Maximize your RF & Microwave capability and readiness
SOLUTIONS WE OFFER
Leaders in military and defense electronics technology and capability
MARKETS WE OPERATE IN
Full Spectrum of Solutions
Unmanned Aircraft Systems
The DoD test and training range community demands high-performance, robust, and reliable communication electronics for telemetry not only because test and training assets are expensive to operate, but even more importantly — people’s lives are at stake. NuWaves Engineering has worked with both the DoD and commercial customers to develop some of the most sophisticated RF designs for use in flight test and training exercises. Our designs can be found in transmitters, receivers, demodulators, transponders, flight termination receivers, TSPI (Time, Space Position Information) modules, etc.
Medical, Industrial and Commercial Applications
NuWaves has been successfully applying our RF Engineering expertise to provide innovative solutions to customers in the medical device industry. Some applications we have tackled include RF Ablation, RFID and other therapeutic applications. Additionally, NuWaves has leveraged our competence to provide effective solutions to complicated problems in other industrial and commercial applications such as RF Propagation, Signal distribution and Routing
EXPLORE OUR BLOGS
We actively update and post blogs to address the most current issues in the RF & Microwave industry and amongst our customers. We look forward to your feedback and hope our insight will engineer a lasting partnership!
High Power Switched Filter Bank Options for RF Communications and Electronic Warfare (EW) Applications
A Switched Filter Bank is a device that combines switches and filters to provide user-selectable frequency channels. Switched filter banks are beneficial to Radio Frequency (RF) communication systems and are utilized in both receivers and transmitters to reduce signal interference from harmonics, spurious emissions, strong signal interferers, and to limit noise power for optimized system
Constellation diagrams are 2D graphical representations of digitally modulated signals. They are used for the display and analysis of digitally modulated waveforms, and provide valuable insight into the performance of a digital communication system. Digitally modulated signals encode information within a sinusoidal carrier wave by mixing it with a discretized message signal, therefore modifying the
Radio wave applications have come a long way since it was first theorized by James Clark Maxwell in his 1873 work “A Treatise on Electricity and Magnetism”, where he laid out mathematical theories showing the potential applications of radio technology. Only fifteen years later, German Physicist Heinrich Hertz became the first person to produce, transmit,