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spectra-gt-23 · 11 months

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ARTIFICE ACT OF NIKOLA

Nikola Corporation, a once-promising player in the Electric Vehicle (EV) industry, faced a significant downfall after being exposed for fraud and misrepresentations. Founded in 2014 by Trevor Milton, Nikola aimed to be a global leader in zero-emission transportation, particularly with hydrogen-powered trucks. The company secured partnerships with reputable automotive players and garnered substantial investments, reaching a valuation of $34 billion at its peak.

However, in September 2020, a report by Hindenburg Research accused Nikola of significant misrepresentations and fraudulent claims about its technology and business. The report alleged that Nikola's proprietary technology was acquired from other companies, and it raised questions about Milton's past ventures, which were also marred by lawsuits and exaggerated misrepresentations. The revelations led to a rapid decline in Nikola's stock price and the withdrawal of partnerships, including General Motors.

The fraud allegations prompted investigations by the U.S. Securities and Exchange Commission (SEC) and the Department of Justice. Milton was charged with securities and wire fraud, accused of misleading investors about Nikola's products and technology to boost the company's stock value. He pleaded not guilty to the charges. Nikola attempted to distance itself from Milton, stating that he had not been involved in the company since his resignation in September 2020.

The case study raises several discussion points, including the use of Special Purpose Acquisition Companies (SPACs) as a means of raising capital, the impact of remuneration policies on executive behavior, the composition and independence of Nikola's board of directors, the role of short-sellers in exposing fraudulent practices, and the differences in legal and regulatory environments between the U.S. and Singapore.

The document also highlights red flags in Nikola's statements and actions that could have been detected earlier through proper due diligence by investors. It questions the viability of the SPAC route to going public, considering the potential for fraudulent activities. The case study emphasizes the need for robust corporate governance, independent boards, and transparent disclosure practices to prevent such misrepresentations and fraud in the future.

Furthermore, the document mentions the controversies surrounding Milton's previous ventures and his retention of a significant shareholding in Nikola, which potentially grants him control over the company. It discusses the severance terms negotiated by Milton, allowing him to retain substantial benefits even after his departure from the company.

Overall, the Nikola case serves as a cautionary tale about the risks of fraudulent practices, the importance of thorough due diligence by investors, and the need for effective corporate governance to protect shareholders' interests and maintain trust in the market. The future of Nikola remains uncertain as it faces legal challenges, loss of partnerships, and a lack of capital and resources Nikola Corporation, a once-promising player in the Electric Vehicle (EV) industry, faced a significant downfall after being exposed for fraud and misrepresentations. Founded in 2014 by Trevor Milton, Nikola aimed to be a global leader in zero-emission transportation, particularly with hydrogen-powered trucks. The company secured partnerships with reputable automotive players and garnered substantial investments, reaching a valuation of $34 billion at its peak.

TASK AT HAND

You are Nikola's New Chief Executive Officer and have been tasked with the company's Re-launch. Create strategies for the company to ensure its survival in the EV market and gain the highest market share.

DELIEVERABLES

• Executive Summary

• Reasons behind the financial failure of the company from the point of view of mistakes in strategic decision making.

• Given the events of Nikola, design a business model for a new EV company ensuring transparency, sustainability, and innovation.

• Present your venture to potential investors highlighting the lessons learned from Nikola’s case. Assuming Nikola wants to rebuild its brand, devise a 5-year strategic plan that can help the company regain trust and establish a solid market position.

• Given the EV industry's dynamics, conduct a SWOT analysis for Nikola post-crisis, identifying potential markets and segments they could target.

• Evaluate the financial risks involved in investing in start-ups, especially in the high-tech domain, and devise a plan to mitigate such risks.

• Public Relations Strategy to revive the trust and goodwill of the stakeholders.

REQUIREMENTS

A) Report of maximum 50 pages.

B) PPT of minimum 12 slides.

C) Poster for the Launch

Brownie points for extra deliverables (promotional video, logo, tagline, etc.)

Deadline : 4:30 am (19th October )

For any further queries please contact :

Manan : 7490921044

Sneha: 6375388745

Mail (to Submit the assignment): [email protected]

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f1 · 1 year

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The project has really taken off Audi reveal plans to test new F1 engine by end of the year

Audi have provided an update on the busy preparations behind their upcoming Formula 1 entry as part of a presentation at the Auto Shanghai exhibition, with key stakeholders in attendance. Audi announced at last year’s Belgian Grand Prix that they will join the F1 grid when new engine regulations – featuring increased electrical power and 100% sustainable fuels – are introduced for the 2026 season. READ MORE: Sauber to become Audi works F1 team from 2026 Shortly afterwards, the German manufacturer set out plans to join forces with Sauber in a move that will see the Swiss operation – currently racing as Alfa Romeo and using Ferrari power units – become their works outfit. While behind-the-scenes efforts gather pace, Audi headed to China to present the project in the Asian market, taking their launch livery showcar along for the journey and unveiling the motto ‘F1 Power made in Germany’. In an accompanying press release, Audi confirmed that their first full hybrid drivetrain unit, comprising a combustion engine, electric motor, battery and electronic control unit, is scheduled to run on the test bench before the end of this year – forming the basis for the future vehicle concept. Audi’s eye-catching launch livery as seen on an F1 showcar Audi’s eye-catching launch livery as seen on an F1 showcar There are also plans for the dynamic development simulator at Audi’s Neuburg facility to be brought up to F1 standards and “further advance the development of the Audi power unit”. Meanwhile, the newly-formed Audi Formula Racing GmbH division now boasts more than 260 specialists, with the core of the development team featuring experienced Audi Sport and Audi employees who hold diverse expertise in electric motorsport. READ MORE: Sauber declare ‘important milestone’ as Audi acquire minority stake ahead of F1 entry Existing employees are being joined by F1 specialists who were sourced externally to strengthen the team, with Audi expecting the hiring process to be completed by the end of the year and staff numbers to have reached more than 300. Alongside this, Audi’s Competence Center Motorsport will be expanded for the F1 project, including the installation of additional test rigs in a new building with a floor area of around 3,000 square metres – a modular design allowing them to be put into operation before the space is fully finished in early 2024. Audi CEO Markus Duesmann during the Audi press conference at Auto Shanghai 2023 Audi’s F1 launch livery on show during the brand’s press conference at Auto Shanghai 2023 “Motorsport is an integral part of our DNA,” said Markus Duesmann, Chairman of the Board of Management of AUDI AG, at Auto Shanghai. “We are convinced that our Formula 1 commitment will strengthen Audi’s sporting focus. The racing series is continuously increasing its global reach, especially among young target groups and in our most important sales market: China.” BARRETTO: How Sauber are preparing for Audi’s arrival – and keeping the pressure on in the midfield battle Oliver Hoffmann, Member of the Board of Management for Technical Development at AUDI AG, added: “The Audi Formula 1 project has really taken off in recent months. In the ongoing concept phase of the power unit, the foundation of our drivetrain for 2026 is being laid today. “We attach great importance to detail work, for example on materials or manufacturing technologies, and we also focus on topics such as the energy management of the hybrid drivetrain. “After all, efficiency is a key success factor for Formula 1 and the mobility of the future, [and] these approaches will advance both worlds.” via Formula 1 News https://www.formula1.com

#F1 #‘The project has really taken off’ – Audi reveal plans to test new F1 engine by end of the year #Formula 1

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natashaexploringelectrics · 1 year

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Do you know? How many electric kick scooters are sold each year in Australia?

Australia is one of the countries leading the way in the adoption of electric kick scooters as an alternative mode of transport. With more than 250,000 electric scooters and personal mobility devices sold and used throughout Australia each year, it's no wonder this eco-friendly option is growing in popularity. In this blog post, we'll explore how many electric kick scooters are sold annually in Australia.

Electric kick scooters are a great way to get around when your traditional two-wheeler is not working for you or you have limited mobility. From kids to adults, there is a suitable model for everyone.

Electric kick scooters are convenient, easy to use, and can be used on any surface including grass, pavement, and even gravel. They are also eco-friendly as there is no need for batteries or fuel.

Benefits of Using an Electric Kick Scooter

Using an electric kick scooter has numerous benefits, both for the individual and the environment. Firstly, electric kick scooters are eco-friendly and produce zero emissions, making them an ideal choice for environmentally conscious individuals. Secondly, they are affordable and cost-effective, requiring minimal maintenance and operating costs compared to traditional modes of transport. Thirdly, they are convenient and easy to use, allowing riders to travel short distances quickly and efficiently. Finally, electric kick scooters are a great way to stay fit and healthy, providing a low-impact form of exercise.

Electric Kick Scooters are the most popular bike in Australia. There are many brands of electric kick scooters in Australia such as NIU Mobility, Enduro, Xootr, and many others. Electric kick scooters are a great way to get around, especially if you're in a wheelchair or have limited mobility.

NIU Mobility is one of the most popular brands of electric kick scooters in Australia. NIU Mobility has 2 million+ riders globally and is available in 50 countries around the world, NIU Mobility is a designer and manufacturer of kick and electric kick scooters, NIU Mobility scooters, and related products that are constantly evolving to provide you with the most up-to-date technology.

NIU Mobility has a great range of Electric Kick Scooters that are perfect for people who use limited mobility. NIU Mobility is designed to provide the ultimate riding experience for riders.

NIU Mobility’s KQi series of electric kick scooters for adults are the perfect combination of style and performance.

