Chi Ping Lo

age ~56

from San Ramon, CA

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Also known as:

Chiping Ping Lo
Chi P Lo
Ping Lo Chiping
Chi-Ping Lo
Ping Lo Chi
Lo Chi-Ping

Phone and address:: 151 Maidenhair Ct, San Ramon, CA 94582
9256483220

Connected to:

Chi Lo Phones & Addresses

151 Maidenhair Ct, San Ramon, CA 94582 • 9256483220
Santa Clara, CA
3400 Stevenson Blvd, Fremont, CA 94538 • 5102261030
4261 Stevenson Blvd, Fremont, CA 94538 • 5102261030
Union City, CA
Oakland, CA
Champaign, IL
Salt Lake City, UT
San Leandro, CA

Isbn (Books And Publications)

Theory of Limit Cycles

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Author
Chi Y. Lo

ISBN #
0821845187

Phantom of the China Economic Threat: Shadow of the Next Asian Crisis

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Author
Chi Lo

ISBN #
0230515444

Understanding China's Growth: Forces That Drive China's Economic Future

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Author
Chi Lo

ISBN #
0230515576

When Asia Meets China in the New Millennium: China's Role in Shaping Asia's Post-Crisis Economic Transformation

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Author
Chi Lo

ISBN #
0131028421

Resumes

Assistant Director Of Online Graduate Programs

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Location:

Santa Clara, CA

Work:

Santa Clara University
Assistant Director of Online Graduate Programs

Education:

Villanova University

Senior Director Of Enrollment And Student Services

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Location:

Santa Clara, CA

Industry:

Higher Education

Work:

Park University Sep 2018 - Sep 2019
Senior Director of Enrollment and Student Services
Santa Clara University Sep 2018 - Sep 2019
Assistant Director of Graduate Programs
Sep 2018 - Sep 2019
Senior Director of Enrollment and Student Services
Park University Jun 2017 - Sep 2018
Director of Student Success - Virtual Campus
Grantham University Mar 2014 - Jun 2017
Chair of Foundations Program

Education:

Creighton University 2014 - 2018
Doctorates, Doctor of Education, Leadership, Education Keller Graduate School of Management of Devry University 2011 - 2013
Master of Business Administration, Masters, Human Resources Management Dana College. Blair 2001 - 2006
Bachelors, Bachelor of Science In Business Administration, Business Management

Skills:

Leadership
Training
Higher Education
Recruiting
Interviews
Leadership Development
Customer Service
Admissions
Adult Education
Staff Development
Sales
Management
Team Building
Customer Retention
Resume Writing
Customer Satisfaction
Student Recruiting
Time Management
Enrollment Management
Cold Calling
Career Counseling
Account Management
Coaching
Program Management
Telemarketing
Student Affairs
Team Leadership
Conflict Resolution
Employee Training
Retaining Customers
Career Development
Campus
Communicative Skills
New Hire Orientations
Hiring
Business Networking
Job Fairs
Human Resources
Call Centers
Employee Relations
Performance Management
College Recruiting
Interviewing Skills
Facilitators
Presentations
Lifestyle Counseling
Talent Acquisition
Salesforce.com
Academic Administration
Educational Leadership

Certifications:

Greenbelt Training

Chi Lo

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Location:

Santa Clara, CA

Work:

Santa Clara University

Education:

Creighton University

Chi Lo

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Chi Lo

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Chi Cheung Danny Lo

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Chi Lo

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Chi Lo

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Location:

United States

Name / Title

Company / Classification

Phones & Addresses

Chi Ming Lo
President

ROCTEC ELECTRONICS INC

690 W Fremont Ave #5, Sunnyvale, CA 94087

Chi Fu Lo
President

CFL JEWELRY, INC

888 Brannan St STE 3290, San Francisco, CA 94103

Us Patents

Integrated Passives And Power Amplifier
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US Patent:

20120075216, Mar 29, 2012
Filed:

Sep 16, 2011
Appl. No.:

13/235158
Inventors:

Justin Phelps Black - Santa Clara CA, US
Ravindra V. Shenoy - Dublin CA, US
Evgeni Petrovich Gousev - Saratoga CA, US
Aristotele Hadjichristos - San Diego CA, US
Thomas Andrew Myers - San Diego CA, US
Jonghae Kim - San Diego CA, US
Mario Francisco Velez - San Diego CA, US
Je-Hsiung Jeffrey Lan - San Diego CA, US
Chi Shun Lo - San Diego CA, US
Assignee:

