Motorola A1010 Screen Size Dimensions
Motorola A1010 screen size dimensions, viewport size, pixel density and more information.
Specs:
WIDTH | 208 px |
---|---|
HEIGHT | 320 px |
SCREEN SIZE INCH | 2.9" |
PX DENSITY | ~132 ppi |
ASPECT RATIO | 31/48 |
DISPLAY TYPE | TFT resistive touchscreen, 256K colors |
PHYSICAL SIZE MM | 117 x 59 x 19 mm |
OPERATING SYSTEM | Symbian 7.0, UIQ v2.1 UI |
RELEASE DATE | Cancelled |
Information:
The Motorola A1010 features a 2.9-inch TFT resistive touchscreen display with a resolution of 208 x 320 pixels, resulting in a pixel density of approximately 132 pixels per inch (ppi). While the screen size and resolution may have been considered adequate at the time of its planned release, they fall short of current industry standards and user expectations. With the prevalence of larger screens and higher resolutions in modern smartphones, the A1010's display may not meet the demands of users who prioritize visual clarity and screen real estate for multimedia consumption, gaming, and productivity tasks.
The 31/48 aspect ratio of the screen may also deviate from the common 16:9 or 18:9 ratios found in contemporary smartphones, potentially impacting the viewing experience for videos and other content optimized for wider aspect ratios. Additionally, the use of a resistive touchscreen, as opposed to the more responsive and precise capacitive touchscreens found in modern devices, may result in a less intuitive and accurate touch input experience for users.
Despite its cancellation, the Motorola A1010 was intended to run on the Symbian 7.0 operating system with UIQ v2.1 UI, which was a popular platform for smartphones at the time. However, advancements in mobile operating systems and user interface design have since shifted towards more modern and feature-rich platforms, further underscoring the outdated nature of the device.
In summary, the Motorola A1010's screen size, resolution, aspect ratio, and display technology may have aligned with industry standards and user expectations during its initial development, but they have since become outdated in the rapidly evolving landscape of smartphone displays and technology.