507711646
`01/24/2023
`PATENT ASSIGNMENT COVER SHEET
`
`Electronic Version v1.1
`Stylesheet Version v1.2
`
`SUBMISSION TYPE:
`NATURE OF CONVEYANCE:
`
`CONVEYING PARTY DATA
`
`SUNPOWER CORPORATION
`
`NEW ASSIGNMENT
`ASSIGNMENT
`
`Name
`
`RECEIVING PARTY DATA
`MAXEON SOLAR PTE. LTD.
`Name:
`Street Address:
`8 MARINA BOULEVARD #05-02
`MARINA BAY FINANCIAL CENTRE
`City:
`SINGAPORE
`State/Country:
`Postal Code:
`18981
`
`Number
`
`PROPERTY NUMBERS Total: 175
`Property Type
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Patent Number:
`Application Number:
`Application Number:
`Application Number:
`Patent Number:
`Patent Number:
`Application Number:
`Patent Number:
`Application Number:
`Application Number:
`Patent Number:
`Patent Number:
`
`9780253
`9401451
`9356184
`9397252
`9484484
`9882077
`9876132
`9947820
`10084104
`16900660
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`11038072
`16163377
`10861999
`17869513
`17869523
`7388147
`7339110
`
`507711646
`
`EPAS ID: PAT7758790
`
`Execution Date
`12/14/2022
`
`PATENT
`REEL: 062490 FRAME: 0742
`
`

`

`Number
`
`Property Type
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`7883343
`7897867
`8399287
`7172184
`6745687
`7455787
`8029683
`9553229
`11264518
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`8148627
`
`PATENT
`REEL: 062490 FRAME: 0743
`
`

`

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`9691924
`7838062
`8883247
`7804022
`8062693
`7812250
`8460963
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`11183607
`17529719
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`
`PATENT
`REEL: 062490 FRAME: 0744
`
`

`

`Number
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`8963185
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`
`PATENT
`REEL: 062490 FRAME: 0745
`
`

`

`Number
`
`Property Type
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`Patent Number:
`Patent Number:
`Patent Number:
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`Patent Number:
`Application Number:
`Patent Number:
`Application Number:
`Patent Number:
`Patent Number:
`Application Number:
`
`8822262
`9142696
`8513045
`9640676
`10014425
`17329547
`11031515
`8877617
`9306085
`9960292
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`10553738
`10833214
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`10510907
`17487559
`11139403
`10673379
`17379553
`
`PATENT
`REEL: 062490 FRAME: 0746
`
`

`

`Property Type
`Patent Number:
`Patent Number:
`Application Number:
`
`11070167
`11127871
`17527285
`
`Number
`
`CORRESPONDENCE DATA
`Fax Number:
`(669)272-2077
`Correspondence will be sent to the e-mail address first; if that is unsuccessful, it will be sent
`using a fax number, if provided; if that is unsuccesstul, it will be sent via US Mail.
`Phone:
`1+(408) 331-2329
`Email:
`jfosnaugh@spatentlaw.com
`SCHMIDT PATENT LAW, INC.
`Correspondent Name:
`2635 N. FIRST STREET
`Address Line 1:
`Address Line 2:
`SUITE 150
`SAN JOSE, CALIFORNIA 95134-2000
`Address Line 4:
`
`ASSN_SPWR-TO-MAXEON
`JACKSON HO, REG. NO. 72,360
`/Jackson Ho/
`01/24/2023
`
`ATTORNEY DOCKET NUMBER:
`NAME OF SUBMITTER:
`SIGNATURE:
`DATE SIGNED:
`Total Attachments: 12
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page1.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#pagez.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page3.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#pageé4.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page5.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page6.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page7.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page8.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page9.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page10.tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page1 1 .tif
`source=2023_Assignment_Sunpower_To_Maxeon_SPL#page12.tif
`
`PATENT
`REEL: 062490 FRAME: 0747
`
`

