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Michael J Yessik

from Hillsborough, CA
Age ~82
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Also known as:
Michael John Yessik, Michael Doyle, Micheal Yessik, Mike J Yessik, Michcael Yessik, John T House
Phone and address:
1430 Tartan Trail Rd, Burlingame, CA 94010
(650) 347-6229
Related to:
Tillman Price, 77
Connected to:
Brent W Yessin, 61Ruby Yessin, 93John M Yessis, 80Randy A Yessler, 64Marion F Yester, 64Randolph L Yester, 30Thomas G Yestramski, 70Darlene Yesudian, 47Aisha M Yesufu, 29Ellen M Yesukevich, 73

Michael Yessik Phones & Addresses

  • 1430 Tartan Trail Rd, Burlingame, CA 94010 (650) 347-6229
  • 925 Capuchino Ave, Burlingame, CA 94010
  • Hillsborough, CA
  • Richmond, CA
  • Ramer, AL
  • Ann Arbor, MI
  • San Francisco, CA
  • Lagrange, GA
  • San Mateo, CA
  • 1430 Tartan Trail Rd, Hillsborough, CA 94010

Work

Company: Incisive Jun 2000 Position: Chief executive officer

Skills

Medical Devices • Product Management • Strategic Planning • Product Development • New Business Development • Product Marketing

Industries

Medical Devices

Resumes

Resumes

Michael Yessik Photo 1

Chief Executive Officer

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Location:
1430 Tartan Trail Rd, Hillsborough, CA 94010
Industry:
Medical Devices
Work:
Incisive
Chief Executive Officer
Skills:
Medical Devices
Product Management
Strategic Planning
Product Development
New Business Development
Product Marketing

Business Records

Name / Title
Company / Classification
Phones & Addresses
Michael J. Yessik
President
INCISIVE TECHNOLOGIES, INC
125 Shoreway Rd #3000, San Carlos, CA 94070
Michael Yessik
Managing
Circulase, LLC
Medical Products Manufacturer · Mfg Measuring/Controlling Devices
925 Capuchino Ave, Burlingame, CA 94010
(650) 344-3130
Michael Yessik
ManagingPresident
INCISIVE, INC
Medical Products · Mfg Dental Equipment/Supplies · Dental Equipment and Supplies Manufacturing
3095 Richmond Pkwy STE 213, San Pablo, CA 94806
(510) 669-9401

Publications

Us Patents

Medical Laser System

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US Patent:
20030108078, Jun 12, 2003
Filed:
Dec 11, 2001
Appl. No.:
10/020846
Inventors:
Delwin McCarthy - Cerritos CA, US
Robert Gregg - Cerritos CA, US
Rick Thompson - Fairfield CA, US
Michael Yessik - Richmond CA, US
International Classification:
H01S003/10
H01S003/00
H01S003/09
US Classification:
372/069000, 372/025000
Abstract:
A laser pulse driving method comprises the steps of selecting a desired laser pulse energy level and a laser pulse width, and then determining a target flashlamp current level corresponding to the laser pulse energy level and the laser pulse width. Further, the method teaches generating a reference voltage corresponding to the target flashlamp current level at a first input of a comparator, closing a power switch to deliver an actual flashlamp current level to the flashlamp from a pulse capacitor, and then presenting a shunt voltage proportional to the actual flashlamp current level at a second input of the comparator. Further steps include, turning-on a comparator output when the shunt voltage is less than the reference voltage, receiving the comparator output at a first AND gate input, receiving a control signal at a second AND gate input for a time equal to the laser pulse width and then applying the AND gate output at a power switch driver when both the first and the second AND gate inputs are present. A power switch delivers the actual flashlamp current level from the pulse capacitor when the AND gate output is present whereby the laser pulse energy level is applied to the flashlamp in a laser pulse having the desired laser pulse energy level and laser pulse width.

Laser System

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US Patent:
48628883, Sep 5, 1989
Filed:
Sep 9, 1988
Appl. No.:
7/244523
Inventors:
Michael Yessik - San Francisco CA
Assignee:
Bausch & Lomb Incorporated - Rochester NY
International Classification:
A61B 1736
US Classification:
1283031
Abstract:
A laser system which is compact, requires no cooling means and can produce either substantially continuous output or narrow single pulses of high intensity or pulse bursts comprises a closed spherical pumping cavity having a diffuse reflecting surface and a laser rod and a flashlamp mounted in non-parallel relationship in the cavity. The system is especially useful in ophthalmology.

