GaN is the Future
Fast charging has been revolutionized by gallium nitride (GaN) for all mobile devices, including laptops, tablets, and phones. Charge 3x faster while being 50% smaller and lighter. Gallium Nitride (GaN) is a next-generation semiconductor that replaces silicon & enables very high energy efficiency and high power in a very small size and light weight.
GaN chipsets have been powering satellites for years now, their characteristics of carrying high power in a small form factor results in substantial decrease in the weight of the space systems. MokkoMotto’s 65W Charger is half the size of a Credit Card and can seamlessly charge a Laptop, Mobile phone and a wearable all at once.
GaN is the Future
Fast charging has been revolutionized by gallium nitride (GaN) for all mobile devices, including laptops, tablets, and phones. Charge 3x faster while being 50% smaller and lighter. Gallium Nitride (GaN) is a next-generation semiconductor that replaces silicon & enables very high energy efficiency and high power in a very small size and light weight.
GaN chipsets have been powering satellites for years now, their characteristics of carrying high power in a small form factor results in substantial decrease in the weight of the space systems. MokkoMotto’s 65W Charger is half the size of a Credit Card and can seamlessly charge a Laptop, Mobile phone and a wearable all at once.
What is GaN?
Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in higher and faster power transfers. GaN is more efficient, and so there is less heat.
GaN is used in the production of semiconductor power devices as well as RF components and light-emitting diodes (LEDs). GaN has demonstrated the capability to be the displacement technology for silicon semiconductors in power conversion, RF, and analog applications.
What is GaN?
Gallium Nitride (GaN) is a crystalline-like material capable of conducting higher voltages. Current flows faster through components made of GaN than silicon, resulting in higher and faster power transfers. GaN is more efficient, and so there is less heat.
GaN is used in the production of semiconductor power devices as well as RF components and light-emitting diodes (LEDs). GaN has demonstrated the capability to be the displacement technology for silicon semiconductors in power conversion, RF, and analog applications.
Why GaN (Gallium Nitride) Is Important?
Due to its capacity to provide much better performance across a variety of applications while requiring less energy and physical space to do so when compared to current silicon technologies, gallium nitride (GaN) is gaining in significance. Gallium nitride technologies are becoming critical in some applications where silicon as a platform for power conversion has reached its physical limits, while in others the advantages of efficiency, switching speed, compactness, and high-temperature operation combine to make GaN increasingly appealing.
A switch to GaN technology will assist to meet demand while reducing carbon emissions as the world’s need for energy grows. In fact, it has been demonstrated that the design and integration of GaN may provide next-generation power semiconductors with a carbon footprint that is ten times smaller than that of slower, older silicon chips.
Why GaN (Gallium Nitride) Is Important?
Due to its capacity to provide much better performance across a variety of applications while requiring less energy and physical space to do so when compared to current silicon technologies, gallium nitride (GaN) is gaining in significance. Gallium nitride technologies are becoming critical in some applications where silicon as a platform for power conversion has reached its physical limits, while in others the advantages of efficiency, switching speed, compactness, and high-temperature operation combine to make GaN increasingly appealing.
A switch to GaN technology will assist to meet demand while reducing carbon emissions as the world’s need for energy grows. In fact, it has been demonstrated that the design and integration of GaN may provide next-generation power semiconductors with a carbon footprint that is ten times smaller than that of slower, older silicon chips.
How MokkoMotto is using GaN Technology
MOKKOMOTTO’s constant endeavor in innovating charging solutions for consumer products has resulted in designing power adapters for the future. The adapters are powered with advanced charging technology using GaN (Gallium Nitrate) chipsets. GaN chipsets have been powering satellites for years now, their characteristics of carrying high power in a small form factor results in substantial decrease in the weight of the space systems. MokkoMotto’s 65W Charger is half the size of a Credit Card and can seamlessly charge a Laptop, Mobile phone and a wearable all at once.
How MokkoMotto is using GaN Technology
MOKKOMOTTO’s constant endeavor in innovating charging solutions for consumer products has resulted in designing power adapters for the future. The adapters are powered with advanced charging technology using GaN (Gallium Nitrate) chipsets. GaN chipsets have been powering satellites for years now, their characteristics of carrying high power in a small form factor results in substantial decrease in the weight of the space systems. MokkoMotto’s 65W Charger is half the size of a Credit Card and can seamlessly charge a Laptop, Mobile phone and a wearable all at once.