Micro-Mobility Charging Infrastructure Market Boosted By Increasing Awareness About Green Transportation Modes

The global micro-mobility charging infrastructure market size is expected to reach USD 27.70 billion by 2030, growing at a CAGR of 25.2% from 2022 to 2030, according to a new report by Grand View Research, Inc. Increasing awareness about green transportation modes is expected to drive the adoption of micro-mobility vehicles across the globe. An increasing number of people are preferring e-scooters for traveling over shorter distances as these vehicles take less parking space and can recharge within a shorter time.

Additionally, several charging stations for e-scooters provide a dedicated parking space, which helps reduce traffic congestion. Furthermore, these charging stations can be efficiently designed as per the available space and are adaptable to any e-scooter design. These factors are expected to create growth opportunities for the market over the forecast period.

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The growing preference for wireless charging stations to charge micro-mobility vehicles at a faster rate with more convenience is expected to drive the demand for wireless charging stations. Several companies are also launching intelligent dock systems called wireless charging systems that work both indoors and outdoors. For instance, in May 2020, Magment GmbH, a charging station provider, launched its intelligent wireless charging systems to provide flexible wireless charging to e-scooters. These wireless charging stations can be easily installed near streetlamps, parks, and electronic advertisement boxes.

The introduction of solar-powered charging stations with smart parking systems is expected to create growth opportunities for the micro-mobility charging infrastructure market. Market players are also focusing on developing and providing solar-powered charging stations for e-scooters. Solar-powered charging stations help to charge network operators to reduce their dependency on grid stations. For instance, in October 2020, Swiftmile Inc introduced free solar-powered charging stations across various locations in the U.S.

The COVID-19 pandemic is expected to adversely impact the market. The market suffered during the pandemic but is expected to witness growth opportunities in the near future as citizens avoid public transport amid the pandemic. Moreover, the demand for wireless charging stations has increased as they offer touchless operations and help eliminate the risk of spreading the virus.

Self Balancing Scooter Market Analysis: Global Industry Trends and Forecast (2023-2032)

The global demand for self-balancing scooters was valued at USD 1725.8 Million in 2022 and is expected to reach USD 2877.7 Million in 2030, growing at a CAGR of 6.6% between 2023 and 2030.

A self-balancing scooter, commonly known as a hoverboard, is a two-wheeled personal transport device that uses gyroscopic technology and sensors to maintain balance, allowing the rider to control movement by shifting their body weight. Typically powered by rechargeable lithium-ion batteries, these scooters offer a convenient and eco-friendly mode of transportation for short distances. Riders can accelerate, decelerate, and turn by leaning forward, backward, or to the sides, making them intuitive and easy to operate for most users. Self-balancing scooters have become popular among both kids and adults for leisure, commuting, and even use on campuses or in large facilities. Many models come with features such as Bluetooth speakers, LED lights, and smartphone app connectivity, adding to their appeal. While hoverboards offer a fun and practical way to get around, users must follow safety guidelines, as improper use can lead to falls or injuries. Additionally, ensuring the quality of the device and its battery is essential, as early models were sometimes associated with battery safety concerns. Today’s self-balancing scooters have improved safety features and are subject to stricter regulations, making them a popular choice for recreational and personal transportation needs.

The self-balancing scooter market has numerous growth opportunities driven by advancements in technology, increasing urbanization, and a rising interest in eco-friendly transportation options. Here are some of the key opportunities in this market:

1. Rising Demand for Eco-Friendly Transportation:

As more consumers seek out sustainable alternatives for short-distance travel, self-balancing scooters provide an eco-friendly option with zero emissions. The growing emphasis on reducing carbon footprints and promoting green transportation is expected to drive demand, especially in urban areas.

2. Expansion in Urban and Campus Mobility:

Self-balancing scooters are ideal for navigating crowded urban environments, college campuses, and large industrial facilities. As cities continue to grow and campus areas expand, demand for compact, convenient transportation solutions is likely to increase, providing ample opportunities for scooter manufacturers.

3. Technological Advancements:

Innovations in battery technology, such as longer-lasting lithium-ion batteries, enable scooters to travel longer distances on a single charge. Additionally, advancements in gyroscopic sensors, app integration, and safety features (like speed controls and braking systems) enhance the overall user experience, making the devices more appealing to a broader audience.

4. Growing Adoption for Leisure and Recreation:

Self-balancing scooters are popular as recreational devices, especially among younger users and families. This demand for leisure activities is creating opportunities for manufacturers to develop models with enhanced entertainment features, such as Bluetooth speakers, customizable LED lights, and interactive mobile apps.

5. Integration with Smart City Initiatives:

Many cities are investing in "smart city" infrastructure, which includes micro-mobility solutions to reduce congestion and improve transportation efficiency. Self-balancing scooters can be integrated into these initiatives as a viable option for first and last-mile transportation, helping to address urban mobility challenges.

6. Potential for Tourism and Rental Services:

Self-balancing scooters are increasingly popular in the tourism sector, particularly in areas where rental services are available. Expanding scooter rental services at tourist attractions, parks, and scenic spots can attract tourists seeking a unique, fun, and convenient way to explore new locations.

7. Increased Focus on Health and Wellness:

Self-balancing scooters encourage users to engage in outdoor activities, which can contribute to an active lifestyle. As consumers place more importance on health and wellness, self-balancing scooters can be marketed as devices that promote physical activity and time spent outdoors.

8. Development of All-Terrain and Specialized Models:

There is growing demand for all-terrain scooters that can handle rough surfaces, off-road trails, and inclines. Manufacturers can capitalize on this trend by developing rugged models with larger wheels, stronger motors, and enhanced suspension systems, appealing to outdoor enthusiasts and adventure seekers.

9. Rise of Electric Mobility and Last-Mile Solutions:

With the boom in electric mobility, self-balancing scooters can serve as effective last-mile solutions for commuters who need to cover short distances from public transportation hubs to their final destinations. This role in the last-mile ecosystem represents a significant opportunity as cities strive to reduce traffic congestion and improve transit efficiency.

10. Increasing Popularity of Personal Mobility Devices for All Ages:

As the appeal of personal mobility devices expands across age groups, there are opportunities for manufacturers to design self-balancing scooters tailored to different age demographics. For example, creating kid-friendly models with speed limitations and safety features or high-performance models for adults could attract a broader customer base.

11. Growing Demand for Smart Features:

Consumers are increasingly interested in connected devices, and self-balancing scooters with smart features—such as GPS tracking, app-based controls, and performance monitoring—offer added value. Developing scooters that integrate with mobile apps for tracking speed, battery life, and navigation can enhance the user experience and differentiate products in the market.

