800V High Voltage Thick Film Heater For EV
Product Description
1. The high-voltage thick-film heater utilizes precision thick-film circuit molding technology, achieving a thermal conversion rate of up to 98%, far exceeding traditional heating solutions. This results in lower energy consumption and more stable heating, contributing to improved vehicle energy efficiency and extended range. Simultaneously, its ultra-high power density allows for smaller size and lighter weight for the same heating power. Its highly integrated structure flexibly adapts to vehicle engine compartment layouts, simplifying assembly and making it suitable for various passenger cars, commercial vehicles, hybrid vehicles, and fuel cell vehicles.
2. Safety and durability are comprehensively upgraded. The product boasts stable resistance performance, eliminating peak current surges upon power-up and avoiding interference from the vehicle's electronic control system. It features dual hardware and software overheat protection, dry-burn protection, high-voltage interlock, and multi-sensor monitoring, providing multiple safety redundancies to safeguard both the equipment and the vehicle under all operating conditions. The integrated sintering molding process makes the core resistant to thermal shock, corrosion, and vibration, capable of withstanding over 10,000 cold and hot cycle start-stop cycles with extremely low power attenuation, doubling the overall lifespan and significantly reducing subsequent maintenance costs.
Product Parameter
|
Model
|
NFHVH-F800V |
|
Rated Power(kw) |
22-26 |
|
Working Voltage(v) |
450-950 |
|
Control Voltage(v) |
12/24 |
|
Ambient Temperature Range(℃) |
~40-125 |
|
Storage Temperature Range(℃) |
~40-125 |
|
Insulation Resistance(MΩ) |
>500 |
|
Insulation withstand voltage(v) |
4000 |
|
Communication Methods |
CAN/LIN |
|
Weight(kg) |
7.9 |
|
Dimension(mm) |
392X252X111 |
|
Outlet Diameter(mm) |
Φ25 |
Product Features
1. Employs rare-earth thick-film heating technology.
2. HVCH can be customized to meet customer needs.
3. High efficiency, precise temperature control, and smaller installation space requirements.
4. Ultra-compact modular design: small size and light weight.
5. Reliable quality, long lifespan, and no power degradation.
6. Low starting inrush current, low ripple current, and precise stepless controllability.
7. Low overall energy consumption, increasing vehicle mileage.
8. Low overall operating cost.
Application
Widely applicable to various scenarios such as low-temperature preheating of power batteries, vehicle cabin heating, motor and electronic control waste heat compensation, and temperature control of energy storage equipment, with the core advantages of extreme energy efficiency, extreme safety, and extreme stability, it provides high-performance and highly reliable integrated thermal management heating solutions for new energy vehicles, energy storage equipment, special engineering machinery and other fields, empowering the new energy industry to upgrade towards high efficiency and high-end.
