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Nantong, China
51-100 Employees
2019
Leading an R&D team of over 100 engineers, ZTT Supercapacitor mainly engages in the manufacture of supercapacitors. ZTT Supercapacitor’s annual production capability reaches 50 million units. What’s more, its products also passed RoHS authoritative testing. With over 30 years of sustainable innovation, ZTT helps make a wide variety of products across industries. For instance, telecom communication, power transmission, marine & offshore, renewable energy, etc… Ever since it first started developing the supercapacitor in 2015, ZTT has expanded a new era of focusing on power delivery and optimizing energy storage to achieve Carbon Emission Peak and Carbon Neutrality. With research, design, manufacturing, and overseas offices around the world, ZTT supercapacitor offers significant competitive advantages. Including high-tech full-automatic manufacturing & testing workshops, dedicated account management, and order follow-up. Also the ability to respect production lead time.
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ZTT Supercapacitor
... Supercapacitor cell module - ZTT has been strongly pursuing products that serve energy conservation and low environmental load. ...
11-50 Employees
2010
Everything we do at Powermers Smart Industries, Inc. Our vision is a world where sustainable transportation and industrial equipment is the norm, empowering conscious choices for a healthier planet. We’re delivering tomorrow’s commercial transportation and industrial equipment, and surrounding it with an ecosystem of platform products and service offerings designed to help reduce greenhouse gas ("GHG") emissions and propel our planet towards a future of green-powered innovation.
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Powermers Carbon-Free Lithium-ion Batteries - Home
... Supercapacitors ...
Dongguan, China
51-100 Employees
1988
Currently, we not only possess quite a few automated production machines and automated testing machines but also have our own laboratory to test the performance and reliability of our products. Our yearly production of X and Y capacitors is over 3 billion, making us one of the top 10 manufacturers of safety capacitors in the Chinese industry. All of our employers keeps improving our production technology, product quality and customer services under the guidance of the "full participation, pursuit of zero defects, ensuring product safety” policy. We focus on complete mechanical applications in the field of power supplies, home appliances, defense, communications, motor, frequency converter and vehicle electronics, endeavoring to pursue perfect cooperation with our customers by providing "one-stop service" of ceramic capacitors, film capacitors, and varistors. A professional manufacturer with over 30-year experience in electronic components. Fully automated production equipment running 24 hours to guarantee delivery. Full range of products, over 10,000 models are available in stock. Providing services for 1000+ power supply manufacturing companies each year.
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graphene-supercapacitors - Search
... -supercapacitors - ...
Kongens Lyngby, Denmark
1-10 Employees
Established in 2016, MacroCaps emerged from a groundbreaking vision: to create a supercapacitor that far surpasses existing market standards. At MacroCaps, we believe in the power of innovation to drive positive change. At MacroCaps, we have developed state-of-the-art supercapacitor technology capable of delivering megawatts of energy within milliseconds. Our unique MacroCaps units can be serialized and/or connected in parallel within our self-developed custom-made rack systems and assembled into modular cabinet solutions. At MacroCaps, we focus on several areas, including:. MacroCaps supercapacitors are in the forefront of e-mobility development, offering fast charging capabilities. Utilizing MacroCaps' supercapacitors in elevators enhances energy efficiency, provides a regenerative braking system, ensures reliable emergency power and reduces reliance on the electrical grid. MacroCaps supercapacitor technology revolutionizes electrolysis applications, providing adaptability across various scales of green hydrogen production.
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MacroCaps Supercapacitor Technology
... MacroCaps Supercapacitor Technology Where stability, efficiency, and sustainability come together for a greener world Contact us Unique Applications At MacroCaps, we have developed state-of-the-art supercapacitor technology capable of delivering megawatts of energy within milliseconds. ...