NIU KQi Series of Electric kick Scooters for Adults:

1. NIU KQi2 Pro Electric kick Scooter for Adults: The NIU Kqi2 Pro Electric Kick Scooter is the ultimate option for riders who want a high-performance electric kick scooter with an ergonomic design and an affordable price tag. The NIU KQi2 Pro is an electric kick scooter designed for adult riders. It features a powerful 300W motor and a maximum speed of 25mph, making it a great option for commuters who need to travel quickly and efficiently through urban areas. It offers a variety of features that make it one of the most popular electric kick scooters on the market today, including:

An innovative dual-purpose handlebar that lets you shift from riding mode to transport mode in just seconds

A built-in light system that provides optimal visibility even during low light conditions on your commute

Max comforts for riders with a 20% Wider Handlebar (52cm) and 13% Wider Deck (13.3cm).

Be safe, be seen! For safer riding, the dual braking system features an iconic halo light and brake light.

A smart lock and a customized speed cruise control are features of the NIU KQI2 Pro electric kick scooter.

A smart battery system that allows you to fully charge your scooter in just 3 hours, meaning you won't have to wait around while your vehicle charges up again!

2. NIU KQi3 Pro Electric Kick Scooter for Adults: The NIU KQi3 Pro Electric Kick Scooter is a sleek and stylish electric scooter designed for adults. Here are some features and specifications.

Motor: The KQi3 Pro is powered by a 486W Bosch motor that reaches 28 mph (45 km/h).

Battery: The scooter has a 48V, 26Ah lithium-ion battery that provides a range of up to 50 km on a single charge.

Brakes: The KQi3 Pro has both front and rear hydraulic disc brakes for quick and reliable stopping power.

Tires: The scooter has 9.5 x 2.5’ pneumatic tires that provide a smooth ride and excellent traction.

Suspension: The KQi3 Pro has a front and rear suspension system that absorbs shocks and vibrations from the road.

Weight capacity: The scooter can support a maximum weight of 264 pounds (120 kg).

Lighting: The KQi3 Pro has a full LED lighting system, including headlights, taillights, and turn signals for increased visibility.

Display: The scooter features a color LCD that shows speed, battery level, and other important information.

3. NIU KQi3 Sports Electric kick Scooters for Adults: The NIU KQi3 Sports Electric Kick Scooter is designed for adults looking for a convenient and eco-friendly way to commute. It features a 500W motor and a 48V lithium-ion battery, which can provide a range of up to 50km on a single charge, depending on riding conditions.

The KQi3 also comes equipped with front and rear disc brakes, providing reliable stopping power, and a top speed of 45km/h. Its dual suspension system can provide a comfortable ride on various terrains, and the 10-inch pneumatic tires can absorb shock and provide better traction.

Other features of the KQi3 include a digital display that shows speed, battery level, and other information. In addition, it has LED headlights and taillights for visibility in low-light conditions. The scooter also has a folding mechanism that allows easy storage and transportation.

Overall, the NIU KQi3 Sports Electric Kick Scooter seems like a great option for adults who want a reliable and efficient mode of transportation that is both fun and environmentally friendly.

4. NIU KQi3 Max Electric Kick Scooters for Adults: The NIU KQi3 Max Electric Kick Scooter is a model designed for adults, offering a convenient and eco-friendly way to commute short distances. Here are some key features of the NIU KQi3 Max:

Powerful motor: The KQi3 Max is equipped with a 350W motor that provides a maximum speed of 25km/h (15.5mph) and can handle inclines of up to 14 degrees.

Long range: With a 486Wh removable battery, the KQi3 Max can travel up to 70km (43 miles) on a single charge.

Convenient design: The KQi3 Max features a lightweight aluminum frame and a foldable design, making it easy to carry and store when not in use.

Smart features: The scooter comes with a Bluetooth-enabled app that allows you to monitor your speed, battery life, and other performance metrics.

Safety features: The KQi3 Max is equipped with a front and rear disc brake system, as well as front and rear lights for enhanced visibility.

Conclusion

Electric kick scooters are becoming an increasingly popular mode of transport in Australia, offering a convenient, eco-friendly, and affordable alternative to traditional modes of transport. With more than 250,000 units sold annually, the electric kick scooter market in Australia is booming, with continued growth expected in the coming years. Electric kick scooters are popular due to their numerous benefits, including eco-friendliness, convenience, affordability, and ease of use. As the market grows, it is important to follow local laws and regulations and ride safely and responsibly.

#australia #niu mobility #australia's leading provider #electric scooter #scooter #kickscooter #electric kick scooters for adults #electric scooters #electric

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omshinde5145 · 2 hours

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eVTOL Aircraft Market Size, Revenue Share, Drivers & Trends Analysis, 2024–2030

The eVTOL Aircraft Market has emerged as a potential game-changer in urban mobility. Offering a futuristic solution to crowded streets, traffic congestion, and environmental concerns, eVTOL aircraft have garnered significant attention from industry giants, startups, and investors alike. In this blog post, we’ll delve into what eVTOLs are, the driving forces behind their development, key players in the market, and the potential hurdles that lie ahead.

eVTOL aircraft are electrically powered vehicles capable of vertical takeoff and landing. They combine the efficiency of electric propulsion with the agility of helicopters, offering an eco-friendly and innovative mode of transport. Unlike conventional aircraft, eVTOLs rely on multiple electric motors rather than a single combustion engine. This results in lower operational costs, reduced noise pollution, and, crucially, zero emissions during operation.

eVTOLs are primarily envisioned as short-range, intra-city transport solutions. Their vertical takeoff and landing capabilities allow them to bypass traffic bottlenecks, making them ideal for congested urban areas. From urban air taxis to emergency medical transport, eVTOLs promise to revolutionize how we move around cities.

Read More about Sample Report: https://intentmarketresearch.com/request-sample/evtol-aircraft-market-3034.html

The Driving Forces Behind the eVTOL Market

The eVTOL market has rapidly gained momentum due to a confluence of technological advancements, regulatory support, and market demand. Some of the key factors driving the growth of this sector include:

Technological Innovations: Breakthroughs in battery technology, electric propulsion systems, and autonomous flight control are making eVTOLs more viable than ever. These innovations allow for longer flight times, higher safety standards, and lower operating costs.

Environmental Concerns: With climate change at the forefront of global concerns, reducing carbon emissions is a top priority. eVTOLs, being electric, offer a greener alternative to traditional combustion-based aviation, aligning with the push towards cleaner transportation solutions.

Urban Congestion: Growing urbanization has led to severe traffic congestion in major cities, prompting the search for alternative transport solutions. eVTOLs, by utilizing the vertical dimension of travel, offer a way to bypass congested roads, saving time and reducing the strain on ground infrastructure.

Investment and Partnerships: Significant investments from established aerospace companies like Boeing, Airbus, and Uber, as well as startups such as Joby Aviation and Lilium, have accelerated the development of eVTOL technology. Strategic partnerships between governments, regulatory bodies, and private enterprises have created an ecosystem conducive to eVTOL adoption.

Key Players in the eVTOL Market

The eVTOL market has seen rapid growth with a host of companies entering the space. Here are some of the most prominent players:

Joby Aviation: One of the frontrunners in the eVTOL race, Joby Aviation has developed a five-seat electric aircraft capable of speeds up to 200 mph with a range of 150 miles. The company is backed by Toyota and is working with NASA and the FAA to meet regulatory standards.

Lilium: A German eVTOL manufacturer, Lilium is developing a jet-powered eVTOL that promises to combine speed, range, and sustainability. Their Lilium Jet can seat up to five passengers and has a range of 155 miles.

Archer Aviation: Based in the U.S., Archer is developing the "Maker," a two-seat demonstrator aircraft designed for urban air mobility. Backed by United Airlines, the company aims to launch commercial flights by 2025.

Vertical Aerospace: This UK-based company has attracted investment from major players like Microsoft and Rolls-Royce. Their VA-X4 aircraft aims to carry four passengers with a range of 100 miles.

Ask for Customization Report: https://intentmarketresearch.com/ask-for-customization/evtol-aircraft-market-3034.html

Challenges Facing the eVTOL Market

Despite its promise, the eVTOL market faces several challenges that need to be addressed before widespread adoption can occur:

Regulatory Hurdles: The introduction of eVTOLs into the airspace requires stringent safety and air traffic management regulations. While agencies like the FAA and EASA are working on certification processes, establishing a globally consistent regulatory framework remains a challenge.

Infrastructure Development: For eVTOLs to become viable, cities will need to invest in “vertiports” — dedicated hubs for takeoffs and landings. Integrating eVTOL infrastructure into existing urban environments is complex and costly.

Battery Limitations: Current battery technology, while improving, still limits the range and payload capacity of eVTOL aircraft. Breakthroughs in energy density and battery life are critical to enhancing performance.

Public Acceptance: Introducing a new form of transportation always comes with public apprehension. Convincing passengers that eVTOLs are safe, reliable, and worth the cost will require both technological assurance and strategic marketing.

The Future Outlook

Despite the challenges, the future of the eVTOL aircraft market looks promising. Analysts predict that the global eVTOL market could be worth billions by the end of the decade. With urban air mobility poised to become a reality, eVTOLs have the potential to reshape how we think about transportation, making cities more accessible and sustainable.

As cities continue to grow and evolve, the eVTOL market is set to play a crucial role in the future of urban mobility. Whether for business commutes, emergency services, or leisure travel, eVTOL aircraft may soon be a common sight in the skies, offering a cleaner, faster, and more efficient way to navigate the modern urban landscape.

