After confirming the launch of its next-gen gaming flagship system, the ROG Cellphone 6, earlier this month, Asus has been teasing among the key options of its upcoming smartphone. And now, we’ve particulars on its water resistance and warmth dissipation capabilities. Take a look at the main points beneath.
Asus ROG Cellphone 6 Particulars
Asus has already confirmed that the ROG Cellphone 6 would be the “first gaming smartphone” powered by the most recent Snapdragon 8+ Gen 1 chipset. Now, the corporate has confirmed that the system will probably be the primary gaming smartphone with an IPX4 ranking.
It’s also revealed that the telephone will sport a complicated cooling system to cut back throttling. Asus just lately took to Twitter to verify each the above options of the upcoming ROG Cellphone 6. You may take a look at each the tweets connected proper beneath.
Now, apart from the above options, Asus has not but revealed every other specs and options of the ROG Cellphone 6. Nevertheless, rumors counsel that the system will sport a 6.78-inch Full HD+ OLED show with help for a 165Hz refresh fee. It’s also anticipated to come back with 64MP triple cameras, as much as 16GB of RAM, and as much as 1TB of inner storage. And very similar to its predecessor, the system is slated to be fueled by a 6,000mAh battery with help for 65W quick charging.
As for the design, though Asus is but to totally reveal the look of the ROG Cellphone 6, the system was just lately noticed on the Chinese language certification web site TENAA. As per the listed pictures, the ROG Cellphone 6 will are available in an identical design that we noticed in Asus’ patents earlier this yr. You may take a look at the attainable design of the ROG Cellphone 6 within the picture connected proper beneath.
So, if you’re a cell gamer seeking to improve your pocket-gaming machine, catch the ROG Cellphone 6 launch reside on July 5 on the corporate’s official web site and our web site too for all of the updates. Additionally, tell us your ideas on the upcoming ROG system within the feedback beneath.