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Luzhong Z Yin

from Andover, MA
Age ~54
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Also known as:
Luzhong Win, G Yin
Related to:
Na Yin, 49
Connected to:
Alice C Yin, 67Angela H Yin, 41Anita Yin, 51Boqun Yin, 40Calvin Yin, 30Cathy L Yin, 71Chu C Yin, 71Chunfeng Yin, 60Chunkai Yin, 49Connie K Yin, 52

Luzhong Yin Phones & Addresses

  • Andover, MA
  • Woburn, MA
  • 4303 Baltimore Ave, Philadelphia, PA 19104 (215) 222-5176
  • 4429 Walnut St, Philadelphia, PA 19104 (215) 222-5176
  • 4311 Spruce St, Philadelphia, PA 19104 (215) 222-5176
  • Troy, NY

Work

Company: Agiltron inc Aug 2007 Position: Senior mechanical engineer

Education

School / High School: Rensselaer Polytechnic Institute 2004 Specialities: Post doctoral in research

Skills

Sensor and actuation concept development... • experiment setup • data acquisition and analysis. Computer... • Ansys • Comsol. CAD/CAM: Leditor • Solidworks.

Industries

Telecommunications

Resumes

Resumes

Luzhong Yin Photo 1

Staff Engneer

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Location:
9 Carriage Hill Rd, Andover, MA 01810
Industry:
Telecommunications
Work:
Marvell Semiconductor
Staff Engneer
Futurewei Technologies
Senior Staff Engineer
Agiltron Aug 2007 - Nov 2015
Principal Engineer and Senior Mechanical Engineer
Intellisensesoftware 2005 - 2007
Senior Researcher
University of Pennsylvania and Rpi Feb 2000 - May 2005
Postdoctoral Researcher
Education:
Tsinghua University
Doctorates, Doctor of Philosophy
Skills:
Mems Sensor and Actuator
Mems Inertial Sensor
Mems Optical Switch
Mems Voa
Device Test and Data Acquisition
Photomask Layout and Tapeout
Matlab
Simulations
R&D
Sensors
Mems
Software Development
Finite Element Analysis
Product Development
Data Acquisition
Silicon Photonics
Mass Production
Epoxy
Laser Packaging
Luzhong Yin Photo 2

Luzhong Yin Andover, MA

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Work:
Agiltron Inc

Aug 2007 to 2000
Senior Mechanical Engineer
Intellisense Corp

Oct 2005 to Jul 2007
Senior Researcher
Scientific computational research center (SCOREC)

Apr 2004 to Oct 2005
Postdoctoral Research Associate
University of Pennsylvania

Feb 2000 to Apr 2004
Postdoctoral Researcher
University of Pennsylvania

Sep 2003 to Nov 2003
Post-doc Researcher, Teach
Tsinghua University

Sep 1996 to Dec 1999
Research Assistant
Tsinghua University

Sep 1996 to Jul 1999
Teaching Assistant
China University of Mining and Technology

Aug 1994 to Sep 1996
Assistant Professor
China University of Mining and Technology

1995 to 1995
Instructor
China University of Mining and Technology

1995 to 1995
Instructor
China University of Mining and Technology

Sep 1991 to Jul 1994
Research Assistant (MS)
Education:
Rensselaer Polytechnic Institute
2004 to 2005
Post doctoral in research
University of Pennsylvania
Feb 2000 to Apr 2004
doctoral in research
Tsinghua University
Dec 1999
PHD in Mechanics
China University of Mining and Technology
Jul 1994
MS in Mining Engineering
China University of Mining and Technology
Jul 1991
BS in Mining Engineering
Skills:
Sensor and actuation concept development; proposal development; MEMS simulation and design, experiment setup, data acquisition and analysis. Computer skills Programming Languages: VC++; C; Fortran; Matlab; Maple; Labview. FEA packages: Intellisuite, Ansys, Comsol. CAD/CAM: Leditor, Solidworks.

Publications

Us Patents

Mems Bistable Optical Switch And Methods For Use Thereof

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US Patent:
8203775, Jun 19, 2012
Filed:
Aug 16, 2011
Appl. No.:
13/210703
Inventors:
Luzhong Yin - Andover MA, US
Guixiong Zhong - Billerica MA, US
Yuanxin Shou - Wellesley MA, US
Amit Ghosh - Shrewsbury MA, US
Jun Yan - Reading MA, US
Jing Zhao - Winchester MA, US
Assignee:
Agiltron, Inc. - Woburn MA
International Classification:
G02B 26/08
US Classification:
3592212, 385 18, 359900
Abstract:
An optical switch including a bistable component, a reflective component, the reflective component being operatively connected to the bistable component, a first electrothermal bent beam actuator, a first contacting component operatively connected to the first electrothermal bent beam actuator component, the first electrothermal bent beam actuator component and the first contacting component disposed such as to enable advancing the bistable component the reflective component from a first stable configuration to a second stable configuration, a second electrothermal bent beam actuator component and a second contacting component operatively connected to the second electrothermal bent beam actuator component, the second electrothermal bent beam actuator component and the second contacting component disposed such as to enable advancing the bistable component and the reflective component from the second stable configuration to the first stable configuration.

