclay J. ; Gao Jun, Toner quantity measuring technique in an electrophotographic printer.
  145. Junichi Kimizuka JP; Atsuko Adachi JP, Toner remaining amount detecting device, toner remaining amount detecting method, process cartridge and electrophotographic image forming apparatus.
  146. Blouin, Matthew, Vacuum brush.
  147. Dietz, Paul H., Wireless liquid level sensing system and method.
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