12. Expansion into B2B and Industrial Applications:

Self-balancing scooters have potential in business and industrial settings, such as warehouses, factories, and large campuses where employees need to move quickly over considerable distances. Targeting B2B clients with specialized models for these applications can open up new revenue streams beyond consumer sales.

13. Opportunities in Emerging Markets:

As interest in electric mobility grows worldwide, there are untapped opportunities in emerging markets where urbanization and transportation challenges are on the rise. With an increasing focus on sustainable and affordable transportation solutions, self-balancing scooters can appeal to consumers in these regions.

14. Seasonal and Holiday Sales Opportunities:

Self-balancing scooters are popular gifts, especially during the holiday season, making it an opportune time for marketing and promotional activities. Focusing on seasonal sales events and holiday promotions can boost visibility and increase sales during peak shopping periods.

15. Enhancing Safety Features to Broaden Market Appeal:

By continuing to improve safety features—such as better braking systems, speed control, and stability enhancements—manufacturers can increase the appeal of self-balancing scooters to a wider demographic, including older adults and families who prioritize safety in their purchase decisions.

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Key Players

Ninebot

Inventist

Robstep

INMOTION

i-ROBOT

OSDRICH

Rijiang

ESWING

Airwheel

F-Wheel

Fosjoas

Wolfscooter

Freego

Freefeet Technology

The self-balancing scooter market is rapidly evolving with several innovative trends, driven by technological advancements, consumer preferences, and a focus on sustainable urban mobility. Here are some of the top trends shaping the future of self-balancing scooters:

1. Integration of Smart Features and Connectivity:

Many self-balancing scooters now come equipped with Bluetooth connectivity, allowing users to pair their scooters with mobile apps. These apps provide features like GPS tracking, battery monitoring, speed control, and even remote locking, offering a personalized and enhanced riding experience.

Smart features like LED lighting customization, integrated speakers, and voice-activated controls add an extra layer of appeal, especially for tech-savvy consumers.

2. Improved Battery Technology and Range:

Advancements in lithium-ion battery technology are extending the range and lifespan of self-balancing scooters. Enhanced battery capacity and fast-charging features allow users to travel longer distances without the need for frequent recharging, making scooters more convenient for commuters.

Solar-powered charging stations and wireless charging are emerging trends, providing eco-friendly solutions to power scooters and supporting urban sustainability initiatives.

3. All-Terrain and Off-Road Models:

Manufacturers are developing rugged all-terrain self-balancing scooters with larger wheels, enhanced suspension systems, and more powerful motors to navigate rough surfaces and inclines. These models appeal to outdoor enthusiasts who want to take their scooters beyond urban settings.

Off-road scooters are also equipped with weatherproof features and anti-slip surfaces, making them versatile for a variety of conditions.

4. Enhanced Safety Features:

Safety is a major focus in new self-balancing scooter designs. Modern models are incorporating features such as advanced gyroscopic stabilization, anti-slip footpads, and dual braking systems to improve rider stability and control.

Other safety innovations include proximity sensors, emergency braking, and automatic speed limits for crowded areas. Some models even feature rider-detection systems that help prevent accidents by sensing when the rider is no longer on the scooter.

5. Focus on Lightweight and Portable Designs:

As consumer demand for portability rises, manufacturers are producing more lightweight and foldable models. Compact, foldable scooters are easier to carry, store, and transport, making them ideal for last-mile commuting and users with limited storage space.

Materials such as carbon fiber and lightweight aluminum alloys are becoming popular for scooter frames, combining strength with reduced weight.

6. Electric Power and Eco-Friendly Innovations:

The emphasis on sustainability has led to the increased use of eco-friendly materials in scooter production, such as recycled plastics and renewable resources. Electric-powered scooters emit zero emissions, aligning with the trend toward environmentally conscious transportation.

In some cases, manufacturers are even exploring energy recovery systems that recharge the battery while braking, further improving efficiency and sustainability.

7. Integration with Public Transit Systems:

Cities and transit authorities are incorporating self-balancing scooters into public transit systems to offer seamless multi-modal transportation options. Some urban areas are creating designated docking stations near train and bus stops, facilitating scooter rental and usage as part of the public transit experience.

This integration aligns with smart city initiatives aimed at reducing traffic congestion and promoting alternative transportation modes.

8. Voice-Activated and Hands-Free Controls:

Voice-activated controls are being introduced, allowing users to adjust speed, check battery life, and activate safety features hands-free. This trend appeals to users seeking convenience and reflects broader tech advancements in the personal mobility sector.

9. Use of Artificial Intelligence (AI) and Machine Learning:

AI is being integrated into self-balancing scooters to provide features such as adaptive learning for terrain management and rider habits. Scooters can learn from a user’s riding patterns and adjust settings like speed and stability for an optimized experience.

AI also enables predictive maintenance by analyzing scooter performance data to notify users of potential issues, thereby reducing breakdowns and prolonging the life of the scooter.

10. Expansion of Rental and Sharing Services:

Self-balancing scooter rental services are expanding, particularly in urban and tourist areas. These services are integrating with mobile apps that allow users to locate, unlock, and pay for scooter rentals seamlessly, making it easy for people to access scooters for short trips.

Some rental companies are even incorporating smart lockers and docking stations, making scooters more accessible while ensuring they are secure and charged.

11. Customized and Modular Design Options:

Manufacturers are offering customization options, allowing users to personalize their scooters with colors, designs, and accessories. Additionally, modular designs enable users to swap out parts, such as wheels or footpads, making scooters more versatile and appealing to consumers looking for personalized solutions.

These options are popular among younger consumers who view their scooters as lifestyle accessories and are attracted to products that allow for self-expression.

12. Integration of Augmented Reality (AR) for Enhanced Navigation:

AR technology is being tested to provide users with visual navigation overlays directly on the scooter or through connected mobile devices. AR can display turn-by-turn directions, obstacle warnings, and route suggestions, enhancing both safety and convenience for riders.

13. Increased Adoption in Industrial and Commercial Applications:

Self-balancing scooters are becoming popular in industrial and commercial settings, such as warehouses and large facilities, where employees need to cover considerable distances quickly. Heavy-duty models with high load capacities are being developed to support these applications, expanding the market beyond consumer use.

14. Adoption of 5G Connectivity:

As 5G networks become more widespread, self-balancing scooters with 5G connectivity offer faster and more reliable data transmission. This enables real-time monitoring of scooter performance, remote diagnostics, and high-precision GPS tracking, especially beneficial for fleet management and rental services.

