Mark Thatcher’s Post

In the complex world of RF and mmWave testing, engineers face the persistent challenge of achieving seamless integration within advanced system setups, especially when it comes to load pull and vector pull applications. The need for precise, high-power pulses and optimal tuning range is critical for the success of these tests, presenting a unique set of challenges that demand innovative solutions. We're proud to showcase a collaborative development with AMCAD Engineering, focused on tackling these very issues head-on. Our joint effort has culminated in a solution that not only meets but exceeds the requirements of modern RF and mmWave testing environments. Featuring the integration of MPI Corporation with AMCAD's expertise, we've created a system that provides: - Seamless Integration: A cohesive setup that integrates vector load pull, high-power pulse measurements, and passive tuning, all in proximity to the device under test for maximum efficiency and performance. - Optimal Tuning Range: By placing nano 5G tuners from Maury Microwave close to the device, we ensure an unparalleled tuning range, crucial for the demanding specifications of today's devices. - Clean, High-Power Pulses: Closely positioned to the DUT, AMCAD's Pulsers deliver clean, narrow, high-power pulses essential for #GaN high-power testing, overcoming one of the most significant hurdles in the testing process. Whatch the video: https://lnkd.in/gp973Cs6 This solution is integrated into our versatile TS2000 platform, adaptable across our other platforms (150 mm, 200 mm, and 300 mm), both manual and automated, to cater to a wide range of testing requirements. Our collaboration with Amcad Engineering represents a significant step forward in our commitment to solving the real-world challenges faced by electrical engineers in RF and mmWave testing. Together, we're not just developing technologies; we're providing solutions that make a difference. We invite you to explore the details of our integrated system and see how it can address your testing challenges. https://lnkd.in/gemshPbT #MPI #AmcadEngineering #ElectricalEngineering #RFTesting #mmWave #Innovation #SolutionFocused

New tool alert! What’s the resistance of a Pt100 at 250°C? What’s the temperature when a K-type thermocouple gives 15.5 mV? These calculations can be tricky, but we’ve just made them very easy! We’ve just launched a free tool called Temperature Sensor Calculator! It’s an easy-to-use tool that converts between electrical and temperature signals (and vice versa) for various thermocouples and RTDs. A must-bookmark tool for calibration technicians, engineers, other smart people, and anyone working with temperature sensors! You can try it out here: https://lnkd.in/dFus5kKr Please give it a go and let us know what you think. What calibration tool should we develop next? Beamex #Beamex #BeamexCalibration #Calibration #TemperatureCalibration #TemperatureSensor #Thermocouples #RTDs #CalibrationTools #Engineering #HeikkiTheEngineer

▶ Active EMI Module ◾ It is an EMI module that can perform electromagnetic wave cancelling function by utilizing an EMI filter IC and can replace the existing chokes. #EMI #EMIC #EMIsolution #EMIfilter #Semiconductor #Filter #ElectroMagneticInterference #Integratedcircuit #Electromagnetic

A very powerful combination for troubleshooting problems. Motion Amplification Technology by RDI Technologies Inc. and my 2140 4 channel Vibration analyzer with add on transient program by Emerson. These are my go to tools for most of my troubleshoot jobs. Classic resonance problem, with a critical conveyor drive suffering poor reliability due to high vibration levels at 1X. In the short term the unit could not be shut down for full base stiffening. So instead we opted for temporary repair by adding some mass to lower the natural frequency away from the 1X motor excitation frequency. This worked a treat and lowered the vibration levels significantly. For more info on Motion Amplification Click here: https://lnkd.in/dVdFkjxy For more info on 2140 Analyser click here: https://lnkd.in/d9fNJDQV #motionamplification #vibrationanalysis #reliabilityengineering #resonance

