HP 15-da0367nz 4JX45EA Overview
The HP 15-da0367nz 4JX45EA laptop is a reliable and versatile device that offers a combination of performance, portability, and convenience. Powered by a 7th gen Intel Core i3-7020U processor with 2 cores and 4 threads, this laptop is capable of handling everyday tasks with ease. With a processor frequency of 2.3 GHz and 3 MB cache, it delivers a smooth and responsive performance.
The laptop comes pre-installed with Windows 10 Home, providing users with a familiar and user-friendly operating system. It also includes pre-installed software such as Dropbox and Netflix, as well as trial software like Microsoft Office 365 and McAfee LiveSafe for added productivity and security.
The HP 15-da0367nz features a 15.6-inch Full HD display with a resolution of 1920 x 1080 pixels and LED backlighting, delivering crisp and vibrant visuals for an immersive viewing experience. The Intel HD Graphics 620 onboard graphics adapter ensures smooth graphics performance for entertainment and light gaming.
With 4 GB of DDR4-SDRAM memory and a 256 GB SSD, the laptop offers fast and efficient multitasking and storage capabilities. The SSD provides quick boot times and file access, enhancing overall system performance.
In terms of connectivity, the laptop features Bluetooth 4.2, Ethernet LAN, and Wi-Fi support for seamless wireless communication. It also includes ports like HDMI, USB 2.0, and USB 3.0 for easy connectivity to external devices.
The HP 15-da0367nz has a sleek and stylish design in black, making it a visually appealing device. It is lightweight at 1.77 kg and has a slim form factor, making it easy to carry around for on-the-go use.
Pros:
- 7th gen Intel Core i3 processor for reliable performance
- Full HD display with vivid visuals
- Fast SSD storage for quick boot times
- Lightweight and portable design
- Pre-installed software for productivity and entertainment
Cons:
- Limited memory capacity
- No discrete graphics adapter for gaming enthusiasts
- Limited connectivity options compared to higher-end models