Xiaomi Redmi 9 Activ

Xiaomi Redmi 9 Activ Screen Size Dimensions

Xiaomi Redmi 9 Activ screen size dimensions, viewport size, pixel density and more information.

Specs:

WIDTH 720 px
HEIGHT 1600 px
SCREEN SIZE INCH 6.53"
PX DENSITY ~269 ppi
ASPECT RATIO 11/24
DISPLAY TYPE IPS LCD, 400 nits (typ)
PHYSICAL SIZE MM 164.9 x 77.1 x 9 mm
OPERATING SYSTEM Android 10, MIUI 12
RELEASE DATE Released 2021, September 24

Information:

The Xiaomi Redmi 9 Activ boasts a 6.53-inch IPS LCD display with a screen resolution of 720 x 1600 pixels, resulting in a pixel density of approximately 269 pixels per inch (ppi). This display offers a bright and vibrant visual experience, making it well-suited for various user applications such as streaming video content, gaming, and general multimedia consumption. The 400 nits (typ) brightness ensures good visibility even in well-lit environments, enhancing the user experience across different lighting conditions.

The device's display characteristics, including its 11/24 aspect ratio, contribute to an immersive viewing experience, particularly for users who enjoy watching movies or playing games on their smartphones. The physical size of the display, measuring 164.9 x 77.1 x 9 mm (6.49 x 3.04 x 0.35 in), provides ample screen real estate for multitasking and productivity applications, allowing users to comfortably view and interact with content.

Furthermore, the Xiaomi Redmi 9 Activ's display, combined with the Android 10 operating system and MIUI 12, delivers a smooth and responsive user interface, catering to a wide range of user preferences and usage scenarios. Whether users are engaging in social media, browsing the web, or accessing productivity tools, the device's display characteristics enhance the overall usability and visual appeal of the smartphone.

Overall, the Xiaomi Redmi 9 Activ's display characteristics make it a compelling choice for users seeking a smartphone that offers an immersive viewing experience, vibrant visuals, and versatile functionality across various applications and usage scenarios.