Designed for low-speed electric mobility and autonomous systems, the HESC (Hybrid Energy Supercapacitor) module integrates seven core advantages: high energy density, high power output, ultra-low internal resistance, ultra-long cycle life, excellent safety, wide operating temperature range, and environmental friendliness. This makes it an ideal power source for scenarios requiring frequent charging, stable performance, and long-term reliability, including low-speed driverless vehicles, sightseeing cars, golf carts, mobile robots (AGV), logistics vehicles, and electric bicycles.
Dual Excellence in Energy and Power
With a stored energy of up to 4.2 KWh (72V version) and a maximum working current of 600A (sustained for 20 seconds), the module balances high energy density with strong instantaneous power. This enables:
Extended range for low-speed vehicles (e.g., golf carts achieve 80-100 km per charge)
Rapid acceleration and load capacity for logistics vehicles (e.g., AGVs carrying 500kg+ loads climb 15° ramps smoothly)
Ultra-Low Internal Resistance for Efficient Power Delivery
Boasting AC internal resistance ≤5mΩ and DC internal resistance ≤8mΩ (@25℃), the module minimizes energy loss during high-current discharge. This ensures:
Stable voltage output even under peak load (e.g., sightseeing cars with 10 passengers maintain consistent speed)
Reduced heat generation, eliminating the need for complex cooling systems in compact equipment like electric bicycles
Industry-Leading Cycle Life
With 50,000-80,000 charge-discharge cycles (depending on voltage range), the module far outlasts traditional lead-acid batteries (500-1,000 cycles) and lithium-ion batteries (1,000-3,000 cycles). For equipment with daily charging (1-2 cycles), it delivers a service life of 70-200 years, matching the operational lifespan of the vehicle/device itself and eliminating replacement costs.
Rapid Charging with Universal Compatibility
Supporting a standard charging current of 200A via national standard charging piles, the module reaches full charge in just 20-30 minutes—revolutionizing operational efficiency:
Logistics AGVs in warehouses reduce downtime by 80% compared to lithium battery systems
Electric bicycles achieve "refuel-like" convenience, charging while users take a short break
Extreme Environment Adaptability
Operating reliably across -40℃ to 65℃ and storing safely from -20℃ to 45℃, the module excels in harsh conditions:
Low-speed driverless vehicles in cold regions (e.g., northern China winter) start instantly without performance loss
Golf carts in desert resorts maintain power output at 60℃ without overheating
Intrinsic Safety and Environmental Friendliness
Constructed with aluminum, carbon, and nickel (no heavy metals), the module uses physical charge-discharge reactions, eliminating risks of combustion, explosion, or toxic leakage—critical for:
Indoor AGVs in factories and malls (no fire hazard)
Eco-tourism sightseeing cars (zero pollution, aligning with green travel initiatives)
| Parameter | 72V Version | 48V Version |
|---|
Static Capacitance | 8330F/70Ah | 8330F/70Ah |
Nominal Capacity | ≥70Ah (45-75.6V) | ≥70Ah (37.5-60V) |
Module Configuration | 18S10P (Cell: HESC 4.2V/15000F) | 15S11P (Cell: HESC 4.2V/15000F) |
Nominal Operating Voltage | 72V | 48V |
Surge Voltage | 75.6V | 60V |
Minimum Operating Voltage | 45V | 37.5V |
AC Internal Resistance | ≤5mΩ@25℃ | ≤5mΩ@25℃ |
DC Internal Resistance | ≤8mΩ@25℃ | ≤8mΩ@25℃ |
Stored Energy | 4.2 KWh (45-75.6V) 3.6 KWh (45-72V) | 4.2 KWh (37.5-60V) 3.6 KWh (37.5-48V) |
Standard Charging Current | 200A (20-30 mins full charge) | 200A (20-30 mins full charge) |
Maximum Operating Current | 600A for 20S | 600A for 20S |
Storage Voltage Range | 60.3V (±2%) | 60.3V (±2%) |
Cycle Life | 50,000 times (45-75.6V) 80,000 times (45-72V) | 50,000 times (37.5-60V) 80,000 times (37.5-48V) |
Operating Temperature | -40℃~65℃ | -40℃~65℃ |
Storage Temperature | -20℃~45℃ | -20℃~45℃ |
Logistics & Warehousing: AGVs achieve 24/7 operation with 30-minute charging breaks, increasing throughput by 300%
Tourism & Leisure: Sightseeing cars and golf carts reduce maintenance stops, improving passenger satisfaction
Industrial Automation: Mobile robots in factories operate reliably in high/low temperatures without performance degradation
Urban Mobility: Electric bicycles solve "range anxiety" with fast charging, promoting eco-friendly commuting
The HESC module redefines power storage for low-speed electric equipment, combining efficiency, durability, and safety to lower total ownership costs while enhancing operational flexibility.
