A customer wished to move to the latest and greatest technology without having to change pinouts or cables on the aircraft. Ideally, since the platform would be sold globally, including in Europe, the new mission processor solution would also carry a CE Mark.
When a VME computing module in its product line went obsolete, a semiconductor machinery manufacturer turned to Curtiss-Wright for a high-performance VME replacement fit for the rigors of a grueling 24/7 production schedule. Read more about it here.
Radio Frequency (RF) telescopes are different than standard optical telescopes. It is important that the back-end processing be updated to take advantage of the latest advancements in technology. Read about the solution Curtiss-Wright developed here.
A leading mission systems integrator sought a data recording and storage device that could capture up to 1TB of data in a removable drive, easily integrated into their existing mission system, adding minimal weight. Read about the solution we developed here.
An aircraft fleet was undergoing an upgrade of the on-board AEW&C network, they contacted Curtiss-Wright to find a cost effective yet rugged, quick turnaround solution for multiple processing and communications subsystems.
A customer building the next generation synthetic aperture radar (SAR) faced challenges in delivering an enormous amount of processing power in a compact, lightweight solution. Read about the solution Curtiss-Wright developed here.
A customer required a high speed camera that could withstand harsh conditions to gather accurate data confirming position and velocity to validate models in an FTI study. Read about the solution Curtiss-Wright developed here.
The Flight Data Recorder (FDR) solution for a fleet of aircraft needed to be replaced resulting in grounding of the fleet. Read about the quick turnaround, off-the shelf solution we developed here.
This case study describes a multi-board solution to phase accurate synchronization of analog signals through multiple analog to digital converters at multi-GHz rates reliably over wide temperature ranges.
A system integrator required small form factor (SFF) mission processors, network switches, and network attached storage (NAS) with government approved encryption for UUV operations. Read about the solution we developed here.