The Hybrid Power Source System (HPSS) is an innovative dual-mode power solution that combines the advantages of supercapacitors and solid-state batteries, offering users an efficient, durable, and rapid-response energy supply. HPSS applies to multiple fields, including industrial automation equipment, electric vehicles, renewable energy storage systems, and portable electronic devices, demonstrating its broad applicability and flexibility across various application scenarios.

混合动力电源系统（Hybrid Power Source System, HPSS）是一种创新的双模式电源解决方案，它将超级电容器与固态电池的优势相结合，为用户提供了一种高效、持久且快速响应的能量供应方式。HPSS适用于多个领域，包括工业自动化设备、电动汽车、可再生能源存储系统以及便携式电子设备等，展示了其在不同应用场景中的广泛适用性和灵活性。

技术特性 / Technical Characteristics

Supercapacitor Module

Suitable for scenarios requiring instantaneous high current output, such as starting and acceleration.

Capable of rapid charging and discharging, completing energy exchange in extremely short periods.

Long cycle life, reaching over hundreds of thousands of cycles, with low maintenance costs.

Solid-State Battery Module

Provides higher energy density as the main energy storage unit.

Safer than traditional lithium-ion batteries, less prone to thermal runaway.

Supports fast-charging technology and has a longer service life.

Wide Temperature Range Adaptability

The system maintains stable operation under extreme temperature conditions, supporting environments from -40°C to 65°C, making it especially suitable for applications in cold or hot regions.

Power Retention Rescue Mode

In the event of complete discharge, a portion of reserve energy remains, which can be manually triggered to provide limited output capacity, assisting loads in escaping dangerous situations.

超级电容器模块

适用于需要瞬时大电流输出的场景，如启动和加速。

快速充放电能力，能够在极短时间内完成能量交换。

循环寿命长，可达数十万次以上，具有低维护成本的特点。

固态电池模块

提供更高的能量密度作为主要的能量存储单元。

比传统锂离子电池更安全，不易发生热失控。

支持快充技术，并拥有较长的使用寿命。

宽温域适应性

系统可在极端温度条件下保持稳定工作，支持从-40℃至65℃的工作环境，特别适合寒冷或炎热地区的应用。

保电拯救模式

在完全放电的情况下仍能保留一部分备用能量，通过手动操作触发以提供有限的输出能力，帮助负载脱离危险状况。

运作机制 / Operating Mechanism

HPSS employs an Intelligent Energy Management System (IEMS) to coordinate the energy distribution between the supercapacitor and solid-state battery modules. When high-power output is required by the load, the supercapacitor first provides peak power; during continuous power supply or charging processes, the solid-state battery takes on the primary task. This design ensures overall system efficiency and extends the service life of the battery components.

HPSS利用智能能量管理系统（Intelligent Energy Management System, IEMS）来协调超级电容器与固态电池之间的能量分配。当负载需要高功率输出时，超级电容器首先提供峰值功率；而在持续供电或充电过程中，则由固态电池承担主要任务。这种设计确保了系统的整体效率，并延长了电池组件的使用寿命。

应用场景 / Application Scenarios

Fuel Vehicle Starting System

Supercapacitors can instantly provide the necessary high starting current, aiding in smooth engine startup while reducing reliance on traditional lead-acid batteries and extending their lifespan.

Agricultural and Engineering Machinery Start-up

For large machinery, HPSS can quickly respond and provide sufficient start-up energy, ensuring good start-up performance even in harsh environments.

Renewable Energy Storage

It helps rapidly absorb excess electricity, enhancing grid stability and smoothing out intermittent energy supply.

Industrial Automation

Ensures stable operation of production lines during sudden power outages, minimizing machine damage caused by power fluctuations.

Consumer Electronics

Offers fast-charging capabilities, reducing user wait times, and enhancing the endurance of portable devices.

燃油车启动系统

超级电容器可以在瞬间提供所需的高启动电流，帮助发动机平稳启动，同时减少对传统铅酸电池的依赖，延长其使用寿命。

农业及工程机械启动

对于大型机械设备而言，HPSS可以迅速响应并提供足够的启动能量，即使在恶劣环境下也能保证良好的启动性能。

可再生能源储存

有助于快速吸收过剩电力，提高电网稳定性，平滑间歇性能源供应。

工业自动化

确保生产线在突发断电情况下稳定运行，降低因电源波动造成的机器损坏风险。

消费电子产品

提供快速充电功能，缩短用户等待时间，同时提升便携设备的续航能力。

总结 / Summary

HPSS, with its unique dual-module design, not only meets the modern industry’s demand for reliable and efficient energy but also showcases significant potential in the field of green energy. As technology advances and market demands grow, HPSS is expected to become a critical driving force on the path to future sustainable development. All the technologies mentioned above have been patented, reflecting our leadership in technological.

HPSS凭借其独特的双模块设计，不仅满足了现代工业对可靠、高效能源的需求，还展示了在绿色能源领域的巨大潜力。随着技术的进步和市场需求的增长，HPSS有望成为未来可持续发展道路上的重要推动力量。所有上述提到的技术均已获得专利保护，体现了我们在技术创新上的领先地位。