CorePower Magnetics的动态

Fact of the month: Solid-state batteries - The next revolution in electromobility? ???? Did you know that solid-state batteries are considered the next big revolution in battery technology? What are solid-state batteries? Solid-state batteries replace the liquid or gel-like electrolyte in conventional lithium-ion batteries with a solid substance. This results in higher energy density, improved safety and potentially faster charging times. Why is this important? Higher energy density: Solid-state batteries can store more energy, which could significantly extend the range of electric vehicles. Safer: As no flammable liquid electrolytes are used, there is less risk of fires and explosions. Faster charging times: These batteries could significantly reduce charging times, making charging electric cars almost as fast as refueling a combustion engine. The future of electric mobility: Manufacturers such as BMW and Toyota are working hard to develop this technology, which is expected to be ready for the market in the next decade. You can find out more at https://lnkd.in/dE8niyZ2 #HelbakoFactOfTheMonth #solid-state batteries #electromobility #innovation

?????? ?????????? ???? ?? ??,?????? ???? ??????????: ?????? ???? ?????????? ???????? ???? ???????? The vision of a compact car with a 1,000-kilometer range remains elusive for now. Promising new battery technologies, like solid-state batteries, are still far from being market-ready. Despite ongoing improvements, current lithium-ion batteries face limitations, especially in energy density. This makes it challenging to achieve long ranges at a low weight and reasonable cost. ?????? ?????????? ???????? ???????????????? ???????? ?????????? ?????????????????? Compact cars have limited space for large batteries, which are necessary for long distances. This creates a dilemma: more range requires larger, heavier batteries, which reduces efficiency and increases production costs. This challenge makes it particularly difficult to equip compact electric vehicles with the range of combustion engines. ???????? ???????????????? ?????????????? ???? ?? ?????????????? ?????????????? Another issue is the inadequate charging infrastructure, which slows the adoption of electric vehicles. While the automotive industry is working hard to optimize existing technologies and expand infrastructure, the anticipated "miracle battery" is still years away. Until then, we must rely on incremental improvements to pave the way for more efficient and longer-range electric cars. #winTEC #BatteryTechnology #EnergyEfficiency #EVRevolution

Watch this Video to find out about the development of battery technology that has driven the electric vehicle revolution

Remember what came before lithium-ion batteries? ?? While electric cars have been around for nearly 200 years, they weren't always powered by the lithium-ion batteries we know today. Before this, there were several other battery types that paved the way for today's electric vehicles. As one of the earliest examples of electric vehicles, Gustave Trouvé's tricycle from 1879 was powered by lead-acid batteries. These batteries were a technological breakthrough at the time, enabling a range of 14-16 km and a top speed of 12 km/h. However, battery technology stagnated. The next significant breakthrough came In the 1910s in the shape of nickel-iron batteries. These laid the foundation for the development of even more advanced battery types in the later decades of the 20th century. It's exciting to see how the battery technology for electric vehicles has evolved to the lithium-ion batteries that are used today. And we are not slowing down. New technologies like solid-state batteries are on the horizon, promising even greater efficiency and safety for the future. Watch our video to find out more about the fascinating development of battery technology that has driven the electric vehicle revolution. #weisstechnik #ElectricVehicles #Innovation #Sustainability

?? Revolutionizing Electric Motor Testing with In-House Innovation! In our latest video, we showcase the cutting-edge Electric Motor Testing & Characterization Unit, proudly built in-house at Decibels Lab. This advanced equipment empowers us to analyze motor performance, efficiency, and reliability with precision—critical for developing next-generation electric vehicles and energy-efficient systems. ?? What’s Covered? ? Comprehensive motor testing processes ? Key performance characterization for EV motors ? Real-world applications in EV technology ?? Discover how our innovative testing solutions are driving progress in electric mobility and enabling engineers to design efficient, reliable motors for the future. ?? Watch the video to explore this powerful unit and its impact on EV technology! ?? Learn more about our EV Powertrain Course here: https://bit.ly/3Gd6aXE ?? Call us: +91 8951503455 #ElectricMotors #EVPowertrain #Innovation #MotorTesting #DecibelsLab #EVTechnology #Sustainability #FutureOfMobility

