20 years of rich production experience
Specializing in cable production
Possess multiple certificates
CITCable is a technology driven company who designs, manufactures and markets of HighTemprature Sensor ,Fluid Resistant Automatic Transmission Wire ,Electronic transmission wire, Automotive primary anti-capillary cable, High Temperature Automotive ABS (anti-lock braking system)Sensor Cables , Electric Motorcycle Motor and Power Cables , Hot Oil Resistant 200°C Automotive Engine Wire , New energy EV Cable ,SPE Cable ,Military ,Civil radar system, Security system,Aerospace, Semiconductor automatic system,Ultra fine Medical Coaxial Cables and CMP/PLENUM/CL2P/CL3P cable products.
The energy-saving effect of automotive cables is mainly reflected in the following aspects:
Reducing fuel consumption: According to different research reports, every 1kg reduction in vehicle mass can save 0.03-0.05L/100km of fuel consumption. Therefore, by reducing the weight of cables, the fuel consumption of cars can be reduced, thereby reducing operating costs and environmental pollution.
Reducing carbon emissions: According to different research reports, every 1kg reduction in car mass can reduce carbon dioxide emissions by 2.4-4g/km. Therefore, by reducing the weight of cables, carbon emissions from cars can be reduced, thereby slowing down global warming and climate change.
Increase driving comfort: By reducing the resistance of the cable and improving its insulation, the heating and interference of the cable can be reduced, thereby increasing driving comfort. For example, by using highly conductive materials and increasing cross-sectional area, the heat generation of cables in the air conditioning system can be reduced, thereby improving the air conditioning effect and ride comfort.
With the increase of car functions, the widespread application of electronic control technology, more and more electrical components, and more and more automotive cables, the number of circuits on the car and the power consumption increase significantly, and the automotive cables become thicker. the heavier. This is a big problem that needs to be solved. How to arrange a large number of wire harnesses in a limited car space more effectively and reasonably, so that the car wire harnesses can play a greater role, has become a problem faced by the automobile manufacturing industry.
The automotive cable has the function of connecting the main body of the car circuit, it connects the electrical and electronic components of the car, and can make the various electronic components interact. Every car needs a high-quality car cable, and without a car cable, there is no car.
The energy-saving principles of automotive cables mainly include the following aspects:
Reducing the weight of the cable: The weight of the cable can affect the overall quality and power performance of the car, increasing fuel consumption and emissions. By using lightweight materials, optimizing structure, and reducing cross-section, the weight of cables can be reduced, thereby improving the power efficiency and economy of cars.
Reducing the resistance of cables: The resistance of cables can affect the flow of current and the distribution of voltage, resulting in energy loss and heating. By using highly conductive materials, increasing cross-section, and reducing length, the resistance of the cable can be reduced, thereby improving the transmission efficiency and lifespan of the cable.
Improving the insulation of cables: The insulation of cables can affect their safety and stability, preventing problems such as leakage, short circuits, and interference. By using high insulation materials, increasing thickness, and strengthening shielding, the insulation of cables can be improved, thereby improving their reliability and accuracy.
Automotive cable, including its electrical properties, material emission, temperature resistance, etc., is higher than the general wiring harness requirements, especially when it comes to safety.
Wires and cables are based on length as the basic unit of measurement.
The cable can not be directly exposed to ultra-high temperature, avoid direct sunlight on the wall and man-made damage.