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Igor Gofman

from Brooklyn, NY
Age ~64

Igor Gofman Phones & Addresses

  • 1785 15Th St, Brooklyn, NY 11229
  • Port Jervis, NY
  • Croton on Hudson, NY
  • 2 South St, Great Neck, NY 11023
  • Flushing, NY

Resumes

Resumes

Igor Gofman Photo 1

Senior Staff Engineer Device Engineering

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Location:
1785 15Th St east, Brooklyn, NY 11229
Industry:
Medical Devices
Work:
Asco Power Technologies Jul 2002 - Dec 2006
Principal Design Engineer

Ascensia Diabetes Care Jul 2002 - Dec 2006
Senior Staff Engineer Device Engineering

Coltene Whaledent, Inc. Mar 1995 - Jul 2002
Electronic Engineer
Education:
Donec'kij Nacional'nij Tehnicnij Universitet
Masters, Bachelors, Bachelor of Science In Electrical Engineering, Master of Science In Electrical Engineering
Skills:
Switching Power Supplies
High Power and Ultra Low Power Devices
8/16/32 Bit Microcontrollers
Lcd/Tft/Oled Displays
Precision Sensors Measurement and Instrumentation
Altium Schematic Capture
Autocad
Ltspice
Mplab
Xilinx Foundation/Cool Runner
Pspice
Tina Ti
Picbasic Pro
Power Logic
Power Pcb
Visual Basic
Adobe Photoshop
Non Linear Movie Editing With Vegas Pro
Logic
Microsoft Office
Trade Show Graphics
Precision Engineering
Medical Devices
Smps
Pcb Design
Sensors
Microcontrollers
R&D
Testing
Product Development
Visio
Iso 13485
Fda
Embedded Systems
Integration
Design For Manufacturing
Engineering
V&V
Capa
Biomedical Engineering
Validation
Design of Experiments
Manufacturing
Electrical Engineering
U.s. Food and Drug Administration
Research and Development
Igor Gofman Photo 2

Igor Gofman

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Igor Gofman Photo 3

Igor Gofman

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Location:
New York, NY
Industry:
Consumer Services

Business Records

Name / Title
Company / Classification
Phones & Addresses
Igor Gofman
MAZEL PROPERTIES, LTD
Igor Gofman
EDEL MANAGEMENT LLC
Igor Gofman
G PROPERTY GROUP, LTD

Publications

Us Patents

Flexible Circuit Boards For Continuous Analyte Monitoring Devices

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US Patent:
20220210907, Jun 30, 2022
Filed:
Dec 27, 2021
Appl. No.:
17/562920
Inventors:
- Basel, CH
Igor Y. Gofman - Croton-on-Hudson NY, US
Cameron M. Young - Tarrytown NY, US
Nicholas Erekovcanski - Butler NJ, US
International Classification:
H05K 1/02
H05K 1/11
H05K 3/36
Abstract:
A flexible circuit board for a continuous analyte monitoring (CAM) device includes a plurality of physically separate circuit board cells each having circuitry thereon. The flexible circuit board also includes a plurality of flexible interconnections each connecting one of the physically separate circuit board cells to another of the physically separate circuit board cells. Each one of the flexible interconnections is operable to couple power, electrical signals, or both to the physically separate circuit board cells connected thereto. The flexible circuit board is bendable in multiple directions in three dimensions. Methods of constructing flexible circuit boards for CAM devices are also provided, as are other aspects.

Methods And Apparatus Configured To Transmit Data In Continuous Analyte Monitors

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US Patent:
20210369152, Dec 2, 2021
Filed:
May 28, 2021
Appl. No.:
17/334103
Inventors:
- Basel, CH
Igor Y. Gofman - Croton-on-Hudson NY, US
Wei Dale Zhang - Dayton NJ, US
Ji Li - Wayne NJ, US
Christopher A. Dionisio - Butler NJ, US
International Classification:
A61B 5/145
A61B 5/00
Abstract:
In one or more embodiments, a base unit of a wearable device for continuous analyte monitoring may include sensor memory circuitry and a sensor assembly. The sensor memory circuitry stores information (data) of at least one parameter of at least one component of the base unit, such as, e.g., the sensor assembly. The base unit is configured to couple to a transmitter unit of the wearable device and to transfer the information to the transmitter unit. Analyte determinations are made based at least in part on the information. Numerous other embodiments are provided.

Flexible Printed Circuit Board Having A Battery Mounted Thereto

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US Patent:
20210289631, Sep 16, 2021
Filed:
Mar 11, 2021
Appl. No.:
17/199408
Inventors:
- Basel, CH
Igor Y. Gofman - Croton-on-Hudson NY, US
International Classification:
H05K 1/18
H05K 1/11
H05K 3/28
A61B 5/00
A61B 5/145
Abstract:
A flexible printed circuit board (PCB) may have one or more coin cell batteries mounted thereto such that the flexibility of the flexible PCB is maintained. The flexible PCB has one or more battery contact pads fabricated thereon. Each battery contact pad includes a pattern of metalized vias each extending from a top surface to a bottom surface of the flexible PCB. A coin cell battery may be positioned over or under the battery contact pad. Conductive light curable epoxy is applied to and in each metalized via to contact and adhere to the coin cell battery to form a conductive path from the battery through the battery contact pad to printed conductors on the flexible PCB. Methods of mounting one or more coin cell batteries to a flexible PCB are also provided, as are other aspects.