Precision Testing for Electric Propulsion Systems. ?????? ???????????? ??-???????? ???????? ?????????? delivers precise, efficient, and reliable testing for modern powertrain systems. With power capabilities ranging from ???? ???? ???? ???????? ????, it’s designed to handle the most demanding testing scenarios for EV and hybrid vehicle applications. ?????? ????????????????: ? ???????????? ????????????????????: Fully regenerative design minimizes energy waste and reduces operational costs. ? ?????????????????? ?????????????? ????????????????????????: Suitable for e-axle, e-motor, inverter, and battery testing. ? ?????????????? ??????????????????????: Achieves acceleration rates up to 300,000 rpm/sec for realistic load simulations. ? ?????????????? ?????? ???????????????? ????????????: Air or water-cooled options for easy integration into existing setups. ????????????????????????: ? ?????????????????????? ?????? ????????????????????: Simulate real-world driving conditions to optimize powertrain performance. ? ???????????????????? ?????? ?????????????????? ??????????????: Test systems under strenuous conditions for reliability and longevity. ? ??????????, ??????????????????, ?????? ?????????????????? (??????): Ultra-quiet operation tailored for sensitive NVH testing environments. → ?????????? ????????: https://bit.ly/40iOBiQ #ElectricVehicles #EVTesting #PowertrainDevelopment #SustainableTechnology #Eaxle #HybridVehicles #NVHTesting #AutomotiveInnovation #GreenTechnology #FutureMobility #EVPowertrain #Unico

Navigating the #Global #Vehicle #Inverters #Market: Insights, Opportunities, and Challenges To Get More: https://lnkd.in/gwxAhdN2 Market Overview: The global vehicle inverters market is #experiencing robust growth, driven by the rising adoption of electric and hybrid vehicles. These inverters are crucial for converting DC power from vehicle #batteries to AC power, enabling the operation of various electrical components and systems. Key Drivers: Increasing demand for advanced automotive technologies, including energy-efficient systems and high-performance electrical components, is fueling market expansion. #Government initiatives promoting electric vehicles and stringent emission regulations are also contributing to the market's growth. Future Outlook: The vehicle inverters market is expected to continue its upward trajectory, with innovations in inverter #technology and growing consumer preference for eco-friendly vehicles. As automotive manufacturers enhance their offerings, the market will likely see increased #competition and technological advancements. Key players in the Global Vehicle Inverters Market: 1. DELTA ELECTRONICS, INC. 2. Magnum Dimensions 3. Calsonic Kansei, 4. Bestek 5. Continental AG #VehicleInverters #AutomotiveInverters #GlobalMarket #ElectricVehicles #HybridVehicles #InverterTechnology #AutomotiveElectronics #MarketGrowth #VehiclePowerSystems #DCtoACInverters #EnergyEfficiency #AutomotiveTrends #ElectricVehicleCharging #InverterSolutions #AutoIndustry

?? Webinar Alert: Realistic Electric Vehicle Battery Vibration Testing?? Are you interested in staying at the forefront of electric vehicle (EV) technology? ???? Join me in attending this webinar where I’ll be presenting on "Realistic Electric Vehicle Battery Vibration Testing"! ?? ?? Date: February 5, 2025 ? Time: 09:00 am and 06:00 pm (CET) ?? Register: [Registration Link:https://lnkd.in/eyjAdpyb] ?? During this session, together ?we will explore: ? The significance of vibration testing in ensuring the safety and reliability of EV batteries. ? Real-world examples of the impact of vibrations on battery performance. ? The latest testing methodologies and technologies employed by Siemens in this domain. ? How to leverage realistic testing to accelerate the development of high-quality EV batteries. ?? [Registration Link: https://lnkd.in/eyjAdpyb] #EVTechnology #BatteryTesting #Webinar #Siemens #ElectricMobility #Engineering #AutomotiveIndustry

Dive into the future of EV batteries with Matthew Borst's insights in Autocar Professional. Uncover how new technologies like solid-state, sodium-ion, and metal-air are revolutionizing electric vehicles and boosting sustainability. https://bit.ly/4fzH4D6 #Keysight #EVs #BatteryTec #SustainableEnergy

?? ?????????????? ?????????????????? ???????????????? ?????????????? ?????????????????? ?????? ??????! A recent study in Nature Energy shows that realistic, dynamic discharge profiles – which mimic actual EV driving patterns like stop-and-go traffic or regenerative braking – ?????? ???????????????? ?????????????? ???????????????? ???? ???? ???? ????% compared to constant current discharge profiles. Why does this matter? EV battery aging is heavily influenced by real-world usage patterns. Dynamic cycling, like what long-haul EV trucks experience, results in slower degradation and better lifetime performance. This research challenges traditional battery testing methods and highlights the need for realistic load profiles when developing next-gen battery chemistries and designs. At Milence, this is particularly relevant as we design and operate charging infrastructure for long-haul EV trucks. Longer-lasting batteries mean fewer replacements, reduced operating costs, and more reliable charging demands, directly impacting how we plan and optimize our charging networks. #Innovation #EVCharging #BatteryTechnology #Sustainability #LongHaulEVs #Milence EFC: Equivalent Full Cycles