Ming Cai from 12433 Hibbard Dr, Portland, OR 97229, age 62, Phone: (503) 690-9184

Resumes

Ming Cai

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Location:

Portland, OR

Industry:

Semiconductors

Chief Executive Officer

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Location:

Portland, OR

Industry:

Semiconductors

Work:

Nanobeam Technology since Nov 2004
CEO
Videotele.com 2001 - 2004
Sr Engineer/Software Architect
VideoTele.com (Motorola) 1999 - 2004
Sr Software Engineer
Apple Inc. 1996 - 1999
Sr Software Engineer

Education:

Brigham Young University 1987 - 1993

Skills:

C
Embedded Systems
C++
Device Drivers

Ming Cai

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Ming Cai

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Ming Cai

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Business Records

Name / Title

Company / Classification

Phones & Addresses

Ming Cai
President

Miraco Light Inc
Business Services at Non-Commercial Site

3476 Ambra Way, San Jose, CA 95132

Ming Cai
Owner

Ivory Innovations
Photonic Device Research and Development

39224 Guardino Dr, Fremont, CA 94538

Ming Cai

HOUSTON FERRANINI APPLIANCE & FURNITURE CORP

Ming Cai

HOUSTON TECHNOLOGY CORP

News

Cities warm or cool temperatures for thousands of miles

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Hu, along with lead author Guang Zhang of Scripps and Ming Cai of Florida State University, analyzed the energy consumptionfrom heating buildings to powering vehiclesthat generates waste heat release. The worlds total energy consumption in 2006 was equivalent to a constant-use rate of 16 terawatt

Date

Jan 27, 2013

Category:

Sci/Tech

Source:

Google

Cities affect temperatures for thousands of miles

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More information: Energy consumption and the unexplained winter warming over northern Asia and North America, by Ghang J. Zhang, Ming Cai, and Aixue Hu, Nature Climate Change, Jan. 27, 2013. DOI: 10.1038/nclimate1803

Date

Jan 27, 2013

Source:

Google

Energy-Guzzling Cities Changing Weather 1000 Miles Away

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"The energy consumption in highly populated areas can cause changes in wind patterns, and that causes climate change far away from the heating source," said meteorologist and study author Ming Cai of Florida State University.

Date

Jan 27, 2013

Category:

Sci/Tech

Source:

Google

Publications

Us Patents

Dual-Wavelength Hybrid Waveguide Coupler

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US Patent:

6859582, Feb 22, 2005

Filed:

Nov 9, 2001

Appl. No.:

10/007630

Inventors:

Ming Cai - Newark CA, US
Kerry J. Vahala - San Gabriel CA, US

Assignee:

California Institute of Technology - Pasadena CA

International Classification:

G02B006/26

US Classification:

385 30, 385 28, 385 29, 385 42, 385 43, 385 50

Abstract:

A hybrid and tapered waveguide coupler that has two different single-mode waveguide sections for light at two different wavelengths to couple light at the two different wavelengths into or out of an optical device located in a reach of an evanescent field of the guided optical energy in the waveguide coupler.

Apparatus, System And Method For An Adiabatic Coupler For Multi-Mode Fiber-Optic Transmission Systems

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US Patent:

7184623, Feb 27, 2007

Filed:

Feb 3, 2005

Appl. No.:

11/051742

Inventors:

Ming Cai - Fremont CA, US
Giovanni Barbarossa - Saratoga CA, US

Assignee:

Avanex Corporation - Fremont CA

International Classification:

G02B 6/26

US Classification:

385 28, 385 43, 385147, 359333

Abstract:

An improved fiber-optic communications system comprises a multi-mode waveguide carrying an optical signal, a single-mode waveguide optically coupled to and receiving the optical signal from the multi-mode waveguide and an adiabatic coupler optically coupled between the multi-mode waveguide and the single-mode waveguide. The multi-mode and single-mode waveguides may be optical fibers. The adiabatic coupler may comprise a tapered core surrounded by a cladding. Alternatively, the adiabatic coupler may comprise a core surrounded by a cladding, wherein the refractive index of at least one of the core and the cladding varies over the length of the adiabatic coupler.

Optical Switch

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US Patent:

7221818, May 22, 2007

Filed:

Mar 1, 2005

Appl. No.:

11/070450

Inventors:

Ming Cai - Fremont CA, US
Xuehua Wu - Union City CA, US
Giovanni Barbarossa - Saratoga CA, US

Assignee:

Avanex Corporation - Fremont CA

International Classification:

G02B 6/36
G02B 6/42

US Classification:

385 16, 385 15, 385 17, 385 18, 385 25

Abstract:

The present invention relates to an optical switch. The optical switch includes at least two binary control elements movable between a first and second position. The binary control elements include an at least one angle tuning element for adjusting the pathway of an optical signal. With a binary control element in the first position, the angle tuning element is able to adjust the pathway of an optical signal. With the binary control element in a second position, the angle tuning element is not able to adjust the optical pathway of an optical signal. The optical switch of the present invention can also concurrently switch multiple optical signals in parallel.

