Patents by Inventor Bernard Katz
Bernard Katz has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20160176626Abstract: A cartridge for a beverage dispenser includes a top that has a perimeter forming an opening therein, an intermediate portion connected to the top, and a bottom connected to the intermediate portion. The intermediate portion has at least five openings formed therein. The intermediate portion forms a receiving space between the top and the bottom.Type: ApplicationFiled: December 23, 2014Publication date: June 23, 2016Applicant: TELESONIC PACKAGING CORP.Inventor: Bernard Katz
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Publication number: 20160016727Abstract: A cartridge for a beverage dispenser includes a top that has a perimeter forming an opening therein, an intermediate portion connected to the top, and a bottom connected to the intermediate portion. The intermediate portion has at least five openings formed therein. The intermediate portion forms a receiving space between the top and the bottom.Type: ApplicationFiled: June 22, 2015Publication date: January 21, 2016Inventor: Bernard Katz
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Publication number: 20050156608Abstract: A moisture sensing apparatus includes an oscillator for supplying an AC signal to a driven ring of a sensor having a pad inside the ring, and a ground plate around the ring. An amplifier forms part of a temperature-compensated, precision rectifier, and is connected to the pad. A first diode connected to the output of the amplifier in a feedback loop of the amplifier, where the amplifier nullifies temperature variation effects upon the diode, and supplies a rectified signal which is a function of moisture content of material in contact with the sensor. A second diodes is connected between the amplifier output and other input of the amplifier. The sensor has a rounded configuration to avoid electrostatic field fringing effects, and a passive impedance with both resistive and capacitive members is connected in parallel with the sensor to provide a functional baseline for the rectified signal.Type: ApplicationFiled: January 21, 2004Publication date: July 21, 2005Inventor: Bernard Katz
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Patent number: 6914555Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: GrantFiled: May 1, 2003Date of Patent: July 5, 2005Assignee: Gen-Probe IncorporatedInventors: James H. Lipscomb, Anna Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski, Larry Jurik
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Patent number: 6851453Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: GrantFiled: April 30, 2003Date of Patent: February 8, 2005Assignee: Gen-Probe IncorporatedInventors: James H. Lipscomb, Anna Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski, Larry Jurik
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Patent number: 6663353Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: GrantFiled: August 8, 2002Date of Patent: December 16, 2003Assignee: Gen-Probe IncorporatedInventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Patent number: 6658946Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant device for detecting fluid flow through the conduit.Type: GrantFiled: August 8, 2002Date of Patent: December 9, 2003Assignee: Gen-Probe IncorporatedInventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Publication number: 20030209093Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: ApplicationFiled: April 30, 2003Publication date: November 13, 2003Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski, Anna Jurik
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Publication number: 20030200801Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: ApplicationFiled: May 1, 2003Publication date: October 30, 2003Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski, Anna Jurik
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Patent number: 6604054Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant mechanism for detecting fluid flow through the conduit.Type: GrantFiled: February 28, 2001Date of Patent: August 5, 2003Assignee: Gen-Probe, Inc.Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Publication number: 20020189324Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant means for detecting fluid flow through the conduit.Type: ApplicationFiled: August 8, 2002Publication date: December 19, 2002Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Publication number: 20020189373Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant means for detecting fluid flow through the conduit.Type: ApplicationFiled: August 8, 2002Publication date: December 19, 2002Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Publication number: 20010047692Abstract: A sensor for detecting contact of a fluid delivery probe with a fluid surface and for detecting fluid flow through the probe includes a first electrode disposed along a fluid flow path of the probe upstream from a distal tip of the probe and a second electrode longitudinally spaced and electrically isolated from the first electrode and disposed at the distal tip of the probe. An oscillating signal is transmitted through the first electrode, and at least a portion of the signal is received through the second electrode. Through changes in the received signal due to the distal tip of the probe coming into contact with a fluid surface or due to fluid flow through the conduit between the first and second electrodes, fluid surface contact and fluid flow can be detected. A pressure sensor can be employed to monitor internal fluid pressure within the fluid conduit of the fluid delivery probe as a secondary, redundant means for detecting fluid flow through the conduit.Type: ApplicationFiled: February 28, 2001Publication date: December 6, 2001Inventors: James H. Lipscomb, Larry Jurik, Bernard Katz, Michael J. Keating, Stone Klengler, John J. Kotlarik, Mieczyslaw Wroblewski
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Patent number: 5945907Abstract: A sensing and indicating device is mounted at a fixed location to determine the distance between the sensor and an approaching vehicle. The sensor provides visual and/or audible indication of the distance between the vehicle and the sensor. The driver of the vehicle uses that displayed or audible information to locate the vehicle within a defined space or envelope, e.g., within a garage. The sensor and indicator may also be located laterally with respect to the vehicle so that the distance between the vehicle side and the sensor can be determined whereby the vehicle can be located laterally within the defined space or envelope.Type: GrantFiled: October 27, 1997Date of Patent: August 31, 1999Assignee: Michael YaronInventors: Michael Yaron, Bernard Katz, Karl E. Geisel
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Patent number: D760584Type: GrantFiled: December 23, 2014Date of Patent: July 5, 2016Assignee: TELESONIC PACKAGING CORP.Inventor: Bernard Katz