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.

  • VCO Measurements With FSPN Phase Noise Analyzer

    This application note provides a short technical introduction to voltage-controlled oscillators and explains the most common and the most important measurements made during the VCO characterization process.

  • Telecommunications Testing Using AR Amplifiers

    This application note explores a number of testing requirements for telecommunication devices and how to benefit from AR RF/Microwave Instrumentation’s products. The paper will cover two broad categories of device testing – characterization and reliability – within mid to high power systems.

  • De-Embedding Test Fixtures For High-Speed Digital Applications

    Test fixtures are commonly used in high-speed digital measurement to connect devices to measurement equipment. Characterization and analysis in time and frequency domains help remove the influence of these fixtures.

  • Electronic Packaging: Using EMI Material-Based Solutions

    It can be difficult when individual components could pass EMI testing but, as the components are combined into subsystems or into the final product, the DUT fails. Incorporating EMI shielding materials as part of an initial design is the most cost-effective way to prevent these last-minute issues during testing.

TEST & MEASUREMENT SOLUTIONS

Pentek offers the Quartz® Model 6003 high-performance Quartz eXpress Module (QuartzXM) based on the Xilinx Zynq UltraScale+ RFSoC FPGA. The RFSoC FPGA integrates eight RF-class A/D and D/A converters into the Zynq’s multiprocessor architecture, creating a multichannel data conversion and processing solution on a single chip.

Holzworth Instrumentation was founded as a phase noise measurement company. Along the path to phase noise analysis solutions, our high performance building blocks were developed and sold in the form of RF Synthesizers, Phase Detectors, etc. The HA7401A is a Fixed Frequency Phase Noise Analyzer, and the HA7402A is a Phase Noise Measurement Engine.

Holzworth’s multi-channel RF synthesizer architecture is a complete success story. These compact, 1U high, 19in rack mountable chassis can be configured with up to 8 independently tunable channels. All integrated channels are 100% phase coherent. Holzworth has designed the multi-channel platform for integration of our HSM Series Single Channel Synthesizers to maximize channel-to-channel stability via a conductively cooled, fan-less enclosure.

The series of GORE® VNA microwave/RF test assemblies from W.L. Gore are designed to provide the most precise VNA measurements in laboratory conditions, setting the standard for vector network analyzers (VNAs) through 70 GHz. These test assemblies deliver the highest accuracy and greatest time intervals between recalibrations for many applications, including those with vector network analyzers, critical measurements, and laboratory testing.

D-TA Systems offers the MFEL 1000 portable ELINT data collection solution designed to provide automatic spectrum scanning for signal activity (pulse or CW), PDW extraction and de-interleaving to tracks where signal characterization is performed automatically. The system includes a built-in 6 TB (expandable to 18 TB) SSD data storage for I/Q data collection in both on-site and off-site analysis.

The MXO 5 Series delivers breakthrough oscilloscope technology to speed up your understanding and testing of electronic systems.

Qorvo offers the CMD240C4 wideband GaAs MMIC distributed amplifier housed in a leadless 4x4 mm surface mount package. The amplifier operates from DC to 22 GHz and is ideal for radar, space, satcom, test and measurement, and electronic warfare applications.

The dB-3908 TWT Amplifier (TWTA) is designed to use two wideband, periodic permanent magnet (PPM)-focused TWTs to amplify CW, AM, FM or pulse-modulated signals. The dB-3908 offers higher saturated output power and improved harmonic performance when compared to a single TWT approach.