Ardagger - Frühstücksnews - Donnerstag, 26.1.2023

Sehr geehrte Gemeindebürgerin! Sehr geehrter Gemeindebürger! Heute startet der Kindergartenskikurs der Gesunden Gemeinde Ardagger auf der Forsteralm! Nach dem Schneemangel der letzten Wochen hat sich das Warten auf die weisse Pracht gelohnt. 39 Kinder aus Ardagger fahren nun für 3 Tage auf die Forsteralm! 10 freiwillige Begleitpersonen aus der Gemeinde werden auf sie schauen! Ganz ganz herzlichen…

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Vladivostok 81 by Alexxx Malev Via Flickr: Russia. Vladivostok. The historian-mechanic museum Automotoantiquity («Automotostarina»). BM-13, GAZ-51 and GAZ-53 Владивосток. Историко-технический музей автомотостарины. БМ-13НМ (2Б7), ГАЗ-51 и ГАЗ-53

 ADAS Testing and Validation: Ensuring Safe and Reliable Advanced Driver Assistance Systems

Introduction

The car industry has undergone a transformation thanks to Advanced Driver Assistance Systems (ADAS), bringing us closer to a time when driving is entirely automated. These innovative technologies increase vehicle security, increase driving comfort, and lessen the possibility of collisions. Deploying ADAS, however, entails a great deal of responsibility because any flaws or failures in these systems could have negative effects.

In order to guarantee the secure and dependable operation of these cutting-edge technologies, this blog explores the critical facets of ADAS testing and validation.

1. The Value of ADAS Testing and Validation

Testing and validation for ADAS have the following objectives:

Safety Assurance: The main goal is to ensure that ADAS features operate correctly and safely under various circumstances. This reduces the possibility of mishaps brought on by system errors or misunderstandings.

Performance Evaluation: ADAS assists in determining the accuracy and dependability of ADAS features in a variety of driving circumstances, including city streets, highways, and inclement weather.

Regulatory Compliance: Validation is a necessary step for legal compliance because ADAS must adhere to strict safety standards established by regulatory agencies.

User Experience: To guarantee a seamless and simple experience for drivers, validation also includes assessing the usability and human-machine interface components of ADAS.

2. ADAS Testing Types

Hardware-in-the-Loop (HIL) testing connects actual ADAS hardware (such as sensors and ECUs) to a computerized driving simulation environment. This method prevents potential dangers from being placed on real automobiles or drivers while enabling controlled and repeatable testing of ADAS algorithms and features.

Software-in-the-Loop (SIL) ADAS: Using a simulated environment instead of actual hardware, SIL testing entails assessing ADAS software algorithms. It enables early-stage ADAS software validation and debugging, saving time and resources throughout the development process.

Vehicle Testing: To evaluate ADAS performance under various driving circumstances, real-world vehicle testing is crucial. Testing on public roadways (with the required safety procedures), and designated proving grounds are examples of this.

Simulation Testing: Through virtual simulations, ADAS systems can be tested in a variety of situations, including risky or uncommon incidents that could be difficult to simulate in actual testing. Additionally, simulations offer a quick and inexpensive way to validate ADAS systems.

Data-Driven ADAS: ADAS makes extensive use of data collected by cameras and sensors. Data-driven testing involves validating and optimizing ADAS algorithms utilizing recorded data from real-world driving scenarios.

3.  ADAS Validation Challenges

The testing and validation phase of ADAS technology faces a number of difficulties notwithstanding their benefits:

Edge Cases: ADAS must be tested against unusual and extreme events that are not typically seen in real-world driving. To guarantee the system’s reliability and resilience, these “edge cases” are essential.

Sensor Calibration: Accurate data gathering depends on precise sensor calibration. For ADAS validation to be successful, sensors must be calibrated accurately to prevent false positives or negatives.

Interoperability: A variety of ADAS elements from various providers are combined in many automobiles. For these systems to integrate seamlessly and avoid conflicts, interoperability must be maintained.

Human Factor: ADAS technology interacts with human drivers through the human factor. Enhancing user acceptance and safety through ADAS validation requires an understanding of and attention to the human component.

Continuous Updates: To respond to new driving situations and arising difficulties, ADAS systems need to be updated on a regular basis. To maintain optimal performance, it is vital to make sure that validation and updates are ongoing.

 4. Regulatory and Testing Standards for ADAS

The testing and validation of ADAS are governed by a number of international standards and laws, which the car industry complies with. Among the fundamental standards are:

ISO 26262: Throughout the development lifecycle, this standard establishes the functional safety criteria for automotive systems, including ADAS.

Euro NCAP: The European New Car Assessment Programme (Euro NCAP) evaluates the safety of vehicles and conducts tests to determine how well ADAS systems function.

NHTSA Guidelines: In the United States, the National Highway Traffic Safety Administration (NHTSA) offers recommendations for ADAS validation and testing.

SAE J3016: This standard provides a framework for categorizing ADAS and establishes levels of driving automation from Level 0 (no automation) to Level 5 (full automation).

5. ADAS Testing and Validation Future Trends

The testing and validation procedures will change as ADAS technologies advance. Future trends could include:

Testing of artificial intelligence (AI): As AI is incorporated into ADAS systems, testing techniques utilizing AI-driven simulations and adversarial testing will proliferate.

Real-world Data Collection: To enhance ADAS performance and successfully test systems, OEMs, and developers will increasingly concentrate on obtaining real-world driving data.

