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Jason A Harrigan, Age 3910826 323Rd Ave SE, Sultan, WA 98294

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Known as:
Jason Harriga
Related to:
Annie D Stedman 40 David R Ehler 68

Jason Harrigan Phones & Addresses

10826 323Rd Ave SE, Sultan, WA 98294 (425) 219-9924

Edmonds, WA

Marysville, WA

Snohomish, WA

10826 323Rd Ave SE, Sultan, WA 98294

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Jason A Harrigan

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Work

Company: Microsoft Mar 2019 Position: Senior rf design verification engineer

Education

Degree: Master of Science, Masters School / High School: University of Washington 2016 to 2020

Skills

Rf • Wireless • Testing • Embedded Systems • Bluetooth • Electrical Engineering • Wifi • Antennas • Rf Engineering • Wlan • Spectrum Analyzer • Pcb Design • Integration • Debugging • Wireless Technologies • Labview • Microwave • Radio Frequency • Mobile Devices

Ranks

Certificate: License 100-911-045

Industries

Computer Software

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Jason Harrigan resumes & CV records

Resumes

Jason Harrigan Photo 21

Senior Rf Design Verification Engineer

Location:
Seattle, WA
Industry:
Computer Software
Work:
Microsoft
Senior Rf Design Verification Engineer Honeywell Sep 2013 - Jul 2016
Rf Engineer at Honeywell Scanning and Mobility Intermec By Honeywell Jun 2008 - Sep 2013
Wireless Engineer
Education:
University of Washington 2016 - 2020
Master of Science, Masters University of Washington 2006 - 2008
Bachelors, Bachelor of Science In Electrical Engineering, Bachelor of Science, Physics, Communications Everett Community College 2003 - 2005
Skills:
Rf, Wireless, Testing, Embedded Systems, Bluetooth, Electrical Engineering, Wifi, Antennas, Rf Engineering, Wlan, Spectrum Analyzer, Pcb Design, Integration, Debugging, Wireless Technologies, Labview, Microwave, Radio Frequency, Mobile Devices
Certifications:
License 100-911-045
Greenbelt Design For Six Sigma - Hardware
National Instruments, License 100-911-045
Honeywell
Certified Labview Developer (Cld)

Publications & IP owners

Us Patents

Rfid Tag With Anti-Tamper Assembly

US Patent:
2019000, Jan 3, 2019
Filed:
Aug 14, 2018
Appl. No.:
16/103073
Inventors:
- Lynnwood WA, US
Jason HARRIGAN - Sultan WA, US
Rene MARTINEZ - Seattle WA, US
Pavel NIKITIN - Seattle WA, US
Shashidhar RAMAMURTHY - Seattle WA, US
David William GILPIN - Everett WA, US
Stephen KELLY - Seattle WA, US
Assignee:
INTERMEC, INC. - Lynnwood WA
International Classification:
G06K 19/073
G06K 19/077
H04W 4/80
Abstract:
A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.

Systems And Methods For Antenna Pattern Measurement

US Patent:
2018010, Apr 19, 2018
Filed:
Oct 13, 2016
Appl. No.:
15/292587
Inventors:
- Lynnwood WA, US
Jason HARRIGAN - Sultan WA, US
Assignee:
INTERMEC, INC. - Lynnwood WA
International Classification:
H04B 17/10
H01Q 1/22
H04W 4/00
Abstract:
Systems and methods for antenna pattern measurement are provided. One system includes a plurality of wireless sensors arranged in an array, wherein the wireless sensors are configured to be powered by radio-frequency (RF) signals at different power levels. The system also may include a controller configured to wirelessly transmit the RF signals at different power levels and measure responses from the wireless sensors at the different power levels. The system may further include a processor configured to calculate a radiation pattern of an antenna under test using the measured responses.

Systems And Methods For Controlling Antennas

US Patent:
2018010, Apr 12, 2018
Filed:
Oct 7, 2016
Appl. No.:
15/288182
Inventors:
- Lynnwood WA, US
Pavel NIKITIN - Seattle WA, US
Stephen J. Kelly - Marion IA, US
Jason HARRIGAN - Sultan WA, US
Assignee:
INTERMEC, INC. - Lynnwood WA
International Classification:
G06K 7/10
Abstract:
Systems and methods for a distributed antenna network are provided. One system includes a plurality of antenna modules coupled via a communication line, with each antenna module configured to be switched between a through state and a connected state using radio-frequency identification (RFID) control signals. The system further includes a plurality of antennas, with each antenna connected to a corresponding antenna module. A controller is coupled to the communication line and configured to transmit RFID control signals to the plurality of antenna modules to selectively activate one of the antenna modules by switching the antenna module to the connected state to thereby activate an antenna connected to the antenna module in the connected state.

Rfid Tag With Anti-Tamper Assembly

US Patent:
2017011, Apr 27, 2017
Filed:
Jan 6, 2017
Appl. No.:
15/400338
Inventors:
- Lynnwood WA, US
Jason HARRIGAN - Sultan WA, US
Rene MARTINEZ - Seattle WA, US
Pavel NIKITIN - Seattle WA, US
Shashidhar RAMAMURTHY - Seattle WA, US
David William GILPIN - Everett WA, US
Stephen KELLY - Marion IA, US
Assignee:
INTERMEC, INC. - Lynnwood WA
International Classification:
G06K 19/073
G06K 19/077
H04W 4/00
Abstract:
A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.

Rfid Tag With Anti-Tamper Assembly

US Patent:
2016018, Jun 30, 2016
Filed:
Dec 2, 2015
Appl. No.:
14/956763
Inventors:
- Lynnwood WA, US
Jason HARRIGAN - Sultan WA, US
Rene MARTINEZ - Seattle WA, US
Pavel NIKITIN - Seattle WA, US
Shashidhar RAMAMURTHY - Seattle WA, US
David William GILPIN - Everett WA, US
Stephen KELLY - Marion IA, US
International Classification:
G06K 19/077
Abstract:
A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.

Possible Relatives

Deborah L Harrigan  Donal L Harrigan  Donna M Harrigan  Edward V Harrigan  Elizabeth J Harrigan  Erin E Harrigan  Francis R Harrigan  Jason D Standifer  Jason J Standley  Jason L Stanfill 

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