Patents by Inventor Shalini Tripathy

Shalini Tripathy 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).

  • CONTACTOR DAMAGE AND DIAGNOSTICS
    Publication number: 20220337070
    Abstract: A method includes interpreting a contactor open event and a contactor load value for a contactor positioned on a motive power circuit for a mobile application, determining that a contactor opening event under load has occurred in response to the contactor open event and the contactor load value, and updating a contactor wear condition in response to the contactor opening event under load, wherein updating the contactor wear condition comprises accumulating a number of the contactor opening events under load.
    Type: Application
    Filed: May 5, 2022
    Publication date: October 20, 2022
    Inventors: Justin Keith Griffiths, Nilesh Surase, Ritika Shetty, Shalini Tripathy, Somdut Dey, Madhavi Gupta, Mayura Madane, Sadiya Qureshi, Toseed Khan, Amit Chavan, Kumar Prasad Telikepalli, Atul Solvande, Hao Wang, Jiong Chen, Yueyue Deng, Jason Carroll, Srinivasan Arjun Tekalur, Jacob William Green, Ashok Chakravarthi Kandru, Cheng Luo, Tianyang Jiang, Cheng Wan, Ye Zhu, John Trublowski, Robert Stephen Douglass, Rajen Modi, Nilay Mehta, Laura Natali Valencia Fritsch, Han Li, Dongxin JIn, Lewei Qian, Jun Li, Hongrae Kim, Daniel R. Ouwenga, Patrick Herranz, Miroslav Horejs, Rohit Baranwal, Zhe Zhang, Martin Wayne Mensch, Brandon William Fisher, Austin Robert Zurface, Jeff Howard Urian, James David, Bharath Kumar Suda, Asheesh Kumar Soni, Rene Guy Gallet, Michael Scott Sullivan, Karsten Gerving, Guido Völlmar, Gerd Schmitz, Christoph Bausch, Ute Molitor, Lutz Friedrichsen, Kai Schroeder, Julia Otte, Madeline Philipsohn, Norbert Roesner, Volker Lang, Johannes Meissner, Paolo D'Amico, Jalpa Shah, Meng Wang, Damrongrit Piyabongkarn, Niles Stephen Ramseyer, Dennis Dukaric, Matt Haylock, Anvaya R. Hingangave, Devendra Patil
  • POWER DISTRIBUTION AND CIRCUIT PROTECTION FOR A MOBILE APPLICATION HAVING A HIGH EFFICIENCY INVERTER
    Publication number: 20200274375
    Abstract: A power electronics assembly for a mobile application includes a first power electronics component selectively coupled to a high source on a first side and coupled to a high voltage battery on a second side, a second power electronics component selectively coupled to one of a low load or a low voltage battery on a first side and coupled to the high voltage battery on a second side; and a controller, including an operating mode circuit structured to determine a discharge operating mode for the mobile application, a power electronics configuration circuit structured to provide a switch state value for the first power electronics component and the second power electronics component in response to the discharge operating mode, and wherein the first power electronics component and the second power electronics component are responsive to the switch state value to coupled selected ones of the high source, low load, and low voltage battery to the high voltage battery.
    Type: Application
    Filed: March 23, 2020
    Publication date: August 27, 2020
    Inventors: Justin Keith Griffiths, Nilesh Surase, Ritika Shetty, Shalini Tripathy, Somdut Dey, Madhavi Gupta, Mayura Madane, Sadiya Qureshi, Toseed Khan, Amit Chavan, Kumar Prasad Telikepalli, Atul Solvande, Hao Wang, Jiong Chen, Yueyue Deng, Jason Carroll, Srinivasan Arjun Tekalur, Jacob William Green, Chakravarthi Kandru, Cheng Luo, Tianyang Jiang, Cheng Wan, Ye Zhu, John Trublowski, Robert Stephen Douglass, Rajen Modi, Nilay Mehta, Laura Natali Valencia Fritsch, Han Li, Dongxin Jin, Lewei Qian, Jun Li, Hongrae Kim, Daniel R. Ouwenga, Patrick Herranz, Miroslav Horejs, Rohit Baranwal, Zhe Zhang, Martin Wayne Mensch, Brandon William Fisher, Austin Robert Zurface, Jeff Howard Urian, James David, Bharath Kumar Suda, Asheesh Kumar Soni, Rene Guy Gallet, Michael Scott Sullivan, Karsten Gerving, Guido Völlmar, Gerd Schmitz, Christoph Bausch, Ute Molitor, Lutz Friedrichsen, Kai Schroeder, Julia Otte, Madeline Philipsohn, Norbert Roesner, Volker Lang, Johannes Meissner, Paolo D'Amico, Jalpa Shah, Meng Wang, Damrongrit Piyabongkarn, Niles Stephen Ramseyer, Dennis Dukaric, Matt Haylock, Anvaya R. Hingangave, Devendra Patil
  • Gas sensor housing with micro-resonators
    Patent number: 9638552
    Abstract: A module for a gas sensor module is described herein. The module can include a first portion. The first portion of the module can include a first body and at least one first micro-resonator coupling feature disposed in and traversing the first body. The first body can be configured to be disposed within a cavity of a housing of the gas sensor. The at least one first micro-resonator coupling feature can be configured to align with at least one optical device of the gas sensor when the first body is disposed within the cavity of housing of the gas sensor. The at least one first micro-resonator coupling feature can be configured to have at least one first micro-resonator disposed therein.
    Type: Grant
    Filed: August 7, 2015
    Date of Patent: May 2, 2017
    Assignee: Cooper Technologies Company
    Inventors: Abhijeet Vikram Kshirsagar, Chinmaya Rajiv Dandekar, Amit Barjatya, Shalini Tripathy
  • BOX-IN-BOX GAS SENSOR HOUSING
    Publication number: 20170038343
    Abstract: A housing for a gas sensor module is described herein. The housing can include an outer portion and an inner portion disposed within the outer portion. The outer portion can include at least one wall forming a first cavity. The outer portion can also include an inlet tube coupling feature disposed at a first location in the at least one first wall, and an outlet tube coupling feature disposed in a second location in the at least one first wall. The inner portion can include at least one second wall forming a second cavity, and a distribution channel coupling feature disposed at a third location in the at least one second wall. The inner portion can also include a receiving channel coupling feature disposed in a fourth location and a tuning fork coupling feature disposed at a fifth location in the at least one second wall.
    Type: Application
    Filed: August 7, 2015
    Publication date: February 9, 2017
    Inventors: Abhijeet Vikram Kshirsagar, Chinmaya Rajiv Dandekar, Amit Barjatya, Shalini Tripathy, Taruna Khandelwal
  • GAS SENSOR HOUSING WITH MICRO-RESONATORS
    Publication number: 20170038230
    Abstract: A module for a gas sensor module is described herein. The module can include a first portion. The first portion of the module can include a first body and at least one first micro-resonator coupling feature disposed in and traversing the first body. The first body can be configured to be disposed within a cavity of a housing of the gas sensor. The at least one first micro-resonator coupling feature can be configured to align with at least one optical device of the gas sensor when the first body is disposed within the cavity of housing of the gas sensor. The at least one first micro-resonator coupling feature can be configured to have at least one first micro-resonator disposed therein.
    Type: Application
    Filed: August 7, 2015
    Publication date: February 9, 2017
    Inventors: Abhijeet Vikram Kshirsagar, Chinmaya Rajiv Dandekar, Amit Barjatya, Shalini Tripathy