A highly shielded input device designed for environments where electromagnetic interference and electrostatic discharge threaten system integrity. Engineered to meet MIL-STD-461 and IEC 61000-4-2, featuring conductive shielding, robust grounding, and rugged enclosures for defense, aerospace, and medical applications.
Designed for defence command centers, industrial test bays, medical MRI rooms, and aerospace cockpits - protecting sensitive circuits from external fields and preventing emissions leakage.
Withstands severe electrostatic discharge up to +/-15kV air discharge and +/-8kV contact discharge, avoiding critical switch lockups or system reset anomalies.
Engineered and tested to meet strict military electromagnetic standards, limiting radiated and conducted emissions to avoid interfering with nearby communications equipment.
Integrates advanced indium tin oxide (ITO) layers, conductive key matrices, or metal mesh backplanes to block radio frequencies and electromagnetic fields.
Supports strict military emissions protection protocols (Level I, II, and III) to prevent eavesdropping and data espionage in high-security government installations.
A dedicated, low-impedance chassis grounding scheme ensures that any accumulated static charge is safely and instantly routed to the system ground.
A fully sealed front panel blocks moisture, dust, and corrosive chemicals, ensuring that seal failures do not degrade internal electrical shielding.
Supplied in custom layout styles or standard QWERTY maps. Every keyboard incorporates a continuous grounding loop, shielded cables, and custom conductive gaskets that block both dust and radio frequencies, making it ideal for automation bays, medical suites, and field communications.
High-coverage braid and foil shielding with integrated ferrite chokes to prevent conducted emissions along data lines.
Heavy-duty dedicated low-resistance grounding posts for quick integration into the host cabinet or system ground.
Conductive elastomer or wire-in-silicone gaskets provide a continuous electrical bridge at panel interfaces to prevent RF leakage.
A backside aluminium shielding can completely encapsulates the PCB and electronic controllers against external fields.
Tailor the keyboard to your platform, certification and operational needs.