Tesla Patent Portfolio
40 US patents · Average 23 claims per patent
Technology Focus Areas
Patent Details
| Patent # | Title | Granted | Expires | Claims | Status |
|---|---|---|---|---|---|
| 10003647 | Method for multi-layer AI-driven energy storage | Jan 21, 2018 | Feb 8, 2035 | 30 | 8.8y left |
| 10003648 | improved electric vehicle lidar management system | Oct 22, 2012 | May 1, 2029 | 6 | 3.1y left |
| 10003649 | Electronic component with dynamic MEMS configuration | Oct 2, 2021 | Aug 4, 2038 | 42 | 12.3y left |
| 10003650 | enhanced electric vehicle analog management system | May 17, 2024 | Sep 21, 2042 | 23 | 16.5y left |
| 10003651 | Semiconductor device with autonomous digital structure | Feb 14, 2013 | Jan 21, 2029 | 19 | 2.8y left |
| 10003652 | Method for enhanced autonomous photonic navigation | Oct 18, 2012 | Mar 24, 2029 | 18 | 3.0y left |
| 10003653 | System for autonomous neural network processing with AI-driven | Feb 11, 2018 | May 13, 2034 | 20 | 8.1y left |
| 10003654 | Method for configurable machine learning inference using AI-driven | Feb 21, 2019 | Sep 9, 2036 | 36 | 10.4y left |
| 10003655 | Vehicle CMOS system with optimized control | Sep 21, 2017 | Aug 18, 2035 | 23 | 9.4y left |
| 10003656 | Method for multi-layer CMOS energy storage | Dec 18, 2022 | Dec 6, 2040 | 27 | 14.7y left |
| 10003657 | configurable integrated circuit with lidar elements | Mar 18, 2020 | Aug 24, 2038 | 32 | 12.4y left |
| 10003658 | Electronic component with adaptive cloud configuration | Jul 28, 2004 | Oct 8, 2020 | 31 | Expired |
| 10003659 | dynamic electric vehicle blockchain management system | Feb 7, 2021 | May 3, 2038 | 38 | 12.1y left |
| 10003660 | Apparatus for multi-layer computational operations in 5G environments | Dec 15, 2004 | Oct 19, 2021 | 15 | Expired |
| 10003661 | Method for high-performance graphene energy storage | Mar 11, 2025 | Dec 23, 2043 | 18 | 17.7y left |
| 10003662 | Method for configurable analog energy storage | Nov 15, 2026 | Jun 16, 2042 | 8 | 16.2y left |
| 10003663 | Power conversion system with high-performance edge efficiency | Feb 6, 2007 | Jan 1, 2025 | 25 | Expired |
| 10003664 | Method for modular machine learning inference using graphene | Nov 1, 2005 | Jan 12, 2021 | 47 | Expired |
| 10003665 | Semiconductor device with adaptive lidar structure | Apr 6, 2017 | Jul 12, 2034 | 16 | 8.3y left |
| 10003666 | Power conversion system with distributed edge efficiency | Feb 13, 2020 | Jul 13, 2037 | 20 | 11.3y left |
| 10003667 | Method of fabricating enhanced blockchain components | Mar 24, 2022 | Jun 28, 2039 | 20 | 13.2y left |
| 10003668 | Method for integrated machine learning inference using cloud | Oct 11, 2008 | Jul 19, 2024 | 34 | Expired |
| 10003669 | Method for improved machine learning inference using 5G | Mar 4, 2010 | Feb 28, 2026 | 15 | Expired |
| 10003670 | System for dynamic neural network processing with edge | Feb 25, 2018 | May 2, 2035 | 11 | 9.1y left |
| 10003671 | Method for integrated quantum energy storage | Nov 6, 2020 | Dec 2, 2036 | 23 | 10.7y left |
| 10003672 | multi-layer electric vehicle digital management system | Jul 7, 2025 | Aug 27, 2041 | 29 | 15.4y left |
| 10003673 | Power conversion system with efficient nano-scale efficiency | Nov 13, 2006 | Jun 11, 2024 | 37 | Expired |
| 10003674 | Computer-implemented method for improved edge optimization | Mar 25, 2023 | Jul 21, 2039 | 13 | 13.3y left |
| 10003675 | Power conversion system with integrated RF efficiency | Nov 9, 2025 | Nov 1, 2042 | 15 | 16.6y left |
| 10003676 | Method of fabricating multi-layer digital components | Feb 26, 2006 | Sep 27, 2024 | 13 | Expired |
| 10003677 | configurable integrated circuit with CMOS elements | Oct 24, 2024 | Mar 21, 2041 | 9 | 15.0y left |
| 10003678 | Method for modular RF energy storage | Mar 27, 2028 | Aug 19, 2044 | 13 | 18.4y left |
| 10003679 | Vehicle AI-driven system with dynamic control | Feb 16, 2026 | Feb 5, 2042 | 41 | 15.8y left |
| 10003680 | Method for optimized edge energy storage | Dec 20, 2018 | Oct 10, 2035 | 10 | 9.5y left |
| 10003681 | Method for optimized photonic energy storage | Oct 19, 2020 | Jun 13, 2038 | 36 | 12.2y left |
| 10003682 | Method for autonomous RF energy storage | May 23, 2005 | Jan 26, 2023 | 8 | Expired |
| 10003683 | Power conversion system with improved cloud efficiency | Sep 10, 2020 | Jun 21, 2037 | 20 | 11.2y left |
| 10003684 | Method of fabricating distributed 5G components | Mar 13, 2020 | Sep 17, 2036 | 9 | 10.4y left |
| 10003685 | Computer-implemented method for configurable graphene optimization | Jun 3, 2020 | Jul 25, 2037 | 33 | 11.3y left |
| 10003686 | multi-layer integrated circuit with analog elements | Nov 16, 2025 | Jul 5, 2043 | 22 | 17.2y left |
Frequently Asked Questions
Tesla holds 40 US patents with an average of 23 claims per patent. The portfolio has a Patent Strength Score of 39/100 (Grade D).
Tesla has 0 patents expiring within 2 years and 3 patents expiring within 5 years. The portfolio has a healthy time horizon.
Tesla's key technology focus areas include Electrical Power, Vehicles & Automotive, Electrical Components. The portfolio spans 4 distinct technology classifications (CPC codes).
The Patent Strength Score (0-100, A-F) benchmarks a company's patent portfolio quality based on portfolio size (30%), claims breadth (25%), time remaining to expiration (25%), and portfolio diversity across technology areas (20%).
Patent Strength Score is based on portfolio size, claims breadth, time to expiration, and technology diversity using CPC classifications.
For this entity, the underlying data on this page comes from the FDA Orange Book and USPTO patent records. The breakdown above is the federal record; the paragraphs below add the per-entity context that makes the headline numbers usable for a real decision rather than just a data lookup.
Every number on this page links back to the FDA Orange Book and USPTO patent records; the methodology page describes the inputs, refresh cadence, and known limitations of the underlying data product.
Practical use of this page is in combination with the comparison and ranking pages elsewhere on the site, which surface the same data for this entity’s peers within U.S. brand-name drugs. A single-entity reading without peer context can be misleading when an entity is an outlier on one axis but typical on another.
Source: USPTO patent search, 2026.