Harjinder S Bhade

US Patent:

D618168, Jun 22, 2010

Filed:

Jul 17, 2009

Appl. No.:

29/340436

Inventors:

David Baxter - Monte Sereno CA, US
Richard Lowenthal - Cupertino CA, US
Peter Muller - Woodside CA, US
Brian Costello - Sanrta Cruz CA, US
Milton Tormey - Los Altos CA, US
Rodney Laird - Campbell CA, US
Praveen Mandal - Los Altos Hills CA, US
Harjinder Bhade - San Jose CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

1302

US Classification:

D13107

US Patent:

7906937, Mar 15, 2011

Filed:

Jun 2, 2009

Appl. No.:

12/477089

Inventors:

Harjinder Bhade - San Jose CA, US
Milton Tormey - Los Altos CA, US
David Baxter - Monte Sereno CA, US
Richard Lowenthal - Cupertino CA, US
Praveen Mandal - Los Altos Hills CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

H02J 7/00

US Classification:

320109, 320104, 320134, 320136

Abstract:

A networked charging station for electric vehicles protects against overcurrent and ground fault conditions. Upon detecting an overcurrent condition or a ground fault condition, the networked charging station for electric vehicles de-energizes a charging point connection to prevent electric current from flowing between an electric vehicle and the networked charging station and suspends the charging session. The networked charging station clears the overcurrent condition or the ground fault condition upon receipt of an authorized request which is transmitted remotely. The authorized request can be received from the vehicle operator that is associated with the charging session or from an administrator of the charging station through a radio-frequency identifier (RFID) tag enabled device or through a text message or an email message. The networked charging station clears the overcurrent condition or the ground fault condition without a manual reset of a circuit breaker or a GFCI device respectively.

US Patent:

7952319, May 31, 2011

Filed:

Jul 17, 2009

Appl. No.:

12/505394

Inventors:

Richard Lowenthal - Cupertino CA, US
David Baxter - Monte Sereno CA, US
Harjinder Bhade - San Jose CA, US
Praveen Mandal - Los Altos Hills CA, US
Milton T. Tormey - Los Altos CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

H01M 10/44
H01M 10/46

US Classification:

320104

Abstract:

A network-controlled charge transfer device for transferring charge between a local power grid and an electric vehicle is mounted to a street light. The charge transfer device includes the following: an electrical receptacle to receive an electrical connector for connection to the electric vehicle; an electric power line that couples the power grid to the electrical receptacle through a wiring box; a control device to switch the receptacle on and off; a current measuring device to measure current flowing through the electric power line; and a controller to operate the control device and to monitor output from the current measuring device.

US Patent:

7956570, Jun 7, 2011

Filed:

Jan 11, 2008

Appl. No.:

12/013296

Inventors:

Richard Lowenthal - Cupertino CA, US
Dave Baxter - Monte Sereno CA, US
Harjinder Bhade - San Jose CA, US
Praveen Mandal - Los Altos Hills CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

H01M 10/46

US Classification:

320104

Abstract:

A system for network-controlled charging of electric vehicles comprises charge transfer devices networked as follows: charge transfer devices and electric vehicle operators communicate via wireless communication links; charge transfer devices are connected by a local area network to a data control unit, which is connected to a server via a wide area network. The server stores consumer profiles and utility company power grid load data. A charge transfer devices comprises: an electrical receptacle for receiving an electrical connector for recharging an electric vehicle; an electric power line connecting the receptacle to a local power grid; a control device on the electric power line, for switching the receptacle on and off; a current measuring device on the electric power line, for measuring current flowing through the receptacle; a controller for operating the control device and monitoring the output from the current measuring device; a local area network transceiver connected to the controller, for connecting the controller to the data control unit; and a communication device connected to the controller, for wireless communication between the operator of the electric vehicle and the controller.

US Patent:

8072184, Dec 6, 2011

Filed:

Jan 6, 2011

Appl. No.:

12/986079

Inventors:

Harjinder Bhade - San Jose CA, US
Milton Tormey - Los Altos CA, US
David Baxter - Monte Sereno CA, US
Richard Lowenthal - Cupertino CA, US
Praveen Mandal - Los Altos Hills CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

H02J 7/00
H02H 3/00

US Classification:

320109, 320104, 320134, 320136, 361 42

Abstract:

A networked charging station for electric vehicles protects against overcurrent and ground fault conditions. Upon detecting an overcurrent condition or a ground fault condition, the networked charging station for electric vehicles de-energizes a charging point connection to prevent electric current from flowing between an electric vehicle and the networked charging station and suspends the charging session. The networked charging station clears the overcurrent condition or the ground fault condition upon receipt of an authorized request which is transmitted remotely. The authorized request can be received from the vehicle operator that is associated with the charging session or from an administrator of the charging station through a radio-frequency identifier (RFID) tag enabled device or through a text message or an email message. The networked charging station clears the overcurrent condition or the ground fault condition without a manual reset of a circuit breaker or a GFCI device respectively.

US Patent:

8138715, Mar 20, 2012

Filed:

Mar 1, 2011

Appl. No.:

13/038336

Inventors:

Richard Lowenthal - Cupertino CA, US
Dave Baxter - Monte Sereno CA, US
Harjinder Bhade - San Jose CA, US
Praveen Mandal - Los Altos Hills CA, US

Assignee:

Coulomb Technologies, Inc. - Campbell CA

International Classification:

H01M 10/44
H01M 10/46

US Classification:

320104

Abstract:

A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server.

US Patent:

8354913, Jan 15, 2013

Filed:

Jul 23, 2009

Appl. No.:

12/508475

Inventors:

James Solomon - Saratoga CA, US
Milton Tormey - Los Altos CA, US
Praveen Mandal - Los Altos Hills CA, US
Richard Lowenthal - Cupertino CA, US
Harjinder Bhade - San Jose CA, US
David Baxter - Monte Sereno CA, US

Assignee:

Chargepoint, Inc. - Campbell CA

International Classification:

G05B 19/00

US Classification:

340 52, 320109, 320108

Abstract:

Networked electric vehicle charging stations for charging electric vehicles are coupled with an electric vehicle charging station network server that performs authorization for charging session requests while the communication connection between the charging stations and the server are operating correctly. When the communication connection is not operating correctly, the networked electric vehicle charging stations enter into a local authorization mode to perform a local authorization process for incoming charging session requests.

US Patent:

8432131, Apr 30, 2013

Filed:

Mar 12, 2012

Appl. No.:

13/418300

Inventors:

Richard Lowenthal - Cupertino CA, US
Dave Baxter - Monte Sereno CA, US
Harjinder Bhade - San Jose CA, US
Praveen Mandal - Los Altos Hills CA, US

Assignee:

Chargepoint, Inc. - Campbell CA

International Classification:

H01M 10/44
H01M 10/46

US Classification:

320109

Abstract:

A network-controlled charge transfer device for electric vehicles includes a control device to turn electric supply on and off to enable and disable charge transfer for electric vehicles, a transceiver to communicate requests for charge transfer with a remote server and receive communications from the remote server, and a controller, coupled with the control device and the transceiver, to cause the control device to turn the electric supply on based on communication from the remote server.