Let's go back to the basics📘: Find your power supply match with Tektronix and EA Elektro-Automatik! From battery module development to fuel cell testing, we've got the high-power solutions you need. Check out our comprehensive guide to programmable DC power supplies and revolutionize your work today. Download the guide here: https://lnkd.in/es6AqwNx #Tektronix #EAElektroAutomatik #HighPowerTesting #EngineeringSolutions #TestAndMeasurement
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Deciding to use a linear or switching #powersupply depends on the application and overall system requirements. Discover more about linear vs. switching power supplies: https://bit.ly/3RQq1Sk #PowerIndustry #PowerElectronics
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Heat is a silent killer for power electronics. But did you know there are ways to combat this? Our recent blog post explores the concept of thermal management and how it can significantly extend the life of your power electronics. Don't let heat shorten your equipment's lifespan. Learn more: https://prker.co/4bm3Ufs #ThermalManagement #PowerElectronics #EVOnward
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What is a comparator, voltage comparator, Digital comparator, logic circuit
LM2903YDT in Reel by STMicroelectronics | Comparators | Future Electronics
futureelectronics.com
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Tomorrow is International Information Overload day. Do you feel like there's always new technology, new innovations and more to shift through? If you work with DC programmable power supplies, EA Elektro-Automatik is ready to help you unload! Visit our Support Material page for guides, FAQs, fact sheets and more. https://hubs.ly/Q024v0Ck0 #DCprogrammablepowersupplies #electronicengineering #electronicresources
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Building a power supply device using Switching Techniques is one of the most efficient methods, here is one of the Dc-Dc Converter devices I built in the year 2021 which works efficiently...
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Frequency to Voltage converter circuit. The project contains following circuits- (1) 12v dc power supply for providing power to circuit (2) astable multivibrator circuit for generating the variable frequency (3) F-V converter circuit for converting the frequency into voltage.
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U.A. Star journeyman Specialist working inside Data centers as a manager of critical infrastructure engineering
(1) Rectifier: Circuit which converts AC power to DC power (2) Inverter: Circuit which converts DC power to AC power (3) Bypass: Circuit which directly outputs AC power (4) Switch: Circuit which switches between inverter output and bypass output Figure 3 shows the basic structure of UPS.
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Applications today increasingly need the support of power supplies with outputs of 115, 230, and 380 Vdc. These power supplies can deliver 10 kilowatts (kW) or more and have communications options that speed system integration and support #high levels of reliability and #flexible operation. However, designing custom and purpose-built power supplies from scratch can be time-consuming and risky. In this article, MEAN WELL USA, INC. Product Manager, Kai Li, and Sager Electronics Technical Support Manager for Power, Donald Baldwin explore a faster, lower risk and cost effective option for these type of applications: off-the-shelf high-wattage three-phase input digital #power supplies with high output voltages. https://bit.ly/3tq3cMA
Digital High DC Voltage Power Supplies Provide Efficient and Reliable Industrial Power
sager.com
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Capacitors are energy storage devices used for many purposes: as elements of resonant circuits, for coupling, blockage of DC current, as high frequency impedance matching, as filters, and in voltage suppression. Learn all about chip caps in this article: https://ed.gr/egagp
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A series compensator is a device that is connected in series with a transmission line. A series compensator will be used at any place along the line. By connecting a capacitor in series with the transmission line, this method improves the system voltage. In series compensation, reactive power is supplied in series with the transmission line to improve the system's impedance and optimize the line's power transfer capability. Advantages of series compensation: • Increase in power transfer capability • Improvement in system stability • Control voltage • Lower voltage drop ✓ The reactance value in a transmission line is jX= j (XL – XC). In this instance, the capacitance reactance equals the inductive reactance, i.e., resonance condition, and the reactive power is eliminated (Z=R). ✓ As a result, by compensating the reactive power, this compensation improves system stability. ✓ The capacitive reactance is considered as XL /2. to limit the inductive reactance (XL) to half of its value.
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Meister und Ausbilder -- Elektronik Profi seit Jahrzehnten
1wVery helpful!