Multi-Axis Sensor

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US Patent:
20080282801, Nov 20, 2008
Filed:
Feb 13, 2008
Appl. No.:
12/030807
Inventors:
Luzhong Yin - Woburn MA, US
Sandeep Akkaraju - Boston MA, US
John Gardner Bloomsburgh - Cambridge MA, US
Yie He - Andover MA, US
Assignee:
INTELLISENSE SOFTWARE CORPORATION - Woburn MA
International Classification:
G01P 15/00
US Classification:
7351401
Abstract:
A method and apparatus for sensing accelerations directed along multiple directions are provided. An embodiment comprises a sensor array comprising two sensor pairs, each of which provides an output signal based on acceleration along two orthogonal directions. The sensor pairs are so that they collectively provide an output signal for each of three mutually orthogonal directions. In some embodiments, the sensor array is augmented to provide three additional signals, each of which is based on rotation about an axis aligned with one of the three orthogonal directions.

Compact Thermal Actuated Variable Optical Attenuator

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US Patent:
20110217018, Sep 8, 2011
Filed:
Mar 2, 2010
Appl. No.:
12/715914
Inventors:
Yi He - Winchester MA, US
Luzhong Yin - Woburn MA, US
Guixiong Zhong - Billerica MA, US
Jun Yan - Reading MA, US
Jing Zhao - Winchester MA, US
Assignee:
AGILTRON INC. - Woburn MA
International Classification:
G02B 6/00
B23P 11/00
US Classification:
385140, 29428
Abstract:
A MEMS variable optical attenuator (VOA) chip includes a frame having a planar surface, a micro-electric actuator with a movable optical shutter arranged with respect to the planar surface of the frame, where the VOA is actuated by thermal expansion. The micro-electric actuator comprises semiconductor conductors (“wires”) that can be moved, upon applying an electrical current, by thermal expansion. In one embodiment, the MEMS VOA chip is configured in a multiple wire arrangement that restricts the shutter movement in a plane.

Thermal Diode Sensor Self-Correction

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US Patent:
20220236117, Jul 28, 2022
Filed:
Jan 27, 2022
Appl. No.:
17/586487
Inventors:
- Singapore, SG
Luzhong Yin - Andover MA, US
International Classification:
G01K 7/24
Abstract:
Temperature of a processor is monitored and managed by a control circuit. A thermal diode is positioned to indicate the temperature of the processor. A controller measures a voltage across the thermal diode and calculates a temperature of the thermal diode as a function of the voltage and a correction factor. The correction factor is a constant value that is determined based on 1) a negative correlation between the voltage and a reference temperature of the thermal diode, and 2) a positive correlation between a resistance of the thermal diode and the reference temperature. The controller causes the processor to alter an operation in response to the temperature being above a threshold.

Thermal Driven Mems Tunable Filter

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US Patent:
20190171001, Jun 6, 2019
Filed:
Dec 4, 2017
Appl. No.:
15/830834
Inventors:
- Woburn MA, US
Luzhong Yin - Andover MA, US
Jing Zhao - Woburn MA, US
Assignee:
Agiltron, Inc. - Woburn MA
International Classification:
G02B 26/00
G02B 6/293
G01J 3/26
Abstract:
A microelectrical mechanical system (MEMS) implementation of tunable Fabry Perot filter devices is disclosed. The advantages associated with the use of these tunable etalons include increases in aperture size, displacement, reliability, and a reduction in cost. In some examples, integrated tunable detectors in miniature spectrometers using a thermal driven MEMS Fabry-Perot tunable filter are provided. Other examples use integrated thermal driven tunable MEMS Fabry-Perot filter to select fiber optical communication channel.

Microelectromechanical Displacement Structure And Method For Controlling Displacement

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US Patent:
20150277103, Oct 1, 2015
Filed:
Apr 1, 2014
Appl. No.:
14/242328
Inventors:
Luzhong Yin - Andover MA, US
Jing Zhao - Winchester MA, US
International Classification:
G02B 26/02
Abstract:
The present disclosure provides a displacement amplification structure and a method for controlling displacement. In one aspect, the displacement amplification structure of the present disclosure includes a first beam and a second beam substantially parallel to the first beam, an end of the first beam coupled to a fixture site, and an end of the second beam coupled to a motion actuator; and a motion shutter coupled to an opposing end of the first and second beams. In response to a displacement of the motion actuator along an axis direction of the second beam, the motion shutter displaces a distance along a transversal direction substantially perpendicular to the axis direction.
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Luzhong Z Yin from Andover, MA, age ~54 Get Report