15. Virtual Reality (VR) Training and Simulation:

VR-based training modules for new riders are emerging as a safe way for users to learn how to ride and handle scooters in a simulated environment. VR training can help boost rider confidence, particularly for beginners, and improve overall safety by educating users on safe riding practices.

Segmentation

By Type of Self-Balancing Scooters

One-Wheel Self-Balancing Scooters

Two-Wheel Self-Balancing Scooters

Three-Wheel Self-Balancing Scooters

By Wheel Size

Mini-Segways

Standard-Sized Wheels

Off-Road and All-Terrain Models

By Features and Functionality

Basic Models

Smart Models

Hoverboards with Handlebars

By Age and User Groups

Children and Youth

Adults

Seniors and Mobility Aid

By Purpose of Use

Recreation and Leisure

Daily Commuting

Off-Roading and Sports

By Motor Power and Speed

Low-Powered Models

High-Powered Models

By Price Range

Budget Models

Mid-Range Models

Premium Models

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Comprehensive Overview of the Electric Scooter Market by Meticulous Research®

Meticulous Research®, a prominent global market research firm, has published a detailed report titled “Electric Scooter Market by Vehicle Type (Electric Motorcycles, E-Kick Scooters & Bikes, Electric Mopeds), Power Output (Less Than 3.6kW, 3.6kW to 7.2kW), Battery Technology, Motor Type, Charging Type, End-user, and Geography - Global Forecast to 2031.” This report outlines significant trends and forecasts for the electric scooter market, projecting it to reach a value of $408.1 billion by 2031, growing at a compound annual growth rate (CAGR) of 21.6% from 2024 to 2031.

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The surge in the electric scooter market is primarily driven by factors such as increased localization of manufacturing in emerging economies, heightened consumer acceptance of electric two-wheelers over traditional internal combustion engine (ICE) models, and a growing preference for electric vehicles in developed regions. However, the market faces challenges, including consumer reliability concerns stemming from accidents involving electric scooters and a lack of investment from legacy manufacturers in electric mobility solutions.

Government initiatives aimed at reducing traffic congestion and environmental pollution are expected to create additional growth opportunities. Conversely, the insufficient charging infrastructure presents a significant hurdle to market expansion.

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Market Segmentation and Analysis

The report segments the electric scooter market into various categories for a nuanced analysis:

Vehicle Type: The market includes electric motorcycles, electric mopeds, and e-kick scooters & bikes. The e-kick scooters & bikes segment is projected to dominate in both value and volume in 2024, driven by increased awareness of sustainability, supportive government policies, and investments from key stakeholders.

Power Output: The market is classified into segments based on power output: less than 3.6 kW, 3.6 kW to 7.2 kW, and 20 kW to 100 kW. The segment for less than 3.6 kW is expected to hold the largest market share, attributed to the rising adoption of e-kick scooters for urban commuting and recreational activities, along with government initiatives promoting their use.

Battery Technology: This segment includes sealed lead-acid, lithium-ion, and lithium-ion polymer batteries. The lithium-ion battery segment is anticipated to capture the largest share in 2024, fueled by the growing popularity of electric and hybrid vehicles and the adoption of battery technology in renewable energy applications.

Motor Type: The market is divided into hub motors and mid-drive motors. Hub motors, which offer flexibility and stability, are expected to dominate the market due to government initiatives supporting electric vehicle adoption.

Charging Type: The charging segment includes connector charging and wireless charging, with connector charging anticipated to lead the market. This is driven by the development of standardized connectors ensuring compatibility and the demand for faster charging solutions.

End User: The end-user market comprises government institutions, academic institutions, businesses, micro-mobility service providers, and individuals. Business organizations are expected to account for the largest share, reflecting governmental efforts to encourage electric vehicle adoption.

Geography: The market is segmented into regions including North America, Europe, Asia-Pacific, Latin America, and the Middle East & Africa. Asia-Pacific is projected to command the largest market share in 2024, attributed to rising incomes, increasing fuel prices, and governmental initiatives promoting electric mobility.

Key Market Players

Prominent players in the electric scooter market include Fuji-Ta Bicycle Co., Ltd., Yamaha Motor Co., Ltd., Niu Technologies, and Hero MotoCorp Ltd., among others. These companies are pivotal in shaping the industry landscape through innovations and strategic investments aimed at meeting growing consumer demand for electric scooters.

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Driving into Tomorrow: The Ever-Evolving World of Automobiles

The automobile industry is in a state of constant evolution, driven by advancements in technology, changing consumer preferences, and the global shift towards sustainability. As we look towards the future, it is clear that the way we think about and interact with cars is undergoing a transformation. This article explores the latest trends, innovations, and challenges shaping the ever-evolving world of automobiles.

Electric Revolution

Rise of Electric Vehicles (EVs)

Electric vehicles (EVs) have emerged as a disruptive force in the automotive industry, offering a cleaner and more sustainable alternative to traditional gasoline-powered cars. With advancements in battery technology and charging infrastructure, EVs are becoming increasingly practical and accessible to consumers worldwide. Major automakers are investing heavily in EV development, with Tesla leading the charge in innovation and market penetration.

Infrastructure Challenges

While the adoption of EVs is on the rise, challenges remain regarding charging infrastructure and range anxiety. Governments and private companies are investing in expanding charging networks to alleviate these concerns and accelerate the transition to electric mobility. Initiatives such as fast-charging stations and battery-swapping technologies are being implemented to make EVs more convenient and viable for everyday use.

Autonomous Driving

The Promise of Self-Driving Cars

Autonomous driving technology holds the promise of revolutionizing the way we commute and travel. Companies like Waymo, Uber, and Tesla are developing advanced autonomous systems capable of navigating roads safely and efficiently. While fully autonomous vehicles are still in the testing phase, semi-autonomous features such as adaptive cruise control and lane-keeping assist are already available in many production cars, paving the way for a future where driving is optional.

Safety and Regulatory Challenges

Despite the potential benefits of autonomous driving, safety concerns and regulatory challenges remain significant hurdles to overcome. Accidents involving autonomous vehicles have raised questions about liability and accountability in the event of a crash. Governments are working to establish clear regulations and standards for autonomous technology to ensure public safety while fostering innovation in the automotive industry.

Connectivity and Digitalization

The Connected Car Experience

Modern cars are more connected than ever, equipped with advanced infotainment systems, navigation tools, and internet connectivity. Features such as Apple CarPlay and Android Auto allow drivers to seamlessly integrate their smartphones with their vehicles, enhancing convenience and entertainment on the road. Additionally, vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication technologies are enabling new applications in traffic management and safety.