#eVTOL Aircraft #eVTOL Aircraft Size #eVTOL Aircraft Trends #eVTOL Aircraft Demand

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tractorseva · 3 hours

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AutoNxt Electric Tractor: Revolutionizing Agriculture with Cutting-Edge Technology

AutoNxt, a pioneer in electric vehicle innovation, is making waves in the agricultural sector with its fully electric, autonomous tractors. In an industry historically reliant on diesel-powered machinery, AutoNxt is driving a major shift toward sustainability, automation, and efficiency. With the global focus on reducing carbon footprints, the launch of AutoNxt tractors comes at a time when agriculture needs cleaner and smarter solutions to meet the growing demand for food production.

The Vision Behind AutoNxt

Founded with the mission to electrify farming, AutoNxt aims to address both environmental and operational challenges faced by farmers. Its electric tractors are designed to replace traditional diesel-based models, reducing not only fuel costs but also harmful emissions. These tractors utilize advanced AI and machine learning technologies, enabling them to operate autonomously in various field conditions, without the need for constant human intervention.

Key Features of AutoNxt Tractors

Electric Powertrain: The core of AutoNxt tractors is their electric motor, which significantly cuts down on fuel expenses and eliminates the carbon emissions associated with diesel engines. This is a major leap toward making agriculture more eco-friendly.

Autonomous Capabilities: One of the standout features of these tractors is their ability to operate autonomously. Farmers can control the tractor remotely, or it can function on pre-set instructions, offering precise plowing, sowing, and other field activities. This reduces labor dependency and ensures consistent performance.

Cost-Effective: With rising fuel costs, the shift to electric tractors provides a huge relief to farmers. AutoNxt tractors offer long-term savings by lowering operational costs, with minimal maintenance requirements compared to their diesel counterparts.

Enhanced Safety and Monitoring: AutoNxt tractors are equipped with sensors and GPS technology, allowing them to navigate fields with precision and avoid obstacles. This ensures both safety and efficient use of the machine's capabilities. Farmers can monitor real-time data on the tractor’s performance via a mobile app, further improving productivity.

Recent Developments

AutoNxt has been making headlines with the recent announcement of partnerships with key players in the agricultural and technology sectors. The company is in talks with various state governments in India to introduce electric tractor subsidies, making them more accessible to small and medium-scale farmers.

The company’s latest model was showcased at an agricultural tech expo, where it garnered significant attention for its innovative approach to solving age-old farming challenges. With several pilot projects underway across India, AutoNxt aims to expand its market reach and become a dominant player in the sustainable farming movement.

Boost Your Tractor Performance with Tractor Seva Services

Regular maintenance is essential to keep tractor running at peak efficiency. This is where Tractor Seva steps in as a trusted service partner for farmers.

At Tractor Seva, we offer multi-brand tractor servicing. Our hassle-free, tech-enabled service ensures your tractors receive the highest level of care, whether it's routine maintenance or advanced diagnostics. With our convenient at-door service and 24/7 customer support, we make it easier for farmers to keep their tractors in optimal condition.

Tractor Seva provides tailored service packages—Basic, Standard, and Premium—that meet the specific needs of each tractor model. These include everything from routine checks and software updates to more advanced repair work. Our secure online booking system and competitive pricing ensure that maintaining your electric tractor is as efficient as its performance on the field.

Tractor Seva offers reliable, high-quality services that keep your machinery in top shape, helping you maximize productivity and reduce downtime. Visit Tractor Seva today to learn more about how we can assist you in maintaining your cutting-edge agricultural equipment.

The Road Ahead

The introduction of AutoNxt’s electric tractors could potentially revolutionize the agriculture industry, particularly in developing countries like India, where farming is a key component of the economy. The tractors' autonomous features also highlight the future direction of agriculture—toward more automated, data-driven farming practices that can increase efficiency and reduce costs.

With the demand for electric vehicles growing rapidly across sectors, AutoNxt is well-positioned to lead the charge in sustainable agriculture. Their tractors represent a shift not only in technology but also in the mindset of an industry ready to embrace cleaner, more efficient farming practices.

#tractor #high maintenance #farmers market #mahindra #john deere #Swaraj #eichertractors #massey ferguson #new holland

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marketingreportz · 8 days

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Powertrain Control Module (PCM) Market - Forecast(2024–2030)

Global Powertrain Control Module (PCM) Market: Overview

The increased demand for Commercial Vehicles and industrial vehicles is reflecting positively on the automotive powertrain control module (PCM) market. Due to the continuous depletion of fossil fuels, the stringent rules to operate automobiles in optimum manner have gained momentum. A PCM is one of the most important elements of an automobile. As per a report released by the European Automobile Manufacturers Association (ACEA), 98.9 million motor vehicles were produced globally in 2017.[1] The PCM market was valued at $29.53 billion in 2018 and is estimated to grow at a compound annual growth rate of 6.19% during the forecast period 2019–2025.

Asia-Pacific is the leading market for PCMs. The region is recognized for high sales of PCMs owing to the exponential growth of the automotive industry. ,. The emerging technologies have also contributed to the growth of the market. The APAC region accounted for 27.14% share of the global PCM market in 2018.

Global Powertrain Control Module (PCM) Market: Outlook

A power-train control module is an automotive component used in motor vehicles, general electric and hybrid vehicles. The control unit of a PCM consists of an engine control unit (ECU) and a transmission control Unit (TCU). The main functions of PCMs include the monitoring of the air-fuel ratio, and controlling the ignition time and the throttle valve.

A PCM acts as the brain of the vehicle and manages the charging, transmission, emission control, and communications systems along with other onboard control modules.

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Global Powertrain Control Module (PCM) Market: Growth Drivers

· PCM offers several benefits such as the lightness of weight, compactness, easy installation, and various other warning lights display for safety purposes. Therefore, PCM is gaining popularity among electric and hybrid car manufactures.· Rising demand for automatic transmission worldwide owing to various benefits it offers such as less carbon emission, driving comfort, and fuel efficiency is driving the PCM market.

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Global Powertrain Control Module (PCM) Market: Trends

· The company named Pleasurecraft Engine Group developed Catanium Clean Emission System (CES) for marine engines. It is an advanced catalyst technology that helps reduce the harmful emission of dangerous carbon monoxide. The use of CES is gaining traction as it creates a cleaner and safer marine environment.

· Controls are the key characteristics to measure the behavior of the powertrain with respect to vehicle performance, robustness, and emission. AVL, one of the market players in the PCM market, introduced a modular powertrain software control solution that is gaining wide popularity in the powertrain control market.· The powertrain hybridization solutions for commercial vehicles with engine management system is gaining traction in the automotive industry.

Global Powertrain Control Module (PCM) Market: Challenges

If a PCM gets damaged, it can have an adverse effect on the engine performance. Challenges include failure in alert light warning and delay in starting the engine. The replacement and installation costs are very high, which can hamper the demand growth for PCMs. The various mobile apps services available to check and keep an update of the installed PCM in the vehicle to repair it before it get damaged is expected to boost the PCM market.

Global Powertrain Control Module (PCM) Market: Key Players Perspective

Some of the major players in the PCM market are Continental AG, Denso Corporation, Mitsubishi Electric, General Motors, AB Volvo, Hyundai KEFICO, AVL Engineering Company, Honda, Mitsubishi Electric, FTP Industrial, and Hitachi Automotive System.

Global Powertrain Control Module Market Research Scope:

The base year of the study is 2018, with forecast done up to 2025. The study presents a thorough analysis of the competitive landscape, taking into account the market shares of the leading companies. It also provides information on unit shipments. These provide the key market participants with the necessary business intelligence and help them understand the future of the powertrain control module market. The assessment includes the forecast, an overview of the competitive structure, the market shares of the competitors, as well as the market trends, market demands, market drivers, market challenges, and product analysis. The market drivers and restraints have been assessed to fathom their impact over the forecast period. This report further identifies the key opportunities for growth while also detailing the key challenges and possible threats. The key areas of focus include the types of powertrain control modules, fuel types, which include gasoline, diesel, alternative fuels, CNG, and LPG.

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Global Powertrain Control Module Market Report: Industry Coverage

The report analyses the product demand in the Powertrain control module market on the basis of vehicle types, which include passenger, and heavy and light commercial vehicles. The powertrain control module market report also analyzes the major geographic regions as well as the major countries in these regions. The regions and countries covered in the study include:

North America: The U.S., Canada, Mexico

South America: Brazil, Venezuela, Argentina, Ecuador, Peru, Colombia, Costa Rica

Europe: The U.K., Germany, Italy, France, the Netherlands, Belgium, Spain, Denmark

APAC: China, Japan, Australia, South Korea, India, Taiwan, Malaysia, Hong Kong

Middle East and Africa: Israel, South Africa, Saudi Arabia

Key Questions Addressed in the Powertrain control module market Report

Is the market demand for powertrain control module growing? How long will it continue to grow and at what rate?

Which type of Powertrain control module presents the major growth opportunities?

Is there a possibility for change in the market structure over time?

Are additional developments needed for the existing product or services offerings or do the existing products meet the customer demands?

Do the key vendors look for partnerships to expand their businesses with respect to geography or product?

What are the short-term, long-term, and medium-term growth drivers for the market?

What are the short-term, medium-term, and long-term challenges for the market?

What are the short-term, medium-term, and long-term opportunities for the market

Who are the top players/companies of the market?