Cyber security Testing: Testing for cyber security will be essential as ADAS systems become increasingly interconnected. This is a crucial step in the testing and validation process.

Remote Over-the-Air (OTA) Updates: OTA updates will permit ongoing ADAS system updates and improvements, facilitating more effective testing and validation in actual driving situations.

Conclusion

A major improvement in vehicle automation and safety has been made by ADAS technologies. To ensure their safe and dependable operation, stringent ADAS Testing and validation procedures must be used during their integration and implementation. Automotive manufacturers and developers can recognize and fix potential concerns through a combination of HIL testing, SIL testing, vehicle testing, simulations, and data-driven approaches, ultimately resulting in safer roads and a more effective and enjoyable driving experience. The future of ADAS contains intriguing possibilities as technology develops, opening the door for the ongoing creation and incorporation of advanced driver-aid systems in our cars.

Global Top 3 Companies Accounted for 81% of total FPC for Power Battery market (QYResearch, 2021)

Flexible circuit board (FPC, Flexible Printed Circuit) is a circuit board made of flexible copper clad laminate as the base material. It is used as a medium for signal transmission in the connection of electronic products. Lightweight and flexible process. FPC can generally be divided into single-layer FPC, double-layer FPC, and multi-layer FPC. The functions of the power battery management system FPC mainly include: (1) monitor the voltage and temperature of the new energy power battery cells; (2) connect data acquisition and transmission and have its own overcurrent protection function; (3) protect the automotive power battery cells, the abnormal short circuit is automatically disconnected. Mainly used on the power square battery BMS, the general dosage is 3-70 pieces, instead of the traditional copper collection line.

According to the new market research report “Global FPC for Power Battery Market Report 2023-2029”, published by QYResearch, the global FPC for Power Battery market size is projected to reach USD 0.11 billion by 2029, at a CAGR of 33.8% during the forecast period.

Figure.   Global FPC for Power Battery Market Size (US$ Million), 2018-2029

Above data is based on report from QYResearch: Global FPC for Power Battery Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch..

Figure.   Global FPC for Power Battery Top 3 Players Ranking and Market Share (Ranking is based on the revenue of 2022, continually updated)

Above data is based on report from QYResearch: Global FPC for Power Battery Market Report 2023-2029 (published in 2023). If you need the latest data, plaese contact QYResearch.

The global key manufacturers of FPC for Power Battery include YiDong Electronics Technology, Dongguan Guixiang, etc. In 2022, the global top three players had a share approximately 81.0% in terms of revenue.

About QYResearch

QYResearch founded in California, USA in 2007.It is a leading global market research and consulting company. With over 16 years’ experience and professional research team in various cities over the world QY Research focuses on management consulting, database and seminar services, IPO consulting, industry chain research and customized research to help our clients in providing non-linear revenue model and make them successful. We are globally recognized for our expansive portfolio of services, good corporate citizenship, and our strong commitment to sustainability. Up to now, we have cooperated with more than 60,000 clients across five continents. Let’s work closely with you and build a bold and better future.

QYResearch is a world-renowned large-scale consulting company. The industry covers various high-tech industry chain market segments, spanning the semiconductor industry chain (semiconductor equipment and parts, semiconductor materials, ICs, Foundry, packaging and testing, discrete devices, sensors, optoelectronic devices), photovoltaic industry chain (equipment, cells, modules, auxiliary material brackets, inverters, power station terminals), new energy automobile industry chain (batteries and materials, auto parts, batteries, motors, electronic control, automotive semiconductors, etc.), communication industry chain (communication system equipment, terminal equipment, electronic components, RF front-end, optical modules, 4G/5G/6G, broadband, IoT, digital economy, AI), advanced materials industry Chain (metal materials, polymer materials, ceramic materials, nano materials, etc.), machinery manufacturing industry chain (CNC machine tools, construction machinery, electrical machinery, 3C automation, industrial robots, lasers, industrial control, drones), food, beverages and pharmaceuticals, medical equipment, agriculture, etc.

Introduction:

Electric vehicles (EVs) have emerged as a good solution for the environment to prevent the growth of pollution and reduce carbon emissions. In the two-wheeler segment, TVS Motors, one of India's largest automobile manufacturers, has taken a major step forward in the electric mobility space with the launch of the TVS iQube electric scooter. TVS iQube showcases the brand's commitment to a greener future and offers an alternative to traditional gas-powered scooters. In this article, we will examine the exciting features and benefits of TVS iQube and its implications on urban mobility. It seamlessly combines style and functionality. Its stylish body, sharp lines and attractive colors make it an attractive choice for those living in the city. With a comfortable seating position and ample storage space under the seat, iQube is practical for daily travel needs.

The scooter is equipped with a 4.4 kW electric motor that provides instant torque for rapid acceleration and efficient power delivery. iQube can reach a maximum speed of 78 km per hour, making it suitable for city trips. The electric motor ensures quiet operation, reduces noise pollution and provides an enjoyable ride. The battery is charged using a standard 5-amp household outlet, providing users with convenience and flexibility. When fully charged, the iQube has a range of approximately 75 miles, making it ideal for short-to-medium distance trips within city limits. The battery management system (BMS) ensures the efficiency, durability and safety of the battery pack. The scooter comes with advanced TFT technology that provides information about battery life, cycle time and more. In addition, the iQube features Bluetooth connectivity, allowing riders to connect their mobile phones to the scooter and access features such as route guidance, call reminders and SMS alerts via the dedicated TVS iQube app. TVS puts iQube's safety first and integrates multiple functions to ensure a safe ride. The scooter features Combined Braking System (CBS) to improve braking performance and stability. iQube is also equipped with regenerative braking, which converts kinetic energy into electrical energy during braking, helping to improve overall drivability. Additionally, the scooter is equipped with LED lights for better visibility and front disc brakes for stronger stopping power. iQube helps reduce pollution and noise, making it a great choice for urban travel. It helps prevent climate change with zero emissions and improves overall air quality.

