PHS-memory RAM suitable for Gigabyte A520M K V2 (rev. 1.0)
1 x 8GBPrice in EUR including VAT
Delivered between Thu, 18/6 and Sat, 20/6
More than 10 pieces in stock at supplier
More than 10 pieces in stock at supplier
free shipping
Memory configuration4
Product details
The RAM from PHS-memory is specifically designed for the Gigabyte A520M K V2 (rev. 1.0) motherboard and offers a storage capacity of 8 GB. This DDR4 RAM is an ideal solution for users looking to enhance their system's performance. With a memory clock frequency of 2400 MHz, this memory ensures efficient data processing and improved system response times. The unbuffered U-DIMM form factor and 288 pins guarantee easy installation and compatibility with the corresponding motherboard. The operating voltage of 1.2 volts contributes to energy efficiency, which is particularly important in modern systems. This RAM is a reliable choice for anyone seeking a powerful and compatible memory upgrade.
- 100% compatible with Gigabyte A520M K V2 (rev. 1.0)
- Memory clock frequency of 2400 MHz for enhanced performance
- Unbuffered U-DIMM form factor for easy installation
- Energy-efficient operating voltage of 1.2 volts.
Compatible brand | Gigabyte |
Memory configuration | 1 x 8GB |
Memory type | DDR4-RAM |
Storage clock frequency | 2400 MHz |
Item number | 37104540 |
Manufacturer | PHS-memory |
Category | RAM Model-specific |
Manufacturer No. | SP492147 |
Release date | 16/7/2023 |
LED lighting | without LED |
Compatible brand | Gigabyte |
Memory configuration | 1 x 8GB |
Hardware application range | Standard |
Memory type | DDR4-RAM |
Storage clock frequency | 2400 MHz |
Number of memory modules (RAM) | 1x |
Storage capacity (RAM) per module | 8 GB |
Memory chip | DDR4 |
Number of pins | 288x |
Country of origin | China |
CO₂ emissions | 81,33 kg |
Climate contribution | EUR 2,05 |
Product Safety |
Specifications may include unverified machine translations.
14-day cancellation right
30-day right of return
30-day right of return
24 Months statutory warranty
Legal concerns