Patents by Inventor ANINDYA CHITTA BAGCHI

ANINDYA CHITTA BAGCHI 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).

  • Publication number: 20240396423
    Abstract: A power converter may include a first leg comprising a first and a second switch connected to a first terminal of the load, a second leg comprising a third and a fourth switch connected to a second terminal of the load, and a controller configured to regulate switching of the first, second, third, and fourth switches, by switching the switches of each of the first and the second leg in a complementary manner. The controller causes the first leg to be a leading leg for one or more first switching transitions of the switches in the first leg and causes the second leg to be a leading leg for one or more second switching transitions of the switches in the second leg, based at least in part on controlling a phase shift angle for a voltage between the first and the second terminal.
    Type: Application
    Filed: May 25, 2023
    Publication date: November 28, 2024
    Inventor: Anindya Chitta Bagchi
  • Patent number: 11894776
    Abstract: A power converter includes a primary H-bridge with switches and an LCL-Transformer section with a first inductor with a first end connected to a first terminal of the primary H-bridge, a capacitor connected between a second end of the first inductor and a second terminal of the primary H-bridge, and a second inductor with a first end connected to the second end of the first inductor. The converter includes a transformer with a primary connected between a second end of the second inductor and the second terminal of the primary H-bridge, a secondary H-bridge with switches with an input connected to a secondary side of the transformer, and an output capacitor connected across output terminals of the secondary H-bridge. The primary H-bridge is fed by a DC constant current source and the output terminals of the secondary H-bridge have a regulated DC output voltage are connected to a load.
    Type: Grant
    Filed: October 28, 2021
    Date of Patent: February 6, 2024
    Assignee: Utah State University
    Inventors: Tarak Saha, Anindya Chitta Bagchi, Regan A. Zane, Hongjie Wang
  • Publication number: 20230155514
    Abstract: A power converter includes a primary H-bridge with switches and an LCL-T section with a first inductor with a first end connected to a first terminal of the primary H-bridge, a capacitor connected between a second end of the first inductor and a second terminal of the primary H-bridge, and a second inductor with a first end connected to the second end of the first inductor. The converter includes a transformer with a primary connected between a second end of the second inductor and the second terminal of the primary H-bridge, a secondary H-bridge with switches with an input connected to a secondary side of the transformer, and an output capacitor connected across output terminals of the secondary H-bridge. The primary H-bridge is fed by a DC constant current source and the output terminals of the secondary H-bridge have a regulated DC output voltage are connected to a load.
    Type: Application
    Filed: October 28, 2021
    Publication date: May 18, 2023
    Applicant: Utah State University
    Inventors: Tarak Saha, Anindya Chitta Bagchi, Regan A. Zane, Hongjie Wang
  • Patent number: 11018529
    Abstract: An apparatus for inductive power transfer (“IPT”) includes an active bridge section with input terminals that receive power from a constant current source, where the active bridge section operates at a fixed switching frequency, a primary resonant capacitor connected in series with an output terminal of the active bridge section, and a primary IPT coil connected in series with the primary resonant capacitor, where power is transferred wirelessly between the primary IPT coil and a secondary IPT coil, and the secondary IPT coil is connected in series with a secondary resonant capacitor, which is connected in series with an output rectifier section that receives power from the secondary IPT coil and comprising output terminals for connection to a load. The apparatus includes a controller that regulates output voltage to the load, where the controller regulates output voltage to the load by controlling switching of the active bridge section.
    Type: Grant
    Filed: June 25, 2019
    Date of Patent: May 25, 2021
    Inventors: Anindya Chitta Bagchi, Tarak Saha, Abhilash Kamineni, Regan A. Zane
  • Patent number: 10938313
    Abstract: An apparatus includes an active bridge section with input terminals that receive power from a constant current source where the active bridge section operates at a fixed switching frequency. The apparatus includes a resonant section with a resonant inductor, a transformer and a resonant capacitor. The inductor is connected in series with a primary winding and the capacitor is connected in parallel with a secondary winding of the transformer. The resonant section is connected to an output of the active bridge section. The apparatus includes an output rectifier section that receives power from the resonant section and includes output terminals for connection to a load, and includes a controller that regulates output voltage to the load where the controller regulates output voltage to the load by controlling switching of the active bridge section. The fixed switching frequency of the active bridge section matches a resonant frequency of the resonant section.
    Type: Grant
    Filed: May 20, 2019
    Date of Patent: March 2, 2021
    Assignee: Utah State University
    Inventors: Tarak Saha, Hongjie Wang, Anindya Chitta Bagchi, Regan A. Zane
  • Publication number: 20200373785
    Abstract: An apparatus for inductive power transfer (“IPT”) includes an active bridge section with input terminals that receive power from a constant current source, where the active bridge section operates at a fixed switching frequency, a primary resonant capacitor connected in series with an output terminal of the active bridge section, and a primary IPT coil connected in series with the primary resonant capacitor, where power is transferred wirelessly between the primary IPT coil and a secondary IPT coil, and the secondary IPT coil is connected in series with a secondary resonant capacitor, which is connected in series with an output rectifier section that receives power from the secondary IPT coil and comprising output terminals for connection to a load. The apparatus includes a controller that regulates output voltage to the load, where the controller regulates output voltage to the load by controlling switching of the active bridge section.
    Type: Application
    Filed: June 25, 2019
    Publication date: November 26, 2020
    Inventors: ANINDYA CHITTA BAGCHI, TARAK SAHA, ABHILASH KAMINENI, REGAN A. ZANE
  • Publication number: 20200373847
    Abstract: An apparatus includes an active bridge section with input terminals that receive power from a constant current source where the active bridge section operates at a fixed switching frequency. The apparatus includes a resonant section with a resonant inductor, a transformer and a resonant capacitor. The inductor is connected in series with a primary winding and the capacitor is connected in parallel with a secondary winding of the transformer. The resonant section is connected to an output of the active bridge section. The apparatus includes an output rectifier section that receives power from the resonant section and includes output terminals for connection to a load, and includes a controller that regulates output voltage to the load where the controller regulates output voltage to the load by controlling switching of the active bridge section. The fixed switching frequency of the active bridge section matches a resonant frequency of the resonant section.
    Type: Application
    Filed: May 20, 2019
    Publication date: November 26, 2020
    Inventors: Tarak Saha, Hongjie Wang, Anindya Chitta Bagchi, Regan A. Zane