The ECCD design allows for ambidextrous operation by the pilots and commanding multiple displays. The ECCD is an ideal control where space comes at a premium while allowing for both pilot and co-pilot mirror operation. Pedestal room and investment is reduced.
A unique HMI CCD design that is available either as a left-hand or right-hand user interface. Depiction shown has four switches; one joystick with/without push and three pushbuttons. This is the most simplistic cursor control device available, used on various aircraft such as KC-135, KC-10, C-130, and others.
A unique military HMI CCD design originally developed for SOCOM allows control of multiple slewing functions. This CCD has ergonomic features that allow individualized adjustment for pilot comfort. The adjustability increases the number of platforms the CCD can be used on without modification.
Our bespoke Cursor Control Devices (CCD) are an example of material, shapes, and finishes that create a superior user experience. Anything associated with the movement of an unmanned vehicle, remote weapon, or sensor system requiring human input.
Mason has developed many two-handed dismounted controllers for use in helicopter, ground vehicles, and special mission platforms. Platforms include V22, UH-60, CROWS, MD helicopters, and SUG-V, among others.
Mason has developed many single-purpose mission grips for weapons control, associated with the acquisition of targets and management in association with weapons or sensor systems. Platforms include AH-64, B-52, F-18, and B-1.
Mason has developed many military grips used in fighters, bombers, and special mission platforms. Platforms include F-15, F-16, F-18, B-52, V22, UH-60, VH-92, C-130, Bradley, and Wolverine.
Known for robust design, ergonomic grips, smooth operation, and environmental protection in open cockpits. Mason manufactures throttles for various platforms, including manual and fly-by-wire systems.
Build-to-print assemblies for Sikorsky, Kaman, Bell, and Cessna, including throttles and stick assemblies, supporting programs with repairs and design input.
Columns engineered for full fly-by-wire systems with features that allow rapid component replacement and maintainability, used in platforms like Embraer.