`

`ASSIGNMENT OF PATENT RIGHTS
`
`For good and valuable consideration, the receipt of which is hereby
`acknowledged, Sunpower Corporation, a corporation duly organized and existing under
`the laws of California, having its principal office and place of business at 51 Rio Robles,
`San Jose, California 95134 ("Assignor"), does hereby sell, assign, transfer and convey
`unto Maxeon Solar Pte. Ltd. a corporation duly organized and existing under the laws of
`Singapore, having its principal office and place of business at 8 Marina Boulevard, #05-
`02, Marina Bay Financial Centre, Singapore 18981 ("Assignee") or its designees, all of
`Assignor's right, title and interest in and to the patents and patent applications listed in
`Schedule A, any patents, registrations, or certificates of invention issuing on the patents
`or patent applications listed in Schedule A, the inventions disclosed in any of the
`foregoing, any and all counterpart United States, international and foreign patents,
`applications and certificates of invention based upon or covering any portion of the
`foregoing, and all reissues, re-examinations, divisionals, renewals, extensions,
`provisionals, continuations and continuations-in-part of any of the foregoing (collectively
`"Patent Rights").
`Assignor further agrees to and hereby does sell, assign, transfer and convey
`unto Assignee all rights: (i) in and to causes of action and enforcement rights of the
`Patent Rights including all rights to pursue damages, injunctive relief and other
`remedies for past and future infringement of the Patent Rights, and (ii) to apply in any or
`all counties of the world for patents, certificates of invention or other governmental
`grants for the Patent Rights, including without limitation under the Paris Convention for
`the Protection of Industrial Property, the International Patent Cooperation Treaty, or any
`other convention, treaty, agreement or understanding. Assignor also hereby authorizes
`the respective patent office or governmental agency in each jurisdiction to issue any
`and all patents or certificates of invention which may be granted upon any of the Patent
`Rights in the name of Assignee, as the assignee to the entire interest therein.
`Assignor will, at the reasonable request of Assignee, do all things necessary,
`proper, or advisable, including without limitation the execution, acknowledgment and
`recordation of specific assignments, oaths, declarations and other documents on a
`
`Page 1 of 12
`
`PATENT
`REEL: 062490 FRAME: 0748
`
`

`

`country-by-country basis, to assist Assignee in obtaining, perfecting, sustaining, and/or
`enforcing the Patent Rights. Such assistance shall include providing, and obtaining
`from the respective inventors, prompt production of pertinent facts and documents,
`giving of testimony, execution of petitions, oaths, powers of attorney, specifications,
`declarations or other papers and other assistance reasonably necessary for filing patent
`applications, complying with any duty of disclosure, and conducting prosecution,
`reexamination, reissue, interference or ather priority proceedings, opposition
`proceedings, cancellation proceedings, public use proceedings, infringement or other
`court actions and the like with respect to the Patent Rights. The Assignee agrees to
`pay, or to reimburse Assignor for, all reasonable expenses and costs actually incurred
`by Assignor in providing such assistance described in this paragraph, but Assignor shall
`not demand any further consideration therefor.
`The terms and conditions of this Assignment shall inure to the benefit of
`Assignee, its successors, assigns and other legal representatives, and shall be binding
`upon Assignor, ifs successor, assigns and other legal representatives.
`
`Su
`
`"power
`
`Cortor
`
`ation
`
`ey Yheco>She bes
`
`By:
`lis:
`
`Brian Staccia
`Sr. Director, Corporate Counsel
`Date: [¥ Dee 2022.
`
`Maxeon Solar Pte. Lid.
`NN
`
`Se
`
`By:
`tts:
`Date:
`
`Marc Robinson
`Associate General Counsel, Assistant Secretary
`January 19, 2023
`
`Cc
`
`Page 2 of 12
`
`PATENT
`REEL: 062490 FRAME: 0749
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`16/900,660
`
`2020-06-12
`
`Schedule A
`
`Title
`
`HIGH EFFICIENCY CONFIGURATION FOR SOLAR CELL
`STRING
`
`9,780,253
`
`9,401,451
`
`9,356,184
`
`9,397,252
`
`9,484,484
`
`9,882,077
`
`9,876,132
`
`9,947,820
`
`10,084,104
`
`16/111,578
`
`17/707,326
`
`10,090,430
`
`11,038,072
`
`16/163,377
`
`10,861,999
`
`17/869,513
`
`17/869,523
`
`2014-10-31
`
`2014-12-16
`
`SHINGLED SOLAR CELL MODULE
`
`SHINGLED SOLAR CELL MODULE
`
`2014-12-19
`
`SHINGLED SOLAR CELL MODULE
`
`2015-01-12
`
`SHINGLED SOLAR CELL MODULE
`
`2015-01-26
`
`SHINGLED SOLAR CELL MODULE
`
`2014-11-17
`
`SHINGLED SOLAR CELL MODULE
`
`2014-12-04
`
`SHINGLED SOLAR CELL MODULE
`
`2015-03-31
`
`SHINGLED SOLAR CELL PANEL EMPLOYING HIDDEN TAPS
`
`2016-07-14
`
`Solar Panel
`
`2018-08-24
`
`Solar Panel
`
`2022-03-29
`
`Solar Panel
`
`2016-11-22
`
`2018-06-27
`
`SYSTEM FOR MANUFACTURING A SHINGLED SOLAR CELL
`MODULE
`SHINGLED SOLAR CELL MODULE
`
`2018-10-17
`
`SHINGLED SOLAR CELL MODULE
`
`2018-11-13
`
`2022-07-20
`
`SHINGLED SOLAR CELL MODULE COMPRISING HIDDEN TAP
`INTERCONNECTS
`SHINGLED SOLAR CELL MODULE
`
`2022-07-20
`
`SHINGLED SOLAR CELL MODULE
`
`Page 3 of 12
`
`PATENT
`REEL: 062490 FRAME: 0750
`
`

