
Kingston 32GB [1x32GB] 3200MHz LPDDR4 SODIMM Memory
The Kingston 32GB [1x32GB] 3200MHz LPDDR4 SODIMM Memory is a high-capacity memory module designed to improve multitasking and performance in laptops and compact PCs. With 32GB of capacity and 3200MHz speed, it’s perfect for running resource-heavy applications, gaming, and creative workflows. Kingston’s memory modules ensure long-lasting performance and stability even under heavy use.
32GB Capacity - The 32GB capacity ensures efficient multitasking and is ideal for high-end applications, such as gaming, video editing, and 3D rendering.
3200MHz Speed - The 3200MHz speed provides faster data transfer rates, enhancing the performance of your system and reducing load times.
LPDDR4 SODIMM - LPDDR4 SODIMM ensures lower power consumption, making it suitable for laptops and portable systems where battery life matters.
Reliable Performance - Kingston memory is known for its reliability, offering stable performance even during intense multitasking or resource-heavy applications.
Product Information
Product Information
Shipping & Returns
Shipping & Returns
Description
The Kingston 32GB [1x32GB] 3200MHz LPDDR4 SODIMM Memory is a high-capacity memory module designed to improve multitasking and performance in laptops and compact PCs. With 32GB of capacity and 3200MHz speed, it’s perfect for running resource-heavy applications, gaming, and creative workflows. Kingston’s memory modules ensure long-lasting performance and stability even under heavy use.
32GB Capacity - The 32GB capacity ensures efficient multitasking and is ideal for high-end applications, such as gaming, video editing, and 3D rendering.
3200MHz Speed - The 3200MHz speed provides faster data transfer rates, enhancing the performance of your system and reducing load times.
LPDDR4 SODIMM - LPDDR4 SODIMM ensures lower power consumption, making it suitable for laptops and portable systems where battery life matters.
Reliable Performance - Kingston memory is known for its reliability, offering stable performance even during intense multitasking or resource-heavy applications.




















