HP ProBook 430 G7 9GQ01PA Overview
The HP ProBook 430 G7 9GQ01PA laptop is a powerful and efficient device designed for professionals who require high performance in a portable package. This laptop is equipped with a 10th gen Intel Core i7 processor, specifically the i7-10510U model with 4 cores and a base frequency of 1.8 GHz that can boost up to 4.9 GHz. The processor also features an 8 MB cache and a Thermal Design Power (TDP) of 15 W, making it ideal for multitasking and demanding tasks.
The ProBook 430 G7 has a 13.3-inch Full HD IPS display with a resolution of 1920 x 1080 pixels, providing crisp and vibrant visuals for work or entertainment. The LED backlight enhances the brightness and energy efficiency of the screen. The laptop comes with 8 GB of DDR4 RAM clocked at 2400 MHz, along with a spacious 512 GB NVMe SSD for fast storage and boot times.
Connectivity options on this laptop include Wi-Fi 6, Bluetooth 5.0, Ethernet LAN, HDMI, USB Type-A and Type-C ports, a card reader, and a combo headphone/mic port. The inclusion of a fingerprint reader and Trusted Platform Module (TPM) adds an extra layer of security for sensitive data.
The HP ProBook 430 G7 features a sleek silver design and a compact form factor, weighing just 1.49 kg and measuring 18 mm thin. The notebook is easy to carry around for work on the go, and the 45 Wh lithium-ion battery provides decent battery life for a full day of productivity.
Overall, the HP ProBook 430 G7 9GQ01PA laptop offers a combination of power, portability, and security features that make it a suitable choice for professionals who need a reliable device for their daily tasks.
Pros:
- Powerful 10th gen Intel Core i7 processor
- Full HD IPS display for crisp visuals
- Fast 512 GB NVMe SSD storage
- Wi-Fi 6 and Bluetooth 5.0 connectivity
- Fingerprint reader and TPM for enhanced security
- Lightweight and slim design for portability
Cons:
- No discrete graphics adapter for intensive graphical tasks
- FreeDOS operating system requires separate installation of preferred OS
- Limited NTSC coverage on display may impact color accuracy