What is Coin-Cell Supercapacitors(Ultra capacitor)
Introduction of Coin-Cell Supercapacitors(Ultra capacitor)
Supercapacitors, these compact yet remarkably powerful electronic components, play an indispensable role in modern technology. Despite their small size, measuring just a few millimeters, they boast performance that rivals that of larger batteries. Supercapacitors are a shining gem in the realm of electronics, leading the charge with their outstanding energy storage capabilities, lightning-fast charging speeds, and remarkable durability, reshaping the future of energy storage and transmission.
As we step into an era marked by digitization and electrification, the demand for efficient energy storage has become increasingly urgent. This article aims to unveil the marvels of coin-type supercapacitors, from their basic information to potential application areas, and how they differ from traditional batteries. Whether you are a professional in the electronics field or simply intrigued by future energy technologies, this article will provide you with fresh insights and guide you into the wondrous world of supercapacitors.

Product Features of Coin-Cell Supercapacitors(Ultra capacitor)
In this section, we will enumerate the key features and advantages of coin-type supercapacitors, including their high capacitance density, rapid charge-discharge capabilities, and extended lifespan. We will also delve into the significance and benefits of each feature.
Main Features and Advantages
Coin-type supercapacitors offer a range of compelling features and benefits that set them apart in the world of energy storage:
1. High Capacitance Density: Coin-type supercapacitors are renowned for their exceptional capacitance density. This means they can store a significant amount of electrical energy in a relatively small and lightweight package. The significance lies in their ability to provide high energy density, making them ideal for applications that require bursts of power or energy backup. This feature ensures efficient space utilization in electronic devices and systems.
2. Rapid Charge-Discharge: One of the standout features of coin-type supercapacitors is their lightning-fast charge and discharge rates. They can deliver or absorb energy nearly instantaneously, which is crucial for applications where rapid power delivery is essential. This attribute finds utility in regenerative braking systems, peak power support, and other scenarios where quick energy transfer is critical.
3. Extended Lifespan: Coin-type supercapacitors exhibit a significantly longer operational lifespan compared to traditional batteries. They can withstand hundreds of thousands of charge-discharge cycles without experiencing a substantial decrease in performance. This extended lifespan translates into reduced maintenance costs, longer product lifecycles, and enhanced overall reliability. It's particularly valuable in applications where frequent charging and discharging are required.
4. Low Equivalent Series Resistance (ESR): Coin-type supercapacitors typically feature low ESR, which means minimal energy losses during charge and discharge cycles. This low internal resistance contributes to their efficiency and ability to deliver power effectively. In applications where minimizing energy wastage is crucial, such as electric vehicles or renewable energy systems, low ESR is a significant advantage.
5. Wide Operating Temperature Range: Many coin-type supercapacitors are designed to operate over a broad temperature range. This adaptability allows them to function reliably in extreme environmental conditions, making them suitable for applications in both hot and cold climates.
6. Maintenance-Free: Unlike some other energy storage solutions, coin-type supercapacitors require minimal to no maintenance throughout their operational life. This feature reduces the total cost of ownership and ensures hassle-free integration into various systems.
The combination of these features makes coin-type supercapacitors a preferred choice in diverse industries, from consumer electronics to automotive and industrial applications. Their high energy density, rapid response, durability, and low maintenance requirements make them a versatile and efficient energy storage solution. In the following sections, we will explore how these features translate into real-world advantages across different application domains.
Application Guidelines of Coin-Cell Supercapacitors(Ultra capacitor)
Coin-Type Supercapacitors find versatile applications across various industries due to their unique characteristics. These include:
1. Consumer Electronics: They serve as backup power sources for real-time clock circuits, ensuring accurate timekeeping during power interruptions in devices like laptops and digital cameras.
2. Automotive Industry: Supercapacitors are used in regenerative braking systems, capturing and storing energy during braking to enhance fuel efficiency in traditional vehicles and extend battery life in electric and hybrid vehicles.
3. Wearable Electronics: Their compact size and rapid energy discharge make them ideal for wearable devices like smartwatches and fitness trackers, where they ensure longer usage time between charges.
4. Renewable Energy: Supercapacitors help manage fluctuations in energy production from renewable sources like solar panels and wind turbines, improving energy efficiency and grid stability.
