Dukosi''s chip-on-cell solution with contactless near-field communications can reduce battery weight by a few kilos depending on the size and configuration. In a typical EV battery, this technology can reduce component count by 10x, and improve reliability by up to 2x.
Enhanced performance monitoring: The chip can closely monitor and record various parameters of its cell, such as voltage, temperature and state of charge. This ensures that any anomalies or deviations are promptly detected and addressed, optimizing the battery’s performance.
According to Dukosi, by employing its chip-on-cell monitoring system, it is now possible to extend the battery’s life and optimize its performance by positioning a dedicated SoC on every single cell within the battery. This chip-on-cell technology can preserve traceability throughout the entire life cycle of each cell.
Upon integration of the chip, preferably during the cell-manufacturing stage, automatic data recording is initiated, preserving a comprehensive set of details that are essential for assessing the cell’s health and safety status and storing them for the duration of the cell’s lifetime.
Its chip-on-cell technology employs a novel contactless communication system based on near-field communication (NFC) to monitor each individual cell within the battery, recording operational data and events and transmitting this data back to the Dukosi system hub chip, which is integrated into the traditional BMS.
Cell-to-chassis (CTC) designs incorporate the battery cells directly into the vehicle’s chassis, optimizing space, reducing weight, and improving structural integrity. Some OMEs prefer the traditional modular setup housing 16 or 32 modules per pack, while others choose CTP designs to reduce the module count.
An electric vehicle has to be equipped with the right technology in order to use a battery swapping station, and not many EV models around the world currently allow for swapping. Conversely, an electric car can use any charging station in China because all use a common plug, and fast-charging technology is reducing the time for a recharge.
Dukosi''s chip-on-cell solution with contactless near-field communications can reduce battery weight by a few kilos depending on the size and configuration. In a typical EV battery, this technology can reduce component count by 10x, and improve reliability by up to 2x.
Dukosi''s chip-on-cell technology is designed to overcome these limitations by embedding a small chip directly onto each battery cell. Dukosi was founded in 2003 and is headquartered in Edinburgh, U.K. The company specializes in battery-monitoring technologies with the goal of resolving some of the issues that plague battery-powered applications. Its chip …
Tech billionaire Elon Musk has claimed his Neuralink company has successfully implanted one of its wireless brain chips in a human. In a post on X, formerly Twitter, he said "promising" brain ...
An EV driver pulls into a swapping station, and automated technology exchanges the low battery for a fully-charged one the station has available. The information you need to know, sent directly to ...
Traditional wired and wireless battery management systems have limitations. Dukosi chip-on-cell technology offers a solution for battery-cell monitoring, addressing these …
Chip-on-Cell technology, often abbreviated as CoC, represents an innovative step in battery management systems. It is the integration of semiconductor chips directly onto the battery cell itself. Traditionally, battery …
This innovative technology enables flexible battery design, optimized battery performance, high safety standards, and lifetime cell traceability—in automotive, stationary …
The first human patient has received an implant from Neuralink, Elon Musk''s computer-brain interface company. Andrew Chang explores the complexity of the N1 ...
Chip-on-Cell technology, often abbreviated as CoC, represents an innovative step in battery management systems. It is the integration of semiconductor chips directly onto the battery cell itself. Traditionally, battery management systems (BMS) have been external modules, regulating battery functions like voltage balancing, temperature ...
Dukosi''s chip-on-cell solution with contactless near-field communications can reduce battery weight by a few kilos depending on the size and configuration. In a typical EV battery, this technology can reduce component count by 10x, and improve reliability by up to 2x.
An EV driver pulls into a swapping station, and automated technology exchanges the low battery for a fully-charged one the station has available. The information …
This innovative technology enables flexible battery design, optimized battery performance, high safety standards, and lifetime cell traceability—in automotive, stationary energy storage, and industrial applications.
Electric vehicle (EV) battery technology is at the forefront of the shift towards sustainable transportation. However, maximising the environmental and economic benefits of …
An EV driver pulls into a swapping station, and automated technology exchanges the low battery for a fully-charged one the station has available. China-based CATL announced plans to open 1,000 ...
The chip-on-cell technology utilizes a contactless communication system that relies on near-field communication (NFC) to monitor and record operational data and events of each individual cell in the battery. …
Traditional wired and wireless battery management systems have limitations. Dukosi chip-on-cell technology offers a solution for battery-cell monitoring, addressing these challenges effectively. So today in this episode, we talk about this technology with Joseph Notaro, vice president of global sales and marketing at Dukosi. Dukosi ...
Dukosi''s chip-on-cell technology is a revolutionary way for monitoring battery cells, effectively addressing these difficulties. Wired vs. wireless BMS Traditional wired BMSes use an elaborate network of physical wiring that connects every individual cell in a battery pack to a central controller.
Chip-on-Cell technology, by improving battery efficiency and lifespan, aims to be part of the solution. Chip-on-Cell: A Sustainable Solution for EV Batteries. At its core, Chip-on-Cell technology is about efficient integration. …
Cell-to-pack (CTP) designs integrate battery cells directly into the battery pack, eliminating intermediate modules to enhance energy density and simplify manufacturing. Cell-to-chassis (CTC) designs incorporate the battery cells directly into the vehicle''s chassis, optimizing space, reducing weight, and improving structural integrity.
Its chip-on-cell technology employs a novel contactless communication system based on near-field communication (NFC) to monitor each individual cell within the battery, …
Its chip-on-cell technology employs a novel contactless communication system based on near-field communication (NFC) to monitor each individual cell within the battery, recording operational data and events and transmitting this data back to the Dukosi system hub chip, which is integrated into the traditional BMS.
We want to bring this technology from the lab into peoples'' homes. Potential Impact. Brain-computer interfaces have the potential to change lives for the better. We want to bring this technology from the lab into peoples'' homes. …
An EV driver pulls into a swapping station, and automated technology exchanges the low battery for a fully-charged one the station has available. China-based …
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