What are the recent innovations in the market?

How many patents have been filed by the leading players?

What are the types of patents filed by the leading players?

What is our Vision 2030 for the powertrain control module market?

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A Few Focus Points Of This Research Are Given Below:

Give a deep-dive analysis of the key operational strategies with focus on the corporate structure, R&D strategies, localization strategies, production capabilities, and sales performance of various companies

Provide an overview of the product portfolio, including product planning, development, and positioning

Discuss the role of technology companies in partnerships

Explore the regional sales activities

Analyze the market size and giving the forecast for current and future global powertrain control module market during the forecast 2019–2025.

Analyze the competitive factors, competitors’ market shares, product capabilities, and supply chain structures.

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#electronic #electric vehicles #power #marketing

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creativeera · 8 days

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Electric Car Market is Estimated to Witness High Growth Owing to Stringent Emission Norms

The electric car market comprises battery electric vehicles (BEVs) and plug-in hybrid electric vehicles (PHEVs) that aim to reduce vehicular emissions. Electric cars provide environmental and economic benefits over conventional internal combustion engine vehicles as they produce zero direct emissions. The growing awareness regarding the environmental impact of gasoline and diesel cars is encouraging consumers to switch to electric vehicles. Stringent emission control regulations imposed by regulatory authorities across nations to curb air pollution have accelerated the adoption of electric cars. The Global electric car market is estimated to be valued at US$ 343.27 Bn in 2024 and is expected to exhibit a CAGR of 24% over the forecast period 2024 to 2031. Key Takeaways Key players operating in the electric car market are Tesla, Inc., Nissan Motor Corporation, BMW AG, Ford Motor Company, General Motors Company, Volkswagen AG, Hyundai Motor Company, Kia Corporation, Audi AG, Mercedes-Benz AG, BYD Company Limited, Rivian Automotive, Inc., Lucid Motors, Inc., Polestar Automotive Holding AB, and Volvo Cars. The key opportunities in the Electric Car Market Growth include rising investments by governments to develop charging infrastructure and provide purchase incentives. Additionally, evolving customer preferences toward electric vehicles over conventional vehicles due to growing environmental consciousness will drive market growth. Globally major automakers are focusing their efforts on expanding their electric vehicle portfolio and production capacities. For instance, Volkswagen plans to increase its global electric vehicle production to around 26 million units per year by 2030. BMW also aims to double its electric vehicle sales annually over the next few years. Market drivers Stringent emission norms imposed by governments: Stringent emission control regulations regarding carbon dioxide emissions from vehicles are encouraging automakers to shift toward electric vehicle production. This is a major market driver. Growing consumer awareness about environmental protection: Increasing environmental consciousness among consumers regarding pollution caused by gasoline and diesel cars is raising the Electric Car Companies for zero-emission electric vehicles.

PEST Analysis Political: The electric car market is experiencing supportive government policies and regulations across different regions and countries globally. Governments are introducing subsidies, tax rebates and other fiscal incentives to promote adoption of eco-friendly electric vehicles. Economic: Factors like fluctuating fuel prices and lower total cost of ownership compared to gasoline vehicles is positively impacting the electric car market. However, high initial purchase price of electric vehicles may pose a challenge for widespread adoption. Social: Increasing awareness about environmental pollution and impact of carbon emissions is driving social change. Many consumers are preferring electric vehicles to fulfill their social responsibility of adopting clean energy solutions. Technological: Continuous research & development is facilitating improvement in battery technologies like lithium-ion batteries. Advancements are resulting in higher driving range on a single charge and faster charging times. Software technologies are also enhancing driver experience through connectivity features. Geographical regions of concentration The electric car market in terms of value is majorly concentrated in the Asia Pacific and European regions currently. China dominates the Asia Pacific electric car market owing to supportive FDI policies and large domestic automobile industry. Presence of major OEMs and consumers' rising disposable income levels are factors behind Europe's prominence. Fastest growing region North America is anticipated to witness the fastest growth in the electric car market during the forecast period. Presence of early technology adopters and government measures promoting emission reductions are driving the regional market. The US market, in particular, will experience high demand fueled by strengthening charging infrastructure and production expansions by leading automakers.

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Alice Mutum is a seasoned senior content editor at Coherent Market Insights, leveraging extensive expertise gained from her previous role as a content writer. With seven years in content development, Alice masterfully employs SEO best practices and cutting-edge digital marketing strategies to craft high-ranking, impactful content. As an editor, she meticulously ensures flawless grammar and punctuation, precise data accuracy, and perfect alignment with audience needs in every research report. Alice's dedication to excellence and her strategic approach to content make her an invaluable asset in the world of market insights.

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#Coherent Market Insights #Electric Car Market #Electric Car #EV #Electric Vehicle #Battery-Powered Car #ZeroEmission Vehicle #Electric Automobile #Green Vehicle #Sustainable Transportation #Ecofriendly Car

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allgood-123 · 11 days

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VREMT's 200kW electric drive system helps Jiyue 07 achieve a new breakthrough in intelligent pure electric

Recently, Jiyue, a high-end smart car robot brand jointly created by Geely Holding Group and Baidu Group, made its first sedan Jiyue 07. Not only the appearance of Jiyue 07, but also the strong power contained in it has attracted widespread attention.

Among them, VREMT plays a crucial role. VREMT's 200kW electric drive system is the electric drive system used in both the single-motor and dual-motor versions of the Jiyue 07

The electric drive system is the core component of electric vehicles. It is usually composed of motors, vehicle electric drive controllers and reducers. This system has a vital impact on the overall performance of new energy vehicles. The VREMT Electric Drive Factory has been conducting in-depth research in this regard. It has not only created the industry-leading VREMT 800V electric drive, but also created the VREMT 200kW electric drive power system with four advantages of "high performance", "high safety", "high value" and "high quietness" on this basis to help Jiyue create strong power.

The VREMT Electric Drive Factory perfectly combines high-proportion magnetic resistance torque technology with multi-layer Hair-Pin winding technology in the motor creation of the VREMT 200kWelectric drive power system, achieving a total success rate density of 2.3kW/kg, and the highest efficiency exceeds 95%, far ahead of most electric drive systems on the market today. ‌In addition, the 200kW VREMT electric drive power system also uses ultra-low electromagnetic and mechanical noise suppression technology, so that the electric drive noise under all working conditions has achieved industry-leading achievements.

It is reported that the 200kW electric drive system of VREMT is developed and designed based on its platform, and can easily cope with function upgrades. At the same time, the system also has the ability to assemble SiC modules, which can further improve efficiency and increase the overall efficiency by more than 2%.

‌At present, this advanced electric drive system is not only used in theJiyue 07 model, but also successfully installed in the recently highly anticipated Lynk & Co Z10 and Smart Elf #3 and other models.

It is not difficult to see that the VREMT Electric Drive Factory can always be in a leading position in the same industry because it can meet the diversified needs of vehicle users in the current market for electric drive systems.

VREMT is a new energy technology company specializing in the research and development, manufacturing, sales and after-sales service of new energy vehicle power batteries, electric drive systems, charging systems and energy storage systems. With the support of Geely Holding Group, it has successfully built a world-leading R&D and manufacturing system, and achieved a global and full-scenario technology layout around new energy vehicles and industrial energy storage.

Facing the new energy environment market in the new era, VREMT has established in-depth cooperative relations with many top energy companies. With unremitting efforts, the technological innovation of VREMT's electric drmive system has brought unprecedented breakthroughs to the entire industry.

Looking to the future, VREMT will continue to deepen technology research and development and intelligent manufacturing, launch more efficient, more reliable and more intelligent three-electric solutions, and strive to become a comprehensive energy company that understands user experience better.

#VREMT #electric drive system

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industryinsightsandanalysis · 15 days

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Torque Sensor Market: Current Analysis and Forecast (2024-2032)

According to the UnivDatos Market Insights analysis, the increasing adoption in the automotive industry for fuel-efficient vehicles, the rising demand for precise measurement in industrial automation, and advancements in medical devices requiring high-precision torque control will drive the global scenario of the Torque Sensor market. As per their “Torque Sensor Market” report, the global market was valued at USD 7.8 Billion in 2023, growing at a CAGR of 5.8% during the forecast period from 2024 - 2032 to reach USD XX Billion by 2032.

The torque sensor market is witnessing robust growth, driven by the increasing demand for precise torque measurement across various industries such as automotive, aerospace, and industrial automation. In the automotive sector, the need for accurate torque measurement is paramount for optimizing engine performance, improving fuel efficiency, and ensuring the reliability of vehicle components. The rise in electric and hybrid vehicle adoption further amplifies this demand, as these vehicles require advanced torque measurement solutions to manage electric motor performance and battery efficiency. Technological advancements in sensor design, including wireless and non-contact torque sensors, are enhancing the efficiency and performance of these applications.

In the industrial sector, torque sensors are integral to the automation and robotics industries, where precision and efficiency are critical. The adoption of Industry 4.0 practices has led to increased utilization of torque sensors in manufacturing processes to ensure operational accuracy and product quality. Additionally, the aerospace and defense sectors rely on torque sensors for testing and monitoring aircraft components, ensuring safety and performance standards are met. These sectors' focus on innovation and high-performance standards continues to drive the adoption of advanced torque sensor technologies.

