Transforming the battery experience. Simply with software.

Trusted worldwide to power the products that power your life.

E-Mobility Solutions

Seeing you through the new transformation of mobility. Giving drivers one less thing to worry about with our safe, superfast, unlimited charging and extended range capabilities. Qnovo works with top automotive OEMs across the world.

Mobility Solutions


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Battery Energy Storage Systems

Creating the energy storage systems of tomorrow, today. The possibilities of energy storage systems are limitless, but a battery’s life span is not. Some of the world's top energy and utility companies partner with Qnovo to take the guesswork out of energy storage – without any additional hardware.

Energy Storage


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Consumer Devices

Improving the everyday technology powering our lives. Today’s consumer electronics users expect all-day battery life and multiple-year life spans from their devices. Qnovo’s no-compromise intelligence supports extended charging capabilities while prioritizing safety. Qnovo’s technology is in over 150M smartphones worldwide with zero events in the field.

Consumer Devices


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Qnovo’s insights and solutions help to mobilize a rechargeable world.

Qnovo is enabling the electrification revolution for a more intelligent and resilient technology future by redefining the lithium-ion battery. Our software-defined battery solution drives shared success and sustainability for the industrial ecosystem.

Qnovo's Advantage

Qnovo is a first-to-market solutions provider with over 50 patents. Qnovo delivers an enhanced experience with much-improved performance, reliability, longevity, and sustainability for leaders of the electrification revolution, all without compromise.

More Available Charge
Longer battery life and driving range
Faster Charging
Full tank in less than 20 mins
Peace of Mind
Long lasting lifespan
Safety Always
Hundreds of daily safety checks

Gain the Qnovo Advantage

Want to be a part of the electrification revolution? For a more intelligent and resilient technological future, this is your destination.
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EV Battery Safety

Battery Safety In Electric Vehicles

With the world moving towards cleaner more sustainable transportation preferences the safety of batteries in vehicles is a significant concern. With the increasing popularity of electric cars questions arise about how safe they are especially when it comes to the batteries that power them. So are electric cars safe? To answer this question we need to explore aspects of battery safety and understand how manufacturers prioritize driver and passenger security. The batteries that make electric cars run are lithium ion. These batteries have numerous advantages, such as high energy density and long cycle life; however, there have been instances where battery-related incidents have raised concerns about their safety. For example, thermal runaway—a chain reaction leading to an uncontrolled heat release—can potentially cause fires or explosions if not properly managed. To mitigate these risks, manufacturers implement various safety features to prevent thermal runaway and ensure overall battery safety in electric vehicles. Among these measures are advanced cooling systems designed to maintain optimal temperatures within the battery pack during charging and discharging. Maintaining the temperature within a designated range is crucial to prevent overheating and minimize the risk of thermal runaway.

Moreover manufacturers integrate battery management systems (BMS) with multiple protective layers. These BMS continually monitor critical factors, including voltage, current, temperature and various parameters ensuring seamless battery operation. Beyond internal safeguards strict global standards govern battery production. These safeguards enhance overall electric vehicle (EV) safety. For example United Nations guidelines mandate thorough testing of lithium-ion batteries before their approval for EV use. Assessments like these encompass impact resistance, puncture hazards, extreme temperature performance, and overcharging responses comprehensively addressing potential battery-related risks. As technology advances, ongoing improvements in battery design and management enhance the safety and reliability of EVs. Both manufacturers and regulatory bodies must maintain their diligence in advancing battery safety. This commitment safeguards the lives of passengers and drivers while propelling the EV industry toward a brighter, greener future. By confronting these issues directly, the public can confidently embrace electric vehicles as a sustainable mode of transportation that prioritizes environmental responsibility and personal safety.

EV Battery Safety Standards

The rapid transition from gasoline-powered vehicles to electric vehicles (EVs) has brought numerous innovations in the automotive industry. One of the primary concerns during this shift is ensuring that these new vehicles meet high safety electric vehicle battery safety standards. Thus, EV battery safety standards have become a crucial aspect of electric vehicle development. Electric vehicle safety standards are meant to ensure that EVs perform as safely and reliably as possible under various conditions. These standards encompass battery performance and other aspects such as charging systems, electrical components and overall vehicle construction. The National Highway Traffic Safety Administration (NHTSA) significantly impacts the establishing of guidelines and monitoring compliance with these regulations. As the driving force behind an EV's operation, electric vehicle battery standards are essential to uphold their overall safety. These guidelines aim to maintain the integrity of high-voltage batteries by addressing areas such as thermal management, short-circuit protection and abuse tolerance.

There is a constant push for technological advancements that enhance the durability and resilience of electric vehicle batteries while reducing potential hazards. Due to the criticality of maintaining safety standards for EVs, NHTSA has implemented measures to ensure compliance with these regulations. By conducting research programs and tailored testing procedures specifically designed for vehicles, NHTSA continues to lead in protecting individuals on the road from potential hazards related to this emerging technology. However, despite ongoing efforts to improve EV safety measures, some electric vehicle safety concerns warrant attention from manufacturers and regulatory bodies alike. For instance, issues related to fire risks stemming from lithium-ion batteries have raised concerns among experts who call for more robust containment solutions and improved early-warning detection systems. 

