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Ryan M Albu

from Minneapolis, MN
Age ~46
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Also known as:
Ryan A Albu, Ryan M Alba
Phone and address:
5345 Oliver Ave S, Minneapolis, MN 55419
Related to:
Isabella AlbuMark A Stulz, 75M Albu, 57Mathew A Stulz, 43Alison M Stulz, 39Mark Albu, 45M AlbuMark C Albu, 75Pamela J Albu, 75Pamela B Albu, 58Michael Stulz, 38Marne L Stulz, 44Cynthia J Stulz, 72Erin M Albu, 46
Connected to:
Anthony W Albu, 48Myra D Albu, 41Robert J Albu, 62Chelsea V Albucher, 53Alexander M Albuerne, 53Alfonso A Albuja, 83Alvaro A Albuja, 31Jorge Albuja, 78Rolando A Albuja, 54Julian M Albulet, 70

Ryan Albu Phones & Addresses

  • 5345 Oliver Ave S, Minneapolis, MN 55419
  • 515 10Th St, Minneapolis, MN 55414 (612) 623-8076
  • 3025 Lake Shore Dr, Minneapolis, MN 55416
  • Waconia, MN
  • Pasadena, CA
  • Dallas, TX
  • Carver, MN
  • Hopkins, MN
  • Waconia, MN
  • Edina, MN
  • 380 S Mentor Ave APT 2, Pasadena, CA 91106

Work

Position: Production Occupations

Education

Degree: Graduate or professional degree

Resumes

Resumes

Ryan Albu Photo 1

Director, Product Development - Mcs And Cardiomems

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Location:
5345 Oliver Ave south, Minneapolis, MN 55411
Industry:
Hospital & Health Care
Work:
Abbott
Director, Product Development - Mcs and Cardiomems
Abbott Oct 2017 - Aug 2018
Senior Manager, Hardware Development - Cardiomems
Abbott Jan 2017 - Oct 2017
Senior Principal Electrical Engineer- Ep Systems and Ffr
St. Jude Medical Mar 2016 - Jan 2017
Senior Principal Electrical Engineer - Ep Systems and Ffr
St. Jude Medical Mar 2013 - Mar 2016
Principal Electrical Design Engineer - Ep Systems and Ffr
Education:
University of Minnesota 2001 - 2006
Master of Science, Masters, Electrical Engineering University of Minnesota 1997 - 2001
Bachelors, Electrical Engineering University of Minnesota Duluth 1996 - 1997
Skills:
Medical Devices
R&D
Product Development
Embedded Systems
Design Control
Firmware
Iso 13485
Fda
Iso 14971
Design For Manufacturing
Biomedical Engineering
Electronics
Lean Manufacturing
Design of Experiments
Validation
Failure Analysis
Testing
Labview
Cross Functional Team Leadership
Fmea
Manufacturing
Certifications:
Certified Running Coach
Ryan Albu Photo 2

Ryan Albu

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Location:
Greater Minneapolis-St. Paul Area
Industry:
Medical Devices
Skills:
Medical Devices
Product Development
Design Control
Biomedical Engineering
R&D
Design of Experiments
Embedded Systems
Labview
Design for Manufacturing
ISO 13485
FDA
Validation
Electronics
Cross-functional Team Leadership
FMEA
Manufacturing
Certifications:
Certified Running Coach, Road Runners Club of America

Business Records

Name / Title
Company / Classification
Phones & Addresses
Ryan Albu
Director of Engineering
St. Jude Medical, Inc
Mfg Surgical Appliances/Supplies · Medical and Hospital Equipment
15650 Vly Vw Ct, Sylmar, CA 91342
15900 Vly Vw Ct, Sylmar, CA 91342
(818) 891-8105, (651) 483-2000, (818) 362-6822, (818) 362-4687

Publications

Us Patents

Convertible Monopole And Inverted-F Antenna Assembly For Use In A Medical Telemetry System

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US Patent:
20130053713, Feb 28, 2013
Filed:
Apr 25, 2012
Appl. No.:
13/456116
Inventors:
Ryan Albu - Minneapolis MN, US
Assignee:
PACESETTER, INC. - Sylmar CA
International Classification:
A61B 5/0402
US Classification:
600509
Abstract:
An antenna assembly is configured for use with an external device that is configured to wirelessly communicate with an implantable medical device (IMD). The antenna assembly may include an antenna member pivotally secured to a structure through a feed post, and a fixed tail fixed to the structure. The antenna member may be pivotal between a first orientation in which the antenna member electrically connects to the fixed tail, and a second orientation in which the antenna member is disconnected from the fixed tail. The antenna member and the fixed tail cooperatively operate in a first antenna mode when the antenna member is in the first orientation. The antenna member is configured to operate in a second antenna mode when the antenna member is in the second orientation.

Magnetic Field-Compatible Components Of A Medical Diagnostic And/Or Therapeutic System

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US Patent:
20140039302, Feb 6, 2014
Filed:
Jul 31, 2012
Appl. No.:
13/563239
Inventors:
Stephan P. Miller - Vadnais Heights MN, US
Ryan M. Albu - Minneapolis MN, US
International Classification:
A61B 5/05
H02G 3/18
H05K 5/00
H02G 15/02
US Classification:
600424, 174 75 R, 174 59, 361752
Abstract:
A medical device assembly comprises a medical device comprising a shaft having proximal and distal end portions. The device further comprises a sensor at the distal end portion of the shaft that comprises first and second leads extending therefrom to the proximal end portion of the shaft. The device further comprises an electromechanical connector having a plurality of pins at a first end thereof. First and second of the pins are electrically connected to the first and second sensor leads, respectively, thereby forming a first partial magnetic loop between the first and second pins. The connector further comprises first and second jumpers electrically connecting the first pin and third pins, and second and fourth pins, respectively, thereby forming a second partial magnetic loop. The partial magnetic loops are configured to combine with partial magnetic loops of another connector to form a pair of magnetic noise cancellation loops.