5. Industrial Automation: They provide rapid bursts of energy for automation systems, enabling smoother operations and reducing peak power demands.
6. Aerospace and Space Exploration: Supercapacitors are crucial for providing power to critical systems in spacecraft and satellites due to their reliability and ability to function in extreme conditions.
7. IoT Devices: In the Internet of Things (IoT), supercapacitors store energy from various sources, ensuring continuous operation of remote sensors and devices.
8. Emergency Lighting: They power emergency lighting systems, ensuring illumination during power outages in public buildings and commercial spaces.
9. Medical Devices: Coin-Type Supercapacitors offer reliable backup power for critical medical devices such as pacemakers and defibrillators, ensuring uninterrupted functionality.
10. Smart meters:Coin-Type Supercapacitors serve as valuable components in smart meters to provide power backup and ensure the uninterrupted operation of critical functions. They are particularly useful for retaining essential data and enabling data transmission during power outages or disruptions, enhancing the reliability and functionality of smart meters. Their high power density, rapid charge-discharge capabilities, and extended lifespan make them well-suited for this application, where dependable power backup is crucial to maintain accurate energy monitoring and data communication.
These applications demonstrate the adaptability of Coin-Type Supercapacitors in meeting diverse energy storage needs, from enhancing energy efficiency in vehicles to powering critical systems in space exploration. Their high power density, rapid charging capabilities, and reliability make them an essential component in a wide array of technologies and industries.
Common Application of Coin-Cell Supercapacitors(Ultra capacitor)
Coin-type supercapacitors have gained widespread popularity due to their unique characteristics. They find applications in various domains, including but not limited to:
Electronics: Coin-type supercapacitors are commonly used in electronic devices for power backup, such as maintaining data during power interruptions or providing a burst of energy for peak power demands.
Automotive Industry: Supercapacitors play a critical role in regenerative braking systems, where they capture and store energy during braking and release it for acceleration, improving overall vehicle efficiency.
Wearable Devices: The compact size and rapid energy discharge make coin-type supercapacitors suitable for wearable electronics, enhancing the lifespan and functionality of devices like smartwatches and fitness trackers.
Renewable Energy: In renewable energy systems, supercapacitors can act as energy buffers to manage fluctuations in power generation from sources like solar panels or wind turbines.
Portable Electronics: They are utilized in applications such as emergency flashlights and portable radios, where they provide quick energy boosts.
The versatility of coin-type supercapacitors makes them indispensable in numerous applications, offering a compelling solution for high-power and fast energy transfer needs. In the following sections, we will delve deeper into the specific features and advantages that make coin-type supercapacitors stand out in these domains.
Installation and Maintenance Recommendations of Coin-Cell Supercapacitors(Ultra capacitor)
Proper installation and maintenance are essential for maximizing the performance and lifespan of coin-type supercapacitors. Here are some guidelines:
1. Mounting: Follow the manufacturer's recommendations for mounting the supercapacitor. Ensure secure and stable placement within your device or system.
2. Voltage Limitation: Avoid subjecting the supercapacitor to voltage levels beyond its rated capacity. Overvoltage can lead to permanent damage.
3. Temperature Control: If possible, maintain the operating temperature within the specified range to ensure optimal performance. Implement thermal management solutions if needed.
4. Charge and Discharge Control: Implement charge and discharge control circuits, especially if your application involves high-current or rapid cycling. This can help prevent voltage spikes and extend the supercapacitor's lifespan.
5. Periodic Inspection: Regularly inspect supercapacitors for physical damage, leakage, or other signs of deterioration. Replace any damaged or aging components promptly.
6. Safety: Follow safety guidelines when handling supercapacitors, especially during maintenance or replacement. Be aware of potential electrical hazards.
By carefully considering these selection criteria and following proper installation and maintenance practices, you can ensure that coin-type supercapacitors perform reliably and efficiently in your specific application.
Quality and Reliability of Coin-Cell Supercapacitors(Ultra capacitor)
In this section, we will discuss the quality control processes and reliability testing procedures applied to coin-type supercapacitors. We will emphasize the extended lifespan and stability of these products.
Quality Control Processes, Coin-type supercapacitors undergo stringent quality control processes to ensure their reliability and performance consistency:
1. Materials Selection: High-quality materials are carefully chosen for electrodes, electrolytes, and other components. The quality of these materials significantly impacts the supercapacitor's long-term performance.