China
51-100 Employees
Bidirectional current, 2 channels, touch screen, SOC/graph available, benchtop use, 2 channels DVM. Low voltage & high current, LCD screen, auto test, fuel cell test, LAN/CAN/RS232. As an electronic component for real-time monitoring, active balancing, and intelligent charge and discharge, battery management system (BMS) plays an important role in ensuring battery safety, prolonging life, estimating remaining power, and is an indispensable part of power and energy storage battery packs. All test equipment of the durability test system is developed by NGI. The system possesses excellent electronic characteristics such as low output ripple, fast response, low voltage drop, strong overload capacity, and etc. CC/CV priority selection, 4 channels, LCD screen, Sequence test, full protection. Up to 24 channels, LCD screen, SOC/graph available, fast communication response. Committed to the research and exploration of measurement and control solutions in related fields, such as information manufacturing, scientific experiments, education & research, etc.
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Supercapacitor Test Series
... Supercapacitor Test ...
Dubai, United Arab Emirates
251-500 Employees
2002
Zoxcell offers eco-friendly and innovative solutions for the wide range of applications. Zoxcell provides support for a wide variety of green energy technologies, including Solar & Renewable Energy, Off-Grid Solar Systems, providing power to telecom towers and data centers. Zoxcell components are at the forefront of countless products that are helping to ensure that both this generation and generations to come will benefit from cleaner, greener technologies designed to preserve and protect the environment. Zoxcell Supercapacitor batteries are known for their lifespan and durability. Unlike chemical batteries, Zoxcell Graphene Supercapacitors don't use liquid electrolytes to store energy. Zoxcell graphene supercapacitor addresses the weaknesses ingrained in chemical battery storage solutions - specifically, safety, longevity, and limited cycling capabilities. Zoxcell's state-of-art smart BMS system maintains optimized charging and discharging cycles for each cell in the module. Zoxcell, a product by Jolta Technology DMCC, is an advanced supercapacitors manufacturer and solid-state hybrid graphene supercapacitor battery innovator with over 5 years of experience in the design, development, and production of super capacitors.
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Clean Energy Graphene Supercapacitor Battery Solution
... Zoxcell | Graphene Supercapacitor Battery ...
Hatfield Township, United States
1-10 Employees
2017
Get the latest updates on new products and upcoming sales! The Conductor is the most comprehensive ground distribution block and ammeter available. The Conductor is the all-in-one ground distribution block and ammeter you need to keep your car's electrical system healthy. Be the first to know what new product we invented by signing up!
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Sparked Innovations white vinyl rectangular logo - Sparked Innovations
... Supercapacitors ...
Fountain Inn, United States
10001+ Employees
1972
KYOCERA AVX is a leading international manufacturer and supplier of a vast portfolio of advanced electronic components, including: capacitors, inductors, filters, resistors, couplers, diodes, and circuit protection devices, as well as a broad range of innovative sensor, control, connectors and antenna solutions. With 33 research, design, manufacturing, and customer support facilities in 16 countries around the world, KYOCERA AVX offers significant competitive advantages, including delivery and production capabilities optimized to suit each individual customer’s just-in-time inventory requirements, and global engineering teams experienced in developing new-to-market product solutions especially designed to fulfill customer’s unique application requirements. In the automotive sector, KYOCERA AVX actively contributes to the development of new safety, engine control, infotainment, and chassis control technologies. In the medical sector, advanced KYOCERA AVX products provide critical support for a wide range of implantable, life-supporting, treatment, imaging, and diagnostic devices, including pacemakers that regulate patients’ heartbeats, cochlear implants that provide audio input for the hearing-impaired, and diagnostic equipment that helps medical professionals identify and cure patients’ ailments. In the communications sector, our accomplished research and development (R&D) teams regularly anticipate needs and adapt and innovate products to support the explosive growth of next-generation technologies spanning smartphones and tablets to networks and datacenters.
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SuperCapacitors
... SuperCapacitors provide a unique combination of characteristics, particularly very high pulse power and capacitance densities. ...
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Kondensator Supercapacitor 2.7V 500 Farad
... Kondensator Supercapacitor 2.7V 500 ...
