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Monolithic Power Systems | MPS
United States
Registrace 9. 12. 2014
We, Monolithic Power Systems (MPS), make power design fun! With our innovative proprietary technology processes, we thrive on re-imagining and re-defining the possibilities of high-performance power solutions in industrial applications, telecom infrastructures, cloud computing, automotive, and consumer applications. For more information, go to www.monolithicpower.com
Technical Forum: www.monolithicpower.com/Community/Technical-Forum
Design Support: hwww.monolithicpower.com/Design-Support/Design-Tools-Overview
Facebook: Monolithicpower/
Twitter: monolithicpower
LinkedIn: www.linkedin.com/company/monolithic-power-systems
Technical Forum: www.monolithicpower.com/Community/Technical-Forum
Design Support: hwww.monolithicpower.com/Design-Support/Design-Tools-Overview
Facebook: Monolithicpower/
Twitter: monolithicpower
LinkedIn: www.linkedin.com/company/monolithic-power-systems
Join MPS for Live PFC Webinar - September 18th, 2024
Join us for our upcoming webinar: Deep Dive into PFC Topologies. In this webinar, we will dive into the different types of PFC circuits and their control.
The following topics will be covered in this webinar:
Continuous Conduction Mode (CCM) vs. Discontinuous Conduction Mode (DCM)
Stable Control of Power Factor Correction (PFC) Circuits
Impact of Distortions and How to Compensate for Them
Bridge vs. Bridgeless PFC
www.monolithicpower.com/support/webinars/deep-dive-into-pfc-topologies.html?
The following topics will be covered in this webinar:
Continuous Conduction Mode (CCM) vs. Discontinuous Conduction Mode (DCM)
Stable Control of Power Factor Correction (PFC) Circuits
Impact of Distortions and How to Compensate for Them
Bridge vs. Bridgeless PFC
www.monolithicpower.com/support/webinars/deep-dive-into-pfc-topologies.html?
zhlédnutí: 46
Video
Integrated Power Module for Optical and Telecom Applications: MPM54313
zhlédnutí 128Před 14 dny
Learn about the MPM54313, a triple 3A integrated power module designed to streamline and optimize power management for optical transceivers, FPGAs, and telecommunications equipment. With a flexible 4V to 18V input range and an I2C interface, this module simplifies design processes and enhances efficiency thanks to built-in sequencing control and configurable settings. Ideal for high-density app...
Improving Optical Transceiver Module Efficiency with the MPM54313
zhlédnutí 241Před 21 dnem
MPS's innovative power solutions for optical modules address the challenges traditional architectures face in powering optical transceivers, from high power requirements to complex PCB designs. Learn about the leading-edge MPM54313, which offers a single-stage approach to significantly reduce board space and component count while enhancing system efficiency. This solution not only simplifies PC...
Revolutionizing FPGA Power: The MPM38x6C Compact Power Module Series
zhlédnutí 293Před měsícem
Revolutionizing FPGA Power: The MPM38x6C Compact Power Module Series
Digital Isolators with Integrated Power Supply: MPQ278xx Family
zhlédnutí 284Před měsícem
Digital Isolators with Integrated Power Supply: MPQ278xx Family
Webinar: Ensuring Safety for Autonomous Vehicles with Advanced Voltage Supervision
zhlédnutí 227Před 2 měsíci
Webinar: Ensuring Safety for Autonomous Vehicles with Advanced Voltage Supervision
Unlocking Efficient Energy: Bidirectional Charging with the MP275x Series
zhlédnutí 270Před 3 měsíci
Unlocking Efficient Energy: Bidirectional Charging with the MP275x Series
Magnetic Angle Sensors: Navigating Resolution and Bandwidth
