Shadi Te Hawawini from Rio Vista, CA, age 41

Circuits And Methods For Automatic Power Source Detection

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US Patent:

20120217935, Aug 30, 2012

Filed:

Oct 24, 2011

Appl. No.:

13/280156

Inventors:

Shadi Hawawini - San Jose CA, US
M. Abid Hussain - Los Altos CA, US
Geogios K. Paparrizos - Foster City CA, US
Sridhar V. Kotikalapoodi - Santa Clara CA, US

Assignee:

SUMMIT MICROELECTROICS, INC. - Sunnyvale CA

International Classification:

H02J 7/04

US Classification:

320162

Abstract:

Embodiments of the present invention include circuits and methods for sensing resistance. In one embodiment the present invention includes a method comprising detecting a voltage at an input of a regulator received from a power adapter, determining a maximum current capability of the power adapter, and charging a battery coupled to an output of the regulator using said detected voltage and said maximum current as inputs to said regulator. In one embodiment, the detected voltage is used to configure a voltage used to determine if or when a voltage received from a power adapter drops below some threshold.

Systems And Methods Of Battery Charging With Dynamic Float Voltage

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US Patent:

20090295338, Dec 3, 2009

Filed:

Jun 1, 2009

Appl. No.:

12/476123

Inventors:

Shadi Hawawini - San Jose CA, US
M. Abid Hussain - Los Altos CA, US

Assignee:

Summit Microelectronics, Inc. - Sunnyvale CA

International Classification:

H02J 7/04

US Classification:

320157, 320162

Abstract:

Embodiments of the present invention include electronic circuits, systems, and methods for charging a battery. In one embodiment, the present invention includes a method, which may be implemented by an integrated circuit, comprising charging the battery using a constant current until the voltage on the battery increases to a first voltage level, and charging the battery using a constant voltage, wherein the constant voltage is set to a second voltage level. The constant current charging transitions to constant voltage charging when the voltage on the battery reaches the first voltage level, where the first voltage level is greater than the second voltage level.

Machine Health Monitoring

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US Patent:

20210389214, Dec 16, 2021

Filed:

Aug 30, 2021

Appl. No.:

17/446409

Inventors:

- Santa Clara CA, US
Michael I. Fuller - Apex NC, US
Shadi Hawawini - Mountain View CA, US

International Classification:

G01M 99/00
G01M 13/028
H02J 50/00

Abstract:

Devices, systems, and techniques are described that relate to the monitoring of various types of components in industrial systems. These include battery-less monitors that run on power harvested from their environments, systems for acquiring monitor data for the components in a facility, and/or techniques for processing monitor data to reliably determine the status of individual components and other system parameters.

Machine Health Monitoring

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US Patent:

20210123835, Apr 29, 2021

Filed:

Oct 28, 2019

Appl. No.:

16/665767

Inventors:

- Santa Clara CA, US
Michael I. Fuller - Apex NC, US
Shadi Hawawini - Mountain View CA, US

International Classification:

G01M 99/00
G01M 13/028
H02J 50/00

Abstract:

Devices, systems, and techniques are described that relate to the monitoring of various types of components in industrial systems. These include battery-less monitors that run on power harvested from their environments, systems for acquiring monitor data for the components in a facility, and/or techniques for processing monitor data to reliably determine the status of individual components and other system parameters.

Monitoring Techniques For Pressurized Systems

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US Patent:

20210116322, Apr 22, 2021

Filed:

Oct 16, 2019

Appl. No.:

16/654949

Inventors:

- Santa Clara CA, US
Shadi Hawawini - Mountain View CA, US
David D. Wentzloff - Ann Arbor MI, US

International Classification:

G01M 3/00
F16K 37/00

Abstract:

Methods and apparatus are described that relate to the monitoring of various types of components in pressurized systems. These may include batteryless monitors that run on power harvested from their environments, systems for acquiring monitor data for the components of a pressurized system, and/or techniques for processing monitor data to determine the status of the components and/or the system.

Systems And Methods For Charging A Battery

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US Patent:

20180013295, Jan 11, 2018

Filed:

Aug 28, 2017

Appl. No.:

15/688684

Inventors:

- San Diego CA, US
VaraPrasad Arikatla - San Jose CA, US
Shadi Hawawini - Mountain View CA, US
Steve Hawley - Emerald Hills CA, US
Thomas O'Brien - Powell OH, US
Seema Kumar - Milpitas CA, US
Aaron Melgar - San Martin CA, US

International Classification:

H02J 7/00
H02J 7/02
H02M 3/156

Abstract:

The present disclosure includes a method of charging a battery. In one embodiment, the method comprises receiving, in a battery charging circuit on an electronic device, an input voltage having a first voltage value from an external power source. The battery charger is configured to produce a charge current having a first current value into the battery. The input current limit and/or duty cycle of the charger is monitored. Control signals may be generated to increase the first voltage value of the input voltage if either (i) the input current limit is activated or (ii) the duty cycle reaches a maximum duty cycle. The charger also receives signals indicating a temperature inside the electronic device and generates control signals to decrease the value of the input voltage when the temperature increases above a threshold temperature.

Systems And Methods For Charging A Battery

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US Patent:

20170085098, Mar 23, 2017

Filed:

Sep 17, 2015

Appl. No.:

14/856947

Inventors:

- San Diego CA, US
VaraPrasad Arikatla - San Jose CA, US
Shadi Hawawini - Mountain View CA, US
Steve Hawley - Emerald Hills CA, US
Thomas O'Brien - Powell OH, US
Seema Kumar - Milpitas CA, US
Aaron Melgar - San Martin CA, US

International Classification:

H02J 7/00

Abstract:

The present disclosure includes a method of charging a battery. In one embodiment, the method comprises receiving, in a battery charging circuit on an electronic device, an input voltage having a first voltage value from an external power source. The battery charger is configured to produce a charge current having a first current value into the battery. The input current limit and/or duty cycle of the charger is monitored. Control signals may be generated to increase the first voltage value of the input voltage if either (i) the input current limit is activated or (ii) the duty cycle reaches a maximum duty cycle. The charger also receives signals indicating a temperature inside the electronic device and generates control signals to decrease the value of the input voltage when the temperature increases above a threshold temperature.

Master-Slave Multi-Phase Charging

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US Patent:

20160149431, May 26, 2016

Filed:

Dec 28, 2015

Appl. No.:

14/981525

Inventors:

- San Diego CA, US
Giovanni Garcea - San Jose CA, US
Shadi Hawawini - Mountain View CA, US

International Classification:

H02J 7/00

Abstract:

A multi-phase charging circuit comprises a device that can be configured for master mode operation or slave mode operation. In master mode operation, the device generates a control signal and a clock signal to control operation of a switching circuit for generating charging current. In slave mode operation, the device receives externally generated control and clock signals to control operation of its switching circuit.

Shadi Te Hawawini

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Us Patents

Circuits And Methods For Automatic Power Source Detection

Systems And Methods Of Battery Charging With Dynamic Float Voltage

Machine Health Monitoring

Machine Health Monitoring

Monitoring Techniques For Pressurized Systems

Systems And Methods For Charging A Battery

Systems And Methods For Charging A Battery

Master-Slave Multi-Phase Charging