The Huawei Mate 20 Pro smartphone is the latest device from the China-based technology brand that will provide consumers with a premium-grade solution that doesn't skimp when it comes to the latest must-have features.
Boasting a triple-lens camera on the center-rear of the device, the smartphone features the HiSilicon Kirin 980 chip that comes as the second seven nanometer chip smartphone after the latest Apple iPhone and the first for an Android-powered solution. The smartphone sports a 6.3 inch OLED display for crystal-clear imagery, while color options for the main body of the device includes a gradient version that brings new levels of character to the powerful solution.
The Huawei Mate 20 Pro smartphone will officially launch soon and is likely to be a frontrunner against Android and Apple competitors alike.
Seven-Nanometer Chip Smartphones
The Huawei Mate 20 Pro Offers a Three-Lens Camera and More
Trend Themes
1. Triple-lens Cameras - Disruptive innovation opportunity: Develop affordable and high-performance triple-lens camera modules for smartphones to cater to the growing demand for professional-quality photography.
2. Seven-nanometer Chip - Disruptive innovation opportunity: Develop efficient and powerful chipsets using seven-nanometer technology to enhance smartphone performance and power efficiency.
3. Gradient Design - Disruptive innovation opportunity: Integrate gradient designs into smartphone aesthetics to offer consumers unique and fashionable device options.
Industry Implications
1. Smartphone Manufacturing - Disruptive innovation opportunity: Rethink smartphone manufacturing processes to accommodate triple-lens camera modules and incorporate seven-nanometer chipsets into the production line.
2. Photography Equipment - Disruptive innovation opportunity: Create specialized lenses and accessories for smartphone photography that maximize the capabilities of triple-lens camera setups.
3. Fashion and Design - Disruptive innovation opportunity: Collaborate with smartphone brands to develop gradient designs and materials for the exterior of devices that appeal to fashion-conscious consumers.