TEST & MEASUREMENT APPLICATION NOTES AND WHITE PAPERS

• RF Amplifier Output Voltage, Current, Power, And Impedance Relationship

  How much output voltage, current, and power can you expect from your amplifier? In rare cases, this can be answered by applying Ohm’s law, assuming that the net power or power delivered to the load is the rated power output of the amplifier. In most cases, practical issues such as VSWR and forward power concerns must be considered before applying Ohm’s law. This application note addresses this issue and discusses an approach to be used that applies actual test data when calculating output parameters.

• Perform High Impedance Measurements With Spectrum Analyzers

  Modern RF circuit designs can use oscilloscope probes to directly probe circuit components, eliminating the need for traditional RF connectors and ensuring accurate measurements with high-impedance probes and spectrum analyzers.

• Effortless Testing Of Direction Finding Devices – Amplitude Based

  Together with multiple coupled R&S SMW200A vector signal generators, the R&S Pulse Sequencer allows performance characterization of all types of direction finding equipment such as devices that use amplitude comparison, interferometric or time difference of arrival (TDOA) techniques. 

• Testing For Coexistence In Crowded And Contested RF Environments

  In this paper, we review some of the key research, development, test and evaluation (RDT&E) challenges that arise when developing and deploying systems that need to operate in congested and/or contested RF environments.

• What Is Pulse Shaping?

  In this industry briefing,George Bollendorf explains a new approach to fix fidelity issues caused by the transmitting amplifier that matches input pulse signal shape, minimizes droop, overshoot, ringing, and rise and fall times.