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Umesh Jairamdas Rajani

from Cary, NC
Age ~48
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Also known as:
Umesh J Rajani, Unesh J Rajani
Phone and address:
726 Mcrae Rd, Cary, NC 27519
Connected to:
Ahmed Rajani, 48Amin Rajani, 42Deepak D Rajani, 43Kamlesh C Rajani, 56Mohammed B Rajani, 53Mohan Rajani, 38Nikhilesh Rajani, 52Nirmal K Rajani, 43Priya H Rajani, 33Raj Rajani, 39

Umesh Rajani Phones & Addresses

  • 726 Mcrae Rd, Cary, NC 27519
  • Gaithersburg, MD
  • Anderson, SC
  • New Bern, NC
  • 1511 Graduate Ln, Raleigh, NC 27606 (919) 834-3521
  • 2512 Avent Ferry Rd, Raleigh, NC 27606 (919) 834-3521

Work

Company: Techtronic industries north america Aug 2007 Position: Senior electrical engineer

Education

School / High School: North Carolina State University- Raleigh, NC May 2003 Specialities: MS in Computer Engineering

Resumes

Resumes

Umesh Rajani Photo 1

Sustaining Engineering Manager

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Location:
Washington, DC
Industry:
Medical Devices
Work:
Johnson & Johnson Vision Care, Inc. Aug 2016 - Sep 2018
Project Lead and Senior R and D Software Engineer
Senseonics, Incorporated Aug 2016 - Sep 2018
Sustaining Engineering Manager
Hill-Rom Aug 2013 - Aug 2016
Specialist Engineer - Electrical
Techtronic Industries - Tti Aug 2007 - Aug 2013
Senior Electrical Engineer
Bsh Turkey May 2003 - Aug 2007
Electronics Design Engineer
Education:
North Carolina State University 2001 - 2003
Master of Science, Masters, Computer Engineering L.d. College of Engineering 1994 - 1998
Bachelor of Engineering, Bachelors, Electronics Engineering Uc Irvine
Skills:
Embedded Systems
Microcontrollers
Electronics
Testing
Engineering
Rtos
Embedded Software
Simulations
Arm
Labview
Pcb Design
Product Development
Embedded Hardware
Altium Designer
Pcb Layout Design
Schematic Capture
Assembly Language
C Langauge
Microchip Pic
Atmel
Mplab
Iar Embedded Workbench
Oscilloscope
Spectrum Analyzer
Soldering
Digital Electronics
Analog Circuit Design
Smps
Linux
Unix
Verilog
Embedded Linux
Uc/Os Ii
Fedora
Eclipse
Debugging
C
Hardware Architecture
Firmware
Cross Functional Team Leadership
C++
Product Design
Project Management
Qt
Windows Embedded
Design Control
People Management
Data Analysis
Umesh Rajani Photo 2

Umesh Rajani

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Umesh Rajani Photo 3

Umesh Rajani Anderson, SC

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Work:
Techtronic Industries North America

Aug 2007 to Present
Senior Electrical Engineer
Bosch - Siemens Home Appliances
New Bern, NC
May 2003 to Aug 2007
Electronics Design Engineer
NCSU
Raleigh, NC
May 2002 to May 2003
Scientific Visualization Expert
L&T-Chiyoda Ltd
Gujarat, IN
Aug 1998 to Jul 2001
Executive Engineer
Education:
North Carolina State University
Raleigh, NC
May 2003
MS in Computer Engineering
L.D. College Of Engineering
Ahmedabad, Gujarat
Jul 1998
BE in Electrical Engineering

Publications

Us Patents

Electromagnetic Scanning Imager

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US Patent:
8253619, Aug 28, 2012
Filed:
Dec 1, 2009
Appl. No.:
12/628445
Inventors:
David S. Holbrook - Lexington MA, US
Christopher P. Adams - Somerville MA, US
Brent Gregorich - Anderson SC, US
Umesh Rajani - Anderson SC, US
Jason Porter Whitmire - Piedmont SC, US
Scott D. Bublitz - Hartland WI, US
Jeffrey C. Hessenberger - Neosho WI, US
John S. Scott - Brookfield WI, US
Mark Huggins - Anderson SC, US
Matthew J. Mergener - Germantown WI, US
Assignee:
Techtronic Power Tools Technology Limited - Tortola
International Classification:
G01S 13/89
G01S 13/88
G01V 3/12
G01S 13/00
G01V 3/00
US Classification:
342 22, 342 89, 342 90, 342175, 342176, 342179, 342192, 342195, 324323, 324332, 324344, 324600, 324629, 324637, 324642
Abstract:
In one aspect, the present invention provides an imager, preferably portable, that includes a source of electromagnetic radiation capable of generating radiation with one or more frequencies in a range of about 1 GHz to about 2000 GHz. An optical system that is optically coupled to the source focuses radiation received therefrom onto an object plane, and directs at least a portion of the focused radiation propagating back from the object plane onto an image plane. The imager further includes a scan mechanism coupled to the optical system for controlling thereof so as to move the focused radiation over the object plane. A detector optically coupled to the lens at the image plane detects at least a portion of the radiation propagating back from a plurality of scanned locations in the object plane, thereby generating a detection signal. A processor that is in communication with the detector generates an image of at least a portion of the object plane based on the detection signal.