Cybersecurity Concerns

As cars become increasingly connected, cybersecurity has emerged as a critical concern for automakers and consumers alike. The risk of cyber attacks targeting vehicle systems raises questions about data privacy, safety, and potential vulnerabilities in connected cars. Automakers are investing in robust cybersecurity measures to protect against potential threats and ensure the integrity and security of connected vehicle systems.

Sustainable Mobility Solutions

The Shift Towards Mobility Services

In addition to electrification and autonomous driving, the automotive industry is witnessing a shift towards mobility services and shared transportation models. Ride-hailing platforms like Uber and Lyft have transformed the way people commute in urban areas, reducing the need for car ownership and promoting more sustainable modes of transportation. Car-sharing and micro-mobility services, such as electric scooters and bicycles, are also gaining popularity as cities seek to reduce congestion and emissions.

Environmental Impact and Corporate Responsibility

Automakers are increasingly recognizing the urgent need to address the environmental impact of their products and operations in response to growing concerns about climate change and air pollution. As public awareness of these issues continues to rise, pressure mounts on automotive companies to demonstrate corporate responsibility and take meaningful action to mitigate their environmental footprint.

In this context, many automakers are committing to ambitious sustainability goals aimed at reducing their carbon emissions, minimizing resource consumption, and adopting eco-friendly manufacturing practices. These goals often include targets for transitioning to renewable energy sources, increasing energy efficiency in production facilities, and minimizing waste generation throughout the manufacturing process.

One of the most significant steps automakers are taking to reduce their environmental impact is the widespread adoption of electric vehicles (EVs). Electric vehicles, powered by clean energy sources such as solar or wind power, produce zero tailpipe emissions and significantly lower overall greenhouse gas emissions compared to traditional internal combustion engine vehicles. By investing in EV technology and expanding their electric vehicle offerings, automakers are contributing to the decarbonization of transportation and helping to combat climate change.

Moreover, automakers are exploring innovative ways to incorporate sustainable materials into their vehicles, such as recycled plastics, bio-based materials, and renewable fibers. By reducing the use of virgin materials and incorporating recycled and renewable alternatives, automakers can minimize their environmental footprint and promote a circular economy.

In addition to addressing the environmental impact of their products, automakers are also focusing on improving the sustainability of their supply chains and operations. This includes initiatives to reduce energy consumption, water usage, and waste generation in manufacturing facilities, as well as efforts to promote ethical sourcing practices and responsible resource management throughout the supply chain.

Conclusion

The automotive industry is undergoing a period of rapid transformation, driven by technological innovation, changing consumer preferences, and the global push towards sustainability. Electric vehicles, autonomous driving, connectivity, and shared mobility are reshaping the way we think about cars and how we interact with them. As we drive into tomorrow, the future of automobiles promises to be cleaner, safer, and more connected than ever before. Porsche Sharjah, being a prominent player in the automotive market, is at the forefront of embracing these changes, offering cutting-edge electric and hybrid vehicles, exploring autonomous driving technologies, and integrating advanced connectivity features into its models. By embracing these trends and challenges, Porsche Sharjah can navigate the evolving landscape and continue to drive innovation in the pursuit of a more sustainable and efficient transportation system. Through initiatives such as expanding its electric vehicle lineup, investing in infrastructure for autonomous driving, and promoting shared mobility solutions, Porsche Sharjah demonstrates its commitment to shaping the future of mobility in a rapidly changing world.

The global micro-mobility charging infrastructure market size was exhibited at USD 4.59 billion in 2023 and is projected to hit around USD 46.29 billion by 2033, growing at a CAGR of 26.00% during the forecast period of 2024 to 2033.

Driving Telco-Fintech Collaborations for Superior Customer Experiences

The disruption in the digital financial marketplace has significantly contributed to economic development in various ways. Telecom digital financial solutions promise to offer faster, more affordable, and improved services to previously underserved populations. Fintech and telecommunications companies share common ground, both leading the charge in innovation and customer experience enhancement. They encounter similar challenges, including the need for interoperability across extensive networks and dealing with regulatory overlaps. Additionally, they face emerging risks like cyberattacks and third-party fraud. Collaborative efforts between these two industries can effectively address these challenges and enhance their appeal to investors.

The Convergence of Fintech and Telco

The disruptive force of fintech has revolutionized the financial services sector by introducing efficient, customer-centric solutions. Simultaneously, telco companies have been at the forefront of connecting people globally through their vast networks. The convergence of these two industries is a natural evolution, as both share a common objective: to enhance customer experiences and expand access to financial services.

The relationship between fintech and telecoms is characterized by collaboration and partnership, as both sectors rely on each other to fuel the digital financial marketplace. Together, they shape the future of finance and telecommunications, fostering innovation and growth.

Fintech and telecom firms collaborate in various ways. Telecom companies provide vital infrastructure and networks, enabling fintech companies to offer services, from high-speed internet access to mobile payment platforms and digital financial services.

Conversely, fintech companies empower telecom firms by offering access to cutting-edge technologies like artificial intelligence, data analytics, and conversational banking. This helps telecom companies enhance customer experiences and maintain competitiveness in a dynamic market through telecom digital financial solutions.

Moreover, both industries often join forces for research and development endeavors, exploring new technologies and business models to foster innovation and growth. This includes developing new products, exploring untapped markets, and seeking opportunities for further collaboration.

Transforming Financial Services in Telecom

Telcos are striving to transform into "Techcos," offering innovative telecom and fintech digital services using a digital financial solution, Aureus.  This convergence enables telcos to improve several areas:

Streamline their product offerings

Utilize customer insights for personalized cross-selling campaigns

Deliver seamless customer experiences and 

Accelerate the adoption of mobile payments. 

With digital wallets becoming a global standard for both online and in-store transactions, this trend promotes financial inclusion. The rollout of telecom 5G technology is poised to enhance the efficiency of digital banking, potentially leading to the emergence of cloud-based neo-banking and virtual banking, reducing the need for physical bank branches with their associated high costs.

To achieve true telco-fintech convergence, telecom digital financial management is required to build, manage, control, and deliver an omnichannel telecom and banking experience to customers. In addition to traditional telecom services like voice, SMS, and data, telcos should offer fintech services such as funds transfers, virtual cards, micro-loans, and mobile insurance. To make this happen, a telecom digital financial platform is a must. 

