NGS | Charge with GaN technology

MULTIPORT CHARGERS

GaN: the future of device charging
In a world where we use multiple electronic devices daily, GaN chargers are a smart long-term investment. Their compact design facilitates the integration of USB-C Power Delivery, allowing for fast charging of compatible devices. Even better, these chargers are not just for laptops—they are fully versatile and compatible with a wide range of devices, including smartphones, tablets, and other gadgets, making them a one-stop solution for all your charging needs. More and more smartphones and devices support fast PD and PPS charging, and this trend will continue to grow.

PD (POWER DELIVERY)

A single USB-C cable can charge a wide variety of devices at different power levels.
Variable power: from 5W (5V, 1A) to 100W (20V, 5A), allowing you to charge everything from smartphones to laptops.
Dynamic negotiation: the device and charger negotiate the appropriate power level as needed.
Flexibility: compatible with different voltages and currents, versatile for various devices.
Reversible: connection in both directions, eliminating any polarity confusion.

PPS (PROGRAMMABLE POWER SUPPLY)

Precise voltage and current adjustment: Allows continuous adjustments within a specific range (3.3V to 21V in 20mV increments).
Fast and efficient charging: Maximizes charging efficiency and minimizes heat production, which is very important for smartphone charging.
Heat reduction: Precise adjustments reduce heat production, improving battery life and safety.
Compatibility: Extension of the USB PD standard, compatible with PD-compatible devices and offering additional benefits with PPS-compatible devices.

What is GaN and why is it important to you?

Gallium nitride (GaN) is a next-generation material that is transforming the way we charge our devices. Although it was used for the production of LED lamps and solar panels in the 1990s, GaN is now integrated into chargers, allowing for faster and more efficient charging in a more compact design.

The reason for this success? GaN produces less heat, which allows components to be concentrated and size reduced without compromising charging speed or safety.

How does a device charger work?

To understand GaN technology, it is useful to understand how traditional chargers work. The devices we use daily, such as phones and laptops, rely on batteries that store energy through chemical reactions. Chargers, on the other hand, reverse this process using electric current.

Older models transmitted current continuously, which increased the risk of overcharging and damage. Current chargers, however, regulate the current according to the battery's charge level, avoiding overcharging and protecting the device.

GaN: the successor to silicon

For over 30 years, silicon has been the predominant material for manufacturing transistors due to its efficiency in conducting electricity and its low cost. However, the limits of silicon in terms of miniaturization have led to the search for alternatives. GaN, on the other hand, allows for higher voltages to be managed and electricity to be transmitted more quickly, which reduces heat and increases device efficiency.

The impact of GaN on charger design

A transistor is essentially a switch, and a chip is made up of thousands of these tiny switches in a confined space. By replacing silicon with GaN, these transistors can be placed closer together, allowing for more power and speed in a much more compact format. This means that a smaller charger can provide faster and more efficient charging.

LAPTOP

TABLET AND SMARTPHONES

Efficiency in current transmission

GaN chargers are perfect for frequent travelers as they are lightweight and compact. And thanks to their advanced technology, they can charge a variety of devices, such as smartphones, tablets, and laptops, meeting all your charging needs in a single product.

One of the main advantages of GaN is its ability to reduce heat production. This energy efficiency not only improves charging speed but also extends the life of chargers, ensuring reliable and long-lasting performance over time.

USB-C CHARGING CABLES

USB-C (male) to USB-C (male)

Compatible with the USB 2.0 standard, allowing data transfer at 480 Mbps.
1G files will be transferred in 30 seconds.
Ideal for connecting or charging your new mobile device, tablet, or USB-C laptop.
Made of very durable materials, they have withstood over 30,000 bending tests and 15,000 insertion and removal tests on their connectors.
They can withstand a pulling force of over 50 kg, ensuring their durability.

USB-C CONNECTOR

USB-C female laptop connectors to Jack
Pack of USB-C connectors for
ACER, SAMSUNG, SONY, HP, LENOVO, DELL Y TOSHIBAand TOSHIBA laptops.

Functionality: Specifically designed to power or charge laptops from brands that use different size jacks. This pack offers a versatile and adaptable charging solution for your devices.
Integrated PD smart chip: Each jack is equipped with an advanced chip that supports fast USB Power Delivery (PD) charging. This chip not only speeds up the charging process but also ensures complete protection of the device's battery and adapter, ensuring stable and safe charging and prolonging battery life.
Right-Angle Design: The tips are designed at a right angle to prevent the cables from bending, which solves space limitations between devices. This design also makes it easier to insert the cable in hard-to-reach areas and extends the cable's lifespan.
Portability: This pack is lightweight and compact, making it easy to carry. You can safely store it in your backpack, bag, briefcase, or desk drawer without needing to carry a heavy charger/adapter.
Compatibility: Supports 100W, 90W, 65W, 45W, and other PD power transmissions. It is compatible with a wide range of devices, ensuring you always have the right jack for your laptop.

"And as a USB-C charger, you can use it with your new laptop or other devices simply by removing the jack and connecting it to the appropriate port, ensuring long-term compatibility.".