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News - Press Kit
Nuventix is a fast growing member of the volatile thermal management market. Updated company information and key product features and benefits can be found below for interested press and analysts. For additional product information please visit our specified product page at www.nuventix.com/products or contact us directly. For press and analyst inquiries, please contact Starr Baker at starr@ink-pr.com.
- Nuventix Company Overview
Nuventix is a venture-backed thermal management solutions company located in Austin, Texas. The Nuventix developed SynJet™ module is a new air-based synthetic jet cooling technology that takes advantage of turbulent pulses of air generated from an electromagnetic actuator. SynJet solutions are highly adaptable, quiet, reliable cooling devices that efficiently, effectively — and directly — dissipate heat from any surface. SynJet cooling solutions aren’t limited by traditional restraints, such as form factor or air flow direction and can be integrated into virtually any device. With unlimited flexibility in air direction, the SynJet modules radically extend the limits of conventional cooling and provide unprecedented opportunities for new and innovative electronics systems design. No longer will you be hamstrung by traditional thermal limitations.
- Nuventix Technology Overview
Nuventix is revolutionizing thermal management with patented, highly adaptable, quiet, air moving devices that efficiently, effectively — and directly — dissipate heat from any surface. The highly patented SynJet™ technology enables the most reliable and flexible air cooling solutions available today. SynJet cooling solutions aren’t limited by traditional restraints, such as form factor, so they can be integrated into virtually any device. With unlimited flexibility in air direction, the SynJet series of cooling devices radically extend the limits of conventional cooling and provide unprecedented opportunities for new and innovative electronics system designs. No longer will engineers be hamstrung by traditional thermal limitations.
