TEST & MEASUREMENT APPLICATION NOTES AND WHITE PAPERS

• Noise Figure: What Is It And Why Does It Matter?

  Noise figure is a key parameter that quantifies receiver performance by measuring how low a power a signal receiver can detect. This white paper covers the basic principles of noise figure, how to make sense of its specifications, how it is measured, and why this parameter is important in high-performance applications.

• 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. 

• Voltage Standing Wave Ratio (VSWR) Explained

  Explore the evolution of VSWR from its humble beginnings in telegraph lines to its vital role in modern RF engineering, illuminating its practical applications and underlying principles.

• Selecting Your Next Oscilloscope: Why Digital Triggering Matters

  Many people tend to overlook the importance of triggering while selecting an oscilloscope, but it's actually a crucial factor to consider. Digital triggering can offer some significant advantages.

• DPX® Acquisition Technology For Spectrum Analyzers Fundamentals

  Signal detection is the first step in characterizing, diagnosing, understanding, and resolving any problem that relates to time-variant signals. Engineers are requiring better tools to help find and interpret complex signal behaviors and interactions. The Tektronix Digital Phosphor technology, or DPX®, can be used in Real-Time Spectrum Analyzers (RSAs) to reveal signal details that are completely missed by conventional spectrum analyzers and vector signal analyzers. This white paper describes the methods behind the DPX Live RF spectrum display, swept DPX, Time-Domain DPX Displays, DPX Density™ measurements, DPX Density™ and Frequency Edge triggers.