Motorola Moto E Dual SIM (2nd gen)

Motorola Moto E Dual SIM (2nd gen) Screen Size Dimensions

Motorola Moto E Dual SIM (2nd gen) screen size dimensions, viewport size, pixel density and more information.

Specs:

WIDTH 540 px
HEIGHT 960 px
SCREEN SIZE INCH 4.5"
PX DENSITY ~245 ppi
ASPECT RATIO 9/16
DISPLAY TYPE IPS LCD
PHYSICAL SIZE MM 129.9 x 66.8 x 12.3 mm
OPERATING SYSTEM Android 5.0
RELEASE DATE Released 2015, March

Information:

The Motorola Moto E Dual SIM (2nd gen) features a 4.5-inch IPS LCD display with a resolution of 540 x 960 pixels, resulting in a pixel density of approximately 245 ppi. This display offers clear and vibrant visuals, making it suitable for various user applications. The 9:16 aspect ratio provides a taller and more immersive viewing experience, which is particularly beneficial for multimedia consumption, gaming, and web browsing. The compact physical size of 129.9 x 66.8 x 12.3 mm (5.11 x 2.63 x 0.48 in) makes the device easy to handle and operate with one hand, enhancing its usability for everyday tasks.

The display characteristics of the Motorola Moto E Dual SIM (2nd gen) are well-suited for a range of user applications, particularly due to its compact size and sharp resolution. The IPS LCD technology ensures excellent viewing angles and color accuracy, making it ideal for tasks that require precise visual representation, such as photo and video editing. Additionally, the device's display size and resolution make it convenient for reading e-books, viewing documents, and accessing productivity apps, catering to users who rely on their smartphones for work-related activities.

The 4.5-inch screen of the Motorola Moto E Dual SIM (2nd gen) provides a balance between portability and usability, making it an excellent choice for on-the-go users. The Android 5.0 operating system further enhances the user experience by offering a seamless interface and compatibility with a wide range of apps and services. Whether for entertainment, productivity, or communication, the device's display characteristics contribute to its versatility and appeal across various user applications.