Power Capacitor Solution: Parallel Supercapacitor High-Power-Density Energy Storage System

This solution leverages parallel supercapacitor technology to deliver highly reliable, long-lifespan energy storage support for applications requiring instantaneous high-power output and rapid energy transfer.

Ⅰ. Technical Principles & Core Value

• ​Parallel Capacity Expansion: By connecting multiple supercapacitor cells in parallel, the system’s total capacity (Farad value) and peak current output capability are multiplied.
• ​High-Power Discharge: Low internal resistance enables instantaneous current release ranging from hundreds to thousands of amperes, meeting ultra-high power density requirements.
• ​Rapid Charge-Discharge Cycles: Millisecond-level response speed with >95% charge-discharge efficiency, suitable for frequent pulse operations.

Ⅱ. Typical Application Scenarios

Ⅲ. Key Technical Implementation

1. ​Voltage Balancing Management (Core Component)​​
• Deploys active voltage balancing circuits to monitor cell voltages in real time
• Controls inter-cell voltage deviation within ±50mV via energy transfer/dissipation
• Eliminates overvoltage risks from parametric variations, extending system lifespan by >30%
2. ​Intelligent Thermal Management​
• Networked temperature sensors with air/liquid cooling systems
• Auto power reduction strategy (>65°C trigger) prevents thermal runaway
3. ​Safety Redundancy Design​
• N+1 capacitor module redundancy architecture
• Triple protection: overvoltage/over-temperature/overcurrent
• Flame-retardant enclosure (UL94 V-0 standard)

Ⅳ. Solution Advantages

• ​Power Density: 10-100× higher than lithium batteries
• ​Cycle Life: >1 million cycles (at 25°C)
• ​Temperature Range: Operates at -40°C~+65°C
• ​Maintenance: Maintenance-free design, 20-year service life