`

`U.S. Application
`or Patent Number
`
`Filing Date
`(Year-Month-
`Day)
`
`Title
`
`7,388,147
`
`7,339,110
`
`7,883,343
`
`7,897,867
`
`8,399,287
`
`7,172,184
`
`6,745,687
`
`7,455,787
`
`8,029,683
`
`9,553,229
`
`2003-04-10
`
`2003-04-10
`
`Metal Contact Structure for Solar Cell and Method of
`Manufacture
`Solar Cell and Method of Manufacture
`
`2007-03-28
`
`Method of Manufacturing Solar Cell
`
`2008-02-13
`
`Solar Cell and Method of Manufacture
`
`2011-01-25
`
`Method of Manufacturing Solar Cell
`
`2004-08-04
`
`Substrate Carrier for Electroplating Solar Cells
`
`2003-07-31
`
`Screen Printing with Improved Ink Stop
`
`2003-08-01
`
`Etching of Solar Cell Materials
`
`2008-10-14
`
`Etching of Solar Cell Materials
`
`2011-08-30
`
`Etching of Solar Cell Materials
`
`11,264,518
`
`2018-10-08
`
`Etching of Solar Cell Materials
`
`8,008,575
`
`8,664,519
`
`10,573,764
`
`11,107,935
`
`6,998,288
`
`7,135,350
`
`7,297,866
`
`7,774,998
`
`7,390,961
`
`2006-07-24
`
`Solar Cell with Reduced Base Diffusion Area
`
`2011-07-19
`
`Solar Cell with Reduced Base Diffusion Area
`
`2014-01-20
`
`Solar Cell with Reduced Base Diffusion Area
`
`2020-01-16
`
`Solar Cell with Reduced Base Diffusion Area
`
`2004-09-21
`
`2006-01-09
`
`2004-03-15
`
`Use of Doped Silicon Dioxide in the Fabrication of Solar
`Cells
`Use of Doped Silicon Dioxide in the Fabrication of Solar
`Cells
`Ventilated Photovoltaic Module Frame
`
`2007-11-09
`
`Ventilated Photovoltaic Module Frame
`
`2005-05-27
`
`Interconnection of Solar Cells in a Solar Cell Module
`
`Page 4 of 12
`
`PATENT
`REEL: 062490 FRAME: 0751
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`7,468,485
`
`7,633,006
`
`7,554,031
`
`7,786,375
`
`9,035,167
`
`10,164,567
`
`9,774,294
`
`10,903,786
`
`7,718,888
`
`7,820,475
`
`8,409,912
`
`8,163,638
`
`7,705,237
`
`8,716,596
`
`9,224,902
`
`7,737,357
`
`8,815,631
`
`9,548,409
`
`9,608,131
`
`8,148,627
`
`2005-08-11
`
`2008-11-18
`
`2005-08-22
`
`Back Side Contact Solar Cell With Doped Polysilicon
`Regions
`Back Side Contact Solar Cell With Doped Polysilicon
`Regions
`Preventing Harmful Polarization of Solar Cells
`
`2009-06-03
`
`Preventing Harmful Polarization of Solar Cells
`
`2010-07-28
`
`Preventing Harmful Polarization of Solar Cells
`
`2016-08-05
`
`Preventing Harmful Polarization of Solar Cells
`
`2016-08-18
`
`Preventing Harmful Polarization of Solar Cells
`
`2018-11-20
`
`Preventing Harmful Polarization of Solar Cells
`
`2005-12-30
`
`Solar Cell Having Polymer Heterojunction Contacts
`
`2006-12-20
`
`2010-09-15
`
`2010-09-15
`
`2006-11-27
`
`Back Side Contact Solar Cell Structures and Fabrication
`Processes
`Back Side Contact Solar Cell Structures and Fabrication
`Processes
`Back Side Contact Solar Cell Structures and Fabrication
`Processes
`Solar Cell Having Silicon Nano-Particle Emitter
`
`2010-02-03
`
`Solar Cell Having Silicon Nano-Particle Emitter
`
`2014-03-28
`
`Solar Cell Having Silicon Nano-Particle Emitter
`
`2006-05-04
`
`2010-05-25
`
`2014-08-13
`
`2016-08-05
`
`2007-08-23
`
`Solar Cell Having Doped Semiconductor Heterojunction
`Contacts
`Solar Cell Having Doped Semiconductor Heterojunction
`Contacts
`Solar Cell Having Doped Semiconductor Heterojunction
`Contacts
`Solar Cell Having Doped Semiconductor Heterojunction