Overcoming the Roadblocks

Fintech and telco companies face common challenges that require collaborative solutions. One such challenge is interoperability. Both industries operate over extensive networks that must interoperate to provide services from multiple providers. Through collaboration, they can develop standardized protocols and interfaces that facilitate seamless interactions between their systems. This not only benefits their operations but also improves the overall customer experience.

Additionally, both industries encounter regulatory complexities. While telcos have traditionally focused on telephone services, fintech companies often specialize in online lending or payments. As they expand their offerings, they enter regulatory gray areas. Collaborative efforts allow them to navigate these complexities more effectively, ensuring compliance and reducing regulatory risks.

The synergy between fintech and telco is transforming the digital financial marketplace, driving financial inclusion, enhancing customer experiences, and mitigating shared challenges and risks. 

Aureus is offered by 6D Technologies. It is a telecom digital financial solution has the potential to transform how individuals and businesses access and interact with financial services. Ultimately, fintech-telco partnerships represent a powerful force for positive change, fostering economic growth and improving the lives of millions around the world. Investors and consumers alike should keep a close eye on this dynamic and transformative alliance. To learn more about Aureus, digital financial platform for telcos, please visit https://www.6dtechnologies.com/products-solutions/digital-financial-suite/

Global Micro-Mobility Charging Infrastructure Market Is Estimated To Witness High Growth Owing To Increasing Adoption of Electric Scooters & Bicycles

The global micro-mobility charging infrastructure market is estimated to be valued at US$4,280.5 million in 2022 and is expected to exhibit a CAGR of 20.57% over the forecast period 2023 to 2030, as highlighted in a new report published by Coherent Market Insights. A) Market Overview: The micro-mobility charging infrastructure market refers to the infrastructure required to charge electric scooters and bicycles. It includes charging stations, docking stations, battery swapping stations, and charging cables. This infrastructure plays a crucial role in enabling the widespread adoption of micro-mobility solutions and ensuring the smooth operation of electric vehicles. Electric scooters and bicycles have gained significant popularity in recent years due to their eco-friendly nature and convenience for short-distance transportation. These vehicles are powered by rechargeable batteries and require a reliable charging infrastructure to keep them operational. The market for micro-mobility charging infrastructure is witnessing rapid growth due to the increasing adoption of electric scooters and bicycles. B) Market Dynamics: 1. Driver: Increasing adoption of electric scooters and bicycles The market for micro-mobility charging infrastructure is driven by the growing adoption of electric scooters and bicycles as a sustainable mode of transportation. These vehicles offer various benefits, including reduced traffic congestion, lower emissions, and cost-effectiveness. With governments and organizations promoting eco-friendly transportation options, the demand for micro-mobility vehicles is expected to rise, driving the need for an efficient charging infrastructure. For instance, companies like Ather Energy, Bikeep, and Get Charged provide charging solutions for electric scooters, making it convenient for users to recharge their vehicles. These companies offer smart charging stations that can be installed at various locations such as airports, shopping malls, and parking lots. 2. Opportunity: Infrastructure development in emerging economies Emerging economies present a significant opportunity for the micro-mobility charging infrastructure market. These regions are witnessing rapid urbanization and increasing pollution levels, leading to a demand for sustainable transportation solutions. Governments in countries like India and China are actively promoting electric vehicles and implementing policies to support their adoption. As a result, there is a growing need for an extensive charging infrastructure network that can support the large-scale deployment of micro-mobility vehicles. Companies specializing in micro-mobility charging infrastructure, such as Giulio Barbieri SRL and Perch Mobility, can capitalize on these opportunities by expanding their operations in emerging economies. C) Segment Analysis: The micro-mobility charging infrastructure market can be segmented based on the type of infrastructure, including charging stations, docking stations, battery swapping stations, and charging cables. Among these segments, charging stations dominate the market and are expected to continue their dominance over the forecast period. Charging stations are essential infrastructure components as they provide a convenient and reliable way to charge electric scooters and bicycles. These stations can be installed at various locations, allowing users to recharge their vehicles whenever needed. With the increasing adoption of micro-mobility vehicles, the demand for charging stations is expected to witness significant growth.

Micro Electric Automotive Market is set for a Potential Growth Worldwide: Excellent Technology Trends with Business Analysis

Global Micro Electric Automotive Market Report from AMA Research highlights deep analysis on market characteristics, sizing, estimates and growth by segmentation, regional breakdowns & country along with competitive landscape, players market shares, and strategies that are key in the market. The exploration provides a 360° view and insights, highlighting major outcomes of the industry. These insights help the business decision-makers to formulate better business plans and make informed decisions to improved profitability. In addition, the study helps venture or private players in understanding the companies in more detail to make better informed decisions. Major Players in This Report Include

Polaris Inc. (United States)

Groupe Renault (France)

Microlino (Switzerland)

Yamaha Motor Company (Japan)

Triggo (Poland)

General Motors (United States)

Shandong Shifeng Group Co., Ltd. (China)

Honda Motor Company (Japan) Micro electric automotive or micro electric vehicles are small electric vehicles that are widely used for public transportation and commercial or industrial applications. Increasing traffic on the roads and shortage of parking spaces due to growing urbanization across the globe. Over the time, rapidly growing adoption of car-sharing or hailing services for fast and convenient mobility or transportation will accelerate the adoption of micro electric automotive. High growth of micro automotive in the developed countries of Europe and North America region and China will create new opportunities for the market. Market Drivers  Surging Demand for Micro Electric Automotive to Overcome Traffic Issues and Improve Mobility

Increasing Initiative by the Government Towards the Adoption of Micro EVs for Public Transportation in the Urban and Metropolitan Areas

Market Trend  Development and Launch of Innovative Micro Electric Automotive by the Manufacturers

Opportunities  Growing Popularity of Lithium-Ion Battery Due to Ease of Charging

Challenges  Inconsistent Charging Infrastructures and Short Ranges May Hamper the Growth

The Micro Electric Automotive market study is being classified by Type (Cars, Commercial Vehicles), Application (Personal, Commercial, Public Transportation), Speed (15.5 mph, 35 mph, 47 mph, 55 mph, Others), Battery Type (Lead-Acid, Lithium-Ion) Presented By

AMA Research & Media LLP

Electric Bike Market Latest Advancements And Business Opportunities up to 2032

The global electric bike market growth is projected to reach a value of US$ 122.1 Bn in 2032, with sales growing at a robust CAGR of 10% over the forecast period of 2022 to 2032. In 2022, the electric bike market is likely to reach an estimated US$ 52.05 Bn. The convenient, adaptable, environmental-friendly transportation enabled by electric bikes is propelling the target market to grow during the projected period.