Additionally, owning and running a generator like the iQube can provide significant cost savings over time, as electricity is generally cheaper than gasoline and maintenance costs are relatively low. E-scooters represent a significant step towards sustainable urban living. With its design, performance, smart connectivity and environmental benefits, iQube provides interesting information for city dwellers. A world-class electric car, TVS iQube stands out as a reliable, affordable model that showcases TVS Motors' commitment to innovation and a green future. By choosing iQube, riders not only contribute to a clean environment, but can also enjoy the pleasure of using electric bicycle technology. For more Information Visit our Shelar TVS Showroom in Pune. We are TVS iQube dealer in pune

"Heat Dissipation Horizons: Exploring the Future of Battery Thermal Management" 

The battery thermal management system market is poised for sales growth in the coming years, driven by the increasing demand for thermal management solutions essential for maintaining batteries within their optimal operating temperature range. These systems incorporate various technologies, including thermoelectric, forced air, and liquid cooling, where liquid coolants indirectly dissipate heat generated during battery operation. Battery management systems (BMS) enable users to monitor and regulate individual cells within a battery pack, ensuring their protection, longevity, and safe operation. Efficiency, reliability, and safety are all contingent on effective battery management, especially to maximize performance in diverse operating conditions. The temperature of the battery significantly influences its charge and discharge capacity, which in turn impacts its lifespan. As the number of battery-powered vehicles increases, manufacturers are compelled to develop advanced heat management solutions for batteries. 

𝐑𝐞𝐪𝐮𝐞𝐬𝐭 𝐒𝐚𝐦𝐩𝐥𝐞 𝐏𝐃𝐅 𝐁𝐫𝐨𝐜𝐡𝐮𝐫𝐞: https://www.alliedmarketresearch.com/request-toc-and-sample/16145  

Impact of COVID-19: 

The COVID-19 pandemic had a negative impact on the battery thermal management system market. It disrupted the supply chain, hindered raw material procurement, and led to the shutdown of industries to prevent virus spread, affecting battery manufacturing and demand. The automobile sector, a major consumer of batteries, was severely impacted by the pandemic, leading to reduced market growth. However, as lockdown restrictions eased and demand from the automotive sector increased, the market is expected to rebound. 

Key Influencing Factors: 

The rapid growth in electric vehicle adoption, driven by government incentives, environmental awareness, stringent emission regulations, global efforts to reduce pollution from the transportation sector, and advancements in electric vehicle technology, fuels the demand for electric vehicles worldwide. This, in turn, drives the need for battery thermal management systems. 

Market Trends: 

In recent developments, companies like Robert Bosch GmbH, Gentherm, and Valeo have introduced innovative solutions to enhance battery management and extend battery life in electric vehicles.  

𝐄𝐧𝐪𝐮𝐢𝐫𝐲 𝐁𝐞𝐟𝐨𝐫𝐞 𝐁𝐮𝐲𝐢𝐧𝐠 : https://www.alliedmarketresearch.com/purchase-enquiry/16145  

These solutions include cloud-connected battery management software, thermoelectric battery thermal management systems, and advanced thermal management solutions that improve battery life and performance. 

Key Benefits of the Report: 

This report provides an analytical overview of the battery thermal management system market, offering insights into current trends and future investment opportunities. It delves into key drivers, constraints, and opportunities, along with a detailed analysis of market share. The report quantitatively analyzes the market from 2020 to 2030, utilizes Porter's five forces analysis to assess buyer and supplier power, and provides a comprehensive analysis of the market's competitive landscape. 

𝐆𝐞𝐭 𝐚 𝐂𝐮𝐬𝐭𝐨𝐦𝐢𝐳𝐞𝐝 𝐑𝐞𝐬𝐞𝐚𝐫𝐜𝐡 𝐑𝐞𝐩𝐨𝐫𝐭 @ : https://www.alliedmarketresearch.com/request-for-customization/16145  

Battery Thermal Management System Market Report Highlights: 

Types: Liquid Cooling & Heating, Air Cooling & Heating 

Applications: Battery Electric Vehicle (BEV), Plug-In Hybrid Electric Vehicle (PHEV) 

Battery Types: Solid-State Battery, Conventional Battery 

Regions: North America, Europe, Asia-Pacific, LAMEA 

Key Market Players: GENTHERM Incorporated, Grayson, Voss Automotive GmbH, 3M, Robert Bosch GmbH, Hanon Systems, Polymer Science, Inc, Mahle GmbH, Valeo, Dana Incorporated 

BYD's Sodium Batteries: A Sustainable Shift in Energy Storage

In the quickly advancing landscape of renewable energy, the harmony between solar energy generation and power storage has become critical. This post delves into the details of solar storage producers, power generation business, Battery Administration Equipment (BMS), and the most up to date improvements in lithium-ion and sodium-ion battery innovations. The worldwide press in the direction of lasting energy sources has actually given rise to a surge in solar storage manufacturers and power generation business. These entities play a crucial duty in taking advantage of and saving solar power efficiently. From photovoltaic or pv installments to the deployment of innovative storage space solutions, companies are racing to establish their supremacy in the ever-expanding renewable resource market.

