ASUS ZenBook UX433FLC-A5486R 90NB0MP5-M11160 Overview
The ASUS ZenBook UX433FLC-A5486R is a powerful and portable laptop that offers high performance and stunning visuals. Powered by the 10th gen Intel Core i7 processor, this laptop is designed for productivity and multitasking. With 16 GB of RAM and a 1000 GB SSD, you can store all your files and run applications smoothly.
The NVIDIA GeForce MX250 discrete graphics adapter provides excellent graphics performance for gaming and multimedia tasks. The 14-inch Full HD display with a resolution of 1920 x 1080 pixels delivers sharp and vibrant visuals. The laptop also features Intel UHD Graphics for improved graphics processing.
With Windows 10 Pro as the operating system, you have access to a wide range of productivity features and security enhancements. The laptop supports Wi-Fi 6 (802.11ax) standards for fast and reliable wireless connectivity. Bluetooth connectivity allows you to connect to various devices wirelessly.
Measuring 319 mm in width, 199 mm in depth, and 16.9 mm in height, this notebook has a sleek and compact form factor. The lithium polymer battery with three cells offers long-lasting battery life for on-the-go use. The included 65 W AC power adapter ensures quick charging when needed.
Pros:
1. Powerful 10th gen Intel Core i7 processor for smooth performance
2. NVIDIA GeForce MX250 discrete graphics adapter for excellent graphics performance
3. 16 GB of RAM and 1000 GB SSD for ample storage and fast data access
4. Windows 10 Pro operating system with enhanced productivity features
5. Sleek and compact design for easy portability
6. Wi-Fi 6 support for fast and reliable wireless connectivity
7. Bluetooth connectivity for wireless device pairing
8. Full HD display with sharp and vibrant visuals
Cons:
1. No Ethernet LAN port for wired internet connection
2. Limited USB ports (only one USB 2.0 port)
3. No optical drive for CD/DVD playback
4. Higher price point compared to some other laptops with similar specifications
5. Cooling system may be less effective under heavy workload.