Register {{ baseUserInfo.curr_enterprise_name }}
Quick publish
{{ notificationData.all_count > 99 ? 99 : notificationData.all_count }}
{{ website.name }}
{{ language.label }}
Congratulations

View Now
Congratulations

Go publish
Farasis Energy Leads Global Power Battery Innovation with SPS (Super Pouch Solution)
1 Last year
3,659
167
0
Comment area

GANZHOU, ChinaDec. 8, 2023 /PRNewswire/ -- In the rapidly advancing electric vehicle (EV) era, the demand for power batteries, a crucial component of EVs, has seen a significant surge. From January to October 2023, the global installation of power batteries reached a staggering 225GWh, marking a 116.1% increase compared to the previous year. In response to the growing demands for enhanced battery performance, including aspects such as fast charging, cost-effectiveness, extended range, lightweight solutions, and safety, leading battery manufacturers are constantly innovating and introducing new products.

Standing at the vanguard of future EV requirements, Farasis Energy, a global leader in lithium-ion power batteries for new energy vehicles and energy storage systems, showcases several latest innovations, including the Super Pouch Solution (SPS), eVTOL battery technology, high-performance battery system solutions for electric motorcycles, as well as portable power stations, at the first China International Supply Chain Expo (CISCE) 2023.

The Super Pouch Solution (SPS)The Super Pouch Solution (SPS)

SPS is designed to optimize charging efficiency, reduce costs, enhance performance, and adapt to various EV models. This ground-breaking solution integrates four key technologies: large-format pouch cells, integrated battery systems, cutting-edge manufacturing processes and efficient direct recycling.

Key Highlights of the SPS

  • High Energy Density: The SPS system offers an impressive energy density exceeding 220Wh/kg. This exceptional density allows for a driving range of over 1.000km. Its unique non-modular horizontal layout enables a more than 30% increase in energy density compared to conventional modular systems within the same volume.
  • Advanced Cell Technology: Utilizing lightweight aluminum plastic film encapsulation and an advanced stacking process. SPS cells outperform traditional prismatic and cylindrical batteries in energy density by over 10% for the same-sized cells.
  • Rapid Charging and Discharging Capabilities: With Farasis Energy's 800VTC (Turbo Charge) technology, SPS supports charging and discharging rates from 2C to 6C and above. This feature allows various EV models to achieve rapid charging, offering up to 400km of range in just 10 minutes, whiles also maintaining high efficiency during energy release.
  • Innovative Lightweight Design: Integrating semi-solid large-format pouch cells directly into the system chassis, alongside a high-efficiency liquid cooling plate, SPS achieves a 75% volume utilization and reduces component count by half. This results in a system that's 20-30kg lighter than traditional battery systems, providing a blend of lightweight efficiency and robust performance.
  • Enhanced Safety: SPS incorporates a safe chemical system, secure stacking design for pouch cells, proprietary phase change materials, superior thermal management, and an AI-driven BMS for comprehensive safety management. These innovations quadruple heat dissipation efficiency and extend the battery's life cycle to over 3,000 cycles. Even in high-nickel content cells, SPS prevents thermal propagation in the event of thermal runaway in individual cells.
  • Cost Efficiency: The SPS's design dramatically reduces the need for auxiliary materials and eliminates modularization, leading to a 33% reduction in material costs. The production line is compatible with various chemical systems, including liquid, semi-solid, and solid-state batteries, meeting the diverse, long-term needs of automotive manufactures. Additionally, the system offers customizable sizing, with the flexibility to adjust the thickness of the horizontal pouch cells from 85mm to 145mm. This adaptability enables battery system capacities ranging from 80kWh to 150kWh, making the SPS suitable for all vehicle types on a single chassis, thereby assisting automakers in shortening the R&D cycle for new models, reducing procurement costs, and ensuring a stable supply.
  • Low-Carbon Intelligent Manufacturing: Embracing smart technology, digitization, automation, and sustainability, SPS achieves a remarkable electrode stacking speed of 0.125 seconds per electrode. Over 1,200 robots contribute to an automation rate of 98.5%, ensuring that products consistently meet PPB quality standards.

Farasis Energy's SPS sets a new benchmark in global power battery innovation. Since its introduction, the solution has been favored by leading automakers worldwide. The power battery sector is witnessing a plethora of technical approaches and innovative technologies, with the ultimate goal of finding the optimal balance of cost, safety, and performance for various usage scenarios. As the Battery Electric Vehicle (BEV) market stabilizes and automakers focus on improving charging efficiency, innovative solutions like the SPS are ushering in a new era brimming with opportunities.

Source: Farasis Energy
Share
Collection
Collected
Give the thumbs-up
Liked
The content is the author's independent opinion, does not represent the position of Matchexpo, and cannot be reproduced without permission
0
Advertising
Matchexpo is an exhibition community platform for event & fair community in China, serving the essential functions of exhibitions, events, fairs, assisting ticket sales, visitor registration and booth reservation, allowing organizers to create, share, find and participate in activities, creating community space for organizers and exhibitors, finding their partners and helping them expand
Follow official account
Online support
Matchexpo: Event Marketing Platform International - Chinese Traditional - Chinese Simplified
| Matchpages Web Builder | Starify omni-Channel Chatbot
Modify certification Certification fee Certification method Certification conditions Certification naming Certification introduction