Mastering Amps: A Fundamental Skill for Energy Enthusiasts

At the heart of effective energy storage systems lies the Battery Monitoring System (BMS). What precisely is BMS? BMS is an innovative electronic system responsible for checking and handling the performance of rechargeable batteries. It ensures the ideal operation of batteries, protects against overcharging or releasing, and enhances the general lifespan of the energy storage space system. In the context of solar storage space, BMS is an important component that makes certain the seamless integration and operation of batteries within a solar power system. Lithium-ion batteries have actually arised as the frontrunners in energy storage solutions. A ranking list provides understandings into the market leaders, consisting of CATL, a prominent name in the development of lithium-ion batteries. CATL, or Contemporary Amperex Modern Technology Co. Limited, attracts attention as an introducing force in the development of lithium-ion batteries. Notably, CATL has been a pioneer as the very first manufacturer of NCM (Nickel-Cobalt-Manganese) lithium batteries. NCM batteries are understood for their high power thickness, making them optimal for applications where long life and performance are vital, such as electric automobiles and renewable resource storage space. While lithium-ion batteries control the marketplace, sodium-ion innovation is making considerable strides. Natron Energy is at the leading edge of this revolution. Sodium-ion batteries provide an engaging alternative to lithium-ion counterparts, offering advantages like cost-effectiveness, safety, and abundance of resources. Natron Power's innovative services show the potential of sodium-ion technology in improving the power storage landscape. Samsung, a house name in consumer electronics, has also made its mark in the power storage market. Samsung Battery Energy Storage space remedies supply reliable and scalable choices for various applications, contributing to the combination of renewable energy right into the power grid. The firm's commitment to r & d positions it as a key player fit the future of energy storage space. The construction and monitoring of Energy Storage Solution (ESS) are critical for their effective deployment. Business specializing in ESS construction and management play an important role in ensuring the smooth procedure of power storage space services. From designing efficient battery packs to carrying out innovative BMS, these entities add substantially to the integrity and efficiency of energy storage space systems. Lithium Iron Phosphate (LiFePO4) batteries have gained importance for their boosted security and durability contrasted to conventional lithium-ion batteries. BYD, a leading Chinese multinational, has actually been instrumental in the advancement of LiFePO4 batteries. Their dedication to sustainability and advancement positions BYD as a key player in the progressing landscape of power storage space technologies. NPP, or New Power Prime, has actually sculpted a specific niche as a popular player in the lithium battery market. With a concentrate on Valve-Regulated Lead-Acid (VRLA) batteries, NPP Battery has actually established itself as a top supplier in the industry. The business's lithium batteries boast high power thickness, making them ideal for varied applications, from solar storage space to backup power systems. The building of battery loads involves assembling private battery cells to meet specific power storage space requirements. The 21700 batteries market shows the market's change towards a lot more effective and compact power storage options. Battery cells can be found in various capabilities, varying from 1200mAh to 3600Ah. Customizing the power storage system to specific needs calls for a nuanced understanding of these abilities. Whether it's for residential solar applications or industrial-scale energy storage jobs, choosing the appropriate cell capability is crucial for optimizing efficiency and effectiveness.

Natron Energy's Sodium-Ion Breakthrough: Shaping the Future of Clean Energy

The choice between alkaline and lithium batteries commonly stimulates debates over efficiency, expense, and environmental impact. While alkaline batteries are economical and extensively readily available, lithium batteries offer higher power density and longer life-span. Understanding the subtleties of each kind is crucial for making educated decisions in numerous applications, from house devices to renewable resource storage space. Beyond lithium-ion and sodium-ion modern technologies, BYD has actually made strides in salt batteries. Sodium batteries present a promising choice, specifically in fixed energy storage space applications. BYD's foray right into salt batteries mirrors the sector's search of diverse and lasting power storage remedies. Additionally, understanding the distinctions between 3 volts batteries types is crucial for selecting the ideal source of power for specific devices and applications. As we explore the vibrant globe of power storage, it's important to touch upon the basic ability of gauging amps with an ammeter. Recognizing present flow is essential for keeping and repairing power storage systems. Whether you're a solar lover, an electric lorry proprietor, or a power professional, mastering this ability is vital for ensuring the efficient operation of batteries and associated systems. In the world of solar storage, BMS, and cutting-edge batteries, the landscape is ever-evolving. As solar energy generation and power storage technologies remain to advance, staying educated about the key players, arising technologies, and essential abilities is extremely important. From lithium-ion giants like CATL to innovative sodium-ion solutions from Natron Energy, the future of power storage space promises a dynamic and lasting power play.

Alkaline vs. Lithium: An In-Depth Analysis of Battery Performance

In the rapidly developing landscape of renewable resource, the synergy in between solar power generation and power storage space has come to be crucial. This blog post explores the intricacies of solar storage manufacturers, power generation companies, Battery Monitoring Solution (BMS), and the most up to date innovations in lithium-ion and sodium-ion battery technologies. The international press in the direction of sustainable energy sources has actually given rise to a rise in solar storage manufacturers and power generation companies. These entities play a critical role in using and keeping solar energy efficiently. From solar setups to the deployment of advanced storage remedies, companies are racing to develop their dominance in the ever-expanding renewable resource market.