Looking forward, the torque sensor market is poised for sustained growth. Companies are investing heavily in research and development to create innovative, cost-effective torque sensors that cater to the evolving needs of various industries. Expansion into emerging markets, particularly in the Asia-Pacific region, offers significant growth potential due to rapid industrialization and increasing automotive production. Moreover, strategic partnerships and collaborations are facilitating the development of integrated solutions, enhancing value for end-users. Overall, the market's future looks promising with continued technological advancements and strategic investments from key industry players.

Increasing Adoption in the Automotive Industry:

The automotive industry is a significant driver for the torque sensor market. As the demand for high-performance and fuel-efficient vehicles increases, manufacturers are integrating advanced torque sensors to monitor and optimize engine and drivetrain performance. These sensors play a crucial role in electric vehicles (EVs) and hybrid vehicles, which require precise torque measurements to enhance energy efficiency and performance.

Example: The European Union's "Green Deal" and the accompanying "Fit for 55" package aim to reduce greenhouse gas emissions by 55% by 2030. These policies include stringent regulations on vehicle emissions and fuel efficiency, pushing automakers to adopt advanced technologies, including torque sensors, to meet these targets.

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Growing Demand in Industrial Automation:

Industrial automation is another key driver for the torque sensor market. With the rise of Industry 4.0, there is a growing need for accurate and real-time torque measurement in various automated processes. Torque sensors are essential in ensuring the proper functioning and safety of automated machinery, leading to improved productivity and reduced downtime in manufacturing and production facilities.

Example: The German government's "Industrie 4.0" initiative supports the widespread adoption of advanced manufacturing technologies, including torque sensors. This policy includes financial incentives and subsidies for companies investing in automation and smart factory technologies, encouraging the integration of torque sensors in industrial applications.

Advancements in Medical Devices:

The medical sector is increasingly utilizing torque sensors in various applications, such as robotic surgery, prosthetics, and rehabilitation devices. The precise measurement of torque is critical in these applications to ensure the safety and effectiveness of medical devices. As the healthcare industry continues to advance, the demand for high-precision torque sensors is expected to grow significantly.

Example: The U.S. Food and Drug Administration (FDA) has implemented policies that support the development and approval of advanced medical devices, including those that use torque sensors. The FDA's Breakthrough Devices Program, for instance, provides expedited review and approval processes for innovative medical technologies, encouraging the adoption of advanced sensors in medical devices.

Conclusion

The torque sensor market is experiencing significant growth driven by three major factors: the increasing adoption in the automotive industry, the growing demand in industrial automation, and advancements in medical devices. Government policies play a pivotal role in accelerating this growth by providing regulatory support and financial incentives. The European Union's "Green Deal" and "Fit for 55" package are pushing the automotive sector towards greater efficiency and lower emissions, thereby fostering the adoption of torque sensors. Similarly, Germany's "Industrie 4.0" initiative is promoting the integration of advanced manufacturing technologies, including torque sensors, in industrial automation. In the medical sector, the U.S. FDA's supportive policies for innovative medical devices are encouraging the use of precise torque measurement technologies in cutting-edge medical applications. These combined efforts are shaping a robust and dynamic torque sensor market, poised for continued expansion and innovation.

UnivDatos Market Insights

Email - [email protected]

Contact Number - +1 9782263411

Website -www.univdatos.com

#Torque Sensor Market

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amrutatbrc1 · 17 days

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Motorcycle Lead Acid Battery Market 2024-2033 : Demand, Trend, Segmentation, Forecast, Overview And Top Companies

Overview and Scope A motorcycle lead acid battery is a rechargeable battery used in motorcycles to provide the electrical power needed for starting the engine and running the vehicle's electrical systems. These batteries are known for their reliability and cost-effectiveness. They come in various sizes and capacities to match different motorcycle models and requirements.

Sizing and Forecast The motorcycle lead acid battery market size has grown strongly in recent years. It will grow from $5.06 billion in 2023 to $5.39 billion in 2024 at a compound annual growth rate (CAGR) of 6.3%. The growth in the historic period can be attributed to growing urbanization, increasing consumer awareness and education, growth of ride-sharing and delivery services, increasing electrification of motorcycle fleets for public, and growth in the charging infrastructure.

The motorcycle lead acid battery market size is expected to see strong growth in the next few years. It will grow to $6.91 billion in 2028 at a compound annual growth rate (CAGR) of 6.4%. The growth in the forecast period can be attributed to increasing focus on improving the energy density and power density, introduction of battery leasing programs for consumers, use of lead acid batteries in conjunction with renewable energy sources, high replacement rates for lead acid batteries in motorcycles, and establishment of battery swapping stations. Major trends in the forecast period include innovations in sealing technologies, adoption of greener manufacturing processes, development of safety features, nanotechnology applications, and advanced thermal management systems.

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Segmentation & Regional Insights The motorcycle lead acid battery market covered in this report is segmented –

1) By Product Type: Valve Regulated Lead Acid Battery (VRLA) Battery, Flooded Lead-Acid (FLA), Absorbed Glass Mat (AGM), Vented Battery, Other Product Types 2) By Technology: Internal Combustion Engine (ICE), Hybrid, Electric 3) By Sales Channel: Original Equipment Manufacturers (OEMs), Aftermarket

North America was the largest region in the motorcycle lead acid battery market in 2023, and is expected to be the fastest-growing region in the forecast period. The regions covered in the motorcycle lead acid battery market report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, Africa.

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Major Driver Impacting Market Growth The increasing demand for two-wheeled EV motor vehicles is expected to propel the growth of the motorcycle lead acid battery market going forward. A two-wheeled motor vehicle, also known as a motorcycle or motorbike, is a motorized vehicle designed to travel on two wheels. The increasing demand for two-wheelers is rising due to affordability, fuel efficiency, ease of navigation in urban congestion, and flexibility in urban and rural settings. Lead-acid batteries benefit two-wheeled electric vehicles by offering a cost-effective, durable, and reliable energy storage solution. For instance, according to the Society Of Manufacturers Of Electric Vehicles, an India-based association representing Indian manufacturers of electric vehicles (EV), in 2021-2022, the number of electric two-wheeler sales was 2,52,641, which rose to 7,28,054 in 2022-2023. Therefore, the increasing demand for two-wheeled motor vehicles drives the motorcycle lead acid battery market growth.

Key Industry Players Major companies operating in the motorcycle lead acid battery market are Panasonic Holdings Corporation, Johnson Controls International plc, Clarios International Inc., Chaowei Power Holdings Limited, GS Yuasa Corporation, EnerSys, East Penn Manufacturing Co., Exide Industries Limited, Leoch Leoch International Technology Limited, The Amara Raja Group (Amaron), Shuangdeng Group Co Ltd , Coslight Technology International Group Ltd., Trojan Battery Company LLC, Power Sonic Corporation, HBL Power Systems Limited, Mutlu Battery and Materials Industry Inc., Hawker Powersource Inc., FIAMM Energy Technology S.p.A., MK Battery International, CSB Energy Technology Co. Ltd., EverExceed Industrial Co. Ltd., Thai Energy Storage Technology PLC, C&D Technologies Inc., Deltran USA LLC, HAZE Power Company Ltd.

The motorcycle lead acid battery market report table of contents includes:

1. Executive Summary

2. Motorcycle Lead Acid Battery Market Characteristics

3. Motorcycle Lead Acid Battery Market Trends And Strategies

4. Motorcycle Lead Acid Battery Market - Macro Economic Scenario

5. Global Motorcycle Lead Acid Battery Market Size and Growth ..........

32. Global Motorcycle Lead Acid Battery Market Competitive Benchmarking

33. Global Motorcycle Lead Acid Battery Market Competitive Dashboard

34. Key Mergers And Acquisitions In The Motorcycle Lead Acid Battery Market

35. Motorcycle Lead Acid Battery Market Future Outlook and Potential Analysis

36. Appendix

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dorleco · 17 days

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(E/E) EV System Integration

September 3, 2024

by dorleco

with no comment

eMOBILITY CONTROLS

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Introduction

The fast adoption of electric cars (EVs) is causing a seismic shift in the global automotive surroundings. Electrification is being embraced by governments and industry globally as a means of reducing transportation’s negative environmental effects and decreasing dependency on fossil fuels. EV System Integration is one of the most important and challenging aspects of this shift as EVs become more common. The performance, credibility, and efficiency of an electric car depend on the seamless integration of its numerous parts, which range from software and charging infrastructure to battery systems and power electronics.

This blog explores the future of this developing field as well as the significance of EV System Integration for electric vehicles and the essential elements that go into it.

EV System Integration is divided into three main Components:

1. High Voltage Components

2. Low Voltage Components

3. Multiple CAN Networks

High Voltage Components

High-voltage components are found in both hybrid and all-electric vehicles. High-voltage components are directly connected to the power battery in pure electric vehicles.

Battery packs or fuel cells, battery management systems (BMS), electric motors, motor control units (MCU), power distribution units (PDU), electric air conditioning compressors, DC/DC converters, on-board chargers (OBC), EV chargers, charging outlets, PTC heaters, and high-voltage wiring harnesses are some of the most common examples of high-voltage component.

Battery Management System (BMS): Also known as the battery controller, the BMS is the essential component of battery management and protection. Its duties include monitoring the charging and draining of battery packs, assuring the safe and dependable usage of EV batteries, and providing the vehicle control unit (VCU) with basic parameter and fault diagnosis data.

Currently, the normal working voltage of electric car battery systems is between 200 and 600 volts. Additionally, its output current is 500A. EV driving range is directly impacted by battery capacity, which also influences charging time and efficiency.