Grimes, United States
11-50 Employees
2003
By 2019, the CICUSA team had developed 5,000 wireless sites and more than 32,000 microwave links across North America. CICUSA began developing renewable infrastructure for the wireless industry in 2015, adding solar systems to CICUSA’s portfolio of services. In 2021, CICUSA shifted its entire focus to energy storage, microgrids and renewable energy, becoming one of the leaders in Supercapacitor energy storage implementation in North America. CICUSA is a leader in the design and installation of energy storage projects for backup power, solar, peak shaving and energy arbitrage using supercapacitor based storage systems. Founded in 2003 to provide wireless development services. AT&T began implementing Supercapacitor technology because of the significant benefits they offered in off grid sites. Energy storage is gaining tremendous focus from government and industry expanding CICUSA’s energy storage program. Since the first supercapacitor storage system for a wireless operator in North America, the CICUSA team is focused bringing innovative solutions to the energy industry, savings costs, increasing reliability and contributing to a cleaner world.
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Energy Storage – Supercapacitors
... Energy Storage – Supercapacitors - Communication Infrastructure ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Supercapacitor
Country with most fitting companies | United States |
Amount of fitting manufacturers | 96 |
Amount of suitable service providers | 65 |
Average amount of employees | 51-100 |
Oldest suiting company | 1972 |
Youngest suiting company | 2019 |
A supercapacitor, also known as an ultracapacitor or double-layer capacitor, distinguishes itself from conventional capacitors through its unique ability to store a significantly larger amount of electrical charge. This characteristic is primarily attributed to its distinct construction, which employs electrodes with a much larger surface area and a separation distance between them that is significantly smaller than in traditional capacitors. This design is facilitated by the use of porous materials for the electrodes and the incorporation of an electrolyte that can be either aqueous or organic, enabling the formation of an electric double layer at the interface between the electrode and the electrolyte. This double layer acts as a dielectric, even though it is much thinner than those in conventional capacitors, allowing supercapacitors to achieve their high capacitance values. Due to these properties, supercapacitors bridge the gap between electrolytic capacitors and rechargeable batteries, offering a combination of rapid charging and discharging capabilities, along with a higher power density than batteries. This makes them particularly valuable in applications requiring quick bursts of power, such as in regenerative braking systems in electric vehicles, power stabilization in electrical grids, and in providing peak power assistance in portable electronics. Their impact within these fields is profound, as they contribute to the advancement of energy storage solutions, enhancing efficiency and sustainability in energy utilization and management.
1. High Power Density
: Supercapacitors excel in delivering quick bursts of energy thanks to their high power density. This makes them ideal for applications requiring immediate power supply, such as in regenerative braking systems in electric vehicles.
2. Longevity
: Unlike traditional batteries, supercapacitors boast an exceptional lifespan, with the ability to endure millions of charge and discharge cycles without significant degradation. This longevity reduces the need for frequent replacements, offering both economic and environmental benefits.
3. Fast Charging and Discharging
: Supercapacitors can be charged and discharged at a much faster rate compared to batteries. This rapid charge-discharge capability ensures that devices and machinery can operate more efficiently and with less downtime, making supercapacitors a valuable asset for power management in a wide range of applications.
4. Wide Operating Temperature Range
: Supercapacitors maintain performance across a broader range of temperatures than many battery technologies. This resilience makes them particularly suitable for use in extreme conditions, from the cold reaches of space to the sweltering heat of industrial environments.
While evaluating the different suppliers make sure to check the following criteria:
1. Quality Certifications
Ensure the supplier has relevant quality certifications such as ISO 9001, indicating they adhere to high manufacturing standards.
2. Product Range
Look for suppliers offering a wide range of supercapacitors to ensure they can meet your specific application requirements.
3. Customization Capabilities
Determine if the supplier can provide custom supercapacitor solutions tailored to your project's needs.
4. Technical Support
Evaluate the supplier's ability to offer technical support and guidance throughout the product selection and integration process.
5. Lead Times
Consider the supplier's lead times for delivery to ensure they align with your project timelines.
