First-of-its-kind Plasma-Cooled Laptop to Unveil at CES 2026

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A New Era in Laptop Cooling

A company based in New Jersey is preparing to introduce a groundbreaking innovation in laptop cooling technology. YPlasma will present the world premiere of the first-ever use of dielectric barrier discharge (DBD) plasma actuators in consumer electronics cooling. This development represents a significant shift from traditional methods, offering a revolutionary solution that could change how we think about cooling in electronic devices.

The Limitations of Traditional Cooling Methods

As electronic devices become thinner and more powerful, especially with the rise of AI-driven processing, traditional cooling techniques are reaching their physical limits. These methods often rely on mechanical fans and ionic wind devices, which have limitations in terms of efficiency and noise. YPlasma's solid-state technology addresses these challenges by utilizing cold plasma to generate high-velocity "ionic wind" without any moving parts, making it a more reliable and efficient option.

Miniaturization of DBD Technology

YPlasma has successfully miniaturized DBD technology into a form factor that redefines hardware design. Their actuators are thin films, as thin as 200 microns, allowing them to be integrated directly onto heat sinks, chassis walls, or internal components. This paper-thin profile enables ultra-thin laptop designs that were previously unattainable due to cooling constraints. Additionally, these actuators are the first in the world capable of producing both cooling and heating within the same device, offering thermal versatility that was not possible before.

The First Laptop Cooled with DBD Plasma Actuators

The unveiling of the first laptop cooled with YPlasma’s DBD plasma actuators marks a historic moment for the company and the entire electronics industry. David García Pérez, CEO and Co-Founder of YPlasma, emphasized the significance of this achievement. He stated, “We’re excited to engage with global partners and demonstrate what our technology can achieve.” While other companies have explored corona discharge for ionic cooling, YPlasma's DBD technology represents a major advancement in safety, reliability, and acoustics.

Noiseless Operation and Safety

One of the standout features of YPlasma’s system is its truly noiseless operation, functioning at an ultra-quiet 17dBA. This means the system is virtually inaudible to the human ear, eliminating the common "fan whine" found in high-performance laptops. Unlike corona discharge devices, which can produce harmful ozone byproducts, YPlasma’s DBD system uses a dielectric barrier to limit discharge, ensuring it is safe for consumer use in enclosed spaces. The company also claims that the DBD eliminates "tip erosion," the primary failure point for corona needles, with a protected electrode design that ensures the cooling system lasts the entire lifetime of the device.

Expanding Beyond Consumer Electronics

Beyond consumer electronics, YPlasma’s DBD technology serves as a versatile platform for several critical industries. It delivers active flow control, which enhances safety for road vehicles, aircraft, and wind turbines to improve fuel efficiency and reduce drag. The technology can also help develop next-generation propulsion systems for UAVs and space exploration. As the AI era demands a complete rethink of how we manage heat and air, YPlasma is bringing space-grade technology—packaged in a 200-micron film—to everything from your laptop to the next generation of aircraft.

Conclusion

YPlasma's innovative approach to cooling technology is set to revolutionize the electronics industry. By introducing DBD plasma actuators, the company is addressing the growing need for efficient, quiet, and safe cooling solutions. With applications extending beyond laptops to various industries, YPlasma is paving the way for a future where technology can operate at peak performance without compromising on comfort or safety.