Solutions

Quantum physics is one of the fastest growing fields of research. Governments and private organizations are investing substantial resources, in the race for scientific and commercial advances

The design of aerospace and defense technology requires uncompromising high precision instrumentation. Radar, radio monitoring, and satellite systems

need to adhere to strict standards and achieve high-performance results.

Modulated signals are found in many industries such as mobile phones, radars, lasers, Wi-Fi networks, modems, navigation systems (GPS), RFID tags, and satellite communications. The same modulation schemes can be found in the wired communication systems as well.

The rise of the electric car accompanied by the race to make our cars safer and more sophisticated by adding sensors and driver assisting aids has made signal source technology an indispensable part of automotive R&D. Signal generators and AWG’s are used to test the communication between the car’s systems and central computing unit.

As technology in all fields is rushing forward design engineers need better and more accurate test and measurement devices. IoT, quantum physics, 5G, autonomous vehicles, and more. All demand reliable instrumentation to ensure accuracy in the R&D process of systems and products.

Medical and epidemiological research has always been a major scientific field. As man’s life span grows, so does the need for healthcare solutions. 

Many fields of academic research implement RF technology in laboratory experiments. The implementation of Microelectromechanical systems (MEMS), sub-atomic particle simulation systems, optical displacement meters, and more requires elaborate, more advanced testing methods.

Many industries make use of motion control systems, electro-optical systems such as lasers, electricity power lines, and power systems.