Small in size, electric bikes are gaining popularity among consumers as an alternative to scooters, public transportation, and smart cars. These bikes are convenient, stylish, and have the ability to travel far on a single charge, reduce traffic congestion, and are environmentally responsible. Increasing fuel costs, favorable governmental policies, and changing consumer preferences are some of the factors promoting the growth of the electric bike market. 

Furthermore, the implementation of favorable policies that are beneficial to the establishment of relevant infrastructure is expected to supplement the market growth. Many European nations like Germany, France, and Spain, are focusing on making the construction of e-bike infrastructure a priority and are also trying to raise annual expenditure to quicken the creation of a connected and secure bike network.

These initiatives are helpful in removing roadblocks to cycling and promoting multiple opportunities for electric bike manufacturers. Thus, the growing legislative contribution will presumably drive the electric bike market.

Other factors that foster an environment of growth for the electric bike market are municipal bike-sharing programs across the globe, awareness of the health benefits of riding an electric bike, and the rise of shared electric micro-mobility. In spite of a bright future, the market will likely face certain challenging factors. High purchase costs are expected to hinder the market growth of the electric bike market during the projected period.

 “Favorable government policies and initiatives coupled with growing awareness of related health benefits will propel the market growth of electric bike over the forecast period,” says an FMI analyst.�� 

Key Takeaways:

Increasing shared mobility to generate more market opportunities.

High purchase costs hinder the market growth.

North America is expected to exhibit impressive market growth over the forecast period.

The Asia Pacific region will likely dominate the market over the assessment period.

By product type, pedestals are predicted to grow at a 3.2% CAGR.

Lead-based battery segment will account for 85% of the overall market share.

Competitive Landscape 

Top Global electric bike company are: ECCITY Motocycles, Hero Electric Vehicles Private Limited, Gogoro Inc., GOVECS GmbH, Vmoto Limited, Honda Motor Co. Ltd., Piaggio & C. SpA, Terra Motors Corp., Bayerische Motoren Werke AG, Jiangsu Xinri E-Vehicle Co. Ltd., Giant Manufacturing Co Ltd., Emotion Bikes USA, Pedego Electric Bikes, Volt, Energica Motor Company S.p.A., Zero Motorcycles, Inc., Mahindra Genze, Derby Cycle, and Accell Group

Major market players are focusing on product development, establishing new facilities, and portfolio expansion. These businesses are also employing tactics like mergers and acquisitions to enhance their market position.

More Insights into Electric Bike Market Report

In its latest report, FMI offers an unbiased analysis of the global electric bike market, providing historical data from 2017 to 2021 and forecast statistics for 2022 to 2032. To understand the global market potential, growth, and range, the market is segmented on the basis of product type (electric scooter, electric motorcycle, pedelec), battery type (Li-Ion, NiMH, Lead-based), technology (plug-in, battery), and region.

According to the latest FMI reports, based on region, the Asia Pacific electric bike market is expected to dominate the global space. This is because of the immense popularity of two-wheelers as a mode of transportation in the APEJ region. It is the largest market for electric bikes and is expected to grow at a 3.2% CAGR while presenting US$ 6.1 Bn market opportunity over the forecast period. 

The electric bike market in Europe is anticipated to flourish during this period of observation. It is predicted that the sales of electric bikes will reach an estimated 13.1 million units, with about 60% of these bikes being made in Europe, during the forecast period.

Based on segmentation, by product type, the pedelecs segment is expected to lead the market growth. Additionally, the lead-based battery segment will present high growth, accounting for about 85% of the market share. 

Key Segments Covered in the Electric Bike Market Report

On the basis of product type, the electric bike market can be segmented into:

Electric Scooter

Electric Motorcycles

Pedelec

On the basis of battery type, the electric bike market can be segmented into:

Li-Ion

NiMH

Lead-based

On the basis of technology, the electric bike market can be segmented into:

Plug-In

Battery

Micro-mobility Charging Infrastructure Market Estimated to Expand at a Robust CAGR By 2032

The Global Micro-mobility Charging Infrastructures Market was valued at US$ 3.8 Bn in 2021 and is expected to reach US$ 31.8 Bn by 2032, finds Future Market Insights (FMI) in a recent market survey. As per the findings of the report, wired Micro-mobility Charging Infrastructures will remain pivotal for the market as the bulk of revenue will be generated through this category, with a forecasted CAGR of 21.9%.

Wired Chargers to contribute the most to revenue

Wired Charging is expected to continue being the top category. It has an advantage over Wireless charging in speed, range and the ease of managing the thermal loss. Switching over to wireless may become an emerging technology as research increases in improving their efficiency.

The US to continue being the leading component of revenue in the forecast period

The US will continue to be the leading market for micro-mobility charging infrastructure demand. Legislature such as the Bipartisan Infrastructure Law or the Infrastructure Investment and Jobs act, which assigned approximately US$ 7.5 Bn as funding for the building of a national network of EV chargers, and other programs such as the CMAQ Program and Surface Transportation Block Grant funding, will positively influence demand.

“Micro-mobility Charging Infrastructure manufacturers nowadays are closely working on improving their customer base, adapting to government policies, and developing safer and greener technologies.” comments an analyst at Future Market Insights.

Micro-mobility Charging Infrastructures Market: Competition Insights

At present, Micro-mobility Charging Infrastructure providers are largely aiming at gaining a foothold in the market and adapting to new technology and legislation. The key companies operating in the flexible screen market include Ather Energy, Beam, Bike-energy, Bikeep, Duckt, Electrify America LLC, Flower Turbines, Get Charged, Inc., Giulio Barbieri SRL., Gogoro, Ground Control Systems, Kuhmute Inc., Magment GmbH, Meredot SIA, Numocity Technologies Pvt Ltd., PBSC Urban Solutions, Perch Mobility, Robert Bosch GmbH, Siemens AG, Solum PV. Swiftmile, The Mobility House GmbH, Tier and WiTricity among others

Some of the recent developments by key providers of Micro-mobility Charging Infrastructure are as follows:

In June 2022, Statiq, a charging network provider and Hala mobility, a mico-mobility EV startup announced a partnership that will allow Hala’s users to benefit from Statiq’s charging network.

In April 2022, Gogoro went public, listing on NASDAQ after a SPAC deal merger with Poema Global as Gogoro, Inc under the symbols GGROW and GGR for warrants and shares.

In March 2022, Germany-based Swobbee raised US$6.5 Mn in Series A funding. The company focuses on the commercialization of battery swapping.