Biosensor Calibration Coding Systems And Methods

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US Patent:
20210164962, Jun 3, 2021
Filed:
Jan 27, 2021
Appl. No.:
17/160170
Inventors:
- Basel, CH
Igor Gofman - Croton-on-Hudson NY, US
International Classification:
G01N 33/487
G01N 21/84
G01N 21/78
G01N 27/327
G01N 33/49
Abstract:
A test sensor () for determining an analyte concentration in a biological fluid comprises a strip including a fluid receiving area () and a port-insertion region (). A first row of optically transparent () and non-transparent positions forms a calibration code pattern () disposed within a first area of the port-insertion region (). A second row of optically transparent () and non-transparent positions forms a synchronization code pattern () disposed within a second area of the port-insertion region (). The second area is different from the first area. The synchronization code pattern () corresponds to the calibration code pattern () such that the synchronization code pattern () provides synchronization of the serial calibration code pattern () during insertion of the port-insertion region () into the receiving port of the analyte meter.

Devices, Systems, And Methods For Measuring Analytes In Interstitial Fluid

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US Patent:
20210137426, May 13, 2021
Filed:
Oct 30, 2020
Appl. No.:
17/086222
Inventors:
- Basel, CH
Igor Y. Gofman - Croton-on-Hudson NY, US
International Classification:
A61B 5/145
A61B 5/1486
Abstract:
An analyte monitor includes a controller including a processor coupled to a memory. The memory has instructions stored therein that, when executed by the processor, cause the controller to: provide a working electrode voltage to a working electrode of an analyte sensor; selectively provide a first counter electrode voltage and a second counter electrode voltage to a counter electrode of the analyte sensor; and provide a guard ring voltage to a guard ring associated with the working electrode. The analyte monitor further includes a current measurement circuit coupled to the controller and configured to measure current flow to the working electrode and a reference resistor electrically coupled between the working electrode and the guard ring associated with the working electrode. Other monitors, systems, sensors, and methods are disclosed.

Automatic Activation Of Continuous Glucose Monitoring (Cgm) Transmitter

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US Patent:
20210083499, Mar 18, 2021
Filed:
Sep 17, 2020
Appl. No.:
17/024635
Inventors:
- Basel, CH
Igor Y. Gofman - Croton-on-Hudson NY, US
International Classification:
H02J 7/00
A61B 5/145
A61B 5/00
H01M 10/44
H01M 2/34
Abstract:
A battery-operated electronic device, such as, e.g., a continuous glucose monitoring (CGM) transmitter, has a switch disconnect circuit that reduces battery discharge while the device is stored and/or in “shelf mode.” The device has two externally-accessible activation pads each configured to contact a same electrical conductor positioned in packaging for the device that causes the switch disconnect circuit to disconnect the battery from device electronics while the device is in the packaging. Upon removal of the device from the packaging, the two activation pads no longer contact the electrical conductor, causing the switch disconnect circuit to automatically connect the battery to the device electronics. Methods of reducing battery discharge in a battery-operated electronic device and other aspects are also described.

Biosensor Calibration Coding Systems And Methods

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US Patent:
20200103393, Apr 2, 2020
Filed:
Oct 21, 2019
Appl. No.:
16/659258
Inventors:
- Basel, CH
Igor Gofman - Croton-on-Hudson NY, US
International Classification:
G01N 33/487
G01N 21/84
G01N 21/78
G01N 27/327
G01N 33/49
Abstract:
A test sensor () for determining an analyte concentration in a biological fluid comprises a strip including a fluid receiving area () and a port-insertion region (). A first row of optically transparent () and non-transparent positions forms a calibration code pattern () disposed within a first area of the port-insertion region (). A second row of optically transparent () and non-transparent positions forms a synchronization code patient () disposed within a second area of the port-insertion region (). The second area is different from the first area. The synchronization code pattern () corresponds to the calibration code pattern () such that the synchronization code pattern () provides synchronization of the serial calibration cede pattern () during insertion of the port-insertion region () into the receiving port of the analyte meter.

Biosensor Calibration Coding Systems And Methods

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US Patent:
20190293626, Sep 26, 2019
Filed:
May 23, 2019
Appl. No.:
16/420990
Inventors:
- Basel, CH
Igor Gofman - Croton-on-Hudson NY, US
International Classification:
G01N 33/487
G01N 27/327
G01N 21/84
G01N 33/49
G01N 21/78
Abstract:
A test sensor () for determining an analyte concentration in a biological fluid comprises a strip including a fluid receiving area () and a port-insertion region (). A first row of optically transparent () and non-transparent positions forms a calibration code pattern () disposed within a first area of the port-insertion region (). A second row of optically transparent () and non-transparent positions forms a synchronization code pattern () disposed within a second area of the port-insertion region (). The second area is different from the first area. The synchronization code pattern () corresponds to the calibration code pattern () such that the synchronization code pattern () provides synchronization of the serial calibration code pattern () during insertion of the port-insertion region () into the receiving port of the analyte meter.
Igor Gofman from Brooklyn, NY, age ~64 Get Report