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Vincent V Korsky

from San Rafael, CA
Age ~80
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Related to:
Irene L Korsky, 78Irene L Korsky, 45
Connected to:
Connie J Korsky, 78Gregory Korsky, 75Michael Korsky, 77Ross V Korsky, 43Steven M Korslund, 74Sarah A Korsmeyer, 36Peder H Korsmo, 102Randi S Korsmo, 44Rudy H Korsmo, 74Tracy A Korsmo, 62

Vincent Korsky Phones & Addresses

  • 47 Creekside Dr, San Rafael, CA 94903 (415) 472-4731
  • 4 Berkshire Blvd, Bethel, CT 06801 (415) 472-4731
  • 6202 Avalon Valley Dr, Danbury, CT 06810 (203) 778-3140
  • Shelton, CT
  • Novato, CA

Publications

Us Patents

Dual Channel Transmission Method And Apparatus With Inherent Channel Identification And Extraction

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US Patent:
47730684, Sep 20, 1988
Filed:
Apr 3, 1984
Appl. No.:
6/596305
Inventors:
Vincent V. Korsky - Shelton CT
Assignee:
TIE/communications, Inc. - Shelton CT
International Classification:
H04J 1500
US Classification:
370119
Abstract:
The present invention is embodied in and carried out by a dual channel transmission system with inherent channel identification and extraction. This system employs a data transmission method which has the inherent characteristic that, when two identical receivers are connected to a single signal driver which is transmitting a data stream containing data for each of the channels including one of these receivers, each identical receiver extracts only the data intended for its channel. This method affords the advantage that the signal driver bandwidth may be reassigned by software control so that, when needed, one receiver may extract both channels.

Device And Method For Maintaining Synchronization And Frequency Stability In A Wireless Telecommunication System

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US Patent:
59603313, Sep 28, 1999
Filed:
Jul 1, 1996
Appl. No.:
8/673031
Inventors:
Steve Weir - Petaluma CA
Vincent Korsky - San Rafael CA
Harbans Sehmar - Potaluma CA
Ronald Foerster - Petaluma CA
Warren Payne - Petaluma CA
Charles Petersen - Fairfax CA
Assignee:
Harris Corporation - Melbourne FL
International Classification:
H04B 140
US Classification:
455 75
Abstract:
Techniques employed to guarantee isochronous operation of a wireless system to within Federal Communication Commission, Unlicensed Personal Communication System (UPCS) requirements. Synchronization and frequency stability is tracked and maintained for more than one frequency references of stratum 3 or better in a wireless telecommunication system.

Speakerphone Control Circuit Having Low Gain States And Method For Controlling Gain Of Speakerphone

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US Patent:
47150629, Dec 22, 1987
Filed:
Mar 22, 1985
Appl. No.:
6/714721
Inventors:
Vincent V. Korsky - Shelton CT
Raymond T. Pajer - Southbury CT
Assignee:
TIE/communications, Inc. - Shelton CT
International Classification:
H04M 908
US Classification:
379390
Abstract:
A speakerphone control circuit is disclosed. The control circuit includes a first electronic switch coupled between the speakerphone microphone and a hybrid circuit coupled to the telephone line and a second electronic switch coupled between the speakerphone loudspeaker and the hybrid circuit coupled to the telephone line. A first sensing circuit for sensing the microphone signal and a second sensing circuit for sensing the received loudspeaker signal are provided. The outputs of the first and second sensing circuits are multiplexed and digitized and fed to a microprocessor controller. In response to the levels of the multiplexed signal, the microprocessor determines the state of the speakerphone from among four possible states, including a first talk state, low gain talk state, first listen state and low gain listen state. The low gain talk and listen states are provided by gating the respective first and second electronic switches on and off to chop the microphone or speaker signal, respectively, thereby attenuating the signals. This allows substantial minimization of spurious sidetone and echo signals and a lessening of harsh clipping effects.

