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Kenneth Velbeck Phones & Addresses

  • 118 Old North Rd N, Northfield, OH 44067 (330) 467-0627
  • Sagamore Hls, OH
  • Bedford, OH
  • Sagamore Hls, OH
  • 118 Old North Rd, Northfield, OH 44067 (330) 256-5872

Work

Company: Cleveland ohio area 2006 to 2012 Position: Engineering project manager

Education

Degree: Bachelors, Bachelor of Science School / High School: Cleveland State University Specialities: Electronics Engineering

Skills

Engineering • Product Development • Manufacturing • Product Design

Industries

Research

Resumes

Resumes

Kenneth Velbeck Photo 1

Program Manager

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Location:
Northfield, OH
Industry:
Research
Work:
Cleveland Ohio Area 2006 - 2012
Engineering Project Manager

Thermo Fisher Scientific 2012 - 2012
Program Manager
Education:
Cleveland State University
Bachelors, Bachelor of Science, Electronics Engineering
Skills:
Engineering
Product Development
Manufacturing
Product Design

Publications

Us Patents

Radiation Detection And Acquisition System

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US Patent:
46773002, Jun 30, 1987
Filed:
Aug 3, 1984
Appl. No.:
6/637434
Inventors:
Riad A. Tawil - Kirtland OH
Kenneth Velbeck - Sagamore Hills OH
Assignee:
Harshaw/Filtrol Partnership - Cleveland OH
International Classification:
G01T 120
US Classification:
250366
Abstract:
A radiation detection and acquisition system including a plurality of radiation detector modules each characterized by the integration in a compact package of a scintillator probe and supporting electronics which provide digital pulse count signals in response to detected scintillations that may be transmitted by a differential line driver on twisted shielded wire pairs over great distances to a count signal processing unit while maintaining signal integrity. The digital pulse count output is independent of the type of radiation detected whereby the same count signal processing unit may be employed with different detectors for respective different radiations. The detector module may also have an analog signal output so that it may be interfaced to an analog signal analyzer and a third output of the detector module provides a digital output signal that reflects saturation of the electronics due to a high rate of detected scintillation events (pulse pile-up). A remotely located, microprocessor-based signal processing unit is provided to acquire count signals received on multiple channels from respective detector probes, to display such data and to transmit such data to a controller or monitor for process control and/or monitoring. Acquisition is effected via at least one detector/processor interface module having plural transmission line inputs for connection to respective detection modules and a common transmission line output for connection of said inputs to the signal processing unit.

Trained Dosimeters, Method And Apparatus

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US Patent:
55085237, Apr 16, 1996
Filed:
May 17, 1994
Appl. No.:
8/243863
Inventors:
Riad A. Tawil - Kirtland OH
Philip M. Pontikos - Warren OH
Kenneth J. Velbeck - Sagamore Hills OH
Joseph E. Rotunda - Cuyahoga Falls OH
Assignee:
Saint Gobain/Norton Industrial Ceramics Corp. - Worcester MA
International Classification:
G01T 111
US Classification:
250337
Abstract:
A dosimeter product that simplifies the process of dosimetry in medical diagnosis, therapy and other fields where high precision is needed. The dosimeter product is obtained by a unique training method which stabilizes the sensitivity of the dosimeter. Stability in sensitivity is established by a combination of high temperature cyclical annealing and low temperature furnace annealing. After the sensitivity of the dosimeters is stabilized, the dosimeters are then calibrated by generating for every dosimeter within a group element correction coefficients (ECCs) that compensate for the differences in sensitivity among the group of the dosimeters, bringing the sensitivity of each dosimeter to the sensitivity of the mean of the population. The result is a group of precalibrated dosimeters with stable sensitivity that are ready to use with established correction factors for individual TL response differences. This eliminates, among other things, the need for the end user to track individual dosimeters and to maintain annealing furnaces and fixtures.

High Temperature Thermoluminescent Dosimeter And Method Of Making And Using Same

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US Patent:
51773635, Jan 5, 1993
Filed:
Nov 30, 1990
Appl. No.:
7/620267
Inventors:
Kenneth J. Velbeck - Sagamore Hills OH
James D. Chamberlain - Maple Heights OH
Riad A. Tawil - Kirtland OH
Nokul Panigrahi - Cleveland OH
Marko Moscovitch - Rockville MD
Ramesh Tailor - Houston TX
Assignee:
Solon Technologies, Inc. - Solon OH
International Classification:
G01T 111
US Classification:
250337
Abstract:
A TLD dosimeter and method of making same, characterized by assembling a solid body of TL material on a non-luminescent substrate with a non-luminescent liquid adhesive interposed between juxtaposed parallel surfaces of the TL body and substrate, and heating the assembly to cure the liquid adhesive thereby to bond the TL body to the substrate. The liquid adhesive is a polyimide. For bonding the solid body to a film substrate such as an aromatic polyimide film, the TL body and film substrate are pressed together during heating and the heating step preferably involves baking the assembly at a high temperature.
Kenneth J Velbeck from Northfield, OH, age ~70 Get Report