Lithium-ion batteries currently rule the global market. Since lithium-ion battery technology is limited at this time, most electric automobiles employ them. Meanwhile, high-voltage electric vehicle systems use shielding design to lessen electromagnetic radiation produced by high-voltage components.

A motor controller is a device that controls the flow of energy from the battery to the drive motor. Vehicle advance (motor revolving in a forward direction), vehicle reverse (motor rotating in the opposite direction), DC/AC conversion, and other operations are among its primary duties. It achieves effective control to operate the motor by converting high voltage direct current to alternating current and interacting with other modules of the electric car through signals.

3. Power Distribution Unit (PDU): A PDU distributes high-voltage electricity throughout the vehicle in a manner akin to that of an electrical fuse box in a low-voltage circuit system.

High-voltage electrical equipment, including motor controllers, drive motors, electric air conditioner compressors, PTC heaters, and DC-DC converters, are powered by high-voltage battery distribution. A high-voltage charging current is distributed to the battery pack simultaneously from the AC or DC charging connector to charge it.

Certain DC/DCs convert high voltage to high voltage to support three things: 1) fast charging, 2) connection to standard charging stations, 3) BMS dependability.

Modern e-compressor technology is developing at a rapid pace, leading to the development of innovative, highly efficient heat pumps that are used to warm car interiors.

Low Voltage Components:

Low-voltage parts of an electric vehicle (EV) run independently of the high-voltage battery system that powers the electric motor, often on a 12V or 48V electrical system. These low-voltage parts are necessary for the car’s different support systems. The primary low-voltage parts of an EV are as follows:

1. 12V Battery

provides power to low-voltage electronics, such as lighting, control, and entertainment systems. Function: Supplies power to these components even when the high-voltage system is off by acting as a buffer.

2. Lighting System

Headlights, tail lights, and interior lights operate on a 12V electrical system and provide interior comfort and driving illumination.

3. Information Display System

Contains GPS, radios, touchscreens, and other multimedia interfaces for its intended use. Function: It manages user interactions and media entertainment and is powered by low-voltage technology.

4. Controls for HVAC Systems

HVAC (heating, ventilation, and air conditioning) controls and displays perform this role.

Function: Controls the temperature within the cabin using low-voltage electronics, even if the high-voltage system may still be used to power the compressor.

5. Braking and Power Steering Assistance

Its function is to supply power assistance for braking and steering. Function: To ensure ease of handling, low-voltage electric motors are used to increase the driver’s input effort.

6. Cooling Fans and Pumps

Its purpose is to control the cooling of a few low-power parts, such as auxiliary systems and some electronics. Function: Low voltage power source keeps systems within operating temperature ranges.

7. Power Windows, Wiper Motors, and Additional Comfort Systems

Manage vital car components including the wipers, seats, and windows. Function: Low voltage power supply ensures safe and convenient operation.

8. Instrument Cluster and Dashboard Displays

Function: Offers car data such as range, battery level, speed, and navigation. Function: Provides the driver with real-time data by running on low-voltage electricity.

9. Vehicle Control Unit (VCU):

The Vehicle Control Unit, also known as the “brain” of an electric vehicle (EV), functions as the main controller. It is essential to make sure that the electric powertrain, battery management system (BMS), and power electronics, among other various EV subsystems, all function as a unit. The vehicle’s central processing unit (VCU) gathers, processes, and transmits commands to different actuators to control operations including energy regeneration, braking, acceleration, and battery management.

Multiple CAN Networks

Multiple Controller Area Network (CAN) buses are frequently utilized in contemporary electric cars (EVs) to handle the intricate communication requirements between different Vehicle control units (VCUs) and other components. For dependable, real-time communication between the many systems in the car, CAN networks are essential. CAN networks are designed to handle specific duties for each other, which enables fault isolation and more efficient data delivery. The many CAN networks that are frequently seen in EVs are summarized as follows:

1. Powertrain CAN

Establishes communication between the electric powertrain’s parts. Key Components: Battery Management System (BMS): Keeps an eye on and regulates battery safety, charging, and performance. Motor controllers and inverters: Manage the power supply and regenerative braking of the electric motor. The Vehicle Control Unit (VCU) is in charge of managing the complete powertrain system and guaranteeing peak performance. Provides real-time data interchange for motor control, energy management, torque requirements, and battery status.

2. CAN Chassis

oversees communications regarding vehicle dynamics and safety systems? Key Components: The Anti-lock Braking System (ABS) regulates brakes and keeps track of wheel speed to keep wheels from locking up. Electronic Stability Control (ESC) keeps the car stable by controlling brake force distribution and engine power. The power steering system regulates and provides feedback for electric power steering. Function: By coordinating sensors and actuators connected to the suspension, steering, and braking systems, it preserves the stability and safety of the vehicle.

3. Battery CAN Network

The Battery CAN Network’s mission is to oversee and control batteries. Key Components: Temperature, voltage, and current battery sensors are part of the battery management system (BMS). Functions: The battery pack’s optimal operation is the responsibility of this CAN network. It controls the flow of data about diagnostics, thermal regulation, charging status, battery health, and cell balancing. To avoid overcharging, overheating, or any other problems that can compromise performance or safety, the network continuously checks on the battery.

4. HVAC CAN Network

Controls the temperature in the cabin and operates the HVAC system. Key Components: HVAC Control Unit Temperature sensors for electric compressors and heat pumps Functions: The interior climate control of the car is effectively ensured by this network. It controls how the seat heaters, defrosters, and cabin heating and cooling systems interact. This data is separated on a separate CAN network to avoid interfering with important driving systems.

5. Charging CAN Network

Function: Managing correspondence between the car’s internal charging infrastructure and external charging outlets. Key Components: Port Control Unit for Charging On-Board Charger (OBC) External Charging Station Interface The management of communication between the vehicle and the charging infrastructure is the sole purpose of this network. To provide safe and effective charging, it controls voltage and current, monitors charging status, and organizes the flow of electricity during charging. For instance, it makes sure the battery gets the right amount of power during fast charging so it doesn’t overheat or sustain damage.

Conclusion

An essential component of the shift to electric mobility is the integration of electric vehicle systems. It goes beyond simply putting different parts together; it also involves making sure they function effectively, safely, and sustainably as a whole. The EV System Integration issues will persist in their evolution along with the growth in EV adoption, and the corresponding technologies and processes will also change. The future of EV system integration promises to uncover even greater possibilities for electric vehicles, influencing the development of energy and transportation systems, thanks to advancements in batteries, power electronics, and software.

It is impossible to overestimate the significance of smooth EV system integration as the globe continues to move toward cleaner and more sustainable modes of transportation. It is the foundation of the electric car revolution, making sure that the promise of more intelligent, efficient, and environmentally friendly mobility is realized.

“Empowering your EV solutions with high-performance VCUs, cutting-edge CAN keypads, versatile CAN displays, and innovative EV software services — driving efficiency, connectivity, and reliability into every journey.” Connect with us @ [email protected]

#E/ESystems #Autonomousvehicle #EVSystemintegration #EVSoftwareservices #VCUProducts #Electricvehicle

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industrynewsupdates · 18 days

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Innovations Driving Growth in the Metal Stamping Market

The global metal stamping market size was estimated at USD 236.83 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 4.2% from 2024 to 2030.

Growing consumer electronics industry is likely to remain a key driving factor based on application of metal frames in mobile phones, headphones, speakers, and gamepads & controllers. In mobile phones, metal stamping is used in manufacturing antennas, chassis, and camera lens holders as it offers high tolerance, corrosion resistance, electrical conductivity, and a smooth finish. According to GSM Association, the global number of unique mobile subscribers was 5.31 billion in January 2021 and this number is growing at a rate of 1.8% per annum. This is likely to propel the demand for mobile phones and eventually metal stamping in coming years.

Gather more insights about the market drivers, restrains and growth of the Metal Stamping Market

The U.S. is one of the prominent player in the industry. However, emergence of COVID-19 and subsequent temporary lockdown measures countrywide impacted operations of the industry. Downstream demand from key sectors including automotive, aerospace, industrial machinery, and others was largely disrupted owing to challenges in supply chain and dried-up demand from end-use customers. The situation has normalized as rate of vaccination has picked up pace. Growing demand for metal stamping in the U.S. has compelled manufacturers to expand their facilities.

For instance, in December 2020, General Motors Co. announced its plans about investing USD 6 million in its metal stamping facility in Parma, Ohio, U.S. The investment will be used to construct four new metal assembly cells to support increasing production of Chevrolet Silverado and GMC Sierra pickup trucks.

According to International Energy Agency (IEA), global EV sales surpassed 3.4 million, out of which, China accounted for over 50% in 2021. Government initiatives, such as electric car subsidies to local manufacturers to support growth of EVs are major factors responsible for increased production. This is likely to boost the usage of sheet metal during production of auto components.

These components include chassis, interior and exterior structural, and transmission components. This, in turn, is expected to drive market growth during the forecast period. Market growth can be hindered as automobile manufacturers are replacing metals with plastic and carbon fiber as they assist in weight reduction of vehicles. A 10% reduction in weight of the vehicle results in a 5% to 7% increase in fuel efficiency.

Increasing production of lightweight vehicles owing to stringent government regulations in various countries is anticipated to drive demand for substitute products. For instance, in the U.S., developments in the Corporate Average Fuel Economy (CAFE) regulations to enhance fuel efficiency are encouraging use of these substitute products in automobiles, which, in turn, is likely to hamper the market for metal stamping.

