CRYORIG’s A Series Hybrid Liquid Cooling (HLC) products is designed to solve one of the major problems with Closed Loop Cooling liquid units, which is the severe lack of airflow for the CPU’s surrounding components. At Computex, CRYORIG’s live thermal imaging demo shows the potential impact of how HLC can benefit the system. Heat imaging shows a drastic drop of over 10° Celsius in regions of the surrounding Voltage Regulator Modules, RAM and even the GPU card can benefit from added airflow from CRYORIG’s patent pending proprietary Airflow Circulator fan.
In lowering the surrounding heat of these areas, systems may achieve benefits ranging from higher stability and component life span, and may even achieve better stable performance and overclocks for the CPU/RAM and GPU. The Airflow Circulator fan can be removed and attached in reverse along with adjusting your CPU water block allows users to choose which way they want the Airflow Circulator to point at, be it RAM, GPU or VRM areas. The Airflow Circulator is a 3.000 RPM PWM control enabled 70 mm fan, that intelligently adjusts it’s RPM based on CPU temperature.
It’s variable spin rate allows it to be virtually inaudible over the other working fans in the system and radiator. There are three models in CRYORIG’s initial HLC lineup: the A40, A40 Ultimate and A80. CYRORIG’s A Series HLC units will be available in Summer, 2015.
A40/A40 Ultimate
Supports: Intel 2011(v3), 1366, 115x, AMD FM1/FM2, AM2/AM2+, AM3/AM3+ Cold Plate: Copper Micro Fin Radiator Size: 240x120x25mm (A40)/ 240x120x38mm (A40 Ultimate) Fan: Dual 120x25mm 2.200 RPM PWM
A80
Supports : Intel 2011(v3), 1366, 115x, AMD FM1/FM2, AM2/AM2+, AM3/AM3+ Cold Plate: Copper Micro Fin Radiator Size: 280x120x25mm Fan: Dual 140x25mm 1.850 RPM PWM
And here we have a proof of concept video comparing a system with the hybrid cooling versus one with liquid cooling and little to no airflow: