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Today, smartphones have become an essential tool in people’s lives for communication and everyday necessities. The “battery anxiety disorder”, also known as “bowhead”, can be found almost anywhere in everyday life. People will feel nervous or anxious if their phone runs out of battery. The mobile phone can still be used if it is connected to the charge.
We use chargers almost every day. However, we don’t think that many people understand how chargers can be used better. Galium nitride is also very common. What exactly is gallium-nitride technology?
1. What is gallium-nitride?
Gallium nitride, an innovative charging technology that has been slowly making its way into the mainstream of consumer electronics, is a key element to this year’s success. The perfect charging solution of the future is its emergence. This sounds great, but what’s GaN?
New semiconductor material gallium nitride has characteristics such as large bandgaps, high thermal conductivity and resistance to radiation. The material was first used widely in rail transit, new energy vehicles, new-generation mobile communications, and semiconductor lighting. It has been called the third generation semiconductor material. Gallium nitride, thanks to its cost-control and technological innovation, is now widely used in consumer electronics. One example is the charger. The bandgap of gallium-nitride is larger than the silicon. This means it can withstand greater voltages, and also has higher conductivity. A charger that uses gallium-nitride technology will produce a greater output efficiency than other chargers with the same volume. A charging head with gallium nitride technology can deliver more output power when the volume of its charge is similar to the Apple 5W Charger.
The birth of gallium Nitride, a new member, of the semiconductor materials is like thunder. With its unique characteristics, the technological revolution rapidly infiltrated markets like 5g and RF fast charging.
2. Which are the benefits of the GaN chargers?
Low volume
Gallium Nitride is a new type of semiconductor that replaces silicon and germanium. Traditional chargers range from 5v1a (5W), up to 65W. They are larger in size and have higher powers. While the charger has a volume that is within acceptable limits, the charger can produce a large contradiction in power and volume over the long-term. The charger can heat up due to fast charging. While the switching frequency of the switch made with gallium Nitride is significantly improved, it is still very low in terms of loss. High switching frequencies can lower the volume and volume of transformers and capacitors, therefore the volume for GaN charging heads is smaller than general chargers.
High power
GaN has a bandgap that is greater than that of silicon. This means that the chip can produce higher voltages. A large band gap also implies that current can pass through GaN faster than it does silicon. This will result in a reduction of 10% to 25% of power consumption for electronic products. The GaN chip not only helps to save electricity, but it also charges faster.
Hot environments are easier to adapt to
GaN’s bandgap is larger than that of the other two generation semiconductors. Also, it has higher thermal conductivity. GaN can operate at high temperatures over 200°C, is capable of carrying higher energy density, high reliability and reduces the chance for overcharging.
3. Why does the charging technology of old still work?
Because gallium-nitride technology works so well, why is it still being used for charging? It is because the production process for silicon components has been well established. This makes them relatively affordable compared to single components. The early stages of commercialization of gallium nitride are still quite difficult. This makes it more expensive than silicon.
Additionally, GaN charging heads are not as intuitive to use. It still has a lot of potential for improvement. Chargers made from gallium nitride are typically at least 30% less expensive than other chargers.
Lempotee (aka. Lempotee advanced materials Nano Technology Co. Ltd. (aka. We produce high quality gallium Nitride (GaN), which has fine particles. We are available to assist you if required.
1. What is gallium-nitride?
Gallium nitride, an innovative charging technology that has been slowly making its way into the mainstream of consumer electronics, is a key element to this year’s success. The perfect charging solution of the future is its emergence. This sounds great, but what’s GaN?
New semiconductor material gallium nitride has characteristics such as large bandgaps, high thermal conductivity and resistance to radiation. The material was first used widely in rail transit, new energy vehicles, new-generation mobile communications, and semiconductor lighting. It has been called the third generation semiconductor material. Gallium nitride, thanks to its cost-control and technological innovation, is now widely used in consumer electronics. One example is the charger. The bandgap of gallium-nitride is larger than the silicon. This means it can withstand greater voltages, and also has higher conductivity. A charger that uses gallium-nitride technology will produce a greater output efficiency than other chargers with the same volume. A charging head with gallium nitride technology can deliver more output power when the volume of its charge is similar to the Apple 5W Charger.
The birth of gallium Nitride, a new member, of the semiconductor materials is like thunder. With its unique characteristics, the technological revolution rapidly infiltrated markets like 5g and RF fast charging.
2. Which are the benefits of the GaN chargers?
Low volume
Gallium Nitride is a new type of semiconductor that replaces silicon and germanium. Traditional chargers range from 5v1a (5W), up to 65W. They are larger in size and have higher powers. While the charger has a volume that is within acceptable limits, the charger can produce a large contradiction in power and volume over the long-term. The charger can heat up due to fast charging. While the switching frequency of the switch made with gallium Nitride is significantly improved, it is still very low in terms of loss. High switching frequencies can lower the volume and volume of transformers and capacitors, therefore the volume for GaN charging heads is smaller than general chargers.
GaN has a bandgap that is greater than that of silicon. This means that the chip can produce higher voltages. A large band gap also implies that current can pass through GaN faster than it does silicon. This will result in a reduction of 10% to 25% of power consumption for electronic products. The GaN chip not only helps to save electricity, but it also charges faster.
Hot environments are easier to adapt to
GaN’s bandgap is larger than that of the other two generation semiconductors. Also, it has higher thermal conductivity. GaN can operate at high temperatures over 200°C, is capable of carrying higher energy density, high reliability and reduces the chance for overcharging.
3. Why does the charging technology of old still work?
Because gallium-nitride technology works so well, why is it still being used for charging? It is because the production process for silicon components has been well established. This makes them relatively affordable compared to single components. The early stages of commercialization of gallium nitride are still quite difficult. This makes it more expensive than silicon.
Additionally, GaN charging heads are not as intuitive to use. It still has a lot of potential for improvement. Chargers made from gallium nitride are typically at least 30% less expensive than other chargers.
Lempotee (aka. Lempotee advanced materials Nano Technology Co. Ltd. (aka. We produce high quality gallium Nitride (GaN), which has fine particles. We are available to assist you if required.
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