Battery Charger

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US Patent:
8378624, Feb 19, 2013
Filed:
Sep 8, 2009
Appl. No.:
12/555573
Inventors:
Samuel Boyles - Easley SC, US
Anthony Thomas Tocco - Anderson SC, US
Umesh Rajani - Anderson SC, US
Mike Hornick - Anderson SC, US
Assignee:
Techtronic Power Tools Technology Limited - Tortola,
International Classification:
H02J 7/00
US Classification:
320107, 320106, 320114
Abstract:
An energy-efficient and compact multi-port battery charger. The battery charger includes, among other things, a power supply module, a battery charger control module or controller, a power switching module, one or more power control safety modules, a plurality of battery charger switches, and a plurality of indicators. The controller, the power switching module, the power control safety modules, and the battery charger switches work in conjunction with each other to control the operation of the battery charger. The controller is configured to execute a charging control process which detects the insertion of a battery pack into a charging port, selects a charging port for charging, controls the power output from the power switching module, and controls the illumination or display of the indicators. The power switching module uses control signals from the controller to switch the power received from the power supply module such that a charging current is applied to a single charging port. Each of the power control safety modules includes a power control safety circuit that is configured to prevent the charging current and/or the charging voltage from damaging the battery charger or battery pack during a malfunction.

Battery Charger

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US Patent:
8441230, May 14, 2013
Filed:
Nov 18, 2010
Appl. No.:
12/949484
Inventors:
Samuel Boyles - Easley SC, US
Umesh Rajani - Anderson SC, US
Anthony Thomas Tocco - Easley SC, US
Mike Hornick - Anderson SC, US
William Stuart Miller - Anderson SC, US
Assignee:
Techtronic Power Tools Technology Limited - Tortola
International Classification:
H02J 7/00
US Classification:
320107, 320112, 320114
Abstract:
An energy-efficient and compact battery charger. The battery charger includes, among other things, a charging port, a power supply module, a battery charger control module or controller, a power control safety module, a battery charger switch, and an indicator. The controller, the power control safety module, and the battery charger switch work in conjunction with each other to control the operation of the battery charger. The controller is configured to execute a charging control process which detects the insertion of a battery pack into the charging port, controls the charging of the battery pack, and controls the illumination or display of the indicator. The power control safety module includes a power control safety circuit that is configured to prevent the charging current and/or the charging voltage from damaging the battery charger or battery pack during a malfunction.

Battery Tester

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US Patent:
20090251149, Oct 8, 2009
Filed:
Apr 2, 2008
Appl. No.:
12/061380
Inventors:
Michael E. Buckner - Central SC, US
Daniel B. Nelson - Anderson SC, US
Samuel Boyles - Easley SC, US
Umesh Jairamdas Rajani - Anderson SC, US
Anthony Thomas Tocco - Easley SC, US
Assignee:
EASTWAY FAIR COMPANY LIMITED - ROAD TOWN
International Classification:
G01R 31/36
G08B 21/00
US Classification:
324426, 34063615
Abstract:
A battery tester engages a power tool battery and includes a housing having a cavity for receiving a stem of the power tool battery. The battery tester has a plurality of electrically conductive contacts disposed in the cavity and is configured to engage corresponding battery electrodes on the stem. A processor is mounted within the housing and communicates with the battery through the electrically conductive contacts. The processor measures a voltage level of the battery, and a loading circuit electrically loads the battery during measuring. One or more indicators are controlled by the processor. The processor activates the loading circuit for a predetermined period of time to measure a voltage level of the battery while under load, and then activates the indicators to provide a visual indication of remaining battery life. The battery tester is a stand-alone device where housing does not have a motor or a battery charger.