NPP Lithium Batteries: Leaders in VRLA Technology

At the heart of efficient energy storage space systems exists the Battery Monitoring System (BMS). What exactly is BMS? BMS is an innovative electronic system in charge of keeping an eye on and handling the efficiency of rechargeable batteries. It makes certain the optimal procedure of batteries, avoids overcharging or releasing, and enhances the total life expectancy of the power storage system. In the context of solar storage, BMS is a crucial element that guarantees the smooth assimilation and operation of batteries within a solar power system. Lithium-ion batteries have become the frontrunners in energy storage remedies. The market is swamped with different lithium battery producers, each trying the top area. As the demand for lithium-ion batteries remains to rise, it comes to be vital to understand the key players in the field. A ranking list gives insights right into the market leaders, consisting of CATL, a noticeable name in the advancement of lithium-ion batteries. CATL, or Contemporary Amperex Modern Technology Co. Limited, sticks out as a pioneering force in the advancement of lithium-ion batteries. Notably, CATL has been a trailblazer as the first manufacturer of NCM (Nickel-Cobalt-Manganese) lithium batteries. NCM batteries are known for their high energy thickness, making them excellent for applications where longevity and efficiency are critical, such as electrical automobiles and renewable resource storage space. While lithium-ion batteries dominate the market, sodium-ion technology is making considerable strides. Natron Energy's ingenious services show the potential of sodium-ion modern technology in improving the power storage space landscape. Samsung, a home name in consumer electronics, has actually also made its mark in the power storage space market. Samsung Battery Energy Storage services offer dependable and scalable choices for numerous applications, contributing to the combination of renewable resource into the power grid. The firm's dedication to r & d settings it as a key player fit the future of energy storage. The building and administration of Power Storage space Systems (ESS) are pivotal for their effective implementation. Companies concentrating on ESS construction and administration play a critical function in ensuring the seamless procedure of power storage space options. From developing CATL lithium-ion batteries to carrying out innovative BMS, these entities add considerably to the dependability and performance of energy storage space systems. Lithium Iron Phosphate (LiFePO4) batteries have gained importance for their improved security and long life contrasted to traditional lithium-ion batteries. BYD, a leading Chinese multinational, has actually been instrumental in the development of LiFePO4 batteries. Their commitment to sustainability and innovation settings BYD as a key player in the developing landscape of energy storage technologies. NPP, or New Power Prime, has carved a particular niche as a prominent player in the lithium battery market. With a concentrate on Valve-Regulated Lead-Acid (VRLA) batteries, NPP Battery has actually developed itself as a leading manufacturer in the sector. The company's lithium batteries flaunt high energy density, making them appropriate for diverse applications, from solar storage to backup power systems. The construction of battery packs involves setting up individual battery cells to meet certain energy storage space demands. The 21700 batteries market mirrors the market's shift towards more reliable and compact power storage options. Battery cells can be found in various capacities, varying from 1200mAh to 3600Ah. Tailoring the energy storage space system to particular demands requires a nuanced understanding of these abilities. Whether it's for residential solar applications or industrial-scale power storage space tasks, selecting the best cell capability is vital for maximizing efficiency and performance.

Natron Energy's Sodium-Ion Breakthrough: Shaping the Future of Clean Energy

The option between alkaline and lithium batteries usually triggers discussions over efficiency, cost, and environmental impact. While alkaline batteries are economical and widely readily available, lithium batteries provide greater power thickness and longer life expectancy. Recognizing the nuances of each kind is critical for making informed choices in various applications, from home gadgets to renewable energy storage. Beyond lithium-ion and sodium-ion modern technologies, BYD has made strides in sodium batteries. Salt batteries offer a promising alternative, specifically in stationary energy storage applications. BYD's foray into sodium batteries reflects the industry's search of diverse and sustainable energy storage solutions. Furthermore, understanding the distinctions in between 3 volts batteries kinds is crucial for picking the best source of power for certain tools and applications. As we discover the dynamic world of power storage space, it's necessary to touch upon the basic ability of measuring amps with an ammeter. Comprehending existing flow is essential for maintaining and repairing power storage systems. Whether you're a solar lover, an electric vehicle owner, or a power professional, understanding this skill is important for making sure the efficient procedure of batteries and linked systems. In the realm of solar storage space, BMS, and cutting-edge batteries, the landscape is ever-evolving. As solar power generation and energy storage innovations remain to development, remaining notified concerning the principals, emerging technologies, and basic abilities is critical. From lithium-ion giants like CATL to cutting-edge sodium-ion solutions from Natron Energy, the future of power storage promises a dynamic and lasting power play.

UGREEN's High-Tech Solutions Debut in Japan

  UGREEN's Global Presence Expands to Japan

UGREEN, a globally recognized brand with a presence in over 100 countries and regions, has identified Japan as a critical market for its expansion efforts. To strengthen its brand presence in Japan, Focal Point is set to work closely with manufacturers as a distributor. This collaboration will involve making UGREEN products readily available at local electronics retailers and lifestyle shops. Furthermore, the company plans to leverage a range of branding and marketing strategies, including participation in domestic exhibitions and hosting offline events. These initiatives aim to effectively showcase the appeal and quality of UGREEN products in the Japanese market.  