QUALCOMM MEMS TECHNOLOGIES, INC. - San Diego CA
International Classification:

G06F 3/041
H01L 21/02
H03F 3/04
H01L 27/06
US Classification:

345173, 257531, 438381, 330289, 257E21003, 257E27011
Abstract:

This disclosure provides systems, methods and apparatus for combining devices deposited on a first substrate, with integrated circuits formed on a second substrate such as a semiconducting substrate or a glass substrate. The first substrate may be a glass substrate. The first substrate may include conductive vias. A power combiner circuit may be deposited on a first side of the first substrate. The power combiner circuit may include passive devices deposited on at least the first side of the first substrate. The integrated circuit may include a power amplifier circuit disposed on and configured for electrical connection with the power combiner circuit, to form a power amplification system. The conductive vias may include thermal vias configured for conducting heat from the power amplification system and/or interconnect vias configured for electrical connection between the power amplification system and a conductor on a second side of the first substrate.

Hybrid Filter Including Lc- And Mems-Based Resonators
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US Patent:

20140035702, Feb 6, 2014
Filed:

Jul 31, 2012
Appl. No.:

13/563252
Inventors:

Justin Phelps Black - Santa Clara CA, US
Philip Jason Stephanou - Mountain View CA, US
Jonghae Kim - San Diego CA, US
Je-Hsiung Jeffrey Lan - San Diego CA, US
Sang-June Park - San Diego CA, US
Changhan Hobie Yun - San Diego CA, US
Chi Shun Lo - San Diego CA, US
Chengjie Zuo - Santee CA, US
Assignee:

QUALCOMM MEMS TECHNOLOGIES, INC. - San Diego CA
International Classification:

H03H 9/00
H03H 7/01
US Classification:

333186, 333193, 333187, 333175
Abstract:

This disclosure provides implementations of filters and filter topologies, circuits, structures, devices, apparatus, systems, and related processes. In one aspect, a device includes one or more LC resonant circuit stages. In some implementations, each LC stage includes an inductor and a capacitor. Each LC stage also has a corresponding resonant frequency. The one or more LC stages are arranged to produce an unmodified passband over a range of frequencies having a corresponding bandwidth. One or more microelectromechanical systems (MEMS) resonators are arranged with the one or more LC stages. The one or more MEMS resonators are arranged with the one or more LC stages so as to modify characteristics of the unmodified passband such that the hybrid filter produces a modified passband having a modified bandwidth and one or more other modified band characteristics.

Passives Via Bar
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US Patent:

20140035935, Feb 6, 2014
Filed:

Aug 3, 2012
Appl. No.:

13/566925
Inventors:

Ravindra V. Shenoy - Dublin CA, US
Kwan-Yu Lai - San Jose CA, US
Jon Bradley Lasiter - Stockton CA, US
Jonghae Kim - San Diego CA, US
Mario Francisco Velez - San Diego CA, US
Chi Shun Lo - San Diego CA, US
Donald William Kidwell - Los Gatos CA, US
Philip Jason Stephanou - Mountain View CA, US
Justin Phelps Black - Santa Clara CA, US
Evgeni Petrovich Gousev - Saratoga CA, US
Assignee:

QUALCOMM MEMS TECHNOLOGIES, INC. - San Diego CA
International Classification:

H05K 7/00
H01F 41/00
G06T 1/00
H01L 21/56
H05K 1/00
H05K 1/09
H01R 43/20
H01L 23/29
US Classification:

345501, 29825, 296021, 216 18, 257774, 438113, 174258, 361748, 361782, 174257, 361746, 257E23118, 257E21504
Abstract:

This disclosure provides systems, methods and apparatus for glass via bars that can be used in compact three-dimensional packages, including embedded wafer level packages. The glass via bars can provide high density electrical interconnections in a package. In some implementations, the glass via bars can include integrated passive components. Methods of fabricating glass via bars are provided. In some implementations, the methods can include patterning and etching photo-patternable glass substrates. Packaging methods employing glass via bars are also provided.