Battery Pack With High And Low Current Discharge Terminals

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US Patent:
20100190052, Jul 29, 2010
Filed:
Jan 27, 2010
Appl. No.:
12/694438
Inventors:
Umesh Rajani - Anderson SC, US
Samuel Boyles - Easley SC, US
Mike Hornick - Anderson SC, US
Fabio Romero - Simpsonville SC, US
William S. Miller - Anderson SC, US
Michael E. Buckner - Central SC, US
Mark Huggins - Anderson SC, US
Ryan Harrison - Anderson SC, US
Taku Ohi - Greer SC, US
Thomas Parel - Anderson SC, US
International Classification:
H01M 2/02
US Classification:
429178
Abstract:
A battery pack that is capable of supplying high- and low-current discharge to end products. The battery pack includes a cylindrical housing with a lithium-ion battery cell enclosed within the housing. The housing also includes a first end portion, a second end portion, and a body portion. The first end portion includes a plurality of terminals for electrically connecting to the end product. The terminals include a high-current discharge terminal, a low-current discharge terminal, a battery pack identification terminal, a battery pack temperature terminal, and a positive voltage terminal. The second end portion includes a recess for removably securing the battery pack to an end product, such as a battery charger or a power tool. Included within the battery pack housing is circuitry for controlling the charging and discharging of the battery pack through the low-current discharge terminal.

Bed/Room/Patient Association Systems And Methods

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US Patent:
20210241894, Aug 5, 2021
Filed:
Apr 22, 2021
Appl. No.:
17/237104
Inventors:
- Batesville IN, US
Keith A. Huster - Sunman IN, US
Michael S. Hood - Batesville IN, US
James Maurice Allen - Batesville IN, US
John D. Christie - Batesville IN, US
Jack Barney Sing - Batesville IN, US
Dan R. Tallent - Hope IN, US
Umesh Jairamdas Rajani - Cary NC, US
Clay Gerome Owsley - Pittsboro IN, US
Thomas F. Heil - Batesville IN, US
Timothy D. Wildman - Metamora IN, US
International Classification:
G16H 40/20
A61G 7/05
G16H 40/67
Abstract:
Systems and methods of associating beds and/or rooms and/or patients are provided. One system and method involves using a signature of emitted light to determine a location of a patient bed in a healthcare facility. Another system and method involves reading a bar code from an array of redundant bar codes. Still another system and method involves manually entering location information on a graphical user interface of a patient bed for subsequent transmission. A further system and method involves sending bed ID and location ID along parallel paths from two independent circuits on a patient bed for receipt by two different transceivers and ultimately by two different remote computers that cooperate to associate the bed ID with the location ID. Still a further system and method involves using circuitry on a bed to mutate a received location ID and a bed ID into a single unique mutated ID such as by adding the location ID and bed ID and then performing a hashing operation.

Bed/Room/Patient Association Systems And Methods

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US Patent:
20180039743, Feb 8, 2018
Filed:
Oct 16, 2017
Appl. No.:
15/784693
Inventors:
- Batesville IN, US
Keith A. Huster - Sunman IN, US
Michael A. Hood - Batesville IN, US
James M. Allen - Batesville IN, US
John D. Christie - Batesville IN, US
Jack Barney Sing - Batesville IN, US
Dan R. Tallent - Hope IN, US
Umesh J. Rajani - Cary NC, US
Clay G. Owsley - Pittsboro IN, US
Thomas F. Heil - Batesville IN, US
Timothy D. Wildman - Metamora IN, US
International Classification:
G06F 19/00
A61G 7/05
G06Q 50/22
G06Q 50/24
Abstract:
Systems and methods of associating beds and/or rooms and/or patients are provided. One system and method involves using a signature of emitted light to determine a location of a patient bed in a healthcare facility. Another system and method involves reading a bar code from an array of redundant bar codes. Still another system and method involves manually entering location information on a graphical user interface of a patient bed for subsequent transmission. A further system and method involves sending bed ID and location ID along parallel paths from two independent circuits on a patient bed for receipt by two different transceivers and ultimately by two different remote computers that cooperate to associate the bed ID with the location ID. Still a further system and method involves using circuitry on a bed to mutate a received location ID and a bed ID into a single unique mutated ID such as by adding the location ID and bed ID and then performing a hashing operation.

Automated Patient Billing For Consumables

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US Patent:
20170200206, Jul 13, 2017
Filed:
Jan 5, 2017
Appl. No.:
15/398831
Inventors:
- Batesville IN, US
Umesh J. RAJANI - Cary NC, US
Robert ROSS - Durham NC, US
Fengshuan ZHOU - Cary NC, US
Jonathan K. LUPTON - Hillsborough NC, US
Jared RUDE - Raleigh NC, US
Nathaniel W. HIXON - Raleigh NC, US
International Classification:
G06Q 30/04
G06F 19/00
G06Q 50/22
Abstract:
A controller of a patient support apparatus is disclosed. The controller includes a processor, an electro-magnetic reader configured to transmit data to the processor, a user input configured to transmit a signal to the processor responsive to an activation of the user interface by a user, and memory. A plurality of instructions are stored in the memory and executed by the processor.
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Umesh Jairamdas Rajani from Cary, NC, age ~48 Get Report