Optical Switch Having Angle Tuning Elements And Multiple-Fiber Collimators

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US Patent:

7286730, Oct 23, 2007

Filed:

Mar 15, 2006

Appl. No.:

11/376051

Inventors:

Ming Cai - Fremont CA, US
Xuehua Wu - Union City CA, US
Giovanni Barbarossa - Saratoga CA, US

Assignee:

Avanex Corporation - Fremont CA

International Classification:

G02B 6/42

US Classification:

385 16

Abstract:

An optical switch with a compact form factor includes a multiple-fiber collimator and an angle tuning element for deflecting an optical beam from an input fiber into one of at least two output fibers. The angle tuning element may be provided between a pair of coaxially-aligned collimators, one of which is the multiple-fiber collimator. Alternatively, the angle tuning element may be provided between the multiple-fiber collimator and a reflective surface, so that only one collimator is required and the optical switch may be designed to have its input and output ports on the same side.

Optical Switch Having Angle Tuning Elements And Multiple-Fiber Collimators

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US Patent:

7603006, Oct 13, 2009

Filed:

Oct 19, 2007

Appl. No.:

11/875533

Inventors:

Ming Cai - Fremont CA, US
Xuehua Wu - Union City CA, US
Giovanni Barbarossa - Saratoga CA, US

Assignee:

Avanex Corporation - Fremont CA

International Classification:

G02B 6/26

US Classification:

385 16, 385 18

Abstract:

Optical Delay Line Interferometers With Silicon Dual Mirror For Dpsk

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US Patent:

8358466, Jan 22, 2013

Filed:

Sep 14, 2009

Appl. No.:

12/584886

Inventors:

Ming Cai - Fremont CA, US
Ruibo Wang - Oak Park CA, US

Assignee:

Oclaro (North America), Inc. - San Jose CA

International Classification:

G02B 5/30

US Classification:

35948908, 356491

Abstract:

Delay line interferometer designs using combinations of basic optical components that are expected to simplify manufacture and reduce costs while still providing precision optical performance. The main operative components of these designs are polarization beam splitters, birefringent crystals, optical delay components, and waveplates. Temperature controllers may be provided for adjusting the delay of the optical delay components.

Tunable Optical Filters With Multiple Ports

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US Patent:

8577192, Nov 5, 2013

Filed:

Jul 26, 2010

Appl. No.:

12/804627

Inventors:

Ming Cai - Fremont CA, US
Ruibo Wang - Oak Park CA, US
Ming Wu - Pleasonton CA, US
Xuefeng Yue - San Jose CA, US

Assignee:

Oclaro (North America Inc.) - San Jose CA

International Classification:

G02B 6/32

US Classification:

385 33

Abstract:

Described are tunable multiport optical filters that filter systems with many optical channels in a convenient and cost-effective manner. The tunable multiport optical filters of the invention are simple in design and have few optical components. The basic elements are a dispersion element and a rotating mirror. With properly arranged arrays of input and output optical fibers, individual wavelength components from a selected input beam are spatially separated and steered by the rotating mirror to selected output locations. The optical properties from the selected components may be measured by one or more photodetectors. The filters are also useful for selecting and routing optical signals.

Optical Performance Monitoring System

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US Patent:

20130101254, Apr 25, 2013

Filed:

Oct 25, 2011

Appl. No.:

13/281178

Inventors:

Ming Cai - Fremont CA, US
Christopher Lin - Washington DC, US

International Classification:

G02B 6/42

US Classification:

385 47

Abstract:

An optical performance monitoring system includes a four-port tap coupling a tunable optical filter to a light detector. The four-port tap is configured as an optical tap and an optical splitter combined into a single optical element, where the optical tap directs a portion of an optical signal from an optical fiber to the tunable optical filter, and the optical splitter directs the optical signal from the tunable optical filter to the light detector. The optical performance monitoring system may employ tunable optical filters as a double-duty tunable filter or a double-pass tunable filter. As a double-duty tunable filter, optical signals to be monitored are passed through the tunable filter in opposite directions. As a double-pass tunable filter, a reflecting element is arranged on the output side of the tunable filter so that a filtered optical signal can be fed back into the tunable filter.

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