Ji Li

US Patent:

6958814, Oct 25, 2005

Filed:

Mar 1, 2002

Appl. No.:

10/090316

Inventors:

Peter G. Borden - San Mateo CA, US
Ji Ping Li - Fremont CA, US

Assignee:

Applied Materials, Inc. - Santa Clara CA

International Classification:

G01N021/55
G01N021/88

US Classification:

356432, 356445, 3562372

Abstract:

An apparatus measures a property of a layer (such as the sheet resistance of a conductive layer) by performing the following method: (1) focusing the heating beam on the heated a region (also called “heated region”) of the conductive layer (2) modulating the power of the heating beam at a predetermined frequency that is selected to be sufficiently low to ensure that at any time the temperature of the optically absorbing layer is approximately equal to (e. g. , within 90% of) a temperature of the optically absorbing layer when heated by an unmodulated beam, and (3) measuring the power of another beam that is (a) reflected by the heated region, and (b) modulated in phase with modulation of the heating beam. The measurement in act (3) can be used directly as a measure of the resistance (per unit area) of a conductive pad formed by patterning the conductive layer. Acts (1)-(3) can be repeated during fabrication of a semiconductor wafer, at each of a number of regions on a conductive layer, and any change in measurement indicates a corresponding change in resistance of the layer.

US Patent:

7141440, Nov 28, 2006

Filed:

May 2, 2005

Appl. No.:

11/120427

Inventors:

Peter G. Borden - San Mateo CA, US
Ji Ping Li - Fremont CA, US

Assignee:

Applied Materials, Inc. - Santa Clara CA

International Classification:

H01L 21/00

US Classification:

438 5, 438 7, 438 10, 438 17, 3562375

Abstract:

A property of a layer is measured by: (1) focusing a heating beam on a region (also called “heated region”) of a conductive layer (2) modulating the power of the heating beam at a predetermined frequency that is selected to be sufficiently low to ensure that at any time the temperature of an optically absorbing layer is approximately equal to (e. g. , within 90% of) a temperature of the optically absorbing layer when heated by an unmodulated beam, and (3) measuring the power of another beam that is (a) reflected by the heated region, and (b) modulated in phase with modulation of the heating beam. The measurement in act (3) can be used directly as a measure of the resistance (per unit area) of a conductive pad formed by patterning the conductive layer. Change in measurement across regions indicates a corresponding change in resistance of the layer.

US Patent:

7146103, Dec 5, 2006

Filed:

Jul 30, 2001

Appl. No.:

09/918886

Inventors:

Ting K Yee - Foster City CA, US
Peter H Chang - San Jose CA, US
Shin-Sheng Tarng - San Jose CA, US
Gregory M Cutler - Cupertino CA, US
Slava Yazhgur - Daly City CA, US
Ji Li - Cupertino CA, US
Laurence J Newell - Saratoga CA, US
James F Coward - Los Gatos CA, US
Michael W Rowan - Los Gatos CA, US
Norman L Swenson - Fremont CA, US
Matthew C Bashaw - Palo Alto CA, US

Assignee:

Forster Energy LLC - Las Vegas NV

International Classification:

H04J 14/02
H04J 1/00
H04J 1/04
H04J 1/08
H04B 10/04
H04B 10/05
H04B 10/08
H04B 10/145
H04B 10/148

US Classification:

398 68, 398 76, 398 82, 398 91, 398 95, 398152, 398163, 398184, 398196, 398205

Abstract:

A transmitter subsystem generates an optical signal which contains multiple subbands of information. The subbands have different polarization. For example, in one approach, two or more optical transmitters generate optical signals which have different polarization. An optical combiner optically combines the optical signals into a composite optical signal for transmission across an optical fiber. In another aspect, each optical transmitter generates an optical signal containing both a lower optical sideband and an upper optical sideband (i. e. , a double sideband optical signal). An optical filter selects the upper optical sideband of one optical signal and the lower optical sideband of another optical signal to produce a composite optical signal.

