Enermax expands its Liqtech TR4 series, designed specifically with a full cover block for AMD Ryzen Threadripper CPUs. Soon, the AIO water cooler will also be available with 280mm radiator, next to the 240mm and 360mm versions.
Enermax announces a new addition to its acclaimed LIQTECH TR4 cooler lineup, LIQTECH TR4 280. LIQTECH TR4 closed-loop liquid coolers are tailor-made for the top-end enthusiast AMD Threadripper CPUs. In addition to the base plate that can 100% cover the Threadripper’s IHS (integrated heat spreader), LIQTECH TR4 features the patented Shunt-Channel-Technology (SCT) and the exclusive EF1 pump with super high flow rate to deliver unbeatable 500W+ TDP for heavily overclocked CPUs and demanding HEDT systems.
LiqTech TR4 280 Included in the delivery
- LiqTech TR4 280 Liquid Cooler (ELC-LTTR280-TBP)
- 2x 140mm High Pressure Twister Fans
- 8x Case Scews
- 8x Fan Screws
- 4x AMD® TR4 / SP3 Screw
- 4x Spring Screws
- 1x Thermal Grease
- 1x PWM Y cable
- 1x Molex adapter
ENERMAX LIQTECH TR4 series is the first and only all-in-one water coolers on the market with a base plate that covers entire integrated heat spreader of the AMD’s massive processors. The custom-engineered design effectively enhances greater heat transfer efficiency and faster dissipation, which makes LIQTECH TR4 the best cooling choice for the AMD’s high-core-count CPUs. LIQTECH TR4 AIO water coolers offer ultra-high TDP of 500W+; the powerful cooling beast can manage a huge amount of heat generated by the heavily overclocked CPUs. To achieve the ENERMAX Europe Coolergiant Computers Handels GmbH Billbrookdeich 32 22113 Hamburg, Germany Tel: +49(0) 40 81 99 57-0 superior cooling performance, LIQTECH TR4 employs the ENERMAX EF1 pump, a robust pump with high flow rate up to 450 L/h, which is about 7 times more powerful than its peers. Furthermore, the lineup is also equipped with the patented SCT; this proven cooling technology can prevent the formation of the boundary layer and enhance the liquid flow inside the cold-plate, helps reduce the formation of hot spots effectively.
