Huawei Kirin chip: As one of Huawei's core technologies, the Kirin chip series adopts retro wireless charging advanced process technology, which not only improves performance, but also optimizes energy efficiency ratio. Photography innovation: Huawei mobile phone photography technology continues to push boundaries. The P40 series is equipped with a super-sensitive camera and advanced light sensor to capture rich details and precise colors even in low light environments.
Kirin chip: HuaweiThe main research and development of Kirin chip series is one of its core competitiveness. Kirin chips use advanced process technology to deliver superior performance and high energy efficiency. Photography technology: Huawei mobile phone photography technology has always been in a leading position. Huawei's P40 series phones use a super-sensitive camera and super-sensitive sensor to capture more detail and color in low light conditions.
Holographic sound technology: Huawei mobile phone adopts holographic sound technology, through coplanar recording technology and algorithm processing, to achieve clearer voice quality and broader sound field sense. Retro black and white camera: Huawei mobile camera appOffer retro black and white camera mode, convert photos to black and white style, bring unique artistic effect.
Provides high-quality voice call experience and sound field effect. Retro black and white camera mode: Huawei's camera app provides a retro black and white camera mode, which allows users to take photos with classic black and white artistic effects. The black technology of Huawei mobile phone is not only reflected in the innovation of hardware, but also covers the optimization of software and user experience, and is committed to providing users with cutting-edge technology and high-quality user experience.
The following are some common black technologies of Huawei mobile phones: Kirin chip Huawei selfThe chips developed by the home usually have excellent performance and energy efficiency. Each generation of Kirin chips has been upgraded and optimized. Huawei phones excel in photography, equipped with multiple lenses, Canon-level image processing algorithms, and artificial intelligence capabilities that enable users to take high-quality photos and videos.
Wireless charging technology is completely without the use of wires, the use of magnets to charge the device technology. Wireless charging technology, derived from wireless power delivery technology, uses magnetic resonance in chargers and devicesThe coil and capacitor form a resonance between the charger and the device to achieve efficient transmission of electric energy technology.
Wireless charging technology; Wireless charge technology, derived from wireless power delivery technology. Wireless charging, also known as inductive charging, non-contact inductive charging, is the use of near-field induction, that is, inductive coupling, by the power supply device (charger) to transmit energy to the electrical device, the device uses the received energy to electricityThe pool is charged and at the same time used for its own operation.
Mobile phone wireless charging refers to the meaning that the charger and the electrical device can be connected to the phone without wires.
Wireless charging, also known as inductive charging or non-contact inductive charging, based on the principle of electromagnetic induction, it is not necessary to transmit electricity to the device like the traditional wired charger, but the device that needs to be charged can be charged by contacting the wireless charging base.
What is the wireless charging technology of electric vehicles, a detailed introduction to the wireless charging technology of electric vehicles - the basic principle of radio waves - similar to earlyThe ore radio used in the period is mainly composed of a microwave transmitter and a microwave receiver, and the receiving circuit can capture the radio wave energy bounced back from the wall and maintain a stable DC voltage while adjusting with the load.
[1] Wireless charging technology (Wireless charging technology; Wireless charge technology). Wireless charging technology [2], derived from wireless power delivery technology, uses magnetic resonance to transfer charges, coils, and capacitors in the air between the charger and the deviceThe device forms a resonance between the charger and the device to achieve efficient transmission of electric energy technology.
As for the electromagnetic wireless charging scheme, aluminum can also be used to replace copper as raw materials to a certain extent, thereby reducing manufacturing costs.
For pure trams, the most reliable solution now is electromagnetic induction, which is more stable and reliable. Magnetic resonance can be higher than electromagnetic sensation thoughPower distance advantage (a few centimeters to a few meters), but difficult to control, high technical difficulty, it is not easy to support the use of electric vehicles (this may be the future direction of wireless charging).
It is worth mentioning that the "Interim Provisions for Wireless Charging (Power transmission) equipment radio Management" issued by the Ministry of Industry and Information Technology recently clearly raised the charging power limit of mobile phones and other mobile devices to 80W, and stipulated that the management provisions also apply to the wireless charging of electric vehicles. This has undoubtedly injected new impetus into the development of wireless charging technology for electric vehicles. In short, electric vehicle wireless charging technology is still facing