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Terry Pennisi Phones & Addresses

  • Farragut, TN
  • 108 Forestberry St, Oak Ridge, TN 37830 (865) 482-1225
  • 105 Colby Rd, Oak Ridge, TN 37830 (865) 482-1225
  • 110 Willow Dr, Williamsburg, VA 23185
  • 1715 Oak Hills Dr, Kingston, TN 37763 (865) 717-0287 (865) 717-1349
  • McMinnville, OR
  • Asheville, NC
  • Arden, NC
  • 105 Colby Rd, Oak Ridge, TN 37830 (757) 561-6633

Work

Company: Jennova Apr 2008 Position: Chief executive officer and chief reseacher

Education

School / High School: U.s. Naval Nuclear Power School 1976 to 1977 Specialities: Electrical Engineering

Skills

Customer Service • Manufacturing • Testing • Microsoft Office • Management • Product Design • Microsoft Excel • Leadership • Microsoft Word • Sales • Powerpoint

Ranks

Certificate: General Radio and Radar Fcc Licence

Emails

Industries

Electrical/Electronic Manufacturing

Resumes

Resumes

Terry Pennisi Photo 1

Chief Executive Officer And Chief Reseacher

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Location:
12521 Pony Express Dr, Farragut, TN 37934
Industry:
Electrical/Electronic Manufacturing
Work:
Jennova
Chief Executive Officer and Chief Reseacher

Ornl
Ion Source Technician

Ornl Jefferson Labs 2002 - 2005
Cryomodule Assembly and Test Technician For Ornl and Sns
Education:
U.s. Naval Nuclear Power School 1976 - 1977
Skills:
Customer Service
Manufacturing
Testing
Microsoft Office
Management
Product Design
Microsoft Excel
Leadership
Microsoft Word
Sales
Powerpoint
Certifications:
General Radio and Radar Fcc Licence
The Federal Communications Comission

Business Records

Name / Title
Company / Classification
Phones & Addresses
Terry Pennisi
Principal
Joseph Enterprises Inc
Business Association · Business Services
105 Colby Rd, Oak Ridge, TN 37830
(865) 482-1225

Publications

Us Patents

Wireless Monitoring System With A Self-Powered Transmitter

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US Patent:
20080042816, Feb 21, 2008
Filed:
Aug 8, 2007
Appl. No.:
11/835541
Inventors:
Terry Pennisi - Oak Ridge TN, US
Steve Lelkendey - Knoxville TN, US
International Classification:
B60Q 1/00
US Classification:
340441
Abstract:
A system with a self-powered sending unit communicating with a receiving unit. The sending unit interacts with a magnet attached to a rotating or moving member. The sending unit includes an inductor that intercepts the magnetic field from the magnet. The magnetic interaction with the sending unit generates power that is stored for later use by a transmitter. The magnetic interaction also provides a trigger for the transmitter that causes the transmitter to send a signal using the stored energy. In one embodiment, the signal includes a identification code that uniquely identifies the sending unit. A receiving unit includes a receiver responsive to the transmitted signal and, in one embodiment, a display of the measured parameter that is projected by a heads-up display unit.

Self Powered Wireless System

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US Patent:
20130285647, Oct 31, 2013
Filed:
Apr 29, 2013
Appl. No.:
13/872239
Inventors:
Terry Pennisi - Oak Ridge TN, US
International Classification:
G08C 17/00
US Classification:
324174
Abstract:
Apparatus for a self-powered wireless transmitter system. One such system includes an inductor, a delay circuit, and a transmitter with an antenna. The magnet interacting with the inductor generates both power and a trigger signal. The inductor generates sufficient power for the transmitter to transmit a wireless signal corresponding to when the magnet interacts with the inductor. Precise timing is insured by the inductor being connected to the trigger input of the transmitter unit and the delay circuit adding a short delay to the signal from the inductor with the delayed signal connected to the supply voltage connection of the transmitter. The transmitter transmits the wireless signal upon being energized through the delay circuit.

Wireless Tachometer Receiver

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US Patent:
20130285707, Oct 31, 2013
Filed:
Apr 29, 2013
Appl. No.:
13/872293
Inventors:
Terry Pennisi - Oak Ridge TN, US
International Classification:
H03K 5/003
US Classification:
327108
Abstract:
Apparatus for a wireless tachometer receiver. The wireless tachometer receiver includes a receiver and a signal conditioner that drives a conventional tachometer. Conventional tachometers require an input consisting of pulses at the operating voltage of the vehicle, which is typically 12 Vdc. Conventional receivers have an alternating current output that is substantially less than the operating voltage of the vehicle, which is insufficient to trigger the tachometer reliably. The signal conditioner converts the receiver output to a signal that allows for reliable operation of the conventional tachometer. In one embodiment, the signal conditioner is an amplifier that has a gain to drive the amplifier output between zero and the operating voltage of the vehicle. In another embodiment, the signal conditioner is a step-up transformer that has a ratio sufficient to produce an output at the operating voltage of the vehicle.

Power Harvesting Wireless Transmitter

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US Patent:
20130288621, Oct 31, 2013
Filed:
Apr 29, 2013
Appl. No.:
13/872368
Inventors:
Terry Pennisi - Oak Ridge TN, US
International Classification:
H04B 1/04
H02J 7/00
US Classification:
4551271, 320107
Abstract:
Apparatus for a power harvesting wireless transmitter. The wireless transmitter includes a magnet, an inductor, a power supply, a processor, and a transmitter with an antenna. The magnet interacting with the inductor provides a sole source of power sufficient to power the transmitter. The inductor is connected to the power supply. The power supply includes a voltage multiplier, a storage unit, and, in one embodiment, a voltage regulator. The processor includes at least one input connected to one or more local switches, sensors, and instruments. The processor outputs an identifier and data corresponding to the inputs. The processor output is connected to the transmitter, which sends a wireless signal containing the identifier and data.

Self Powered Optical System

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US Patent:
20160359431, Dec 8, 2016
Filed:
Aug 22, 2016
Appl. No.:
15/243114
Inventors:
Terry Pennisi - Oak Ridge TN, US
International Classification:
H02N 11/00
H04B 10/58
H04B 1/04
H02J 50/10
Abstract:
Apparatus for a self-powered optical transmitter system. One such system includes an inductor, a power converter, an optical driver, and an optical transducer. A magnet interacting with the inductor generates and EMF that is applied to the power converter, which provides power for the optical transducer. In various embodiments, the power converter includes a voltage multiplier, such as a semiconductor circuit or a transformer, and/or a Zener diode to limit the voltage applied to the optical transducer. The optical driver is either inherent in the power converter or a separate circuit such as one including a processor. The processor has at least one input and produces an output that modulates the optical transducer.
Terry R Pennisi from Farragut, TN, age ~70 Get Report