`Contacts
`Solar Cell Interconnect with Multiple Current Paths
`
`Page 5 of 12
`
`PATENT
`REEL: 062490 FRAME: 0752
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`9,691,924
`
`7,838,062
`
`8,883,247
`
`7,804,022
`
`8,062,693
`
`7,812,250
`
`2012-03-07
`
`Solar Cell Interconnect with Multiple Current Paths
`
`2007-05-29
`
`Array of Small Contacts for Solar Cell Fabrication
`
`2010-11-18
`
`Array of Small Contacts for Solar Cell Fabrication
`
`2007-03-16
`
`2008-09-22
`
`2009-04-28
`
`Solar Cell Contact Fingers and Solder Pad Arrangement for
`Enhanced Efficiency
`Generation Of Contact Masks For InkJet Printing On Solar
`Cell Substrates
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`8,460,963
`
`2010-09-10
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`10,714,647
`
`2019-07-09
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`11,183,607
`
`2020-07-08
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`17/529,719
`
`2021-11-18
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`8,772,894
`
`2013-05-13
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`8,975,717
`
`2014-04-14
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`9,231,145
`
`2015-02-03
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`9,437,763
`
`2015-11-19
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`9,666,735
`
`2016-08-05
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`Page 6 of 12
`
`PATENT
`REEL: 062490 FRAME: 0753
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`9,929,298
`
`2017-05-03
`
`Title
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`10,128,395
`
`2018-02-14
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`10,396,230
`
`2018-10-10
`
`Backside Contact Solar Cells with Separated Polysilicon
`Doped Regions
`
`8,198,528
`
`2008-12-01
`
`Anti-Reflective Coating With High Optical Absorption Layer
`For Backside Contact Solar Cells
`
`8,748,736
`
`2012-05-14
`
`Anti-Reflective Coating With High Optical Absorption Layer
`For Backside Contact Solar Cells
`
`9,577,120
`
`2014-05-06
`
`Anti-Reflective Coating With High Optical Absorption Layer
`For Backside Contact Solar Cells
`
`8,222,516
`
`8,878,053
`
`16/460,035
`
`17/870,268
`
`8,207,444
`
`2008-02-20
`
`Front Contact Solar Cell with Formed Emitter
`
`2012-06-13
`
`Front Contact Solar Cell with Formed Emitter
`
`2019-07-02
`
`Front Contact Solar Cell with Formed Emitter
`
`2022-07-21
`
`Front Contact Solar Cell with Formed Emitter
`
`2008-07-01
`
`Front Contact Cell with Formed Electrically Conducting
`Layers on the Front Side and Backside
`
`9,437,755
`
`2012-05-30
`
`Front Contact Cell with Formed Electrically Conducting
`Layers on the Front Side and Backside
`
`10,475,945
`
`2016-08-05
`
`Front Contact Cell with Formed Electrically Conducting
`Layers on the Front Side and Backside
`
`8,662,008
`
`8,322,300
`
`2008-02-07
`
`Edge Coating Apparatus for Solar Cell Substrates
`
`2008-02-07
`
`EDGE COATING APPARATUS WITH MOVABLE ROLLER
`APPLICATOR FOR SOLAR CELL SUBSTRATES
`
`Page 7 of 12
`
`PATENT
`REEL: 062490 FRAME: 0754
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`8,962,082
`
`8,242,354
`
`8,647,911
`
`7,851,698
`
`8,450,134
`
`8,673,673
`
`9,070,804
`
`8,409,911
`
`8,963,185
`
`8,258,395
`
`8,822,812
`
`9,929,296
