Phenix Technologies’ Transformer Test Sets ensure that a transformer meets performance and reliability requirements, from the production line to after a repair or upgrade, when a major disruptive event occurs such as a lightning strike, or for preventive/predictive maintenance. Phenix has decades of installed Transformer Test Sets in service globally and helps customers keep up with the unprecedented global demand for transformers. ⚡ Capabilities ⚡ ◾ Single- and Three-Phase ◾ Precision Measurement ◾ Semi- or Fully-Automated ◾ Systems with Electronic Power Supply ◾ Optional system components for additional testing capabilities ◾ High Speed Testing, 200+ transformers per day ◾ Fully Integrated Data Collection and Reporting System ◾ Test distribution and power transformers in accordance with IEC 60076 and ANSI / IEEE C57.12 standards ⚡ Learn More ⚡ ◾ Single-phase https://lnkd.in/ec9mHDxN ◾ Three-phase https://lnkd.in/eMZjtDyi #DobleTested #conditionassessment #powertransformer
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
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Electical Transmission & Distribution Planning Engineer, Power System Studies Engineer, PSSE,Synergi Electric &ETAP Expert, Power , Grid Connection Engineer,
🚀 Understanding the Difference Between ASCC and IEC Methods for Short Circuit Analysis! 🌐 In the world of electrical power systems, performing accurate short circuit analysis is crucial for safety and reliability. Two prevalent methods are the American Standard for Computing Currents (ASCC) and the International Electrotechnical Commission (IEC) methods. Here's a quick breakdown of their key differences: 🔹 **ASCC (American Standard for Computing Currents)** - **Standards**: Follows IEEE standards, commonly used in North America. - **Calculation**: Uses a point-to-point method for sequential short-circuit calculations. - **Parameters**: Utilizes specific impedance values, often in per-unit or ohms. - **Equipment Ratings**: Focuses on conservative estimates to ensure protective device operation under worst-case conditions. 🔹 **IEC (International Electrotechnical Commission)** - **Standards**: Adheres to IEC standards, widely used internationally. - **Calculation**: Employs a comprehensive system approach, considering various network configurations and fault conditions. - **Parameters**: Detailed consideration of positive, negative, and zero-sequence impedances. - **Equipment Ratings**: Ensures equipment is rated for realistic fault scenarios, with potentially more accurate results. Both methods aim to ensure the safety and reliability of electrical power systems but differ in approach, assumptions, and detail. #pSSE #PowerSystem #ShortCircuitAnalysis #TransmissionPlanning #RenewableIntegratin
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
A Guide to Radiated Emissions Testing
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The MCA4 from SEG Electronics is a precise and adaptable protection, control and monitoring relay designed for feeder, grid and generator applications. What makes the MCA4 stand out is its flexibility across hardware, software, applications, user interface and communications protocols. This allows it to meet diverse interconnection requirements both today and in the future as the grid evolves. The MCA4 incorporates a full range of protection capabilities, including: 🔷Interconnection of renewable energies to the public grid 🔷Over / Undervoltage Protection 🔷Overload / Short Circuit Protection 🔷Over / Underfrequency Protection 🔷Load shedding by rate-of-change-of-frequency (ROCOF) 🔷Auto Re-Closing for Temp Faults 🔷Plausibility verification intelligence With certifications from UL, CSA, EAC, KEMA and more, the MCA4 meets global standards for industrial control equipment and grid interconnection. Its robust set of protection functions make it an ideal choice for ensuring the safety and reliability of your power systems. You can learn more about the MCA4 protection relay here: https://lnkd.in/eDZ8WRvF #Relays #GridProtection #FeederProtection #RenewableEnergy #SmartGrid
MCA4 Directional Feeder Protection | Housing suitable for door mounting | Hardware version 2, USB Mini B connector at the front plate | 8 digital inputs | 7 binary output relays | voltage transformer inputs (0 … 800 VAC) | Phase Current 5A/1A, Ground Current 5A/1A | Standard | Without communication protocol | MCA4-2A0AAA
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Learn the differences between IEC and IEEE standards! ⚡ Understanding industry standards is crucial for engineers and electrical professionals. That's why we present an in-depth analysis of the differences between two surge arrestor standards: 🔹 IEC 60099-4:2014 🔹 IEEE C62.11-2020 Get to know how knowledge of IEC 60099-4:2014 and IEEE C62.11-2020 can influence the future of surge protection technology and contribute to safer, more efficient power systems. #protektel #IEC6009942014 #IEEEC62112020 #standards #proxar #powersystems
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
A Guide to Radiated Emissions Testing
ez.analog.com
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
A Guide to Radiated Emissions Testing
ez.analog.com
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
A Guide to Radiated Emissions Testing
ez.analog.com
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To ensure electronic devices work in harmony, EMC standards and regulations have been developed to limit the allowable radiated emissions from electronic systems. One such standard is CISPR32. If you’re developing electronics for industrial applications, you will be required to test to this standard, among others. So what does it look like to test a product to CISPR32? In this blog post, #EMCguy walks through the process step by step. Discover what, exactly, happens inside that 10m testing chamber: what’s involved in testing, which equipment will be used, and of course, how to make sense of your results.
A Guide to Radiated Emissions Testing
ez.analog.com
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