Patents by Inventor Camron Blackburn

Camron Blackburn 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: 20240411340
    Abstract: A method for operation of AOFP circuits includes accepting data arriving at any phase of a clock cycle, synchronizing the data to a known phase of a subsequent clock cycle, and providing the synchronized data to an AQFP circuit during the known phase of the subsequent clock cycle. The accepting and synchronizing of the data may be performed by a phase synchronizer and/or by a token-passing circuit. An asynchronous AOFP device includes at least one AQFP circuit and an activation phase synchronizer and/or token-passing circuit. The phase synchronizer may comprise a multiplexed array of QFP Buffers that samples each input phase of the clock cycle through a weak constant zero cell and outputs the logical OR of all input clock phases, propagating an input signal on any activation phase to a first phase output of the next activation cycle.
    Type: Application
    Filed: January 13, 2023
    Publication date: December 12, 2024
    Applicant: Massachusetts Institute of Technology
    Inventors: L. Camron Blackburn, Neil Gershenfeld
  • Patent number: 11999006
    Abstract: A method for fabricating MAS NMR rotors and drive caps made of diamond to increase the maximum achievable spinning frequency and enhance MAS NMR sensitivity and resolution. Diamond is an excellent choice for making MAS NMR rotors due to its high tensile and flexural strength, however, micromachining diamond is difficult due to its hardness. Although laser cutting is often employed to cut diamond sheets, this process cannot be used to create the high aspect ratio and small features required for MAS NMR rotors. In the present invention, a laser micromachining process is used to create the desired high aspect ratio while maintaining the small lateral features. In this process, the laser is used to first convert the diamond into graphite followed by a conversion to carbon dioxide in the presence of oxygen. To create a rotor, a rectangular log has a center hole drilled by the laser, and is then micromachined into a hollow cylinder.
    Type: Grant
    Filed: November 14, 2020
    Date of Patent: June 4, 2024
    Assignee: Massachusetts Institute of Technology
    Inventors: Prashant Patil, Daniel Banks, Salima Bahri, William Langford, Camron Blackburn, Zachary Fredin, Robert Griffin, Neil Gershenfeld
  • Publication number: 20210146475
    Abstract: A method for fabricating MAS NMR rotors and drive caps made of diamond to increase the maximum achievable spinning frequency and enhance MAS NMR sensitivity and resolution. Diamond is an excellent choice for making MAS NMR rotors due to its high tensile and flexural strength, however, micromachining diamond is difficult due to its hardness. Although laser cutting is often employed to cut diamond sheets, this process cannot be used to create the high aspect ratio and small features required for MAS NMR rotors. In the present invention, a laser micromachining process is used to create the desired high aspect ratio while maintaining the small lateral features. In this process, the laser is used to first convert the diamond into graphite followed by a conversion to carbon dioxide in the presence of oxygen. To create a rotor, a rectangular log has a center hole drilled by the laser, and is then micromachined into a hollow cylinder.
    Type: Application
    Filed: November 14, 2020
    Publication date: May 20, 2021
    Applicant: Massachusetts Institute of Technology
    Inventors: Prashant Patil, Daniel Banks, Salima Bahri, Will Langford, Camron Blackburn, Zach Fredin, Robert Griffin, Neil Gershenfeld