New technology in the field of charging heads—gallium nitride charger

Gallium Nitride: Overview It is an organic compound with the chemical name GaN. A mixture of nitrogen and galium it can be used as a semiconductor direct energy gap. This compound has been widely used since 1990 in light-emitting transistors. It has an identical structure to wurtzite and high hardness. Because gallium nitride’s energy gap is large at 3.4 electron volts it can be used to make optoelectronic parts that are high-speed and power-efficient. Galium nitride is a good choice for violet laser diodes. It can also be used to make non-linear solid-state, semiconductor pumped lasers. The conditions are such that a violet light (405nm laser) can be made.
Gallium nitride’s properties and stability
1. Avoid contact with oxygen, heat, moisture and humidity.
2. GaN starts to decompose at 1050degC: 2GaN(s)=2Ga(g)+N2(g). A X-ray beam diffracted has shown that GaN crystal is a hexagonal type of wurtzite lace.
3. If the temperature of 1000 is reached in nitrogen, or helium (GaN), it will slowly volatilize. This is a sign that GaN remains stable at higher temperatures. The vapor pressure of GaN at 1130 is below the value calculated by enthalpy, entropy. This is because of the presence of polymer molecules, GaN (x).
4. Diluted or concentrated hydrochloric or nitric acids or sulfuric acid will not make GaN decompose. Although it is insoluble in cold concentrated acid, you can dissolve it in alkali by heating.
Gallium nitride material introduction
Global semiconductor research is at the forefront of GaN material research. It’s a brand new semiconductor material, which can be used in the design of optoelectronic or microelectronic components. This material is often used in combination with other semiconductor materials like SIC or diamond and it’s known to be the successor generation Ge and Si. Second-generation GaAs semiconductor materials, InP compound semiconductor material materials, and third generation semiconductor materials. It is strong in anti-radiation, has high direct bandgaps, strong atomic bonds and good chemical stability. This material is widely used in optoelectronics as well as high temperature and power devices.

What does a charge for gallium-nitride be?
The third-generation semiconductor core materials are known to be gallium nitride. The bandgap of gallium nitride, compared to silicon is wider. Because of its wider bandgap, gallium nitride has higher resistance to high voltages and better conductivity than silica. With the materials contained in the same volume as silicon, gallium-nitride performs much better than silica.
Galium nitride makes up a larger percentage of many power management devices. Use of gallium nitride to charge your device can speed up charging while consuming less power.
The most obvious benefit for users is the faster charging. However, it will not cause an increase in volume. Due to the GaN characteristics, the charger can achieve smaller size and lighter weight. It also generates heat more efficiently and has an increased capacity. Many items, including charging heads and CPUs, have a significantly lower heating efficiency.

Pricing for gallium nitride charger
These chargers for gallium-nitride batteries are easy to use. These chargers are smaller than other types and have a much greater efficiency. Although they can be used to meet modern day needs, the price is quite high.
Referring to current market prices, the 120w GaN battery charger costs around 300 yuan. That’s twice as much or more than the traditional 120w notebook charging device. The charger also has a small size. The 120W GaN charger costs three times as much as the 65w GaN. The price of the 120w GaN charging unit is comparable to that of an average 120w laptop charger and a 65w GaN charge.

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