Corsair Vengeance RGB PRO 32GB (2x 16GB) CL16 DDR4-3466 PC4-27700 1.2V 288-pin UDIMM Gaming RAM Kit

Corsair Vengeance RGB PRO 32GB (2x 16GB) CL16 DDR4-3466 PC4-27700 1.2V 288-pin UDIMM Gaming RAM Kit

SKU: CMW32GX4M2C3466C16

  • $709.99
    Unit price per 
GST included. Shipping calculated at checkout.

Only 0 left!
0 in Stock
Will be in stock after

Product Overview

This 32GB (2x 16GB) Vengeance RGB PRO Series DDR4 3466 MT/s RAM kit from Corsair is for use in DDR4 compatible systems and operates at 3466 MT/s with an overall transfer rate of PC4-27700.

Built to provide Gamers and Enthusiasts alike with excellent overall system performance, this RAM kit also operates at a standard voltage of 1.2V with a CAS Latency of CL16, and is designed to allow you to run more applications simultaneously, switch between them faster, and provide a smoother computing experience.

Technical Specifications
Part No. CMW32GX4M2C3466C16
Capacity 32GB (2x 16GB)
Brand Corsair
Speed DDR4-3466 - 3466MT/s - PC4-27700
Voltage 1.2V
Technology DDR4
Series Vengeance RGB PRO
Error Correction Non-ECC
Signal Processing Unbuffered
Form Factor 288-pin UDIMM
CAS Latency CL16
Pieces in Kit 2


You can verify the compatibility of this RAM kit in a number of ways:

  • Use the RamCity Finder to see all guaranteed compatible RAM upgrades for your brand and model system or motherboard
  • Search online to see if this product is on the QVL (Qualified Vendor List) for your system or motherboard
  • Contact one of our Upgrade Evangelists for an expert opinion

Why is the speed of this RAM kit shown as 3466 MT/s instead of 3466 Mhz?

When it comes to measuring DDR RAM speed, MT/s and MHz are used interchangeably, which is not actually correct.

DDR stands for double data rate which means data is transfers on both the rising and falling edges of the clock signal. Meaning that the transfer rate is roughly twice the speed of the I/O bus clock. This RAM kit runs at 1733MHz per second, but the effective rate is 3466 megatransfers per second (MT/s) because there are 1733 million rising edges per second and 1733 million falling edges per second of a clock signal running at 1733 MHz.