They have excellent charge acceptance. These advanced batteries can quickly absorb electrical charge, even at high rates. This is useful for fast-charging applications like electric buses, where short stopovers require rapid replenishment of battery power. In a busy urban transit system, electric buses can recharge during a brief layover at a bus stop, reducing downtime and increasing vehicle availability. This efficient charge acceptance also helps to optimize the overall operation of the transit network, making it more sustainable and convenient for commuters.
It incorporates a hydrophobic and oleophobic coating. The surface of the device is coated with a material that repels both water and oils. This coating is useful in applications where the surface is likely to come into contact with liquids, such as in touchscreens, camera lenses, and kitchen appliances. In touchscreens, the hydrophobic and oleophobic properties prevent fingerprints, smudges, and liquid spills from adhering, ensuring clear visibility and smooth operation. Camera lenses with this coating can stay clean even in damp or dusty environments, safeguarding image quality. For kitchen appliances like stovetops and countertops, it simplifies cleaning as food splatters and grease can be easily wiped away, maintaining a hygienic and presentable surface.
It's a jewel of innovation in the power electronics for IoT devices. This establishment manufactures low-power and long-life power sources for Internet of Things (IoT) devices. The manufacturing process is a model of energy efficiency and miniaturization. They use energy harvesting techniques and ultra-low-power components. The power sources are designed to power IoT devices for years without the need for frequent battery replacement. The facility has an IoT testing lab where the power sources are tested for their power generation and consumption characteristics. This enables the proliferation of IoT devices in various applications, from smart homes to industrial monitoring.
| Voltage | 12V/24V |
| Capacity | 100/200Ah |
| Cycle Life | >3000 cycles |
| Efficiency of Charge | 100% @0.5C |
| Efficiency of Discharge | 96~99% @1C |
| Charge Voltage | 14.6±0.2V |
| Charge Current | 60A |
| IP Class | IP65 |
FAQ
Q: How does the corona discharge treatment for surface modification work?
A: The corona discharge treatment is used to modify the surface properties of materials. It involves creating a corona, which is a partial discharge of electricity, around the surface of the material. This is usually done by applying a high-voltage alternating current to an electrode near the material. The corona generates ions, electrons, and other reactive species. These reactive species interact with the surface of the material, breaking chemical bonds and creating new ones. For polymers, it can increase the surface energy, making the material more receptive to inks, adhesives, and coatings. In the packaging industry, it helps to improve the adhesion of labels to plastic bottles.
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