In February 2022, South Korea’s Swing raised US$24 Mn in Series B funding. The company plans to use the funds raised to increase their fleet and progress into the market in Japan.

In January 2022, Germany’s Soltsol AG and announced a strategic partnership with Swiftmile. They plan to collaborate to establish LEV hubs at locations throughout the European Union, starting with Germany.

In September 2021, Perch Mobility announced a partnership with LAZ Parking. The two companies plan to collaborate through the establishment of Perch’s Community Charging Portals in LAZ spots.

In May 2021, South Korea’s LG Electronics Inc announced a partnership with Kickgoing. The two collaborated to establish 20 wireless electric scooter charging spots in Bucheon, South Korea.

In October 2021, in the joint venture created by battery swapping provider Gogoro and China’s Yadea and DaChangJiang, both vehicle manufacturers invested a combined US$ 50 Mn into the venture. They initially launched 45 battery swap stations and compatible vehicles in Hangzhou, under the Huan Huan brand.

In April 2021, HeroMotoCorp and GogoroInc announced a strategic partnership. Under this partnership, they plan to establish a battery swapping joint venture under which they will combine Gogoro’s battery swapping expertise and Hero’s expertise in the manufacturing of scooters to introduce new vehicles for the Indian Market.

More Insights Available

Future Market Insights, in its new offering, presents an unbiased analysis of the micro-mobility charging infrastructure Market, presenting historical market data (2017-2021) and forecast statistics for the period of 2022-2032.

The study reveals extensive growth in micro-mobility charging infrastructure in terms of Vehicle Type (E-scooters, E-bikes, E-unicycles, E-skateboards) By Charger Type (Wired, Wireless), By Power Source (Solar Powered, Battery Powered), by End-Use (Commercial, Residential), across five regions (North America, Latin America, Europe, Asia Pacific and Middle East & Africa).

For More Info@ https://www.futuremarketinsights.com/reports/micro-mobility-charging-infrastructure-market

About Future Market Insights (FMI)

Future Market Insights, Inc. is an ESOMAR-certified business consulting & market research firm, a member of the Greater New York Chamber of Commerce and is headquartered in Delaware, USA. A recipient of Clutch Leaders Award 2022 on account of high client score (4.9/5), we have been collaborating with global enterprises in their business transformation journey and helping them deliver on their business ambitions. 80% of the largest Forbes 1000 enterprises are our clients. We serve global clients across all leading & niche market segments across all major industries.

Mobility as a Service Market Growth, Trends, Forecast 2022-2028

A recent study conducted by the strategic consulting and market research firm, BlueWeave Consulting, revealed that the Global Mobility as a Service Market was worth USD 3.48 billion in the year 2021. The market is projected to grow at a CAGR of 30.30%, earning revenues of around USD 22.15 billion by the end of 2028. Because of the cutting-edge facilities and technologies provided to clients, the market for mobility as a service is likely to grow rapidly. Improved modes of transit from one end to the other improved mobility management. There are three domains involved in wireless communications between modes: consumer, driver, and supporter. Smartphones are used to schedule transportation utilizing wireless internet connectivity. Improved internet connectivity technology, including quicker internet speeds, improved performance, and increased output. Mobility as a service has gained the trust of its users due to safe travel, lower costs, arriving at the destination ahead of schedule, the transmission of information about traffic jams over the lanes via smart devices, and a reduction in pollution due to fewer vehicles on the road and lower carbon dioxide emissions. However, the integration of various stakeholders and increasing fuel prices, in turn, may act as a huge restraining factor for market growth.

Smart City Initiatives and Rapid Urbanization

The adoption of mobility as a service is being driven by regulations and an increasing focus on smart city initiatives. To encourage the use of mobility as a service in transportation, nations are creating new policies. For instance, the Finnish Act on Transport Services, which went into effect in 2018, aims to encourage the adoption of mobility as a service, among other things. In terms of innovative mobility programs and concepts for mobility as a service, France is likewise at the forefront. On November 19, 2019, the French Parliament approved the "Mobility Orientation Act," which regulates all facets of land travel, including private and shared automobiles, carpooling, buses, trains, and chauffeured vehicles, as well as micro-mobility like rental cycles or electric scooters.

Request for Sample Report @ https://www.blueweaveconsulting.com/report/mobility-as-a-service-market/report-sample

Government Assistance

Governments in the area have helped with the creation and introduction of passenger cars and electric cars, such as buses, which have enhanced transportation options. They have also built infrastructure for electric car charging stations and make investments. This aids in the market's quick expansion. Additionally, the market rate has increased due to an increase in transportation modes combined with improved solutions such as traffic management, parking management, mobility management, and less emission, which has resulted in the development of smart cities and green cities, lower costs, and fewer accidents. During the anticipated period, each of these drivers will contribute to the global mobility as a service market's growth (2022-2028).

Challenge: Bringing together Various Stakeholders

The deployment of mobility as a service platform necessitates the collaboration of numerous stakeholders, including telecom operators, infrastructure suppliers, service providers, manufacturers, the public sector, and user groups. Several areas' governments favor the Public-Private Partnership (PPP) approach for project implementation. This strategy allows the private sector to participate in government efforts or vice versa to deploy and finance projects. Integrating public and commercial transportation companies becomes a difficult undertaking. Private transportation is on-demand, whereas public transportation is determined by the supply and demand ratio. The availability of infrastructure for mobility as a service is a big barrier because it is dependent on individual governments and their policies or willingness to adapt. This, together with difficulties of public approval and authority/leadership inside commercial or public enterprises, could provide a significant hurdle to mobility as a service market. The issue of leadership is central to the evolution of mobility as a service. According to experts, while public-sector leadership is critical for the creation and execution of mobility as a service, private-sector leadership may also be required to establish novel services.

Segmental Coverage

Global Mobility as a Service Market - By Application Type

Based on application type, the Global Mobility as a Service Market is segmented into Personalized Application Services, Journey Management, Journey Planning, Flexible Payments & Transactions, and Others. The rising necessity to choose a mode of transportation based on preferences is likely to cause the journey management sector to lead the global market in terms of revenue contribution throughout the forecast period. Dynamic trip management offers users travel options based on real-time, anticipatory, and planned data, based on data algorithms, and is anticipated to propel the segment's revenue growth throughout the projection period.

Global Mobility as a Service Market - By Transportation Type

Based on transportation type, the Global Mobility as a Service Market is segmented into Public and Private. Due to rising urbanization and a decline in car ownership, the private sector is anticipated to lead the market in terms of revenue contribution throughout the projection period. The need for private transportation is anticipated to rise in response to consumers' growing desire for comfortable, secure, hygienic, and individualized travel options. All these factors boost the growth of the Global Mobility as a Service Market during the forecast period (2022-2028).