`
`9,186,741
`
`8,188,363
`
`9,281,429
`
`8,324,015
`
`8,785,236
`
`9,087,939
`
`10,211,349
`
`2012-10-31
`
`2009-11-25
`
`2012-07-12
`
`2009-02-25
`
`2010-11-12
`
`2013-04-29
`
`2009-02-24
`
`Control System for Non-Contact Edge Coating Apparatus
`for Solar Cell Substrates
`Backside Contact Solar Cell With Formed Polysilicon Doped
`Regions
`Backside Contact Solar Cell With Formed Polysilicon Doped
`Regions
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`
`Trench Process and Structure for Backside Contact Solar
`Cells with Polysilicon Doped Regions
`Back Contact Sliver Cells
`
`2009-08-03
`
`Methods for Metallization of Solar Cells
`
`2013-03-18
`
`2009-02-24
`
`2012-08-14
`
`2009-12-22
`
`Continuous Superstrate as Transport for Multiple Solar
`Cells
`Photovoltaic Module and Interlocked Stack of Photovoltaic
`Modules
`Photovoltaic Module and Interlocked Stack of Photovoltaic
`Modules
`Edge Reflector or Refractor for Bifacial Solar Module
`
`2009-09-11
`
`Induction Soldering of Photovoltaic System Components
`
`2009-08-07
`
`Module Level Solutions to Solar Cell Polarization
`
`2012-04-27
`
`Module Level Solutions to Solar Cell Polarization
`
`2010-09-30
`
`2012-11-05
`
`2014-07-17
`
`2015-07-07
`
`SOLAR CELL CONTACT FORMATION USING LASER
`ABLATION
`SOLAR CELL CONTACT FORMATION USING LASER
`ABLATION
`SOLAR CELL CONTACT FORMATION USING LASER
`ABLATION
`SOLAR CELL CONTACT FORMATION USING LASER
`ABLATION
`
`Page 8 of 12
`
`PATENT
`REEL: 062490 FRAME: 0755
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`11,152,518
`
`17/498,979
`
`8,572,836
`
`RE46,088
`
`8,317,987
`
`8,221,600
`
`8,221,601
`
`9,222,193
`
`11,280,019
`
`9,083,121
`
`8,378,706
`
`8,211,731
`
`8,409,902
`
`8263899
`
`8,859,933
`
`9,527,164
`
`8,586,403
`
`9,263,602
`
`9,831,359
`
`2019-02-14
`
`Solar Cell Having a Plurality of Conductive Contacts
`
`2021-10-12
`
`2010-04-19
`
`2015-05-05
`
`SOLAR CELL CONTACT FORMATION USING LASER
`ABLATION
`Method of Manufacturing a Large-area Segmented
`Photovoltaic Module
`Maintainable Substrate Carrier for Electroplating
`
`2010-09-23
`
`Non-Permeable Substrate Carrier for Electroplating
`
`2010-09-23
`
`Sealed Substrate Carrier for Electroplating
`
`2010-09-23
`
`Maintainable Substrate Carrier for Electroplating
`
`2012-10-26
`
`Non-Permeable Substrate Carrier for Electroplating
`
`2019-06-19
`
`Non-Permeable Substrate Carrier for Electroplating
`
`2010-12-17
`
`Diode-Included Connector, Photovoltaic Laminate and
`Photovoltaic Assembly using Same
`
`2010-08-02
`
`Method to Dice Back-Contact Solar Cells
`
`2010-06-07
`
`Ablation of Film Stacks in Solar Cell Fabrication Processes
`
`2012-06-01
`
`Ablation of Film Stacks in Solar Cell Fabrication Processes
`
`2010-07-01
`
`High Throughput Solar Cell Ablation System
`
`2012-08-13
`
`High Throughput Solar Cell Ablation System
`
`2014-09-19
`
`High Throughput Laser Processing
`
`2011-02-15
`
`2013-10-23
`
`2016-01-07
`
`PROCESS AND STRUCTURES FOR FABRICATION OF SOLAR
`CELLS WITH LASER ABLATION STEPS TO FORM CONTACT
`HOLES
`Laser Processing of Solar Cells with Anti-reflective Coating
`
`Laser Process and Corresponding Structures for
`Fabrication of Solar Cells with Shunt Prevention Dielectric
`
`Page 9 of 12
`
`PATENT
`REEL: 062490 FRAME: 0756
`
`

