Inventor
DEBAR MICHAEL J
US41 patents
⚠️ This page may combine multiple inventors who share the name “DEBAR MICHAEL J”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
NEWPORT FAB LLC
26 patentsUS10461253B1Oct 29, 2019
High reliability RF switch based on phase-change material
NEWPORT FAB LLC36 citations94
US10833261B2Nov 10, 2020
Phase-change material (PCM) RF switch with top metal contact to heating element
NEWPORT FAB LLC1 citations73
US10566528B1Feb 18, 2020
Heating element designs for phase-change material (PCM) radio frequency (RF) switches
NEWPORT FAB LLC2 citations73
US10476001B1Nov 12, 2019
Manufacturing RF switch based on phase-change material
NEWPORT FAB LLC3 citations73
US10475993B1Nov 12, 2019
PCM RF switch fabrication with subtractively formed heater
NEWPORT FAB LLC2 citations73
US9966301B2May 8, 2018
Reduced substrate effects in monolithically integrated RF circuits
NEWPORT FAB LLC3 citations73
US9755063B1Sep 5, 2017
RF SOI switches including low dielectric constant features between metal line structures
NEWPORT FAB LLC4 citations71
US11031552B2Jun 8, 2021
PCM RF switch with PCM contacts having slot lower portions
NEWPORT FAB LLC0 citations62
US10892411B2Jan 12, 2021
Phase-change material RF switch
NEWPORT FAB LLC0 citations62
US10862027B2Dec 8, 2020
Method of manufacturing PCM RF switch
NEWPORT FAB LLC0 citations52
US10833260B2Nov 10, 2020
Phase-change material (PCM) RF switch having contacts to PCM and heating element
NEWPORT FAB LLC0 citations52
US10811606B2Oct 20, 2020
Length-wise segmented slot contacts for improving performance in phase-change material (PCM) radio frequency (RF) switches
NEWPORT FAB LLC0 citations52
US10804462B2Oct 13, 2020
Phase-change material (PCM) RF switch with contacts to PCM and heating element
NEWPORT FAB LLC0 citations52
US10804108B2Oct 13, 2020
Method for fabricating contacts in a phase-change material (PCM) RF switch having a heating element
NEWPORT FAB LLC0 citations52
US10756268B2Aug 25, 2020
High reliability RF switch based on phase-change material
NEWPORT FAB LLC0 citations52
US10741758B2Aug 11, 2020
Width-wise segmented slot contacts for improving performance in phase-change material (PCM) radio frequency (RF) switches
NEWPORT FAB LLC0 citations52
US10707125B2Jul 7, 2020
Fabrication of contacts in an RF switch having a phase-change material (PCM) and a heating element
NEWPORT FAB LLC0 citations52
US10707414B2Jul 7, 2020
Uniform plate slot contacts for improving performance in phase-change material (PCM) radio frequency (RF) switches
NEWPORT FAB LLC0 citations52
US10686130B2Jun 16, 2020
Phase-change material (PCM) contact configurations for improving performance in PCM RF switches
NEWPORT FAB LLC0 citations52
US10615338B2Apr 7, 2020
Phase-change material (PCM) contacts with slot lower portions and contact dielectric for reducing parasitic capacitance and improving manufacturability in PCM RF switches
NEWPORT FAB LLC0 citations52
US9725306B2Aug 8, 2017
MEMS device with sealed cavity and method for fabricating same
NEWPORT FAB LLC0 citations52
US9272901B2Mar 1, 2016
MEMS device with sealed cavity and release chamber and related double release method
NEWPORT FAB LLC0 citations52
US9751753B2Sep 5, 2017
Integration of active devices with passive components and MEMS devices
NEWPORT FAB LLC0 citations51
US9481568B2Nov 1, 2016
Integration of active devices with passive components and MEMS devices
NEWPORT FAB LLC0 citations51
US9458011B2Oct 4, 2016
Scalable self-supported MEMS structure and related method
NEWPORT FAB LLC1 citations51
US9377350B2Jun 28, 2016
Light sensor with chemically resistant and robust reflector stack
NEWPORT FAB LLC0 citations51
EASTMAN KODAK CO
11 patentsUS6843121B1Jan 18, 2005
Measuring absolute static pressure at one or more positions along a microfluidic device
EASTMAN KODAK CO41 citations92
US6575026B1Jun 10, 2003
Measuring absolute static pressure at one or more positions along a microfluidic device
EASTMAN KODAK CO21 citations92
US6863382B2Mar 8, 2005
Liquid emission device having membrane with individually deformable portions, and methods of operating and manufacturing same
EASTMAN KODAK CO13 citations84
US6830701B2Dec 14, 2004
Method for fabricating microelectromechanical structures for liquid emission devices
EASTMAN KODAK CO13 citations84
US6966110B2Nov 22, 2005
Fabrication of liquid emission device with symmetrical electrostatic mandrel
EASTMAN KODAK CO9 citations74
US6938310B2Sep 6, 2005
Method of making a multi-layer micro-electromechanical electrostatic actuator for producing drop-on-demand liquid emission devices
EASTMAN KODAK CO8 citations74
US6770211B2Aug 3, 2004
Fabrication of liquid emission device with asymmetrical electrostatic mandrel
EASTMAN KODAK CO8 citations74
US6527373B1Mar 4, 2003
Drop-on-demand liquid emission using interconnected dual electrodes as ejection device
EASTMAN KODAK CO7 citations74
US6996146B1Feb 7, 2006
Providing an improved organic vertical cavity laser array device
EASTMAN KODAK CO10 citations73
US6874867B2Apr 5, 2005
Electrostatically actuated drop ejector
EASTMAN KODAK CO5 citations63
US6702209B2Mar 9, 2004
Electrostatic fluid ejector with dynamic valve control
EASTMAN KODAK CO4 citations63