TDK’s Post

Nice article that happend to come across. It brings me back in times when I was designing power conditioning and supply circuits (Buck-Boost DC/DC converters, Battery Management system, CCFL for back-light of LCD display) and embedded ARM processors (StrongArm SA1100 from DEC before bought over by Intel) PCB for portable computing product for a non-defence customer in Singapore. Type of capacitors were carefully selected for their purposes - tantalum over electrolytic for low ESR,low current leakage and good high freq response. - MLCC for decoupling and filtering At that time, computing tablets and touch screen portable devices are rare or non-existence. #embeddedsystems #productengineering #productdevelopment

I have seen the component but have not once tried working with it. With a brief research on the applications of a MOSFET, the indistinct understanding and functions of MOSFETS are clear now. Listed below are common applications of MOSFETS; 1. Power Electronics: MOSFETs are used in inverters, converters, and motor drives for efficient power handling. 2. Amplifiers: MOSFETs amplify audio and RF signals with high input impedance and low noise. 3. Switching Circuits: MOSFETs act as electronic switches in digital circuits with fast switching and low power consumption. 4. Voltage Regulators: MOSFETs stabilize and regulate output voltage in power supplies and battery chargers. 5. RF Applications: MOSFETs power amplifiers in wireless communication systems like base stations and Wi-Fi routers. 6. LED Drivers: MOSFETs control current in LED lighting systems with dimming capabilities. 7. Solar Power Systems: MOSFETs optimize power extraction and regulate flow in solar panels. 8. Automotive Electronics: MOSFETs are used in ECUs, power management, and EV components for improved efficiency. 9. Audio Amplifiers: MOSFETs amplify audio signals with low distortion and high power 😁❤️🙏🏾💯 #YoungTech #FreshManTech #FollowMeOnMyPage https://lnkd.in/gj-yPAYS

Currently, more and more devices are gradually shifting from traditional internal combustion engine driven or AC powered to more flexible and efficient battery powered modes. In this context, how to ensure the safety, stability, and service life of batteries has become a focus of industry attention. We use a rich product portfolio such as power management chips (PMICs), power outage protection (PLPs), DC/DC regulators, battery management, intelligent motor control, and silicon carbide products, and integrate Fuel Gauging, SOC, SOH and other algorithms into the chip through integrated design. Based on the six major functions of charge and discharge management, short circuit protection, overvoltage protection, battery monitoring, battery balancing, and low-power control, optimize and manage battery efficiency and lifespan. Effectively improving the accuracy and speed of data collection and calculation, enhancing the flexibility of battery management systems, to meet the power supply, protection, and control needs of industries such as industry, enterprise, consumer electronics, and automobiles, providing low-power, compact, and efficient solutions for the industry. Whatsapp Wa.Me//+8613715133425 E-mail: [email protected] #carPCBmanufacturer #PCBAfactory #components #chip #BGA #pcbdesign #pcblayout #pcbassembly #pcbfactory #medicalpcb #radarpcba #doublesided #FR4 #buriedviaPCBs #BGArework #highfrequencyPCBs #radarpcb #telecompcb #microwave #millimeterwaveRF #solar #solarcells

🔊 Do you know what functions the ANFC Series AC Power Supply has? The ANFC(F) series AC power supply adopts FPGA digital control, instantaneous waveform control and high-frequency pulse width modulation (SPWM) technologies. It has the advantages of fast response speed, high output accuracy, and superior waveform quality; it can withstand 3 times the rated current impact ，high capacity and strong load adaptability; adopts modular design concept, small volume and weight, convenient operation and high cost performance. Mainly used in applications such as home appliances, motors and production lines, it is one solution that meets the basic needs of traditional industries and a power supply alternative for equipment upgrades. URL：https://lnkd.in/g8wVmzFi #Ainuo #ACPowerSupply #DCPowerSupply #ElectricalSafetyTester #PowerMeter #MotorTestSystem #TestInstrument #EV #SafetyTest

This article presents transformer-based voltage regulators (VRs) with a trans-inductor voltage regulator (TLVR) structure designed to achieve an extremely fast response during load transients #voltageregulator Xingxuan Huang, Xinyu Liang and Chuan Shi Analog Devices #powerelectronics

Do you know what functions the ANFC Series AC Power Supply has?

Magnachip Semiconductor Introduces Power Management IC and Level Shifter for Display Panels in IT Devices Read more: https://ow.ly/avPQ50Sj5sk #integratedcircuit #semiconductor #leddriver #lighting #manufacturer #oled #researchanddevelopment #powerconversion #powersupplies #powermanagement #powerelectronics

𝗛𝗶𝗼𝗸𝗶 𝗕𝘆𝗽𝗮𝘀𝘀 𝗗𝗶𝗼𝗱𝗲 𝗧𝗲𝘀𝘁𝗲𝗿 𝗙𝗧𝟰𝟯𝟭𝟬 (𝗣𝗿𝗼𝗱𝘂𝗰𝘁 𝗜𝗻𝗳𝗼𝗿𝗺𝗮𝘁𝗶𝗼𝗻) Traditionally, bypass diodes can only be inspected for good working condition at night or when power is not being generated by the solar panels in order to verify that any applied current is guided past the solar cells. With the FT4310 Bypass Diode Tester, you can detect for open faults even when the sun is out without covering the panels. It can also perform test for short-circuit faults, cell string losses and other malfunctions using the strings in junction boxes, eliminating the need to climb onto the roof and dramatically improving work efficiency. Measured values are sent immediately to a smartphone or tablet via Bluetooth wireless technology, eliminating the need to take notes, this is particularly useful at sites with a large number of test points. Click the link below to know more about this product https://lnkd.in/g6mJefzJ #measurement #testandmeasurement #testequipment #electronics #engineering

Toshiba Electronic Devices & Storage Corporation has developed a Schottky barrier diode embedded #MOSFET, a significant improvement over the current device structure, while maintaining high reliability and short-circuit ruggedness. A successful design modification introduces a barrier structure with varying depths in the device structure that maintains the reliability of the reverse conduction operation, the function of an integrated SBD, while suppressing the current leakage from the SBD part that causes destruction during short-circuiting. By making use of new design technology and optimizing the device structure, the new MOSFET achieves lower on-resistance (RonA), with about a 26% improvement over the current structure.