Company Filing History:
Years Active: 1986
Title: The Innovations of Michael S. Briney
Introduction
Michael S. Briney is an accomplished inventor based in Mesa, Arizona. He is known for his innovative contributions to the field of electronic measurement. His work has led to the development of a unique apparatus that enhances the accuracy and reliability of inclination measurements.
Latest Patents
Briney holds a patent for a Digital Electronic Inclination Gauge. This apparatus is designed to sense and measure changes in inclination while providing a digital readout. By utilizing pulse width changes instead of amplitude, the device offers improved immunity to instability and environmental variations. The gauge features a variable frequency scale factor oscillator, allowing users to select their preferred readout units. Additionally, it enables the selection of any preset angle as a zero reference. The device can hold any displayed reading for a desired period and includes an overrange indicator that activates when the sensor's linear range is exceeded. The digital output signals from the sensor are used to control an angle generator, which adjusts the digital count based on stored offset data. This innovative design culminates in a display driver that actuates a liquid crystal display.
Career Highlights
Briney is associated with Sperry Corporation, where he has made significant contributions to the field of electronic measurement. His work has been instrumental in advancing the technology used in inclination measurement devices.
Collaborations
Throughout his career, Briney has collaborated with notable colleagues, including Jeffrey C. Heidel and Harold L. Swartz. These collaborations have further enriched his work and contributed to the development of innovative technologies.
Conclusion
Michael S. Briney is a notable inventor whose work in developing the Digital Electronic Inclination Gauge has made a significant impact in the field of electronic measurement. His innovative approach continues to influence the industry and enhance measurement accuracy.