2. Manufacturing Standards: Manufacturers adhere to strict manufacturing standards and guidelines throughout the production process. This includes precise electrode fabrication, controlled electrolyte deposition, and meticulous assembly.
3. Testing and Inspection: Supercapacitors are subject to comprehensive testing and inspection at various stages of production. This includes capacitance verification, leakage current measurement, and internal resistance assessment.
Reliability Testing Procedures, to guarantee the reliability of coin-type supercapacitors, they undergo a series of rigorous tests:
1. Endurance Testing: Supercapacitors are subjected to thousands of charge-discharge cycles under controlled conditions to evaluate their performance over time. This helps ensure that they maintain their specified capacitance and internal resistance throughout their operational life.
2. Temperature Testing: Supercapacitors are exposed to extreme temperature variations to assess their functionality under adverse environmental conditions. This is crucial for applications with temperature-sensitive requirements.
3. Vibration and Shock Testing: Supercapacitors may be subjected to vibration and shock tests to mimic real-world operating conditions, such as those experienced in automotive applications.
4. Voltage Testing: Voltage endurance tests verify the supercapacitor's ability to withstand voltage levels near or above its rated voltage without failing or exhibiting safety risks.
5. Aging and Shelf-Life Testing: Aging tests simulate long-term storage conditions, ensuring that the supercapacitor retains its performance characteristics even after extended periods of inactivity.
Extended Lifespan and Stability of Coin-Cell Supercapacitors(Ultra capacitor)
Coin-type supercapacitors are designed to offer an extended operational lifespan and stability that surpass traditional energy storage solutions. Their characteristics include:
Longevity: Supercapacitors can endure hundreds of thousands of charge-discharge cycles without significant degradation, leading to extended product lifecycles.
Stability: The capacitance and internal resistance of supercapacitors remain consistent over time, ensuring predictable and stable performance throughout their service life.
Low Self-Discharge: Coin-type supercapacitors exhibit low self-discharge rates, allowing them to retain stored energy for extended periods without significant losses.
The commitment to quality control, reliability testing, and the inherent features of coin-type supercapacitors make them a dependable choice for applications demanding prolonged and consistent performance. These qualities ensure that supercapacitors contribute to the efficiency and longevity of various electronic and industrial systems.
Environmental Sustainability of Coin-Cell Supercapacitors(Ultra capacitor)
Coin-Type Supercapacitors exhibit a strong commitment to environmental sustainability. Their eco-friendly characteristics are notable in several aspects:
Recyclability: Coin-Type Supercapacitors are designed with recyclability in mind. The materials used, including metals and plastics, can often be efficiently recycled, reducing waste and conserving valuable resources.
Low Hazardous Substances: Manufacturers adhere to strict regulations regarding hazardous substances, ensuring that these supercapacitors contain minimal or no toxic materials. This enhances safety for users and minimizes environmental harm.
Reduced Waste: Coin-Type Supercapacitors have an extended operational lifespan and can endure numerous charge-discharge cycles. This longevity reduces the frequency of disposal and replacement, resulting in less electronic waste and a smaller environmental footprint.
Energy Efficiency: Their rapid charge and discharge capabilities make them energy-efficient, reducing overall power demands and contributing to lower greenhouse gas emissions.
Renewable Integration: Coin-Type Supercapacitors facilitate the integration of renewable energy sources by efficiently storing excess energy, promoting cleaner energy generation, and reducing reliance on fossil fuels.
These environmental attributes align with global sustainability goals, making Coin-Type Supercapacitors a responsible choice for energy storage across various applications. Their role in promoting a cleaner, greener, and more efficient future underscores their significance in environmentally conscious technological advancement.
Related reading:Application of Supercapacitors in Smart Meters
Future Development Trends of Coin-Cell Supercapacitors(Ultra capacitor)
The future of Coin-Type Supercapacitors promises exciting advancements driven by innovation, materials science, and expanding application areas.
Advanced Materials: Incorporating materials like graphene and carbon nanotubes will remain pivotal. These substances offer exceptionally high specific surface areas, boosting capacitance and energy density. Researchers are also exploring hybrid materials and novel electrode architectures.
