It has been rumored that Realme will manufacture a follow-up to its upscale mid-range GT Neo 3 Android phone, which will reportedly have a high-end Qualcomm processor. Now, it is possible that the same handset will be the one to be recognized for the brand’s quickest charging system yet. This technology would be faster than the one found in the current top-spec’d Neo 3, and it would even be faster than the one found in Redmi’s new Note 12 Pro Discovery Edition.
One model of the Realme GT Neo 3 was released with 80W SuperDart charging, and the other was released with the more recent 150W UltraDart technology. Now, it is anticipated that the latter will make a comeback in the subsequent generation of these premium mid-range Android smartphones; however, it is possible that it will no longer be the quickest one.
Now, the well-known leaker Digital Chat Station claims to have information on what may or may not be Realme’s newest batteries to share with the public. Both appear to be dual-cell models, as is customary, but each cell has a capacity that differs between the two models: the BLP985 has a capacity of 2,425mAh, while the ‘new’ BLP987 has a capacity of 2,225mAh. The tipster says that they will be marketed with comparable normal capacities of 5,000mAh and 4,600mAh, but this adds out to 4,850mAh and 4,450Ah, respectively.
In our day and age, neither of these things is particularly uncommon. However, things take a turn for the more intriguing when Digital Chat Station claims that the bigger of the two will have a charging capacity of 150W, leaving the smaller one with a capacity of at least 240W. As a result of this leak, people have begun to speculate that they would be included in the next-generation GT Neo, which would make it possible for it to continue the dual-SKU concept with an even faster tactic this time around.
There are also speculations that this purported heir to UltraDart will provide power at up to 24W/10A, but that once it enters the actual phone, it will be transformed to 10V/24A, and that every cell will be capable of supporting up to 12A.
