PHS-memory 4GB RAM memory for Acer Veriton L480G-ED5800W DDR3 SO DIMM 1066MHz
Acer Veriton L480G-ED5800W, 1 x 4GBPrice in EUR including VAT
Delivered between Tue, 14/4 and Thu, 16/4
More than 10 pieces in stock at supplier
More than 10 pieces in stock at supplier
free shipping
Product details
The 4GB RAM memory from PHS-memory is specifically designed for the Acer Veriton L480G-ED5800W, providing a reliable and powerful memory upgrade. With a storage capacity of 4GB and a clock frequency of 1066MHz, this DDR3 SO-DIMM memory enhances system performance and ensures smooth application execution. Its compatibility with the Acer Veriton L480G-ED5800W guarantees easy installation and use, allowing users to benefit from optimized performance. The memory operates at a voltage of 1.5 volts, offering stable and efficient power supply. Ideal for users looking to boost their system's performance, this RAM is a valuable addition to the Acer Veriton L480G-ED5800W.
- 100% compatible with Acer Veriton L480G-ED5800W
- Memory configuration: 1 x 4GB
- Memory chip: DDR3L-1066
- 204 pins for easy installation.
Compatible brand | Acer |
RAM for model | Acer Veriton L480G-ED5800W |
Memory configuration | 1 x 4GB |
Memory type | DDR3-RAM |
Storage clock frequency | 1066 MHz |
Item number | 14320894 |
Manufacturer | PHS-memory |
Category | RAM Model-specific |
Manufacturer no. | SP244688 |
Release date | 15/11/2020 |
Compatible brand | Acer |
RAM for model | Acer Veriton L480G-ED5800W |
Memory configuration | 1 x 4GB |
Hardware application range | Notebook |
Memory type | DDR3-RAM |
Storage clock frequency | 1066 MHz |
Number of memory modules (RAM) | 1x |
Storage capacity (RAM) per module | 4 GB |
Memory chip | LPDDR3 |
Memory form factor | SO-DIMM |
Number of pins | 204x |
Voltage | 1.50 V |
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