Oppo and MediaTek announce flagship collaboration
At the India Mobile Congress 2025, Oppo and MediaTek confirmed that the upcoming oppo Find X9 series will debut with the slice-edge Dimensity 9500 chipset. The collaboration introduces MediaTek’s most important mobile processor yet, featuring an upcoming generation of armature and improved power efficiency. The lineup will first launch in China on October 16, followed by India in November 2025.
OPPO Find X9 series global debut and India launch timeline
Oppo’s Find X9 series is listed for a global launch between October and November, bridging the gap between the China and India launches. The smartphones are expected to feature improved CPU and GPU performance while maintaining low power consumption. Oppo’s collaboration with MediaTek signals a strategic move to strengthen its flagship lineup and directly combat the bias towards Snapdragon-powered devices.
MediaTek Dimensity 9500 is a powerhouse in power and performance
The Dimensity 9500 SoC is built on MediaTek’s third-generation all-big-core Armature, with a primary core clocked at 4.21 GHz. According to MediaTek, the chip boosts CPU performance by 17 percent and delivers 33 percent faster GPU performance, while reducing peak power consumption by more than 55 percent. Its ARM G1-Ultra GPU promises smoother visuals, high-frame-rate gaming, and significantly improved power efficiency.
OPPO Find X9 Series Two-Point Advanced Cooling Technology
To ensure sustained performance, OPPO has introduced a customized cooling system for the Find X9 series. This technology helps maintain consistent frame rates and device temperatures during intense gaming and multitasking. The company claims that the devices will witness enhanced comfort and stable power delivery, which will allow the Dimensity 9500 chipset to perform optimally under increased workloads.
Storage and RAM variants of the Find X9 series have been verified
Oppo’s official listing reveals that the Find X9 and Find X9 Pro will come in multiple RAM and storage configurations — from 12 GB to 256 GB, and from 16 GB to 1 TB. Both models will be available in four colors — Chasing Light Red, Velvet Titanium, Frosty White, and Fog Black, with the Pro’s interpretation of Fog Black being swapped out for a brown finish.
Design leak reveals Hasselblad camera collaboration
Blurred hand-drawn images of the Oppo Find X9 Pro show a satiny design that includes a Hasselblad-ingrained quad-camera setup inside a square casing. The LED flash has been placed outside the module for a clean aesthetic. The device will feature 1.15mm ultra-thin bezels, a hole-punch display, and improved button placement, emphasizing Oppo’s design perfection and quality of decoration.
Battery and software are bigger, smarter, and more efficient
The Find X9 lineup features a large capacity battery of 7,025 mAh on the standard model and 7,500 mAh on the Pro model. Both smartphones will run ColorOS 16 based on Android 16, which has been optimized with Oppo’s Trinity Engine for flawless multitasking. The software promises better power operation, faster app launches, and intelligent power distribution across the CPU, GPU, and DSU factors.
Trinity Engine and Unified Computing Power Model
Oppo’s Trinity Engine introduces Android’s first unified computing power model, enabling real-time optimization across multiple tackle units. This breakthrough increases the precision of power consumption by over 90%, delivering improved power efficiency during gaming, photography, and everyday use. The Find X9 series demonstrates Oppo’s commitment to blending hardware and software for unparalleled flagship performance.
Oppo and MediaTek review flagship smartphone rules
Combining Oppo’s engineering excellence and MediaTek’s Dimensity 9500 SoC, the Find X9 series aims to set a new standard in flagship smartphone design and performance. The phones promise press-position plates, improved thermal operation, and long battery life. As Oppo gears up for its global debut, excitement is building for one of the most important Android launches of 2025.
