Redmi 10 has a 50MP main camera sensor which is can easily beat any of 15000 budget phone camera performance. But if you want to more enhance camera performance then you can try Google Camera MOD Apk which will give you stunning portrait shots, night camera performance, and RAW image capture. You can download Google Camera for Redmi 10 Prime.
Redmi sub-brand has ventured into the upper mid-range class and also the lower floors of the high-end market, Xiaomi’s most venerable weapon remains the vanilla Redmi series and perhaps the Redmi Note family as well. And the Redmi 10 seems like a worthy successor to the famous series offering a substantial upgrade over the Redmi 9 and adding a couple of stand-out features that are particularly hard to come across in this price range.
Xiaomi Redmi 10 specs at a glance:
- Body: 162.0×75.5×8.9mm, 181g; Gorilla Glass 3 front, plastic back and plastic frame.
- Display: 6.50″ LCD, 90Hz, 1080x2400px resolution, 20:9 aspect ratio, 405ppi.
- Chipset: MediaTek Helio G88 (12nm): Octa-core (2×2.0 GHz Cortex-A75 & 6×1.8 GHz Cortex-A55); Mali-G52 MC2.
- Memory: 64GB 4GB RAM, 128GB 4GB RAM, 128GB 6GB RAM; eMMC 5.1; microSDXC (dedicated slot).
- OS/Software: Android 11, MIUI 12.5.
- Rear camera: Wide (main): 50 MP, f/1.8, PDAF; Ultra wide angle: 8 MP, f/2.2, 120˚; Macro: 2 MP, f/2.4; Depth: 2 MP, f/2.4.
- Front camera: 8 MP, f/2.0, (wide).
- Video capture: Rear camera: 1080p@30fps; Front camera: 1080p@30fps.
- Battery: 5000mAh; Fast charging 18W, Reverse charging 9W.
- Misc: Fingerprint reader (side-mounted); FM radio; Infrared port; 3.5mm jack.
Google Camera for Redmi 10 Download
Here is the list of Google Camera mod for Redmi 10:
Google Camera Mod Apk Features
Starting with Pixel devices, the camera app has been aided with hardware accelerators to perform its image processing. The first generation of Pixel phones used Qualcomm’s Hexagon DSPs and Adreno GPUs to accelerate image processing. The Pixel 2 and Pixel 3 (but not the Pixel 3a) include the Pixel Visual Core to aid with image processing. The Pixel 4 introduced the Pixel Neural Core.
Unlike earlier versions of High-dynamic-range (HDR) imaging, HDR+, also known as HDR+ on, uses computational photography techniques to achieve higher dynamic range. HDR+ takes continuous burst shots with short exposures. When the shutter is pressed the last 5–15 frames are analysed to pick the sharpest shots (using lucky imaging), which are selectively aligned and combined with image averaging. HDR+ also uses Semantic Segmentation to detect faces to brighten using synthetic fill flash, and darken and denoise skies. HDR+ also reduces shot noise and improves colors, while avoiding blowing out highlights and motion blur. HDR+ was introduced on the Nexus 6 and brought back to the Nexus 5.
Unlike HDR+/HDR+ On, ‘HDR+ enhanced’ mode does not use Zero Shutter Lag (ZSL). Like Night Sight, HDR+ enhanced features positive-shutter-lag (PSL): it captures images after the shutter is pressed. HDR+ enhanced is similar to HDR+ from the Nexus 5, Nexus 6, Nexus 5X and Nexus 6P. It is believed to use underexposed and overexposed frames like Smart HDR from Apple. HDR+ enhanced captures increase the dynamic range compared to HDR+ on. HDR+ enhanced on the Pixel 3 uses the learning-based AWB algorithm from Night Sight.
Starting with the Pixel 4, Live HDR+ replaced HDR+ on, featuring WYSIWYG viewfinder with a real-time preview of HDR+. HDR+ live uses the learning-based AWB algorithm from Night Sight and averages up to nine underexposed pictures.
Dual Exposure Controls
‘Live HDR+’ mode uses Dual Exposure Controls, with separate sliders for brightness (capture exposure) and for shadows (tone mapping). This feature was made available for Pixel 4, and has not been retrofitted on older Pixel devices due to hardware limitations.
In April 2021, Google Camera v8.2 introduced HDR+ with Bracketing, Night Sight with Bracketing and Portrait Mode with Bracketing. Google updated their exposure bracketing algorithm for HDR+ to include an additional long exposure frame and Night Sight to include 3 long exposure frames. The spatial merge algorithm was also redesigned to decide merged or not per pixel (like Super Res Zoom) & updated to handle long exposures (clipped highlights, more motion blur and different noise characteristics). with Bracketing enables further reduced read noise, improved details/texture and more natural colors. With Bracketing is automatically enabled depending on the dynamic range and motion. With Bracketing is supported in all modes for the Pixel 4a (5G) and 5. With Bracketing is supported in Night Sight for the Pixel 4 and 4a.
Google Camera’s Motion photo mode is similar to HTC’s Zoe and iOS’ Live Photo. When enabled, a short, silent, video clip of relatively low resolution is paired with the original photo. If RAW is enabled, only a 0.8MP DNG file is created, not the non-motion 12.2MP DNG. Motion Photos was introduced on the Pixel 2. Motion Photo is disabled in HDR+ enhanced mode.
Fused Video Stabilization, a technique that combines Optical Image Stabilization and Electronic/Digital image stabilization, can be enabled for significantly smoother video. This technique also corrects Rolling shutter distortion and Focus breathing, amongst various other problems. Fused Video Stabilization was introduced on the Pixel 2.
Super Res Zoom
Super Res Zoom is a multi-frame super-resolution technique introduced with the Pixel 3 that shifts the image sensor to achieve higher resolution, which Google claim is equivalent to 2-3x optical zoom. It is similar to drizzle image processing. Super Res Zoom can also be used with telephoto lens, for example Google claims the Pixel 4 can capture 8x zoom at near-optical quality.
Smartburst is activated by holding the shutter button down. Whilst the button is held down, up to 10 shots per second are captured. Once released, the best pictures captured are automatically highlighted.
Different ‘creations’ can be produced from the captured pictures:
- Moving GIF – an animated GIF to capture action or images containing a high amount of movement.
- ‘All-smile’ – a single photo in which everyone is smiling and not blinking; produced by taking different parts of every photo in the burst.
- Collage – when taking ‘selfies’, a collage similar to that of a Photo booth is generated.