Aerospace & defense solutions

Solution Overview Aerospace & Defense

"High-reliability data acquisition systems for aerospace, defense and mission-critical testing environments."

DEWESoft DAQ systems are widely deployed by leading aerospace and defense organizations worldwide. The systems support physical measurement, structural dynamics, acoustics, electrical power analysis, and mission telemetry acquisition.

From aircraft manufacturing plants and wind tunnels to ground stations, onboard aircraft, and launch facilities, DEWESoft solutions ensure synchronized, high-integrity data capture across all testing phases.

Full support for aerospace communication standards including ARINC-429, MIL-STD-1553, PCM telemetry, IRIG 106 Chapter 10, Ethernet packets and iNet telemetry ensures seamless integration into complex aerospace ecosystems.

Aerospace and Defense Testing

List of Solutions

Jet engine testing

Tests include measurement of vibration, acoustics, temperature, pressure, thrust, flow, and emissions across a range of scenarios that represent real operating environments.

eVTOL Testing

Synchronizing data across measurement domains helps engineers understand correlations between vibration, noise, structural loads, and electrical performance.

Ground Station Telemetry

plays a central role in flight test programs, enabling real-time acquisition, decoding, visualization, and analysis of telemetry data from airborne vehicles. A ground station does not merely “receive flight data” — it integrates multi-source data in real time. The system collects, decodes, and synchronizes IRIG 106 Chapter 4/10 telemetry data together with direct analog sensor measurements and system bus data.

Aircraft Structural Testing

The value lies not only in load application, but in the precise, synchronized, and stable measurement of structural responses under static, ultimate, and long-term cyclic loads that simulate real operational lifetime conditions.

Sine Reduction Testing

Sine reduction, or sine processing, excites the test specimen with a single frequency at a time. During swept sine testing, excitation frequency is continuously varied across a defined range and rate, sequentially activating structural resonance modes. The COLA (Constant Output Level Amplitude) signal from the shaker controller serves as the frequency reference. Because COLA always matches the excitation frequency, the DAQ system can accurately track amplitude, phase, and harmonic components in real time.

Aircraft Electrical Power Testing

The transition toward hybrid-electric, turbo-electric, and fully electric architectures requires evaluation of the entire aircraft microgrid under multiple operational and fault scenarios, with strict synchronization and certification compliance.