`

`10,608,126
`
`11,437,528
`
`9,029,689
`
`9,716,206
`
`8,486,746
`
`8,822,257
`
`9,941,435
`
`8,692,111
`
`2011-11-16
`
`8,822,262
`
`2011-12-22
`
`9,142,696
`
`2014-08-15
`
`8,513,045
`
`9,640,676
`
`10,014,425
`
`17/329,547
`
`11,031,515
`
`8,877,617
`
`9,306,085
`
`9,960,292
`
`2012-01-31
`
`2013-05-30
`
`2012-09-28
`
`2021-05-25
`
`2018-06-11
`
`2012-09-27
`
`2012-08-22
`
`2016-03-09
`
`U.S. Application
`or Patent Number
`
`Filing Date
`(Year-Month-
`Day)
`
`Title
`
`2017-10-26
`
`2020-02-18
`
`Laser Process and Corresponding Structures for Forming
`Contact Holes of Solar Cells
`Process and Structures for Fabrication of Solar Cells
`
`2010-12-23
`
`Method for Connecting Solar Cells
`
`2015-04-14
`
`2011-03-29
`
`Interconnect Processing Assembly for Connecting Solar
`Cells
`Thin Silicon Solar Cell and Method of Manufacture
`
`2013-06-18
`
`Thin Silicon Solar Cell and Method of Manufacture
`
`2011-07-01
`
`Photovoltaic Module and Laminate
`
`HIGH THROUGHPUT LASER ABLATION PROCESSES AND
`STRUCTURES FOR FORMING CONTACT HOLES IN SOLAR
`CELLS
`Laser Contact Processes, Laser System, and Solar Cell
`Structures for Fabricating solar Cells with Silicon
`Nanoparticles
`Solar Cells with Silicon Nanoparticles that Are Coated with
`Nanoparticle Passivation Film
`
`LASER SYSTEM WITH MULTIPLE LASER PULSES FOR
`FABRICATION OF SOLAR CELLS
`METHODS AND STRUCTURES FOR IMPROVING THE
`STRUCTURAL INTEGRITY OF SOLAR CELLS
`
`Spacer Formation in a Solar Cell Using Oxygen ION
`Implantation
`Spacer Formation in a Solar Cell Using Oxygen ION
`Implantation
`Separation Region between Diffusion Regions in a
`Continuous Layer of a Solar Cell
`Methods and Structures for Forming and Protecting Thin
`Films on Substrates
`RADIALLY ARRANGED METAL CONTACT FINGERS FOR
`SOLAR CELLS
`Radially Arranged Metal Contact Fingers for Solar Cells
`
`Page 10 of 12
`
`PATENT
`REEL: 062490 FRAME: 0757
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`9,312,406
`
`9,564,551
`
`9,035,172
`
`9,312,425
`
`9,812,592
`
`17/176,489
`
`9,530,923
`
`2012-12-19
`
`Hybrid Emitter All Back Contact Solar Cell
`
`2016-03-11
`
`2012-11-26
`
`Method of Manufacturing a Hybrid Emitter All Back
`Contact Solar Cell
`Crack Resistant Solar Cell Modules
`
