Time Zones:

US: 11 AM EDT (Eastern Daylight Time)

Duration: 40 minutes, followed by live Q&A

About The Webinar:

Join this webinar to discover our cutting-edge Thermal Runaway Sensor, a breakthrough technology redefining safety standards in electric vehicles. Discover how this sensor can detect thermal runaway before it happens by identifying ionized gases released by the battery. This early detection is critical in preventing catastrophic events, ensuring the safety of passengers, and protecting your investment in vehicle technology. Learn about the sensor’s unparalleled reliability and precision, providing accurate alerts without false positives and remaining unaffected by atmospheric conditions. Witness how our sensor can seamlessly integrate with your Battery Management System (BMS), enhancing its efficiency and effectiveness in safeguarding against potential hazards.

The Technical Session Covers:

Topic A: Understanding Thermal Runaway
In the first segment, we will delve into the phenomenon of thermal runaway, a critical safety concern for electric vehicles. You will gain insights into the various triggers of thermal runaway, including manufacturing impurities, temperature spikes, excessive usage, overcharging, and physical damage such as punctures. We will discuss the severe safety implications, such as the emission of large quantities of flammable gases during a thermal runaway event, which pose significant risks to both passengers and bystanders. Additionally, we will cover the regulatory landscape and current safety standards that aim to mitigate these dangers, providing a comprehensive understanding of why thermal runaway is a paramount concern in the EV industry.

Topic B: Introducing Our Revolutionary Sensor
In the second segment, we will introduce our groundbreaking Thermal Runaway Sensor, designed to detect the onset of thermal runaway before it occurs. This innovative sensor operates by identifying ionized gases that are released by the battery as an early indicator of impending thermal runaway. Unlike traditional detection methods, our sensor is highly reliable, offering accurate alerts without false positives and unaffected by atmospheric conditions. We will highlight the advantages of this technology, including its robustness, durability, and its critical role in enhancing vehicle safety by enabling the Battery Management System (BMS) to take preemptive action. This early detection capability is crucial for preventing potential hazards, ensuring the safety of passengers and pedestrians, and setting a new benchmark for safety in electric vehicles.

DEP Engineering Services:

DEP offers tailored engineering solutions, from Crash analysis to Multi-body dynamics, ensuring top-notch results across fields like NVH, CFD, and aerodynamics. Specialized portfolio for EV development solutions includes designing, engineering, and manufacturing support for electric vehicles (EVs) to reduce carbon emissions and dependency on fossil fuels.

DEP EV Solutions suite encompasses efficient battery design & development technologies, optimizing charging infrastructure, and integrating smart mobility features for sustainability and convenience. Guided by customer satisfaction, we support you throughout the product development stages, utilizing our expertise and state-of-the-art facilities.