Enhanced Energy Density: Increasing energy density is a priority, making supercapacitors more competitive with traditional batteries. Researchers focus on advanced electrode materials and innovative electrolytes to bridge this gap.
Fast Charging: Rapid charging will continue to be a key trend, enabling supercapacitors to serve applications requiring quick energy replenishment efficiently.
Miniaturization and Wearables: The miniaturization of electronics and the rise of wearables will drive demand for compact energy storage solutions, where coin-type supercapacitors excel.
Sustainability: Supercapacitors' recyclability and low environmental impact align with sustainability goals, driving the development of greener production processes and materials.
Renewable Integration: Supercapacitors will play a pivotal role in managing energy fluctuations in renewable energy systems, ensuring grid stability.
Transportation: In electric vehicles and autonomous transportation, supercapacitors will improve energy efficiency through rapid energy storage and discharge during regenerative braking.
These trends will collectively propel Coin-Type Supercapacitors into new frontiers, offering high-performance energy storage solutions for an array of applications in an increasingly electrified and sustainable future.
UF Capacitors was established since 1995, as one of the professional China super capacitors manufacturer and China capacitors factory, we are strong in complete management, strict quality control system, and excellent sales service. Our marketing position is to replace Eaton,Elna, Panasonic, Cornell Dubilier, etc with better price and faster lead time. We have been supplying to famous international companies like GE, Philips, Honeywell, Bosch and so on.
UF capacitors produce 2 series:
TSE series: Temp range from -25℃~+70℃ & -40℃~+70℃
THT series: Temp range from -25℃~+85℃ & 40℃~+85℃
Super capacitor |
Photo |
UF Capacitors |
Eaton |
ELNA |
Panasonic |
Cornell Dubilier |
 |
TSE series
THT series
|
KR series
|
DSK
series
SG
Series
EDC Series
|
SG
Series
EEC Series
|
EDC Series
EDS Series
|
Here below the fast running Part number list from UF capacitors.
TSE(*)5R5104(*)V000
|
THT(*)3R6104(*)V000
|
THT(*)5R5104(*)V000
|
TSE(*)5R5224(*)V000
|
THT(*)3R6224(*)V000
|
THT(*)5R5224(*)V000
|
TSE(*)5R5334(*)V000
|
THT(*)3R6334(*)V000
|
THT(*)5R5334(*)V000
|
TSE(*)5R5474(*)V000
|
THT(*)3R6474(*)V000
|
THT(*)5R5474(*)V000
|
TSE(*)5R5105(*)V000
|
THT(*)3R6105(*)V000
|
THT(*)5R5105(*)V000
|
TSE(*)5R5155(*)V000
|
THT(*)3R6155(*)V000
|
THT(*)5R5155(*)V000
|
TSE(*)5R5104(*)H000
|
THT(*)3R6104(*)H000
|
THT(*)5R5104(*)H000
|
TSE(*)5R5224(*)H000
|
THT(*)3R6224(*)H000
|
THT(*)5R5224(*)H000
|
TSE(*)5R5334(*)H000
|
THT(*)3R6334(*)H000
|
THT(*)5R5334(*)H000
|
TSE(*)5R5474(*)H000
|
THT(*)3R6474(*)H000
|
THT(*)5R5474(*)H000
|
TSE(*)5R5105(*)H000
|
THT(*)3R6105(*)H000
|
THT(*)5R5105(*)H000
|
TSE(*)5R5155(*)H000
|
THT(*)3R6155(*)H000
|
THT(*)5R5155(*)H000
|
TSE(*)5R5104(*)C000
|
THT(*)3R6104(*)C000
|
THT(*)5R5104(*)C000
|
TSE(*)5R5224(*)C000
|
THT(*)3R6224(*)C000
|
THT(*)5R5224(*)C000
|
TSE(*)5R5334(*)C000
|
THT(*)3R6334(*)C000
|
THT(*)5R5334(*)C000
|
TSE(*)5R5474(*)C000
|
THT(*)3R6474(*)C000
|
THT(*)5R5474(*)C000
|
TSE(*)5R5105(*)C000
|
THT(*)3R6105(*)C000
|
THT(*)5R5105(*)C000
|
TSE(*)5R5155(*)C000
|
THT(*)3R6155(*)C000
|
THT(*)5R5155(*)C000
|