UGREEN: A Decade of Innovation

Founded in 2012 in Shenzhen, China, UGREEN has carved a niche as a manufacturer specializing in digital solutions for consumers. Over the past decade, the company has emerged as a leading innovator in the industry, continuously enhancing its capabilities in research and development, design, manufacturing, and brand marketing.   Diverse Product Portfolio UGREEN's product lineup spans across chargers, smartphone and computer accessories, and automobile accessories, all distributed across more than 100 countries and regions worldwide. The company boasts a robust distribution network, seamlessly integrating online and offline channels to deliver innovative and valuable products to customers.  

A Limited Sample of their Products:

UGREEN GaN Quick Charger - Nexode Series The UGREEN Nexode series chargers have made significant contributions to reducing carbon dioxide emissions, with 2,264 tons saved since 2020. These chargers are expected to prevent 5,503 tons of carbon dioxide from entering the atmosphere annually in the future. Producing a GaN chip saves 8.8 pounds of CO2 compared to traditional silicon chips, according to in-house research by UGREEN.   UGREEN USB Hub Series UGREEN's USB-C dock expands laptop or smartphone USB-C ports to include a 4K@60Hz HDMI port, 100W USB PD-compatible USB-C, USB 3.0-compatible USB-A port, SD/microSD card slot, and more. All ports can be used simultaneously, providing versatile connectivity options.   UGREEN Cable Series The UGREEN cable series stands out with its compact and durable design, featuring a high-quality aluminum alloy shell and nylon braid. These USB cables have undergone rigorous testing, including over 10,000 bending tests, and boast a lifespan of more than four times longer than regular USB cables.   UGREEN PowerRoam Series Developed in collaboration with BYD, a major electric vehicle company, UGREEN's PowerRoam series utilizes a new-generation iron phosphate lithium-ion battery meeting EV standards. It offers a cycle life of more than 3,000 cycles, approximately six times that of conventional models. Additionally, it comes with an industry-leading warranty of up to 5 years and exceptional durability against drops, vibrations, and scratches, with a lifespan of 10 years, thanks to its integrated BMS technology.  

In Conclusion

With this strategic partnership in place, Focal Point and UGREEN aim to collaboratively introduce innovative digital solutions to the Japanese market. Consequently, consumers will gain access to a diverse and high-quality selection of eco-friendly products, specifically designed to enhance their everyday lives.   Sources: THX News & Focal Point Co., Ltd.. Read the full article

Ardagger - Frühstücksnews - Freitag, 23.9.2022

Ardagger – Frühstücksnews – Freitag, 23.9.2022

(c) Johann Huber Sehr geehrte Gemeindebürgerin! Sehr geehrter Gemeindebürger! Heute am Kirtagfreitag steht natürlich auch der Kollmitzberger Kirtag in den Frühnews wieder im Vordergrund. Die Vorbereitungen sind gestern und in den letzten Wochen voll gelaufen. Die Standplätze sind randvoll ausgebucht, die Zelte eingerichtet und für die Gäste bereit und auch das Wetter hat sich glücklicherweise von…

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Vladivostok 78 by Alexxx Malev Via Flickr: Russia. Vladivostok. The historian-mechanic museum Automotoantiquity («Automotostarina»). BM-13 Владивосток. Историко-технический музей автомотостарины. БМ-13НМ (2Б7)

Traffic Management With Advanced Driver Assistance Systems (ADAS)

Introduction

Traffic congestion has grown to be a significant problem for commuters and city planners alike in an increasingly urbanized globe. Traditional traffic control methods may not be sufficient on their own when populations rise and the number of cars on the road rises. Advanced Driver Assistance Systems (ADAS) have become recognized as having the potential to revolutionize traffic management.

This blog post will examine how ADAS can change traffic management, improving the safety and effectiveness of our roadways while minimizing the negative environmental effects of traffic congestion.

1. The Increasing Traffic Management Challenge

Traffic congestion has emerged as a serious problem in major cities all over the world due to growing urbanization. Longer commutes, greater fuel costs, more pollution, and decreased productivity are all consequences of congested roadways. Infrastructure upgrades, traffic signals, and road extensions have been the main priorities of traditional traffic management systems. To address the complexity of today’s traffic concerns, a more all-encompassing strategy is required because current solutions have some limitations.

2. Overview of Advanced Driver Assistance Systems

A variety of technologies are included in ADAS, which is intended to help drivers and increase vehicle safety. ADAS makes use of sensors, cameras, radar, and communication to offer the vehicle’s surroundings in real time. Adaptive Cruise Control (ACC), Traffic Jam Assist (TJA), Intersection Management, and Cooperative Adaptive Cruise Control (CACC) are some typical ADAS features.

3. Synergy between ADAS and Traffic Management

Through a variety of cutting-edge features, ADAS may dramatically improve traffic management:

Adaptive Cruise Control (ACC): ACC automatically adjusts the vehicle’s speed based on the traffic flow to maintain a safe following distance between vehicles. As a result, there are fewer stop-and-go traffic patterns, which leads to less congestion and a better flow of traffic.

Traffic Jam Assist (TJA): TJA combines lane-keeping assistance (LKA) with adaptive cruise control (ACC) to provide semi-autonomous driving in congested areas. TJA helps drivers avoid the stress of continual stop-and-go driving in traffic jams by assisting with steering, acceleration, and braking. This function can greatly enhance traffic flow and lower the possibility of accidents.

