RF Test And Measurement Resource Center

TEST & MEASUREMENT APPLICATION NOTES AND WHITE PAPERS

Circuit Models For Plastic Packaged Microwave Diodes
This paper reports on the measurement and establishment of circuit models for SOT-23 and SOD-323 packaged diodes. Results indicate that the 1.5 nH estimate for the SOT-23 is a useful result, as is 1.2 nH for SOD-323 single packaged diodes. It was also determined that the effective inductance of the SOT-23 may be reduced to approximately 0.4 nH by adding a second bond wire and modifying the microstrip line. Other lead configurations, including parallel bond wires and common cathode configurations, were also studied.
Directivity And VSWR Measurements: Understanding Return Loss Measurements
The characterization of microwave networks requires discriminating between forward and backward traveling waves. Unfortunately no directional device is perfect, leading to potentially dramatic measurement errors. In this note we show that return loss and VSWR measurements are greatly complicated by the finite performance of the directional device used to measure the reflected power.
EMI Debugging Using Fast FFT With MXO Oscilloscopes
Explore the MXO oscilloscope's EMI debugging capabilities, including gated FFT, superior RF performance, and advanced analysis features.
Introduction To RNVNA, A Multiport Network Analysis Solution
In many RF applications it is necessary to make multiport measurements. The RNVNA, a multiport network analysis solution, links up to 16 1-Port analyzers together into a multiport network analysis system. Each of the 16 analyzers will make individual vector reflection measurements and scalar transmission measurements from port to port.
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.

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TEST & MEASUREMENT SOLUTIONS

DC-22 GHz Distributed Amplifier: CMD240C4

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.

MXO 5 Series Oscilloscope

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

Dual-Band RF Synthesizer

The Si4133G Dual-Band RF synthesizer is a fast settling integer-N synthesizer

1 – 6 GHz, 20 Watt Wideband Amplifier: MS010620

Microwave Systems offers the MS010620 multi-octave, high-power GaN amplifier designed to operate from 1 to 6 GHz. It is ideally suited for use in communications systems, radar systems, test instrumentation, broadband RF telemetry, point to point radio, and fiber optics applications.

Holzworth RF Synthesizers Multi-Channel Platform: HS9000 Series

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.

Microwave VME/VXS Tuner: SRX-00140-VME

The Microwave VME/VXS Tuner by Hunter Technology is the industry’s smallest available microwave SIGINT VME tuner. It covers the 500 MHz-20.0 GHz and 30.0 GHz to 40.0 GHz frequency ranges and features incredibly fast tuning, low phase noise, excellent mechanical conductivity, a single slot 6U VME configuration, and much more.

Si8935/36/37 Isolated Delta-Sigma Modulator For Voltage Measurement

The SI893x’s 0 to 2.25 V specified input range is ideal for isolated voltage sensing. The Si8935/36/37 provides delta-sgma modulated output with flexible options for external or internally generated clock.

Prove Field Worthiness Of EW Systems With RF Sources And Receivers

Radar simulation systems (i.e., RF sources and/or receivers) must perform to an exacting minimum standard if they are to accurately prove the field worthiness of EW systems.

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