Diode Laser Device For Photocoagulation Of The Retina

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US Patent:
51473496, Sep 15, 1992
Filed:
Oct 7, 1988
Appl. No.:
7/254994
Inventors:
Robert W. Johnson - Los Altos CA
Ralph B. Bettman - Mountain View CA
Acle V. Hicks - Cupertino CA
Michael Yessik - San Francisco CA
Assignee:
Spectra-Physics, Inc. - Wilmington DE
International Classification:
A61B 1732
US Classification:
606 4
Abstract:
A diode laser device and method of use for achieving transcutaneous laser photocoagulation of the retina is described. A diode laser is used since it is much more efficient than the ion or dye lasers presently used for laser photocoagulation, and therefore will not require forced air of water cooling and can be made for compact. In addition, the diode laser can be used with standard 110 v wall sockets, and does not require the high power, three phase sockets required for the ion lasers. The end result is that compared to the ion laser device, the diode laser device can be brought directly into the operating room, which makes it ideal for transcutaneous delivery. A characteristic of diode lasers is that the emitted light diverges rapidly. In addition, the diode laser beam is emitted from a rectangular edge of a diode, and the light emitted along the longer sides of the rectangular edge will diverge more rapidly than that light emitted along the shorter sides of the rectangular edge. As a result, the emitted beam will become shaped as an ellipse as it travels from the rectangular edge.

Intracavity Modulated Pulsed Laser And Methods Of Using The Same

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US Patent:
58320130, Nov 3, 1998
Filed:
Dec 17, 1996
Appl. No.:
8/768250
Inventors:
Michael J. Yessik - Burlingame CA
Richard G. Thompson - Fairfield CA
Assignee:
American Dental Technologies, Inc. - Southfield MI
International Classification:
H01S 310
US Classification:
372 26
Abstract:
An intracavity modulated pulsed laser and methods of using the same. In one preferred form, an intracavity modulated pulsed laser comprises an amplification medium, a pulsed pumping source, a beam modulator, and two mirrors, one totally reflective and one partially reflective for generating at least one laser output burst comprising a plurality of sub-pulses having variably controllable peak powers. In another preferred form, a non-linear crystal is utilized to double the frequency of each laser output burst. In still another preferred form, a fluorescence feedback control circuit is utilized to control the beam modulator.

Intracavity Modulated Pulsed Laser With A Variably Controllable Modulation Frequency

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US Patent:
53902041, Feb 14, 1995
Filed:
Sep 25, 1992
Appl. No.:
7/951075
Inventors:
Michael J. Yessik - Burlingame CA
Richard G. Thompson - Santa Clara CA
Assignee:
Incisive Technologies, Inc. - San Carlos CA
International Classification:
H01S 3117
H01S 3109
US Classification:
372 38
Abstract:
An intracavity modulated pulsed laser comprising an amplification medium, a pulsed pumping source, a beam modulator, and two mirrors, one totally reflective and one partially reflective for generating at least one laser output burst comprising a plurality of sub-pulses having variably controllable peak powers.

Intracavity Modulated Pulsed Laser And Methods Of Using The Same

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US Patent:
56217455, Apr 15, 1997
Filed:
Dec 7, 1994
Appl. No.:
8/350951
Inventors:
Michael J. Yessik - Burlingame CA
Richard G. Thompson - Fairfield CA
Assignee:
American Dental Technologies, Inc. - Southfield MI
International Classification:
H01S 3117
H01S 3109
US Classification:
372 26
Abstract:
An intracavity modulated pulsed laser and methods of using the same. In one preferred form, an intracavity modulated pulsed laser comprises an amplification medium, a pulsed pumping source, a beam modulator, and two mirrors, one totally reflective and one partially reflective for generating at least one laser output burst comprising a plurality of sub-pulses having variably controllable peak powers. In another preferred form, a non-linear crystal is utilized to double the frequency of each laser output burst. In still another preferred form, a fluorescence feedback control circuit is utilized to control the beam modulator.

Intracavity Modulated Pulsed Laser And Methods Of Using The Same

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US Patent:
57486557, May 5, 1998
Filed:
Feb 7, 1996
Appl. No.:
8/597998
Inventors:
Michael J. Yessik - Burlingame CA
Richard G. Thompson - Fairfield CA
Assignee:
American Dental Technologies - Southfield MI
International Classification:
H01S 310
US Classification:
372 22
Abstract:
An intracavity modulated pulsed laser and methods of using the same. In one preferred form, an intracavity modulated pulsed laser comprises an amplification medium, a pulsed pumping source, a beam modulator, and two mirrors, one totally reflective and one partially reflective for generating at least one laser output burst comprising a plurality of sub-pulses having variably controllable peak powers. In another preferred form, a non-linear crystal is utilized to double the frequency of each laser output burst. In still another preferred form, a fluorescence feedback control circuit is utilized to control the beam modulator.
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Michael J Yessik from Hillsborough, CA, age ~82 Get Report