`2015-04-16
`
`Crack Resistant Solar Cell Modules
`
`2012-12-21
`
`2021-02-16
`
`2012-12-21
`
`METAL-FOIL-ASSISTED FABRICATION OF THIN-SILICON
`SOLAR CELL
`Metal foil assisted handling and metallization of thin Si
`back contact solar cells
`ION IMPLANTATION OF DOPANTS FOR FORMING
`SPATIALLY LOCATED DIFFUSION REGIONS OF SOLAR CELLS
`
`8,796,061
`
`2012-12-21
`
`9,466,752
`
`10,020,412
`
`9,666,739
`
`17/230,371
`
`8,975,175
`
`10,153,384
`
`9,502,596
`
`9,437,756
`
`9,865,753
`
`Continuous module level processing using UV cured
`encapsulants
`MODULE ASSEMBLY FOR THIN SOLAR CELLS
`Module Assembly for Thin Solar Cells
`
`2014-07-14
`
`2016-09-21
`
`MODULE ASSEMBLY FOR THIN SOLAR CELLS
`
`2013-06-28
`
`PHOTOVOLTAIC CELL AND LAMINATE METALLIZATION
`
`2021-04-14
`
`PHOTOVOLTAIC CELL AND LAMINATE METALLIZATION
`
`2013-06-28
`
`SOLDERABLE CONTACT REGIONS
`
`2015-02-23
`
`SOLDERABLE CONTACT REGIONS
`
`2013-06-28
`
`PATTERNED THIN FOIL
`
`2013-09-27
`
`METALLIZATION OF SOLAR CELLS USING METAL FOILS
`
`2016-08-05
`
`Metallization of Solar Cells Using Metal Foils
`
`10,930,804
`
`2017-12-05
`
`Metallization of Solar Cells Using Metal Foils
`
`9,685,571
`
`2013-08-14
`
`Solar Cell Module with High Electric Susceptibility Layer
`
`Page 11 of 12
`
`PATENT
`REEL: 062490 FRAME: 0758
`
`

`

`Filing Date
`U.S. Application
`or Patent Number | (Year-Month-
`Day)
`
`Title
`
`8,945,978
`
`10,553,738
`
`10,833,214
`
`17/063,017
`
`10,510,907
`
`17/487,559
`
`11,139,403
`
`10,673,379
`
`17/379,553
`
`11,070,167
`
`11,127,871
`
`17/527,285
`
`2013-06-28
`
`FORMATION OF METAL STRUCTURES IN SOLAR CELLS
`
`2013-08-21
`
`2016-11-29
`
`INTERCONNECTION OF SOLAR CELLS IN A SOLAR CELL
`MODULE
`Solar Panel
`
`2020-10-05
`
`Solar Panel
`
`2017-02-23
`
`SOLAR PANEL
`
`2021-09-28
`
`SOLAR PANEL
`
`2019-08-14
`
`SOLAR PANEL
`
`2016-06-08
`
`2021-07-19
`
`2020-02-14
`
`2019-10-15
`
`2021-11-16
`
`SYSTEMS AND METHODS FOR REWORKING SHINGLED
`SOLAR CELL MODULES
`reworking of shingled hypercells
`
`Systems and methods for reworking shingled solar cell
`modules
`STRUCTURES AND METHODS FOR FORMING ELECTRODES
`OF SOLAR CELLS
`Protection Coating For Solar Cell Wafers
`
`RECORDED: 01/24/2023
`
`PATENT
`REEL: 062490 FRAME: 0759
`
`Page 12 of 12
`
`