Intersection Management: Using vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication, ADAS can improve traffic flow at intersections. Vehicles approaching an intersection can be coordinated using Cooperative Intersection Collision Avoidance (CICA) systems, which lowers the risk of crashes and boosts traffic efficiency.

Cooperative Adaptive Cruise Control (CACC): CACC extends the capabilities of ACC by allowing platoons of vehicles to interact with one another. Due to the continuous speed, cars can go near to one another while yet keeping a safe distance. CACC has the ability to expand the capacity of roads and lessen traffic, particularly on highways.

Predictive Traffic Management: Some ADAS systems forecast traffic patterns and congestion using real-time traffic data and machine learning algorithms. This makes it possible for proactive traffic management techniques to reduce traffic congestion before they get worse, including dynamic rerouting and signal optimization.

4. Benefits of ADAS in Traffic Management:

Numerous advantages come from ADAS integration in traffic management, including:

a.Safer Roads: Roads are safer for all users thanks to ADAS technologies like Collision Avoidance and Intersection Management, which can drastically lower the number of accidents.

Reduced Congestion: Smooth traffic flow, made possible by ACC and TJA, can lessen congestion, cutting down on travel time and fuel usage.

Environmental Impact: ADAS aids in reducing greenhouse gas emissions and other pollutants linked to stop-and-go traffic by easing traffic congestion and encouraging smoother driving patterns.

Improved Productivity: Decreased travel times and less time stuck in traffic lead to increased productivity for both enterprises and passengers.

Optimal Resource Utilization: Traffic management made possible by ADAS can make the best use of already-built roads, postponing the need for pricey road extension projects.

5. The Role of Connectivity and Data Sharing

The networking and data exchange between automobiles and infrastructure are crucial to ADAS systems. Reliable V2V and V2I communication is essential for the operation of cooperative ADAS elements like CACC and intersection management. To fully realize the promise of ADAS in traffic management, 5G network development and improvements in V2X (vehicle-to-everything) communication are essential.

6. Challenges and Future Outlook

Despite its potential, ADAS presents obstacles that must be overcome in order for it to be widely used and effectively integrated into traffic management:

Infrastructure Upgrades: V2X communication adoption necessitates considerable infrastructure improvements and financial commitments to intelligent transportation systems.

Cyber security Issues: As ADAS systems become increasingly interconnected, there is a greater chance that automobiles and transportation infrastructure could be the target of hackers, necessitating the implementation of strong cyber security measures.

User Acceptance and Education: For ADAS to be widely used, users must be educated and accept it. To utilize these systems properly and securely, drivers must be aware of their strengths and weaknesses.

Data Privacy: The sharing of real-time traffic data prompts questions regarding ownership and data privacy. It’s critical to strike a balance between exchanging data to manage traffic and protecting people’s privacy.

Interoperability: To exploit the advantages of these systems throughout the whole fleet of vehicles, interoperability between various ADAS technologies and vehicle models must be ensured.

Conclusion

In conclusion, by improving safety, easing congestion, and minimizing the environmental effects of traffic congestion, advanced driver assistance systems (ADAS) have the potential to transform traffic management. The secret to a more effective and environmentally friendly transportation system lies in features like ACC, TJA, Intersection Management, CACC, and predictive traffic management.

To guarantee that ADAS are seamlessly integrated into traffic management, it is essential to solve infrastructure, cyber security, user acceptance, and data privacy issues. As technology develops, the dream of an intelligent, networked transportation system powered by ADAS becomes more and more feasible, making our roads safer, greener, and more effective for future generations.

Li-ion Batteries make a lot of sense for ‘Make in India’

An extremely reactive alkaline metal and the lightest of them, lithium is used in wide-ranging applications, such as manufacturing of ceramics and glassware, medicinal compounds, air-conditioners and aluminum. But its primary use is in Lithium-ion batteries which are used in EVs, laptops, mobile phones and other electronic gadgets worldwide. We are in the perfect moment! Right now, the Lithium-ion technology is maturing. A lab invention by Professor Goodenough in the 1980s, the Lithium-ion battery is not only used in EVs and electronic devices, but also in space programmes, drones and marine applications, besides others. Advanced Lithium-ion battery technology makes a lot of sense for a country such as India in its e-mobility segment, says Battrix CTODr Yashodhan Gokhale

Lithium-ion batteries are mainly used for high-energy density applications in the automotive segment. These batteries are also used for storage. Li-ion batteries can be used for up to four-hour-long applications, but 8 hours is still a big challenge and that need is currently served by digi-gensets. Scientists are trying Vanadium redox flow batteries, besides zinc and bromine-based chemistries, but these experiments will take time to mature. People are exploring fuel cells, too, but ROI for businesses is a challenge. So, Li-ion batteries are currently used with microgrid storage.

However, Li-ion batteries have their own challenges. Following the Russia-Ukraine war, Li-ion battery prices have shot up by more than 30% in China. And when China hikes price, all prices go up in the battery domain. There are technologies other than Li-ion, which include sodium and hydrogen fuel cell, which can be good alternatives for grid storage application. Manufacturability has a key role because, in the end, battery technology must be cost-effective, sustainable and safe. Experiments are on and, maybe, in the next two-three years, we will get more mature solutions.