*A DEMO SHOWING ENHANCED RELIABILITY AND PERFORMANCE: COMPARING TRADITIONAL ESP AND VORTEX ESP TECH* The video compares Vortex ESP (Electrostatic Precipitator) technology with Traditional ESP technology using identical ESP cell sizes. Key points are: Reliability: -Traditional ESP fails entirely when one cell shorts out. -Vortex ESP keeps other cells operational, ensuring consistent purification efficiency. Performance Testing (Simulating a fault using a metal tool showed): -Traditional ESP voltage dropped to zero, ceasing function. -Vortex ESP maintained voltage and purification performance in unaffected cells. Conclusion: Vortex ESP offers superior reliability and stable purification. #vortexesp #esp #ElectrostaticPrecipitator #airquality

*A DEMO SHOWING ENHANCED RELIABILITY AND PERFORMANCE: COMPARING TRADITIONAL ESP AND VORTEX ESP TECH*

💡 Want to make a difference to your measurements? Discover Pendulum Instruments #CNT102 Multichannel Frequency Analyzer Applications for Oscillator manufacturer, R&D & Oscillator test systems: ·      Complete characterization (better and faster than before) ·      Turn-on stability (power-on) ·      Short-term stability (ADEV) ·      Ageing rate and temperature stability ·      Wander (TIE) for network clocks ·      Compare up to 2  test objects in parallel ·      Replace 2 legacy Frequency Counters with 1 CNT-102 ·      Save cost and space https://lnkd.in/g38WZra2 #oscillators #ADEV #penduluminstruments #CNT104S #testandmeasurement

Unveiling the Power of CT Analyzers: A Game-Changer in Current Transformer Testing In the ever-evolving world of electrical systems, precision and reliability are non-negotiable. Current Transformers (CTs) play a pivotal role in protecting, monitoring, and controlling electrical networks. But how do we ensure these CTs perform flawlessly? Enter the CT Analyzer – a revolutionary tool designed to test and verify CT performance with unmatched accuracy and efficiency. What is a CT Analyzer? A CT Analyzer is a specialized device used to test and analyze the characteristics of Current Transformers. It evaluates parameters such as accuracy, burden, excitation curves, ratio, polarity, and phase errors. Unlike traditional testing methods, a CT Analyzer provides fast, comprehensive, and highly accurate results with minimal setup. Key Features of Modern CT Analyzers Multi-Parameter Testing: Measures CT ratio, polarity, burden, and excitation in one test cycle. Verifies compliance with standards like IEC 61869 and IEEE C57.13. Portable and User-Friendly: Lightweight, compact, and easy to use, making it ideal for field applications. Often equipped with intuitive software for real-time analysis and reporting. #ElectricalEngineering #CurrentTransformer #CTAnalyzer #PowerSystems #TestingSolutions #Utilities

Achieving high test sensitivity in magnetic induction testing requires optimizing test parameters like frequency and field strength. Learn about interference effects such as temperature differences, geometric tolerances, and batch effects. Discover how harmonic analysis can suppress electrical parameters and provide reliable results. #EddyCurrentTesting #MagneticInduction #HarmonicAnalysis #FOERSTER Click here to learn more: https://hubs.la/Q02FxQn30

Whitepaper Sharp DSC Peaks and Flat Baselines: Which Calibrations, Corrections and How Many Temperature Sensors Are Required? Heat flow Differential Scanning Calorimetry (DSC) is defined as “a technique in which the heat flow difference into a substance and a reference material is measured...". In general, DSC instruments require calibrations and corrections for temperature, baseline, sensitivity and thermal lag. In this whitepaper, NETZSCH provides clear solutions which are all compliant to the DSC standards, such as Tau-R® and BeFlat+, a flexible and efficient approach for determination of the specific heat capacity Cp compliant to the norms. And last but not least, all corrections and calibrations of DSCs by NETZSCH Analyzing & Testing can be reversed individually on demand even back to the raw measurement data; the µV-signal, allowing for full traceability. #thermalanalysis #dsc #differential #scanning #calorimeter #heatflow #heatflux #baseline #calibration #specificheat #Cp #thermallag #timeconstant #melting #metals https://lnkd.in/edjNjxh8