iQOO is set to launch the Neo 10 series smartphones in China soon, with excitement building as the brand has begun teasing their release. While the exact launch date remains under wraps, it’s expected to be before month’s end.

The reliable tipster Digital Chat Station has given us a peek into what these devices might offer, including their battery capacities. In a recent Weibo update, Digital Chat Station shared not only the battery details but also additional information about the upcoming models.

According to recent leaks, the iQOO Neo 10 and Neo 10 Pro will come equipped with a substantial 6,100mAh silicon battery, supporting 120W fast charging, which is a step up from the 5,160mAh battery found in their predecessors, the Neo 9 and Neo 9 Pro.
Here are the key differences between the two models:
  • Chipset: The standard iQOO Neo 10 will be powered by the Snapdragon 8 Gen 3, while the Neo 10 Pro will feature the Dimensity 9400 SoC.
  • Camera Setup: The Neo 10 is anticipated to have a dual-camera setup with a 50-megapixel primary sensor and an 8-megapixel secondary sensor. The Neo 10 Pro, on the other hand, could sport a dual 50-megapixel camera configuration, potentially with different camera sensors than the last generation.
  • Fingerprint Sensors: The Neo 10 is expected to include an optical fingerprint sensor, whereas the Neo 10 Pro might upgrade to an ultrasonic fingerprint sensor for enhanced security and speed.
Despite these updates, the weight of the new models is reportedly similar to the last generation’s models. Additionally, the devices are set to run on Origin OS 5, promising a more refined user experience.

Q2 SuperComputing Chip

The iQOO Neo product manager, known on social media as @Neo_Beta, has confirmed that the upcoming Neo10 series will include iQOO’s self-developed gaming chip. While specifics on the secondary chip remain undisclosed, the phrase “stronger dual-core performance” suggests the integration of the Q2 SuperComputing Chip from the iQOO 13. This second-generation Q series chip is expected to enhance efficiency and capability.