Sensor/Lead Systems For Use With Implantable Medical Devices

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US Patent:
8388670, Mar 5, 2013
Filed:
Jan 16, 2007
Appl. No.:
11/623663
Inventors:
Yongning Zou - Valencia CA, US
James B. Hamilton - Canyon Country CA, US
Alan B. Vogel - Saugus CA, US
Chris Sorensen - Valencia CA, US
Ryan Albu - Pasadena CA, US
Assignee:
Pacesetter, Inc. - Sylmar CA
International Classification:
A61F 7/00
US Classification:
607112
Abstract:
Techniques are provided for equipping sensing/pacing leads with physiological sensors without requiring additional conductors within the leads. In a bipolar lead example for use with a pacemaker, a sensor is connected between tip and ring conductors of the lead. The sensor is configured to be activated only in response to enhanced pacing pulse (EPPs) having magnitudes or durations greater than typical pacing pulses or in response to impedance detection pulses (IMPs). In a unipolar example, the sensor is connected to the tip conductor and includes an output terminal on the external housing of the lead for providing a return current path to the pacemaker. The sensor of the unipolar lead is likewise configured to respond only to EPPs or IMPs. In other examples, the sensors are configured to be fitted to the external housing of the lead and to derive power from the lead via electromagnetic induction. Still other examples include actuators rather than sensors.

Fluorolucent Magnetic Field Generator

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US Patent:
20200060547, Feb 27, 2020
Filed:
Nov 21, 2017
Appl. No.:
16/461297
Inventors:
- Luxembourg, LU
John Hauck - Shoreview MN, US
Ryan M. Albu - Minneapolis MN, US
Timothy G. Curran - St. Paul MN, US
Ryan Link - Blaine MN, US
International Classification:
A61B 5/00
A61B 5/06
A61B 6/12
A61B 6/00
A61B 5/0402
G01B 7/00
H01F 7/20
H01F 27/28
Abstract:
A transmitting element for generating a magnetic field for tracking of an object includes a first spiral trace that extends from a first outer origin inward to a central origin in a first direction. A second spiral trace can extend from the central origin outward to a second outer origin in the first direction. The second spiral trace can extend from the central origin to the second outer origin in the first direction. The first spiral trace and the second spiral trace can be physically connected at the central origin to form the fluorolucent magnetic transmitting element and at least a portion of the first spiral trace overlaps at least a portion of the second spiral trace.

System And Method Of Cancellation Of Source Induced Errors

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US Patent:
20190053737, Feb 21, 2019
Filed:
Feb 2, 2017
Appl. No.:
16/075230
Inventors:
- Luxembourg, LU
Ryan Albu - Minneapolis MN, US
International Classification:
A61B 5/06
A61B 5/00
A61B 34/20
Abstract:
A medical device assembly comprises a medical device comprising a shaft having proximal and distal end portions. The device further comprises a sensor at the distal end portion of the shaft that comprises first and second leads extending therefrom to the proximal end portion of the shaft. The device further comprises an electromechanical connector having a plurality of connection points at a first end thereof. First and second of the connection points are electrically connected to the first and second sensor leads, respectively. The connector further comprises an error loop segment electrically coupled to third and fourth connection points. The error loops segment assists in forming a compensation loop that can be used to correct for magnetic noise.

Magnetic Field-Compatible Components Of A Medical Diagnostic And/Or Therapeutic System

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US Patent:
20170014112, Jan 19, 2017
Filed:
Jul 8, 2016
Appl. No.:
15/205771
Inventors:
- St. Paul MN, US
Ryan M. Albu - Minneapolis MN, US
International Classification:
A61B 17/00
H01R 13/648
A61B 34/20
Abstract:
A medical device assembly comprises a medical device comprising a shaft having proximal and distal end portions. The device further comprises a sensor at the distal end portion of the shaft that comprises first and second leads extending therefrom to the proximal end portion of the shaft. The device further comprises an electromechanical connector having a plurality of pins at a first end thereof. First and second of the pins are electrically connected to the first and second sensor leads, respectively, thereby forming a first partial magnetic loop between the first and second pins. The connector further comprises first and second jumpers electrically connecting the first pin and third pins, and second and fourth pins, respectively, thereby forming a second partial magnetic loop. The partial magnetic loops are configured to combine with partial magnetic loops of another connector to form a pair of magnetic noise cancellation loops.

Low Leakage Current Power Supply Methods, Systems, And Apparatuses

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US Patent:
20150008739, Jan 8, 2015
Filed:
Jun 30, 2014
Appl. No.:
14/319385
Inventors:
- St. Paul MN, US
Ryan M. Albu - Minneapolis MN, US
International Classification:
H02J 3/00
US Classification:
307 23, 307 31
Abstract:
Low leakage current power supply methods, systems, and apparatus are described. In one example, a medical system includes a plurality of medical devices and a power supply configured to provide alternating current (AC) power to the plurality of medical devices. The power supply includes an input configured to receive AC power from an AC power source, an isolated switching power converter coupled to the input to receive the AC power and output AC power, a controller coupled to the isolated switching power converter and configured to control operation of the isolated switching power converter, and an output coupled to the isolated switching power converter to provide the AC power output.
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Ryan M Albu from Minneapolis, MN, age ~46 Get Report