Metal Stamping Market Segmentation

Grand View Research has segmented the global metal stamping market report based on process, press type, thickness, application, and region:

Process Outlook (Revenue, USD Million, 2018 - 2030)

• Blanking

• Embossing

• Bending

• Coining

• Flanging

• Others

Press Type Outlook (Revenue, USD Million, 2018 - 2030)

• Mechanical Press

• Hydraulic Press

• Servo Press

• Others

Thickness Outlook (Revenue, USD Million, 2018 - 2030)

• Less than & up to 2.5 mm

• More than 2.5 mm

Application Outlook (Revenue, USD Million, 2018 - 2030)

• Automotive

• Industrial Machinery

• Consumer electronics

• Aerospace

• Electrical & Electronics

• Building & Construction

• Telecommunications

• Others

Regional Outlook (Revenue, USD Million, 2018 - 2030)

• North America

o U.S.

• Europe

o Germany

o UK

o Italy

• Asia Pacific

o China

o India

o Japan

• Central & South America

• Middle East & Africa

Browse through Grand View Research's Advanced Interior Materials Industry Research Reports.

• The global copper pipes and tubes market size was estimated at USD 22.52 billion in 2023 and is estimated to grow at a CAGR of 5.9% from 2024 to 2030.

• The global aerostructure materials market size was estimated at USD 82.63 billion in 2023 and is projected to grow at a CAGR of 7.2% from 2024 to 2030.

Key Companies & Market Share Insights

Some of the key players operating in the market include CAPARO, Nissan Motor Co., Ltd and Goshen Stamping Company.

• CAPARO is mainly engaged in the designing, manufacturing, marketing, and distribution of value-added steel and niche emerging products. The group operates in North America, the UK, the Middle East, and India with its various subsidiaries such as Bull Moose Engineering Livonia, Caparo Engineering India Ltd – Chennai, and Caparo Middle East, among others.

• Nissan Motor Co., Ltd is engaged in the manufacturing, sales, and related business of automotive products. The company has several subsidiaries, dealers, and joint ventures, which are involved in R&D, design, production, automobile finance, and digital operations.

• Goshen Stamping Company specializes in producing high volumes with a combination of medium to high-speed presses with progressive dies. The company operates 36 presses ranging from 30-ton OBIs up to 400-ton SSDC. Its press bed sizes are up to 84" x 48" with stroke ranges from 2" to 8" for stamping. It offers a wide range of stampings in various materials such as carbon based steel, stainless steel, aluminum, or other metals.

• AAPICO Hitech Public Company Limited and Gestamp are some of the emerging market participants.

• AAPICO Hitech Public Company Limite is engaged in OEM auto parts manufacturing, car dealerships, and IoT connectivity and mobility. OEM auto parts manufacturing is further segmented into stamped or pressed parts, forged & machined parts, and plastic parts & plastic fuel tanks.

• Maoming Xingli Kaolin Co., Ltd. has a high-quality mine named acicular kaolin mine that spreads across 800 acres. The company offers several products such as bone china clay, clay for porcelain, kaolin clay, porcelain clay, and others. Its key focus is on washed kaolin (without acid), 90-degree ball clay, and 90- degree kaolin.

Key Metal Stamping Companies:

• Acro Metal Stamping

• Manor Tool & Manufacturing Company

• D&H Industries, Inc.

• Kenmode, Inc.

• Klesk Metal Stamping Co

• Clow Stamping Company

• Goshen Stamping Company

• Tempco Manufacturing Company, Inc

• Interplex Holdings Pte. Ltd.

• CAPARO

• Nissan Motor Co., Ltd

• AAPICO Hitech Public Company Limited

• Gestamp

• Ford Motor Company

Recent Developments

• In November 2023, Generational Growth Capital, an equity firm based in Milwaukee, U.S. acquired Federal Tool & Engineering, BP Metals, and Rockford Specialties based in Wisconsin, Minnesota and Illinois, U.S. respectively. The three manufacturers are metal stamping and structural steel manufacturers. This will enable the new entity to tap into various benefits such as expanding its manufacturing capacity, and support customers with interrupted delivery through a strong logistics supply chain.

• In October 2023, Ryerson acquired Norlen Inc., a metal stamping fabricator based Wisconsin, U.S. for an undisclosed sum. The latter mainly caters to the agricultural and defense markets.

• In June 2023, General Motors announced that it would be investing more than USD 500 million into its Arlington, Texas, U.S. assembly plant to produce the next generation SUVs. It intends to purchase new equipment for metal stamping, the body shop and other assembly parts.

Order a free sample PDF of the Metal Stamping Market Intelligence Study, published by Grand View Research.

#Metal Stamping Market #Metal Stamping Industry #Metal Stamping Market size #Metal Stamping Market share #Metal Stamping Market analysis

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poonamcmi · 21 days

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Flying Bikes Market are Estimated to Witness High Growth Owing to Advancements in Electric Propulsion Technology

Flying bikes, also known as eVTOLs (electric vertical take-off and landing) aircraft, are personal aircraft that can take off and land vertically as well as fly like conventional aircraft. They are equipped with distributed electric propulsion systems that enable vertical flight like helicopters and transition to wing-borne lift in horizontal flight like airplanes. Flying bikes offer an personal, affordable, and eco-friendly mode of transportation that can circumvent traffic and pave the way for urban air mobility. They have use cases in cargo delivery, emergency response, commuting, and recreational activities.

The Global Flying Bike Market is estimated to be valued at US$ 68.73 Bn in 2024 and is expected to exhibit a CAGR of 19% over the forecast period 2024 to 2031. Key Takeaways

Key players operating in the Flying Bike market are AeroMobil, Aston Martin, Carplane, Clip Air, EHang, Jetpack Aviation, Klein Vision, Lilium, PAL-V, Urban Aeronautics, Vahana (Airbus), Vertical Aerospace, Wright Electric, Xpeng, and Zapata Racing. These players are investing heavily in developing eVTOL aircraft with increased payload capacity and longer flying ranges.

The flying bike market provides opportunities for urban air mobility as a new mode of transportation. Regulatory frameworks for certifying airworthiness and operating procedures need to be established to realize the potential of flying bikes.

Advancements in battery technology, electric motors, and autonomous flight control systems have increased the feasibility of Flying Bikes market Trends Lithium-ion batteries with higher energy densities are enabling longer flight times. Distributed electric propulsion allows for vertical take-off and landing as well as wing-borne cruise flight. Autonomous flight capabilities are being developed for safety and large-scale implementation. Market Drivers

Growing road congestion and commute times in urban areas have increased interest in flying bikes as an alternative mode of transport. Their ability to avoid traffic by flying above makes them attractive for quick intra-city trips. Establishment of regulatory frameworks for urban air mobility and advancements in battery technology are the major factors driving the growth of the global flying bike market during the forecast period.

Current Challenges in Flying Bikes Market:

The Flying Bikes Market Size And Trends is still in its nascent phase and faces several technological as well as safety challenges. Developing durable yet lightweight batteries that provide longer flight time per charge is one of the key areas of focus for manufacturers. Strict safety regulations around licensing, traffic management and emergency response also need to be established to promote adoption. Further, building user trust around aspects such as reliability and crash-worthiness requires extensive testing before mass production and commercialization. Scaling up manufacturing while keeping costs competitive against other short-range transportation options also poses a challenge.

SWOT Analysis

Strength: Combination of motorcycle and aircraft capabilities enable unique last mile mobility solution. Demand for personal air vehicles rising with increasing urbanization and traffic congestion. Weakness: High development costs and long certification timelines. Knowledge gaps exist around regulatory frameworks, traffic rules and infrastructure requirements. Opportunity: Opening of urban air mobility market presents new revenue streams. Collaboration with urban planners can optimize flying bike integration. Threats: Competition from electric vehicles and helicopters diminishing addressable market. Strict emission norms and noise pollution regulations may limit use cases. Geographical Regions

North America accounts for the largest share in the global flying bikes market currently, primarily driven by early technology adoption in the US. The US is also home to major manufacturers that are leading innovation in this space through private funding and government initiatives around urban air mobility. Asia Pacific region is expected to witness the highest growth during the forecast period led by rapidly developing economies like India and China investing in this futuristic form of transportation solution to manage exploding urban commute demand.

Fastest Growing Regions

Asia Pacific region, especially emerging economies like India and China, are anticipated to be the fastest growing regional markets for flying bikes through 2031. This is attributed to a combination of high population density leading to severe traffic congestion in cities, a young demographic open to new technologies, and focused government support through funding and infrastructure development programs for advanced air mobility solutions. In addition, the entry and scaling up of domestic manufacturers in this region will boost localized production and regional market growth. Get More Insights On, Flying Bikes Market For More Insights Discover the Report In language that Resonates with you French, German, Italian, Russian, Japanese, Chinese, Korean, Portuguese About Author: Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191

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tmr-blogs2 · 23 days

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Electric Vehicle (EV) Platform Market Estimated to Reach Revenue of US$ 65.5 Billion by the End of 2031

The global electric vehicle (EV) platform market is likely to grow at a CAGR of 24.6% from 2022 to 2031. The EV platform is a charging station consisting of underbody components and suspension. The vehicle's body and chassis are merged into the flooring, thereby ensuring that the EV remains lightweight. Increase in adoption of EVs across the world is projected to be a key factor propelling global electric platform (EV) platform industry.