Speakerphone Sensing Circuit

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US Patent:
46792287, Jul 7, 1987
Filed:
Mar 29, 1985
Appl. No.:
6/717688
Inventors:
Vincent V. Korsky - Shelton CT
Ronald M. Keenan - Woodbury CT
Assignee:
Tie/Communications, Inc. - Shelton CT
International Classification:
H04M 322
US Classification:
379165
Abstract:
An apparatus for indicating to a central service unit of a telephone system having a central service unit coupled to a plurality of station sets whether a particular station set comprises a speakerphone and the type of speakerphone from among two types of speakerphone, is disclosed. The station set includes a microprocessor controller having an input line coupled to a selected one of a low or high logic level. The input line is connected to an electronic switch which receives interrogation signals from the central service unit. Depending on the logic level to which the input line is coupled and the state of the switch, the central service unit can determine whether the station set comprises a speakerphone and the type of speakerphone.

Station Interface For Digital Electronic Telephone Switching System Having Centralized Digital Audio Processor

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US Patent:
45773106, Mar 18, 1986
Filed:
May 16, 1984
Appl. No.:
6/610700
Inventors:
Vincent V. Korsky - Shelton CT
Assignee:
TIE/Communications, Inc. - Shelton CT
International Classification:
H04J 1104
US Classification:
370 58
Abstract:
A station interface for a digital electronic telephone switching system is disclosed. The station interface couples a plurality of digital telephone instruments to a digital data bus having PCM encoded signals representative of analog voice signals time-division multiplexed thereon. The station interface enables two way communication between the telephone instruments and the digital data bus and includes a frame store memory for temporarily storing digital data on the data bus and assigning the digital data to system time slots. The output of the frame store memory is selectively supplied under microprocessor control to a digital audio processor which processes the PCM encoded voice signals from the telephone stations and supplies these signals to the audio processor. The audio processor digitally processes both the selected data from the frame store memory and the data from the telephone stations forwarded by a multiplexer, in respective system time slots, under microprocessor control. The PCM encoded signals are gain modified under the control of the microprocessor by the audio processor.

Trunk Interface Circuitry For Telephone Systems

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US Patent:
48948608, Jan 16, 1990
Filed:
Jun 7, 1988
Appl. No.:
7/203722
Inventors:
Vincent V. Korsky - Shelton CT
Rajmund Krzyszczyk - New Britain CT
Jin T. Lim - Trumbull CT
Assignee:
TIE/communications, Inc. - Shelton CT
International Classification:
H04M 322
H04M 714
US Classification:
379240
Abstract:
This invention relates to improved trunk interface circuitry for telephone system common equipment, which is used to connect a local customer system to a central office of the telephone company. The improved trunk interface comprises an active two-terminal current sink for limiting the loop current in a non-linear manner, and means for monitoring the voltage across the trunk line which comprises a voltage-to-pulse width converter. The voltage-to-pulse width converter is designed to operate with a microprocessor which measures the time it takes to linearly discharge a capacitor which has been charged to the line voltage.

Synchronization Method And Apparatus For A Telephone Switching System

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US Patent:
47575212, Jul 12, 1988
Filed:
May 17, 1984
Appl. No.:
6/611094
Inventors:
Vincent V. Korsky - Shelton CT
Assignee:
Tie/Communications, Inc. - Shelton CT
International Classification:
H04L 700
H04J 306
US Classification:
375109
Abstract:
A method and apparatus for synchronizing a digital data signal from a first location, such as a digital telephone station, and which is transmitted to a second location, such as the station interface of a telephone switching system common equipment input, with a digital data signal at the second location, is disclosed. The method includes transmitting a data signal to the second location from the first location, receiving the data signal at the second location and determining if the data signal is present at a selected time. Digital coded data is sent to the first location from the second location for selecting successive delay times at the first location. When the delayed data signal is present at the second location at the selected time, the optimum value of the delay time is determined at the second location, preferably by averaging the values of the delay times at which the data signal was first detected and last detected at the second location. Digital coded data corresponding to the optimum delay time is then sent to the first location to select the optimum delay time at the first location.
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Vincent V Korsky from San Rafael, CA, age ~80 Get Report