Today’s electronic devices require more from active thermal management systems than current solutions can provide. System designers need better airflow solutions to solve complex thermal issues created by industry trends toward smaller, faster, more functional devices with higher component densities and processing power. At the same time, consumers want the comfort of high-performance devices that are lightweight, silent and vibration free.
ICE technology generates movement of air particles without any moving parts, noise or vibration. This solid-state cooling engine is suitable for up to 30-Watts Thermal Design Power (TDP) systems, making it the perfect solution for lightweight, ultra-compact, vibration-free, and utterly silent electronic devices. If you’re looking for a paradigm shift in thermal management, Ventiva’s ICE® technology is the answer!
The ICE technology is based on principles of electrohydrodynamic (EHD) flow, a fascinating science that intersects physics, engineering and fluid dynamics, to move ionized air molecules within an electric field.
Ventiva’s patented Ionic Cooling Engine (ICE) architecture is configurable and scalable, from handheld electronics to consumer televisions, ICE is solving difficult thermal challenges with ultra-compact solutions that enable air movement in the tightest spaces where axial fans don’t fit. ICE devices integrate easily into standard electronic assembly workflows with sizes that can be as small as 1/3 of the blowers they are replacing.
Our drop-in fan replacements are suitable for up to 10-Watt TDP systems and are ideal for situations where deployment time is of utmost importance. Our experts integrate ICE into existing devices at the subsystem level, addressing low, medium and high system performance needs, to achieve a quick and easy fan replacement. Our drop-in devices are designed to mount into existing systems in the same manner as a traditional blower.
Cooling can be further enhanced by implementing a hybrid solution that combines ICE with traditional heatsinks, heat pipes or fans. In hybrid solutions with fans, the ICE technology improves thermal performance of the system, allowing fans to remain off most of the time. Fans only turn on during the highest workloads. The potential combinations are numerous and are limited only by a designer’s imagination.
Because ICE cooling devices can be scaled to various heights and widths, and since multiple ICE devices can be used together, either linked to act as a single large device or spread around the system for spot cooling, the achievable cooling capacity covers a wide range. The benefits of customization extend beyond cooling. As more space becomes available, designers can reimagine the entire system. Opportunities for other enhancements, like redesigning the motherboard to improve performance or adding more battery to increase battery life become obtainable.
The Ventiva® Ionic Cooling Engine (ICE®) technology is based on principles of electrohydrodynamic (EHD) flow, a fascinating science that intersects physics, engineering and fluid dynamics, to move ionized air molecules within an electric field. It moves air in a unique way, without moving parts, acoustic noise, or vibration.
ICE technology harnesses the power of a minuscule plasma field to move air particles, delivering a potent “solid-state” cooling wind:
Ventiva’s ICE9® thermal management system, which is based on our patented ICE technology, enables optimal performance in electronics devices—without any moving parts, acoustic noise, or vibration. It uses intelligent software control to continuously monitor its operation and can adaptively deliver more or less airflow as an electronic system requires. Combining advanced monitoring and algorithms, the ICE9 solution’s real-time software can be combined with overall system performance monitoring to provide a robust device-wide thermal solution that is thin, silent, and totally cool.
Our ICE technology provides high-value size and acoustic benefits for a wide range of electronic applications including notebooks and laptops, tablets, wearable devices, and AR and VR headsets.
The ICE9 solution has been tested in anechoic chambers, showing less than 15 dBa sound pressure. This is an imperceptible level that is barely above the background noise level in an anechoic chamber.
Unlike traditional blowers which are “bottom-in / side-out” air flow devices, the ICE9 solution does not need an air gap to draw in air; it is a more space-efficient “side-in / side-out” device. This allows for a lower internal height for a laptop or tablet, of up to 2mm, which enables thinner and more elegant product designs.
It’s very easy! Remove two Philips head screws on either side of the ICE9 device, replace it with a new device, and then replace the screws. No special cables or connectors are required.
No. ICE9 devices are not currently intended or optimized for use in data center applications.
No. Our patented ICE technology leverages EHD airflow instead of utilizing mechanical, moving parts (vibrating membranes), which means we are competing with the traditional fans that have been used since the early days of portable computers.
Yes, the ICE9 solution is green and fully recyclable. The devices use no rare earth materials, and we only source readily available electronic components.
Dust is a fact of life, and no electronic device is completely immune to its effects. For example, any air inlet obstructed by dust halts the airflow in an electronic system which reduces or even eliminates its cooling capability. So, our focus is on ensuring that any systems that incorporate ICE technology have as little airflow degradation as possible over the product’s lifetime.
The ICE9 solution uses intelligent software control to automatically monitor for dust. When dust is detected, it self-corrects by altering the system’s electrical characteristics. This enables system designers to continuously monitor dust – in real time – for the first time
Like many products in use today (e.g., laser printers, vacuum cleaners, photocopier machines, kitchen blenders, etc.), Ventiva ICE9 solutions generate a small amount of ozone. This ozone is a by-product of the cooling process and is only generated when the device is in use.
Ventiva has developed effective and efficient catalytic decomposition techniques to speed the conversion of ozone back into oxygen, before the air is exhausted from a device that is being cooled, so that the device can be fully compliant with rigorous indoor air quality standards.
While it is possible for the electrodes in these devices to become less efficient over time, Ventiva has greatly mitigated this problem with its ICE technology.
The ICE9 thermal management system uses intelligent software control, which continuously monitors for system issues, with innovative materials to give our patented air-cooling solution the longevity needed for modern electronic products.
Please fill out this form and we’ll notify you when samples are available for general use. We are currently prioritizing laptop applications.