6. Cost Effectiveness
Assess the cost-effectiveness of their offerings, balancing quality and price to fit your budget.
7. Reputation and Reviews
Research the supplier's reputation in the market, including customer reviews and case studies, to gauge reliability and customer satisfaction.
8. Environmental Compliance
Verify that the supplier's products comply with environmental regulations relevant to your industry and region.
Supercapacitors, known for their rapid charging capabilities and longevity, serve pivotal roles across various industries. In the realm of renewable energy, they are indispensable for stabilizing power supply from sources like solar and wind, which are inherently intermittent. By swiftly absorbing excess energy and discharging it during demand spikes, supercapacitors ensure a consistent power output, enhancing the reliability of green energy solutions. In the automotive sector, particularly within electric vehicles (EVs), supercapacitors complement lithium-ion batteries by managing peak power demands during acceleration and regenerative braking. This synergy not only extends the life of the main battery but also improves vehicle performance, making supercapacitors a critical component in the push towards more efficient and durable electric transportation. Telecommunications infrastructure benefits significantly from supercapacitors, especially in power backup systems. They provide a reliable short-term power source during outages, ensuring uninterrupted service. This is crucial in maintaining the operational integrity of networks, including cell towers and data centers, where even brief power interruptions can lead to significant data loss or service disruptions. Lastly, in the industrial sector, supercapacitors are employed in power conditioning and bridging power gaps. Their ability to quickly charge and discharge makes them ideal for smoothing out power fluctuations and providing temporary power during transitions, thereby protecting sensitive equipment and ensuring continuity in manufacturing processes and other high-demand industrial applications.
Supercapacitors, also known as ultracapacitors, are at a Technology Readiness Level (TRL) that varies between 7 and 9, depending on their specific applications and advancements in material science. This assessment reflects their transition from prototypes demonstrated in operational environments (TRL 7) to actual systems proven in operational environments and ready for full commercial deployment (TRL 9). The reason for this range in TRL is primarily due to the significant improvements in electrode materials and electrolyte solutions that have enhanced their energy density, power density, and cycle life. Innovations such as the integration of graphene and carbon nanotubes have substantially increased the surface area of electrodes, thereby improving the energy storage capacity of supercapacitors. Moreover, advancements in electrolyte compositions have led to higher ionic conductivity and lower resistance, further enhancing their performance. These technical advancements have propelled supercapacitors into a more competitive position relative to traditional batteries in certain applications, such as for rapid charge-discharge cycles in renewable energy systems, backup power, and regenerative braking systems in electric vehicles. However, the full realization of their potential across all intended applications is dependent on overcoming existing challenges related to energy density, scalability, and cost, which is why the TRL may vary as research and development continue.
In the Short-Term, advancements in supercapacitor technology are expected to focus on increasing energy density while maintaining fast charging capabilities. Researchers are exploring novel electrode materials, such as graphene and carbon nanotubes, which promise to enhance the energy storage capacity without compromising the power output. This phase is likely to see the integration of supercapacitors in small-scale electronic devices and automotive start-stop systems, providing a significant boost in efficiency and durability compared to current solutions. Mid-Term developments aim to bridge the gap between supercapacitors and batteries by achieving higher energy densities comparable to lower-end lithium-ion batteries while retaining superior charge/discharge rates. Innovations such as hybrid supercapacitors, which combine the high energy storage of batteries with the rapid charging of supercapacitors, will become more prevalent. These advancements will enable broader applications, including more significant roles in electric vehicle power systems and renewable energy storage, where quick energy release and high-cycle durability are crucial. In the Long-Term, the focus will shift towards fully unlocking the potential of supercapacitors in large-scale energy storage and transportation sectors. Breakthroughs in materials science and nanotechnology are expected to lead to supercapacitors with energy densities rivaling those of high-end batteries, while still maintaining their hallmark charging speeds and cycle life. This era will witness supercapacitors playing pivotal roles in stabilizing the grid with renewable energy sources and powering electric vehicles over longer distances, marking a significant leap towards sustainable and efficient energy storage solutions.