Impact of COVID-19 on Global Mobility as a Service Market

Increased demand for station-based and rental-car services following the epidemic, Station-based mobility is expected to rise in popularity as a result of the COVID-19 pandemic's growing desire to adhere to societal distance rules. Commuters, on the other hand, may prefer to use car rental services rather than public transportation to have less contact with other people. Rather than using car-sharing services, commuters would place more trust in automobile rental businesses to sanitize their vehicles as needed. The market for mobility as a service would face a short-term fall as demand for multimodal transportation choices such as car-sharing, bus-sharing, and rail services declined.

Competitive Landscape

The leading market players in the Global Mobility as a Service Market are Lyft, Grab, Gett, Uber, Ola, Didi Chuxing, Daimler AG, Bayerische Motoren Werke AG (BMW), Deutsche Bahn, Xerox Corporation, MaaS Global Oy, Moovit, Inc., SkedGo Pty, Ltd., GrabTaxi Holdings Pte Ltd., Moovel Group GmbH, Beijing Xiaoju Technology Co. Ltd., Communauto, Inc., Citymapper Ltd., UbiGo Innovation AB, and other prominent players.

The Global Mobility as a Service Market is highly fragmented with the presence of several manufacturing companies in the country. The market leaders retain their supremacy by spending on research and development, incorporating cutting-edge technology into their goods, and releasing upgraded items for customers. Various tactics, including strategic alliances, agreements, mergers, and partnerships, are used.

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Micro-mobility Charging Infrastructure Market Worth $27.70 Billion By 2030

Micro-mobility Charging Infrastructure Market Worth $27.70 Billion By 2030

Micro-mobility Charging Infrastructure Market Growth & Trends The global micro-mobility charging infrastructure market size is expected to reach USD 27.70 billion by 2030, growing at a CAGR of 25.2% from 2022 to 2030, according to a new report by Grand View Research, Inc. Increasing awareness about green transportation modes is expected to drive the adoption of micro-mobility vehicles across the…

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Four departments issued documents to boost the 100 billion market

TOPSFLO high-quality supercharging pile liquid cooling water pump to seize the new track

In recent years, my country's new energy vehicle industry has developed vigorously, and the scale of production and sales has continued to grow rapidly. Recently, the Ministry of Transport, the National Energy Administration, the State Grid Corporation of China, and China Southern Power Grid Co., Ltd. jointly issued a document to fully mobilize the forces of all parties to promote the development of the electric vehicle industry.

It is estimated that the domestic charging market will exceed 200 billion in 2026

The charging pile is a device that supplements electric energy to new energy vehicles (including pure electric and plug-in hybrid). Its function is similar to the gas dispenser in the gas station. It can be installed in places such as roads, office buildings, shopping malls, public parking lots and residential parking lots. , charging various types of new energy vehicles according to different voltage levels.

With the continuous increase in the production, sales and ownership of new energy vehicles, the charging pile as an important supporting infrastructure has ushered in development opportunities. Up to now, among the 6,618 expressway service areas across the country, 13,374 charging piles have been built in 3,102 service areas, which basically meet the current electric vehicle charging requirements. According to statistics, the market size of the domestic charging pile industry will reach 41.87 billion yuan in 2021. The period from 2021 to 2026 is the period of rapid growth of the charging pile industry. It is estimated that the number of domestic charging facilities will reach 17.66 million units in 2026, and the market size will exceed 200 billion yuan.

The domestic charging pile market is promising, and the international market also has broad prospects. According to the latest "Global EV Outlook 2021" report released by the International Energy Agency (IEA), the scale of global charging piles in 2025 and 2030 is predicted: based on the latest national policies (SPS) and sustainable development scenarios (SPS), to In 2025, the global number of charging piles is expected to reach 45.8 million/65 million units respectively, of which the global private charging piles are expected to reach 39.70/56.7 million units respectively, and the global public charging piles are expected to hold 6.10/8.3 million units; by 2030 In 2018, the global number of charging piles is expected to reach 120.90/215.2 million units respectively, of which the global private charging piles are expected to have 104.70/189.9 million units respectively, and the global public charging piles are expected to reach 16.20/25.3 million units.

TOPSFLO pumps escort high-efficiency liquid-cooled supercharged piles

The explosion of the charging pile market has also intensified the competition in the upstream and downstream industries of charging piles. As the first domestic company to enter the field of micro-pump research, Changsha Duopule Pump has conducted in-depth research on the charging pile industry many years ago, and has reached long-term strategic cooperation with many well-known domestic and foreign companies. Among them, TOPSFLO has successfully provided 300,000 liquid-cooled circulating water pumps to Terras since 2015.

 TOPSFLO brushless DC charging pile cooling circulating water pump can be used for different cooling applications such as supercharged liquid cooling module, gun line liquid cooling, etc. It is suitable for 100KW - 600KW, and can meet all the liquid cooling requirements of DC supercharged piles in the market. Each TOPSFLO water pump has undergone strict high and low temperature fast switching tests of the whole machine. It has a wide temperature resistance range to meet the needs of different working conditions of super charging piles, and adopts international well-known brand electronic components, with lower heat generation and reliability. High, truly empowering "cold and fast" charging piles.

Under the global wave of intelligence, TOPSFLO is committed to providing customers with products with strong competitiveness. TOPSFLO's brushless DC charging pile cooling and circulating water pump has 5V/PWM speed regulation and FG speed signal feedback functions, which can realize automatic intelligent detection , support failure alarm, real-time data feedback, etc., to escort high-efficiency liquid-cooled supercharged piles.

Micro-mobility Charging Infrastructure Market to Gain Valuation of US$ 45 Bn by 2030

Micro-mobility Charging Infrastructure Market to Gain Valuation of US$ 45 Bn by 2030

The global micro-mobility charging infrastructure market size is predicted to reach around US$ 45 billion by 2030, growing at a CAGR of 24.57 percent from 2022 to 2030, according to a 2022 study by Precedence Research, the Canada-based market Insight Company. The increasing oil and gas prices, ease of parking, the rising road congestion and increasing awareness about the greenhouse gas emissions…

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According to the latest research study, the demand of global Micro-Mobility Charging Infrastructure Market size & share was valued at approximately USD 3.20 billion in 2020 and is projected to reach a value of around USD 17.6 billion by 2027, at a compound annual growth rate (CAGR) of about 24.1% during the forecast period 2021 to 2027