Customizable EV platforms are being designed, modified, and constructed to support different EV models. EVs have now become more affordable owing to this technology. Customized EV platforms have low material cost offering superior performance. This is because modular electric vehicle platforms are designed, built, and modified for accommodating different variety of electric car models. Low operational and maintenance costs of EVs are projected to increase sales. This presents significant business opportunities in the electric vehicle (EV) platform market owing to the projected increase in the sales rate of EVs in the next few years.

According to TMR report, the global electric vehicle (EV) platform market stood at US$ 7.2 Bn in 2021 and is anticipated to reach US$ 65.5 Bn by the end of 2031. Rise in government support to set up charging stations for EVs is projected to bolster market expansion in the near future.

For More Details, Request for a Sample of this Research Report: https://www.transparencymarketresearch.com/ev-platform-market.html

Key Findings of Study

Imposition of Regulations on Internal Combustion Engines: Governments across the world have imposed strict emission standards on vehicles to minimize the harmful effects of exhaust fumes. Deployment of federal regulations that restrict gasoline and diesel-powered automobiles is one of the primary reasons for customers' shift toward EVs. This is projected to create significant business opportunities in the electric vehicle (EV) platform market during the forecast period.

Continuous Efforts in R&D to Lower Cost of Battery for EVs: The need for long lasting battery backup when the EV is on road is increasing as all EVs run on batteries. Rise in demand for zero-emission vehicles is projected to bolster the need for batteries in vehicles. This, in turn, is likely to bolster the electric vehicle (EV) platform market during the forecast period. Most manufacturers of the EV platform are investing significantly in research & development of better battery performance and battery packs that are affordable. This is likely to augment the global market for EV platform during the forecast period.

Key Drivers

Rise in demand for zero-emission vehicles is expected to boost the global market during the forecast period

Increase in adoption of new technologies for emission control is likely to augment the need for EV platform, thereby driving the global market

Regional Growth Dynamics

Asia Pacific accounted for dominant share of the global electric vehicle (EV) platform market in 2021. The trend is anticipated to continue during the forecast period owing to the presence of major vehicle manufacturers and OEMs in the region.

Expansion of production units and increase in focus on technological advancements in the EVs industry are projected to drive the electric vehicle (EV) platform market development during the forecast period

Key Players

Notable players in the global electric vehicle (EV) platform market are Zoyte, Volvo Cars, Volkswagen AG, Toyota Motor Corporation, SAIC Motor Corporation Limited, Rivian, Nissan Motor Corporation, Kia America Inc., JAC Motors, Hyundai Motor Company, Honda Motor Co. Ltd., Mercedes-Benz Group, Byton, BYD Company, BMW AG, BAIC Group, Tesla, Chery, Faraday &Future, Inc., Geely Auto, Honda Motor, and Fisker, Inc.

Electric Vehicle (EV) Platform Market Segmentation

Component

Chassis

Battery

Suspension System

Steering System

Drivetrain

Vehicle Interior

Others

Electric Vehicle (EV) Type

Battery Electric Vehicle (EV)

Hybrid Electric Vehicle (EV)

Platform

Vehicle Type

Passenger Vehicle

Hatchback

Sedan

Utility Vehicle

Light Commercial Vehicle

Heavy Duty Truck

Bus & Coach

Sales Channel

OEM

Aftermarket

Region

North America

Europe

Asia Pacific

Middle East & Africa

South America

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About Transparency Market Research

Transparency Market Research, a global market research company registered at Wilmington, Delaware, United States, provides custom research and consulting services. Our exclusive blend of quantitative forecasting and trends analysis provides forward-looking insights for thousands of decision makers. Our experienced team of Analysts, Researchers, and Consultants use proprietary data sources and various tools & techniques to gather and analyses information.

Our data repository is continuously updated and revised by a team of research experts, so that it always reflects the latest trends and information. With a broad research and analysis capability, Transparency Market Research employs rigorous primary and secondary research techniques in developing distinctive data sets and research material for business reports.

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tamanna31 · 24 days

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All-terrain Vehicle: Industry Dynamics, Major Companies Analysis and Forecast- 2030

All-terrain Vehicle Industry Overview

The global all-terrain vehicle market size was valued at USD 4.54 billion in 2022 and is expected to grow at a compound annual growth rate (CAGR) of 3.8% from 2023 to 2030.

The rising popularity of outdoor sports activities, including off-road events, the increasing number of adventure and trail parks, and the rising demand for all-terrain vehicle (ATVs) for agricultural and military applications are the major factors propelling the growth of the market. Furthermore, the growing disposable income and purchasing capacity of individuals in developed and developing economies are anticipated to drive the demand for all-terrain vehicles over the forecast period.

Gather more insights about the market drivers, restrains and growth of the All-terrain Vehicle Market

The market for all-terrain vehicles witnessed negative growth during the first half of 2020 owing to the spread of the COVID-19 virus. The global lockdown and restrictions led to the temporary closure of various assembly and manufacturing units. However, the increasing demand for recreational activities across the globe is likely to contribute to market growth.

An all-terrain vehicle is also known as a light utility vehicle. It is a motorized off-road vehicle designed to travel on four wheels with low-pressure or non-pneumatic tires and a handlebar for steering control. ATVs are divided into two categories: type I and type II. The type I category is intended for use by a single rider with no passengers and the type II category is intended for use by a rider and a passenger. Type II ATVs are equipped with a designated seating position behind the rider.

ATVs are best known for their maneuverability in off-road and rough terrain capabilities. The design of the vehicle ensures better protection from harsh operating environments compared to conventional vehicles. They have wide applications in forestry, sports, military, agriculture, and defense. Over the past few years, ATVs have gained popularity owing to their ease of use in remote areas and their ability to offer a convenient way to carry supplies and equipment. These vehicles are often used in off-road surroundings, although in recent years, several regions have allowed them to be driven on public roads as well.

The demand for ATVs has witnessed a rise in the agricultural sector for various farm-related activities, such as weed control, fence mending, field plowing, general transportation, and animal handling. They are also used in applications such as manufacturing, construction, utilities, mining, and search & rescue. Several key companies are organizing adventure sports & off-road racing events and offering sponsorships to acquire new customers and increase product visibility.

The demand for gasoline ATVs has increased significantly owing to their wide uses in sports and military applications. Heavy-duty ATVs are primarily equipped with diesel engines for material handling and powerful towing applications. Electric ATVs are gaining popularity in Europe and North America as an alternative to ATVs operating on diesel and gasoline. Fluctuating prices and environmental concerns about gasoline and diesel are some factors that are projected to drive the demand for electric vehicles across the globe. The introduction of powerful electric motors enables electric all-terrain vehicles to offer a performance advantage over the diesel and gasoline variants.

Browse through Grand View Research's Automotive & Transportation Industry Research Reports.

• The global truck rental market was estimated at USD 121.38 billion in 2023 and is projected to grow at a CAGR of 7.5% from 2024 to 2030.

• The global digital logistics market size was estimated at USD 29.18 billion in 2023 and is projected to grow at a CAGR of 18.4% from 2024 to 2030.

Key Companies & Market Share Insights

The market is highly competitive, and the players are undertaking strategies such as product launches, acquisitions, and collaborations to increase their global reach. For instance, in May 2023, Polaris Inc. unveiled the 2024 XPEDITION XP and ADV models, marking the introduction of a pioneering category referred to as ‘Adventure side-by-sides’. These cutting-edge vehicles combine the off-road capabilities of conventional side-by-sides with the convenience and ample storage capacity commonly found in premium overlanding experiences. With the 2024 XPEDITION XP and ADV models, Polaris Inc. aimed to redefine the adventure vehicle market by offering a unique blend of rugged performance and enhanced comfort for off-road enthusiasts:

Polaris Inc.

American Honda Motor Co., Inc.

BRP

Yamaha Motor Corporation, USA.

ArcticInsider.com

CFMOTO

Kawasaki Motors Corp., U.S.A.

KYMCO

LINHAI POWERSPORTS USA CORPORATION

Suzuki Motor of America, Inc

Recent Developments

In March 2023, Polaris Inc. unveiled the RZR Pro R Factory, a specialized UT (Utility Terrain) vehicle specifically designed for competitive racing. This purpose-built vehicle has undergone meticulous engineering to deliver exceptional performance in demanding conditions encountered in open desert racing. With the introduction of the RZR Pro R Factory, Polaris Inc. aimed to provide racers with a high-performance vehicle that is optimized for the challenges and rigors of intense off-road racing competitions.

In January 2022, John Deere introduced two additions to their utility vehicle lineup: the XUV835R Gator Utility Vehicle and the XUV865R Gator Utility Vehicle. With these new models, John Deere aimed to provide customers an enhanced capabilities and a premium experience, ensuring that their utility vehicle needs are met with the utmost satisfaction.

In September 2021, Yamaha introduced the Grizzly 90, a specially designed sports model intended for young individuals aged ten and above. This youth-focused vehicle boasts a low-maintenance 90cc engine that incorporates air-cooling and wet-sump lubrication for optimal performance.

In June 2021, Kawasaki unveiled the BRUTE FORCE 750 4x4i, an off-road vehicle designed for thrilling outdoor adventures. Powered by a fuel-injected 749cc V-twin engine, this vehicle delivers outstanding performance on challenging terrains. It comes equipped with various features such as a front differential lock, selectable drive modes, and continuous variable transmission (CT), all contributing to improved traction and overall performance.

Order a free sample PDF of the All-terrain Vehicle Market Intelligence Study, published by Grand View Research.

#All-terrain Vehicle Market

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