With evolving times, many devices paved the way in the market. Some survived, while some accepted defeat. However, one gadget survived the rat race despite various advancements. It is none other than a charger. Despite coming in varied shapes, sizes, functionality, yet it has never gone out of stock. The reason being the mandatory POWER UP that every device needs for running smoothly!
Well, there is an array of charging technologies, right from fast charging to PD chargers. However, flaunting huge power bricks with long charging duration for tablets, laptops, and smartphones is now becoming a passé. The time has come to replace it with more powerful, efficient, compact –GaN charging technology.
GaN charging technology is all set to change the face of the future by relieving you from tedious charging woes. Therefore, with this blog, we are going to enlighten you all about this technology.
What is GaN charging technology?
In olden times, silicon was prominently used in internal voltage chip production. Silicon is a good conductor of heat, and it transfers heat, electricity at a lower rate as compared to other materials. Therefore, it becomes difficult to install silicon in the chips of devices that produce more heat. With problems like these, the focus then shifts to Gallium Nitride (GaN). It is a chemical compound that has the properties of a semiconductor. It was used in the yesteryears to make LEDs and presently for making electronic components like diodes, transistors, and amplifiers.
Although, its functionality is quite similar to silicon, yet it overpowers silicon-based gadgets. Let us see how it works!
How GaN charging technology functions?
All our smartphones, tablet, and laptops have a battery. A chemical reaction generates when there is a transfer of power. Further, the charger takes in electrical current to reverse that chemical reaction. In the early days, chargers would send power to simply juice up the battery, constantly leading to overcharging, overheating, and eventually damaging the device. Times changed, and modern chargers started becoming smart by lowering the current as soon as the battery was full. This functionality started minimizing overcharging and overheating, thus vouching for the overall durability of the device.
Amidst this, there is one thing that makes GaN charging technology unique – it produces less heat. Its resemblance is that of a crystal-like material, ably conducting advanced voltages. Besides, electrical current can pass through GaN components faster than silicon, which results in faster processing. Most importantly, GaN can ably conduct 1000 times more electrons than silicon, thus lowering the manufacturing cost compared to silicon.
Furthermore, GaN charging produces less heat as the components are placed closer, eventually minimizing the charger’s size. With less heat and small size, the efficiency is amplified, and processing power doubled. Does it mean the quality is compromised? Not at all! Despite the shrunken size, the power competence and safety standards are successfully retained.
Well, this was all about the functionality of GaN technology, but let’s unravel the importance of utilizing this technology.
GaN Charger vs. Normal Charger: What is the difference?
A bandgap is present in all semiconductor materials. It is an energy range in a solid where there is no presence of electrons. Instead, it requires minimal energy to excite and free an electron stuck in a bound state. With this, one can evaluate how favorably a solid material can conduct electricity. If GaN has a 3.4 eV bandgap, then silicon has a 1.12 eV bandgap. This wider bandgap suggests that GaN is capable of supporting higher temperature and voltage than silicon.
- Charging speed
The charging speed is dependent on the bandgap. The normal chargers contain silicon and have a narrow bandgap. Due to this, it is incapable of handling high voltage or power density. Thus, showing incompetency towards fast charging. However, as mentioned in the first point, GaN has a wider bandgap, which overcomes silicon’s loopholes and reassures fast charging and efficiency.
Normal chargers are also running in the race of high power by offering 40W and 60W. However, the higher the power, the larger and heavier the charger. But when it comes to GaN chargers, it provides high efficacy in a compact structure. It is easy to carry and fits into confined places or even bags. Its small framework nowhere affects the capability, indeed ensures fast charging.
- Overheating problems
To satiate fast charging; silicon-based chargers tend to encounter power wastage in the form of heat. This condition leads to overheating, overcharging, and at times hampers the device with short-circuit. GaN charging technology causes minimal power wastage with less emission of heat. This functionality helps for efficient power delivery!
- Multiple ports
In this tiff of GaN charger vs. normal charger, ports play a pivotal role. The usual ones mostly have USB A, Micro USB, or lightning ports. However, GaN chargers flaunt USB-C™ along with USB-A ports, reflecting versatility. USB-C™ ports have become the need of the hour, and they deliver power up to 100W. Thus, this compliance highlights the flexibility of GaN charging with the latest technology.
This comparison confirms that despite small in size, the GaN charger surpasses the conventional battery in charging speed, power delivery, and overheating problems. These functionalities are helping GaN charging technology reach the pinnacle of success. Therefore, as the best tech accessories brand, Cadyce has come up with the best GaN charger called 65W Dual USB-C™ PD 3.0 & USB QC 3.0 GaN Wall Charger (CA-CPA61).
Best GaN charger from Cadyce
Going with the trend of making lives easier, Cadyce has come up with a 65W Dual USB-C™ PD 3.0 & USB QC 3.0 GaN Wall Charger (CA-CPA61). Complementing the GaN charging technology, CA-CPA61 is sleek and compact that pledges to address all your charging woes. It flaunts extensive compatibility where you can simultaneously juice up a laptop, smartphone, tablet at a lightning speed.
This charger boasts of QC 4+ and QC 3.0, which along with rapid charging, ensures utmost safety. Besides, it has a PD 3.0 Programmable Power Supply that identifies the energy need of the charger. This feature helps in striking a perfect balance between voltage and current. Further, maintaining temperature control, efficiency, and wellbeing of the gadget. It doesn’t end here as it can become your eternal go-to travel companion with US, EU, and the UK plugs that come along with the box.
So, this was all about GaN charging technology. Without a doubt, GaN fast charging is the future. Therefore, if you are looking forward to unraveling more about this technology, then you have come to the right place.
Cadyce stands tall among tech accessories brands
Cadyce works closely with the likes of the consumers. Be it work from home accessories or tech gadgets, Cadyce knows what consumers vie for! The team closely undertakes industry research to develop products induced with power, speed, and safety. We at Cadyce pledge for user-friendliness, and it reflects in all our products including, GaN chargers. Therefore, amplify the functionality of your tech gadgets and accessories with Cadyce to experience effortless as well as long-standing service.
For more details, please visit www.cadyce.com
Check out our Facebook page- https://www.facebook.com/Cadyce
Twitter page- https://twitter.com/cadyceinc