In critical environments, electromagnetic compatibility (EMC) is not optional. It is a decisive factor in system reliability, operational safety, and mission superiority.
Getelec supports leading defense organizations in controlling the most demanding electromagnetic environments, including under extreme operating conditions.
Integrated from the earliest design phases, our EMC expertise ensures interference-free system performance,enabling armed forces to communicate, detect, decide, and operate without disruption.Drawing on decades of expertise, Getelec meets some of the aerospace and defense industry’s most demanding standards and certification requirements, including MIL G 83528, TEMPEST, and DO-160.)
Our dedicated engineering teams support you throughout every stage of your project. Equipped with state-of-the-art manufacturing technologies, our Yvelines production facility enables us to deliver exceptional product quality within short lead-times
As electronic systems become increasingly concentrated within C3IS architectures, every command post presents major electromagnetic challenges. In environments saturated with tactical radios, satellite communications, and surveillance systems, even the slightest interference can compromise mission success.
Our high-performance protection solutions preserve signal integrity anddata accuracy, ensuring operational success and the reliability of the entire command chain.
Discover our dual-material IP/EMC solutions
Our dual-material gaskets combine conductive and insulating elements within a single co-extruded profile. By separating the microwave shielding and environmental sealing functions, these solutions provide enhanced resistance to extreme operating conditions. Resistant to water, pressure, and corrosion, they deliver reliable environmental sealing and high-performance electromagnetic shielding, even in the harshest environments.
Our dual-material IP/EMC solutions
• Combined IP/EMC protection
• Salt spray resistant
• Compact dimensions
• Custom engineered
• Extended service life compared with single-material solutions
In dense and contested operational environments where reliable communications are mission-critical, Getelec provides advanced expertise in electromagnetic compatibility and shielding solutions. Our innovative technologies ensure the reliability of critical systems and the continuity of field communications, even under the most demanding operating conditions.
By enhancing the robustness and electromagnetic discretion of your equipment, Getelec helps maintain your technological superiority.
Discover our conductive elastomers:
Our conductive elastomers are fully developed by our chemical engineering teams. From raw material selection through final processing, our engineers develop formulations tailored to each requirement and control every stage of the development process. The conductive particles used in our compounds, ranging from 10 to 40 microns and representing 60% to 80% filler content, deliver high performance EMC shielding..
Our conductive elastomers offer the following guarantees:
• Electrical continuity
• Mechanical performance
• High performance under extreme temperatres
• Excellent shielding efficiency at very high frequencies (above 55 GHz)
In the most demanding operational environments, where high-power radar systems, lightning exposure, and electronic warfare converge, electromagnetic compatibility is a strategic requirement.
Getelec helps secure your operations and improve platform survivability by reducing electromagnetic signatures, enhancing both discretion and resilience
Discover our ranges of microwave absorbers and heat sinks:
The GT602 range of absorbers delivers high-performance narrowband absorption together with excellent power density capabilities (>1 W/cm2). Thanks to its low outgassing properties, GT602 is ideally suited for aerospace applications.
Developed by our R&D laboratory, our thermally conductive pads are available in four product ranges, with values from 1 W/m·K to 10 W/m·K. Their flexibility enables efficient contact with surface irregularities under compression, ensuring optimal equipment performance at both low and high temperatures