Compact And Low Fuel Consumption Flame Ionization Detector With Flame Tip On Diffuser
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US Patent:

55766269, Nov 19, 1996
Filed:

Jan 17, 1995
Appl. No.:

8/375330
Inventors:

Chi K. Lo - Fremont CA
Assignee:

Microsensor Technology, Inc. - Fremont CA
International Classification:

G01N 2762
US Classification:

324464
Abstract:

A compact and low fuel consumption flame ionization detector includes a precisely pored metallic disk or a silicon micro-machined diffuser plate through which the sample gas tube extends a minimum distance (less than 2 mm). The oxidant flows into the detector in a direction parallel to a plane of the diffuser plate, passes into a small cavity under the diffuser, and then passes through a large number of very small holes formed in the diffuser plate before encountering the sample gas flow at the end of the gas tube. A narrow diameter collector is closely spaced to the end of the gas tube. The direction of feeding the air and the diffuser plate (which acts as a baffle) provide laminar flow and eliminate the flicker noise which would otherwise occur due to the air flow inlet being located very close to the gas tube end. The FID is vertically compact and operates at a high electric field strength, exceeding 90 V/mm. The FID has a low fuel flow, typically 12-15 ml/min and therefore a low oxidant flow rate, typically 120-150 ml/min, advantageous to the operation of a portable gas chromatograph.

Method And Apparatus For Precleaning A Substrate Surface Prior To Epitaxial Growth
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US Patent:

20210010160, Jan 14, 2021
Filed:

Sep 29, 2020
Appl. No.:

17/037165
Inventors:

- Santa Clara CA, US
Theresa Kramer GUARINI - San Jose CA, US
Jeffrey A. TOBIN - Mountain View CA, US
Lara HAWRYLCHAK - Gilroy CA, US
Peter STONE - Los Gatos CA, US
Chi Wei LO - San Jose CA, US
Saurabh CHOPRA - Santa Clara CA, US
International Classification:

C30B 25/18
C30B 29/06
C30B 29/08
Abstract:

Embodiments of the present invention generally relate to methods for removing contaminants and native oxides from substrate surfaces. The methods generally include removing contaminants disposed on the substrate surface using a plasma process, and then cleaning the substrate surface by use of a remote plasma assisted dry etch process.

Method And Apparatus For Precleaning A Substrate Surface Prior To Epitaxial Growth
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US Patent:

20190382917, Dec 19, 2019
Filed:

Aug 26, 2019
Appl. No.:

16/550933
Inventors:

- Santa Clara CA, US
Theresa K. GUARINI - San Jose CA, US
Jeffrey TOBIN - Mountain View CA, US
Lara HAWRYLCHAK - Gilroy CA, US
Peter STONE - Los Gatos CA, US
Chi Wei LO - San Jose CA, US
Saurabh CHOPRA - Santa Clara CA, US
International Classification:

C30B 25/18
C30B 29/08
C30B 29/06
Abstract:

Embodiments of the present invention generally relate to methods for removing contaminants and native oxides from substrate surfaces. The methods generally include removing contaminants disposed on the substrate surface using a plasma process, and then cleaning the substrate surface by use of a remote plasma assisted dry etch process.

Magnetic Media Design With Multiple Non-Magnetic Exchange Control Layers
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US Patent:

20190325905, Oct 24, 2019
Filed:

Apr 20, 2018
Appl. No.:

15/959120
Inventors:

- San Jose CA, US
Arien Michael Ghaderi - Morgan Hill CA, US
Tuqiang Li - San Jose CA, US
Chi Ho Lo - Milpitas CA, US
International Classification:

G11B 5/66
G11B 5/82
G11B 5/84
Abstract:

Magnetic media including a magnetic recording layer structure of at least six magnetic recording sublayers and at least six non-magnetic exchange control sublayers in an alternating pattern are provided. The magnetic recording layer structure includes a gradient of platinum content across the magnetic recording sublayers such that a top magnetic recording sublayer has a lowest platinum content and a bottom magnetic recording sublayer has a highest platinum content. In one such case, the magnetic media includes a substrate and the magnetic recording layer structure on the substrate. In another case, a method of fabricating such magnetic media is provided.

Method And Apparatus For Precleaning A Substrate Surface Prior To Epitaxial Growth
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US Patent:

20180016705, Jan 18, 2018
Filed:

Jun 19, 2017
Appl. No.:

15/627149
Inventors:

- Santa Clara CA, US
Theresa K. GUARINI - San Jose CA, US
Jeffrey TOBIN - Mountain View CA, US
Lara HAWRYLCHAK - Gilroy CA, US
Peter STONE - Los Gatos CA, US
Chi Wei LO - San Jose CA, US
Saurabh CHOPRA - Santa Clara CA, US
International Classification:

C30B 25/18
C30B 29/08
C30B 29/06
Abstract:

Embodiments of the present invention generally relate to methods for removing contaminants and native oxides from substrate surfaces. The methods generally include removing contaminants disposed on the substrate surface using a plasma process, and then cleaning the substrate surface by use of a remote plasma assisted dry etch process.