Although new technologies are coming up, we are yet to adopt those. One must have a holistic view of things. There are different kinds of software, such as SolidWorks, Ansys and Catia for designing batteries. But, while considering manufacturability, things can vary immensely. A skilled workforce is a big challenge and people need to be trained to work on high-voltage systems of the order of 350- 800V. So, besides on-the-job training, I would encourage universities to include some hands-on training also in the curriculum to boost the sector and industry.

Lithium Reserves In J&K

The discovery of new lithium reserves in Jammu and Kashmir can be a potential game changer for the country and the world. Lithium reserves are rare, with only 98 million tons currently existing worldwide. India has now discovered around 5.5% of these resources, marking the start of a new era for the country’s expanding electric vehicle (EV) industry, as well as for the world, as a whole. The discovery is significant because lithium is a critical resource in the present age and time. Li-ion batteries have become the driving force behind the revolution in smartphones, tablets and other smart devices.

A Li-ion battery’s maximum energy storage capacity per kilogram makes it the perfect choice for electric vehicle manufacturers because of its capacity to store massive amounts of energy and unbelievably low weight. Following the discovery Union minister Nitin Gadkari had said if India can use the recently discovered lithium reserves in J&K, it can become the world’s number-one automobile manufacturer in the EV segment.

When India becomes truly dominant vis-à-vis world competition, such as China, we can push for ‘Make in India’. There are many good startups maturing into good companies in the EV domain, such as Ather Energy. Big companies in India make complex products, such as Battery Management System (BMS) for automakers like Volkswagen or Audi. It is time they started making it for Indian OEMs. My message to everyone is to buy electric since it goes lighter on the carbon footprint and it is our responsibility to pass on a safer environment to the next generation. The question of range will be resolved in due time. Although prices are currently high, the overall ROI is very competitive and lucrative.

Benefit for Indian Economy

The discovery of new lithium reserves in J&K can benefit the Indian economy in several ways.

 Less Dependence on Imports

Job Creation

Growth for EV Sector

Reduce Cost of Lithium-ion Batteries

Can Develop New Industries

Sustainable Industry

For long, India has been dependent on the import of Li-ion cells or battery packs for all uses, including EVs. With the discovery of the lithium reserves in J&K, India’s dependence on imported Li-ion batteries could be significantly reduced. The reserves will help meet the demands of India’s expanding EV industry as the country seeks to become more self-sufficient and less reliant on China for battery supplies. But it will take at least a few years for that lithium to become usable. Till then, India will have to continue importing lithium from Australia, Chile and African region.

Source Link: 

https://auto.economictimes.indiatimes.com/news/auto-components/li-ion-batteries-make-a-lot-of-sense-for-make-in-india/103711881

Website Link: 

https://www.battrixx.com/

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Battery Management System Market Is Set To Hit USD 26,797 Million by 2030

For overcharge discharge, under/over current, under/over voltage, under/ over temperature, and short circuit protection, battery management systems are utilized. They come in master-slave and single-board configurations.

Specific algorithms, such as cell/module balance, SOC, SOH, and real-time charge/discharge current management, are used in these systems. These systems are used in commercial and industrial buildings, utility grid support systems, specialized vehicles, and residential energy storage.

By 2030, it is predicted that the market for battery management systems will surpass a value of USD 26,797 million, as per P&S Intelligence. This is mostly related to the expanding popularity of rechargeable batteries in consumer gadgets and the growing demand for EVs.

The government constantly places a focus on hybrid and electric vehicles in order to reduce carbon dioxide emissions, both in industrialized nations like North America and in developing ones, such as the Asia Pacific market.

Public transportation has undergone a technological change as a result of the increase in air pollution. All the industrial players are converting to renewable energy sources in order to comply with government regulations. Batteries are widely used in the consumer electronics, communications, and automobile industries.

One of the best options for a sustainable environment is EVs. The use of EVs is increasing as environmental preservation is given more attention. R&D efforts are being prioritized by automakers to enhance the performance of EVs.

Wireless EV battery management solutions are increasingly preferred over traditional battery management systems because of their greater flexibility, cheaper price, and reduced complexity.

An electronic circuit known as the battery management system is specifically created for EVs to guarantee the stability and safety of their battery packs. Several elements, including battery life and health, safety, cell voltage, and charging-discharging rates, have an impact on how well EVs operate.

Lithium-Ion Battery Management Systems Are Popular in Consumer Electronics and EVs

Because lithium-ion (Li-ion) batteries have various advantages over other battery types, including a longer life cycle, higher energy density, lower maintenance required, and superior resilience, Li-ion batteries retained the greatest share of the market.

In addition, such batteries are environmentally beneficial because they have comparatively lower quantities of hazardous heavy metals than other battery types like lead-acid and nickel-cadmium batteries.

Additionally, the rapid growth of the automotive and consumer electronics industries in China and other European countries is promoting the usage of BMS. Li-ion batteries have drawbacks despite having a higher energy density, notably in terms of safety.

In 2022, Asia-Pacific accounted for the largest share in the market. The increase in need for battery management from automobile applications like electric cars, e-bikes, and automated guided vehicles is to blame for this. Hundreds of cells stacked in parallel high-energy-density lithium-ion batteries are used in such applications.

These cells need to be maintained and managed to prevent vehicle failure, making the system a crucial element in the design of EVs. The battery's performance, safety, and utilization are determined by the system.

China also dominates the APAC market because it is a significant center for the production of automobiles. A surge in the production of cars and the batteries used in them is boosting the nation's market.