Rivian Blue
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Following my last post, I asked Chat GPT for a summary of the page I linked below.
patents.justia.com
This patent describes an advanced electric vehicle (EV) charging system designed to make charging more efficient, cost-effective, and environmentally friendly. Unlike traditional chargers that simply supply power, this system can intelligently adjust charging based on various factors such as electricity demand, pricing, and renewable energy availability. By optimizing when and how an EV is charged, the system helps drivers save money, reduces strain on the power grid, and ensures that charging happens in the most sustainable way possible.
A major feature of this system is its ability to communicate with both the EV and the power grid. It can receive real-time data about electricity prices and demand, allowing it to charge the vehicle when rates are lowest. For example, if electricity is cheaper at night when overall demand is low, the system can delay charging until then. Additionally, it can adjust the charging speed based on grid conditions, slowing down or pausing charging during peak hours to help prevent overloading the electrical system.
Another important aspect is the system’s integration with renewable energy sources like solar and wind power. If clean energy is available, the charger can prioritize using it instead of drawing power from fossil fuel-based electricity sources. This reduces the carbon footprint of EV charging and makes better use of sustainable energy. The system can also store energy information and predict when renewable sources will be most available, further improving efficiency.
For EV owners, the system offers a convenient and user-friendly experience. A smartphone app or online dashboard allows users to monitor and control charging remotely. They can set preferences such as when they want their car to be fully charged, and the system will automatically handle the process in the most cost-effective and eco-friendly way. This takes the guesswork out of charging and ensures that the vehicle is always ready when needed.
Overall, this smart EV charging system represents a step forward in making electric vehicle charging more intelligent and efficient. By optimizing energy use, integrating with renewable sources, and giving users greater control, it not only benefits individual EV owners but also supports a more stable and sustainable electricity grid. As electric vehicles become more common, innovations like this will play a key role in ensuring that charging is both convenient and environmentally responsible.
U.S. Patent Application for TEMPERATURE BASED CHARGING CONTROL Patent Application (Application #20250042285 issued February 6, 2025) - Justia Patents Search
A system can include a data processing system including one or more memory devices coupled with one or more processors. The data processing system can receive measurements of a temperature of a connector of a vehicle, the connector to charge the vehicle. The data processing system can determine...
patents.justia.com
This patent describes an advanced electric vehicle (EV) charging system designed to make charging more efficient, cost-effective, and environmentally friendly. Unlike traditional chargers that simply supply power, this system can intelligently adjust charging based on various factors such as electricity demand, pricing, and renewable energy availability. By optimizing when and how an EV is charged, the system helps drivers save money, reduces strain on the power grid, and ensures that charging happens in the most sustainable way possible.
A major feature of this system is its ability to communicate with both the EV and the power grid. It can receive real-time data about electricity prices and demand, allowing it to charge the vehicle when rates are lowest. For example, if electricity is cheaper at night when overall demand is low, the system can delay charging until then. Additionally, it can adjust the charging speed based on grid conditions, slowing down or pausing charging during peak hours to help prevent overloading the electrical system.
Another important aspect is the system’s integration with renewable energy sources like solar and wind power. If clean energy is available, the charger can prioritize using it instead of drawing power from fossil fuel-based electricity sources. This reduces the carbon footprint of EV charging and makes better use of sustainable energy. The system can also store energy information and predict when renewable sources will be most available, further improving efficiency.
For EV owners, the system offers a convenient and user-friendly experience. A smartphone app or online dashboard allows users to monitor and control charging remotely. They can set preferences such as when they want their car to be fully charged, and the system will automatically handle the process in the most cost-effective and eco-friendly way. This takes the guesswork out of charging and ensures that the vehicle is always ready when needed.
Overall, this smart EV charging system represents a step forward in making electric vehicle charging more intelligent and efficient. By optimizing energy use, integrating with renewable sources, and giving users greater control, it not only benefits individual EV owners but also supports a more stable and sustainable electricity grid. As electric vehicles become more common, innovations like this will play a key role in ensuring that charging is both convenient and environmentally responsible.