To tackle these challenges head-on and instill confidence in consumers considering switching to an eco-friendly transportation option, the NHTSA Battery Safety Initiative—an ambitious program aiming to reduce the likelihood and/or severity of incidents related to electric vehicle batteries. This project aims to create a safe environment for everyone on the road through testing, research and developing new innovative technologies. As electric vehicles become more popular and the industry expands there is an emphasis on establishing safety standards, for EV batteries that cover all aspects of their performance and dependability. Organizations like NHTSA continue to work tirelessly towards developing stringent guidelines that ensure high safety in this burgeoning industry. By addressing electric vehicle safety concerns through comprehensive initiatives like the Battery Safety Initiative, regulatory bodies aim to create a safer future for all road users while fostering consumer trust in this transformative technology.

Dangers Of Electric Car Batteries

The world is moving towards sustainable modes of transportation. Therefore electric vehicles (EVs) are becoming increasingly popular. While they offer numerous benefits such as reduced greenhouse gas emissions and lower operating costs, it is crucial to be aware of the potential dangers of electric car batteries. One of the most concerning risks involves electric car battery fires, also known as thermal events. The question arises how many electric cars catch fire every year? Electric car battery fires occur when the lithium-ion batteries used in EVs malfunction or become damaged, leading to a chemical reaction that can result in combustion. These incidents have raised safety concerns about the safety of these vehicles, prompting an increase in research and development efforts aimed at creating safer battery technologies. However, it is vital to consider these incidents by examining electric car fire statistics. When comparing electric car fire statistics with those of internal combustion engine (ICE) vehicles, it becomes clear that EVs tend to have fewer fires overall. There were approximately 212,500 vehicle fires in ICE cars in 2018 alone according to data from the National Highway Traffic Safety Administration states.

In contrast between 2011 and 2020 there were around 200 reported cases of EV battery fires globally. While the actual number of EV battery fires may seem relatively low compared to their ICE counterparts, it is essential to consider that there are far fewer electric vehicles on the road than traditional gas-powered vehicles. To truly grasp the frequency of electric car fires each year it is important to examine and standardize the data, for comparisons. While initial findings indicate that electric vehicles (EVs) may have a fire risk compared to combustion engine (ICE) vehicles, it is still vital for both consumers and manufacturers to acknowledge and tackle the potential hazards linked with electric car batteries. Extensive research is being conducted to enhance battery technology with companies dedicating investments towards creating alternatives or software, such as Qnovo's. As global demand for electric vehicles grows safety will remain a top priority for both manufacturers and regulatory agencies. This focus includes reducing the risks associated with EV battery fires and ensuring that emergency response teams are adequately equipped and trained to handle such incidents when they occur. While electric vehicles promise a more sustainable future, all stakeholders must acknowledge and address the potential dangers of electric car batteries. As research and development efforts progress towards safer battery technology, understanding statistical trends in electric car fire incidents can help manufacturers, regulators and consumers make informed decisions about EV safety. By staying informed about these concerns and working together towards solutions, we can continue to drive innovation in this rapidly evolving industry while minimizing risks for everyone involved.

EV Battery Safety

The automotive industry's electrification has brought forth many innovations and advancements in recent years. One such area that has witnessed significant progress is electric vehicle (EV) battery safety. With electric vehicles becoming increasingly popular worldwide ensuring their batteries are as safe as possible has become critical for manufacturers, policymakers, and consumers alike. As we delve further into this topic, we must explore how predictive safety and battery safety monitoring are crucial in mitigating potential hazards. One aspect that cannot be overlooked when discussing EV battery safety is the role of predictive safety measures. Predictive safety refers to proactive steps engineers and manufacturers take to anticipate potential issues or hazards with an EV's battery system before they occur. This approach is not only helpful in identifying and addressing possible risks. By reducing the strain on its components it can also significantly increase an EV's overall lifespan. Predictive safety employs advanced data analytics, machine learning algorithms and artificial intelligence to evaluate an EV battery's performance patterns, detect abnormalities and predict future failures or malfunctions.

It helps optimize charging cycles and manage temperature fluctuations – both critical factors affecting an EV battery's life expectancy and overall performance. Another vital aspect related to EV battery safety is the implementation of robust battery safety monitoring software. These software systems play an instrumental role in ensuring that an electric vehicle's battery operates within safe parameters. Battery management systems (BMS) are equipped with numerous sensors that continuously monitor parameters like voltage levels, currents, temperature conditions within individual cells or modules – enabling real-time assessment of an EV's battery performance. When a BMS detects deviations from normal operating conditions, corrective actions can be taken automatically or sent as alerts to drivers – allowing them to address potential issues promptly. Advanced BMS can even communicate with other onboard systems like thermal management systems or regenerative braking systems – helping maintain optimal operating conditions and enhance the overall safety of an electric vehicle. As the demand for electric vehicles grows, ensuring battery safety remains a top priority. Adopting predictive safety measures and implementing sophisticated battery safety monitoring software is essential in addressing potential hazards before they escalate. Manufacturers can use state of the art technologies such as machine learning, data analytics and artificial intelligence along with BMS to guarantee the safety and efficiency of EV batteries.