US Patent:

7447436, Nov 4, 2008

Filed:

Aug 31, 2006

Appl. No.:

11/514381

Inventors:

Ting K. Yee - Foster City CA, US
Peter H. Chang - San Jose CA, US
Chin-Sheng Tarng - San Jose CA, US
Gregory M. Cutler - Cupertino CA, US
Slava Yazhgur - Daly City CA, US
Ji Li - Cupertino CA, US
Laurence J. Newell - Saratoga CA, US
James F. Coward - Los Gatos CA, US
Michael W. Rowan - Los Gatos CA, US
Norman L. Swenson - Fremont CA, US
Matthew C. Bradshaw - Palo Alto CA, US

Assignee:

Forster Energy LLC - Las Vegas NV

International Classification:

H04B 10/08
H04B 10/04
H04B 10/06
H04B 10/145
H04B 10/148
H04J 14/02
H04J 1/00
H04J 1/04
H04J 1/08

US Classification:

398 95, 398 68, 398 82, 398 91, 398152, 398163, 398184, 398196, 398205

Abstract:

A transmitter subsystem generates an optical signal which contains multiple subbands of information. The subbands have different polarizations. For example, in one approach, two or more optical transmitters generate optical signals which have different polarizations. An optical combiner optically combines the optical signals into a composite optical signal for transmission across an optical fiber. In another aspect, each optical transmitter generates an optical signal containing both a lower optical sideband and an upper optical sideband (i. e. , a double sideband optical signal). An optical filter selects the upper optical sideband of one optical signal and the lower optical sideband of another optical signal to produce a composite optical signal.

US Patent:

20230096941, Mar 30, 2023

Filed:

May 2, 2022

Appl. No.:

17/734239

Inventors:

- South San Francisco CA, US
Meredith C. HAZEN - Belmont CA, US
Jo-Anne HONGO - Redwood City CA, US
Jennifer W. JOHNSTON - San Francisco CA, US
Teemu T. JUNTTILA - San Mateo CA, US
Ji LI - San Mateo CA, US
Andrew G. POLSON - San Francisco CA, US

International Classification:

C07K 16/28
A61K 47/68
A61K 39/395
A61K 51/10

Abstract:

The invention provides anti-FcRH5 antibodies and immunoconjugates and methods of using the same.

US Patent:

20200190185, Jun 18, 2020

Filed:

Sep 26, 2019

Appl. No.:

16/583584

Inventors:

- South San Francisco CA, US
Meredith C. HAZEN - Belmont CA, US
Jo-Anne HONGO - Redwood City CA, US
Jennifer W. JOHNSTON - San Francisco CA, US
Teemu T. JUNTTILA - San Mateo CA, US
Ji LI - San Mateo CA, US
Andrew G. POLSON - San Francisco CA, US

International Classification:

C07K 16/28
A61K 47/68
A61K 39/395
A61K 51/10

Abstract:

The invention provides anti-FcRH5 antibodies and immunoconjugates and methods of using the same.

US Patent:

20190315860, Oct 17, 2019

Filed:

Apr 25, 2019

Appl. No.:

16/395009

Inventors:

- South San Francisco CA, US
Teemu T. JUNTTILA - San Mateo CA, US
Ji LI - South San Francisco CA, US
Justin SCHEER - South San Francisco CA, US
Danielle DICARA - South San Francisco CA, US
Diego ELLERMAN - San Francisco CA, US
Christoph SPIESS - Mountain View CA, US
Paul J. CARTER - Hillsborough CA, US

International Classification:

C07K 16/28
A61K 47/68
C07K 16/30
A61K 45/06
A61K 39/395
G01N 33/574

Abstract:

The present invention relates to anti-FcRH5 antibodies, including anti-FcRH5 antibodies comprising an FcRH5 binding domain and a CD3 binding domain (e.g., FcRH5 T cell-dependent bispecific (TDB) antibodies), and methods of using the same.

US Patent:

20170008971, Jan 12, 2017

Filed:

Jun 16, 2016

Appl. No.:

15/184966

Inventors:

- South San Francisco CA, US
Allen EBENS - South San Francisco CA, US
Bryan IRVING - South San Francisco CA, US
Teemu T. JUNTTILA - South San Francisco CA, US
Ji LI - San Mateo CA, US

Assignee:

Genentech, Inc. - South San Francisco CA

International Classification:

C07K 16/32
A61K 39/395
A61K 45/06
C07K 16/28
C07K 16/30

Abstract:

The invention provides compositions and methods for treating HER2-postitive cancers. The method comprising administering a PD-1 axis binding antagonist and an antibody that targets HER2.