Norman E Swenson, 926720 E Green Lake Way N APT 1005, Seattle, WA 98103
Norman Swenson Phones & Addresses
6720 E Green Lake Way N APT 1005, Seattle, WA 98103 206-4195321
1841 180Th St, Seattle, WA 98133 206-5424681
Shoreline, WA
Kenmore, WA
Olympia, WA
Camano Island, WA
6720 E Green Lake Way N APT 10, Seattle, WA 98103 206-5424681
Work
Position:
Executive, Administrative, and Managerial Occupations
Mentions for Norman E Swenson
Publications & IP owners
Us Patents
Testing Of Receivers With Separate Linear O/E Module And Host Used In Communication Links
US Patent:
7664394, Feb 16, 2010
Filed:
Jun 29, 2006
Appl. No.:
11/427765
Inventors:
Thomas A. Lindsay - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Ladera Ranch CA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Ladera Ranch CA, US
Assignee:
ClariPhy Communications, Inc. - Irvine CA
International Classification:
H04B 10/08
H04B 17/00
H04B 17/00
US Classification:
398 25, 398 16, 398 26
Abstract:
A receiver for a communications link includes a receiver module and a host receiver. These two components can be tested independently. In one embodiment, the receiver module is characterized with respect to noise and distortion. The noise performance can be determined by comparing input and output signals of the receiver module, to determine the relative noise of the receiver module. The distortion performance can be determined by comparing the distortion of input and output signals of the receiver module, using a reference host receiver that includes an equalizer. The host receiver can be tested by using a reference receiver module.
Transmitter Frequency Peaking For Optical Fiber Channels
US Patent:
7853149, Dec 14, 2010
Filed:
Mar 7, 2006
Appl. No.:
11/370655
Inventors:
Thomas A. Lindsay - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Norman L. Swenson - Mountain View CA, US
Assignee:
ClariPhy Communications, Inc. - Irvine CA
International Classification:
H04B 10/00
US Classification:
398 93, 398 92, 398 94, 398 99
Abstract:
Frequency peaking is used in the transmitter to improve link performance. In one example, frequency peaking improves the PIEor TWDP. The frequency peaking can result in pulse shapes that have more electrical energy in the receiver (and therefore higher received SNR) than uncompensated pulses. In addition, due to the response of typical fibers, boosting the high frequencies typically will flatten the received spectrum, which will improve the performance of the equalizer in an EDC receiver.
Testing Of Elements Used In Communication Links
US Patent:
8498535, Jul 30, 2013
Filed:
Feb 15, 2010
Appl. No.:
12/705973
Inventors:
Thomas A. Linsday - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Ladera Ranch CA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Ladera Ranch CA, US
Assignee:
Clariphy Communications, Inc. - Irvine CA
International Classification:
H04B 10/08
H04B 17/00
H04B 17/00
US Classification:
398 25, 398 16, 398 26
Abstract:
A receiver for a communications link includes a receiver module and a host receiver. These two components can be tested independently. In one embodiment, the receiver module is characterized with respect to noise and distortion. The noise performance can be determined by comparing input and output signals of the receiver module, to determine the relative noise of the receiver module. The distortion performance can be determined by comparing the distortion of input and output signals of the receiver module, using a reference host receiver that includes an equalizer. The host receiver can be tested by using a reference receiver module.
Transmitter Frequency Peaking For Optical Fiber Channels
US Patent:
2011021, Sep 1, 2011
Filed:
Dec 13, 2010
Appl. No.:
12/966991
Inventors:
Thomas A. Lindsay - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Norman L. Swenson - Mountain View CA, US
Assignee:
CLARIPHY COMMUNICATIONS, INC. - Irvine CA
International Classification:
H04B 10/04
US Classification:
398194
Abstract:
Frequency peaking is used in the transmitter to improve link performance. In one example, frequency peaking improves the PIEor TWDP. The frequency peaking can result in pulse shapes that have more electrical energy in the receiver (and therefore higher received SNR) than uncompensated pulses. In addition, due to the response of typical fibers, boosting the high frequencies typically will flatten the received spectrum, which will improve the performance of the equalizer in an EDC receiver.
Testing Of Receivers With Separate Linear O/E Module And Host Used In Communication Links
US Patent:
2012018, Jul 26, 2012
Filed:
Apr 27, 2009
Appl. No.:
12/387142
Inventors:
Thomas A. Lindsay - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Brier WA, US
Norman L. Swenson - Mountain View CA, US
Paul Voois - Brier WA, US
Assignee:
ClariPhy Communications, Inc. - Irvine CA
International Classification:
H04B 10/08
US Classification:
398 26
Abstract:
A receiver for a communications link includes a receiver module and a host receiver. These two components can be tested independently. In one embodiment, the receiver module is characterized with respect to noise and distortion. The noise performance can be determined by comparing input and output signals of the receiver module, to determine the relative noise of the receiver module. The distortion performance can be determined by comparing the distortion of input and output signals of the receiver module, using a reference host receiver that includes an equalizer. The host receiver can be tested by using a reference receiver module.
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