zhlédnutí 299Před 3 měsíci
Magnetic Angle Sensors: Navigating Resolution and Bandwidth
Mastering Battery Charger IC Selection for Optimal Device Performance
zhlédnutí 529Před 3 měsíci
Mastering Battery Charger IC Selection for Optimal Device Performance
Webinar: Driving Efficiency: Ideal Diode Controllers in Automotive Systems
zhlédnutí 579Před 3 měsíci
Webinar: Driving Efficiency: Ideal Diode Controllers in Automotive Systems
Smart Automotive Load Switches: MPQ587x Family
zhlédnutí 298Před 3 měsíci
Smart Automotive Load Switches: MPQ587x Family
MPS | The Fastest-Growing Semiconductor Company
zhlédnutí 1,1KPřed 4 měsíci
MPS | The Fastest-Growing Semiconductor Company
Optimizing Automotive Systems with the Dual-Channel MPQ2026A LDO Series
zhlédnutí 162Před 4 měsíci
Optimizing Automotive Systems with the Dual-Channel MPQ2026A LDO Series
Advanced Battery Charger ICs for Optimal Li-Ion Battery Management
zhlédnutí 992Před 4 měsíci
Advanced Battery Charger ICs for Optimal Li-Ion Battery Management
Battery Management Systems: How Battery Chemistry Affects Battery Charger IC Selection
zhlédnutí 465Před 5 měsíci
Battery Management Systems: How Battery Chemistry Affects Battery Charger IC Selection
Webinar: EMI/EMC Debugging Radiated Emissions with Oscilloscopes Part 2
zhlédnutí 820Před 5 měsíci
Webinar: EMI/EMC Debugging Radiated Emissions with Oscilloscopes Part 2
Webinar: Power Electronics Measurement Challenges
zhlédnutí 317Před 5 měsíci
Webinar: Power Electronics Measurement Challenges
Webinar: Layout Optimization for Buck Converters and Half Bridges
zhlédnutí 518Před 5 měsíci
Webinar: Layout Optimization for Buck Converters and Half Bridges
Webinar: EMI/EMC Debugging Conducted Emissions with Oscilloscopes Part 1
zhlédnutí 1,7KPřed 5 měsíci
Webinar: EMI/EMC Debugging Conducted Emissions with Oscilloscopes Part 1
Webinar: Measurement Fundamentals of AC/DC SMPSs
zhlédnutí 332Před 5 měsíci
Webinar: Measurement Fundamentals of AC/DC SMPSs
Webinar: Spread Spectrum to Reduce EMI
zhlédnutí 266Před 5 měsíci
Webinar: Spread Spectrum to Reduce EMI
High-Current FPGA and ASIC Power Modules: MPM3698 and MPM3699
zhlédnutí 400Před 5 měsíci
High-Current FPGA and ASIC Power Modules: MPM3698 and MPM3699
EMC and Power Electronics Workshop Day 2
zhlédnutí 3KPřed 5 měsíci
EMC and Power Electronics Workshop Day 2
EMC and Power Electronics Workshop Day 1
zhlédnutí 4,6KPřed 6 měsíci
EMC and Power Electronics Workshop Day 1
Webinar: MPS Axign Class-D Technology Deep Dive
zhlédnutí 610Před 6 měsíci
Webinar: MPS Axign Class-D Technology Deep Dive
Evaluating Battery Management Systems, State-of-Charge, and State-of-Health
zhlédnutí 481Před 6 měsíci
Evaluating Battery Management Systems, State-of-Charge, and State-of-Health
Integrated Power Module for FPGA & ASIC: MPM3695-20
zhlédnutí 452Před 6 měsíci
Integrated Power Module for FPGA & ASIC: MPM3695-20
Webinar: Class-D Audio with Post-Filter Feedback Using MPS Axign Technology
zhlédnutí 754Před 6 měsíci
Webinar: Class-D Audio with Post-Filter Feedback Using MPS Axign Technology
Webinar: Constant-On-Time (COT) Control for FPGA High-Current Power Supplies
zhlédnutí 1,5KPřed 7 měsíci
Webinar: Constant-On-Time (COT) Control for FPGA High-Current Power Supplies
최고의 세미나 입니다. 진심으로 감사드립니다.
Faf
4채널도 있을까요? 찾아야봐야겠네요
In 21:15, What role does the Dummy Cout play?
The MLCC layers are metallic, they act as E-field shield. In this case both sides are GND, so all layers are GND. In normal design, Cout is used for shielding the E-field radiation from the coil. 3x Cout, 1210 with 2.6mm thickness are good.
❤
At 1:39, two bridge rectifiers are shown with 8 diodes in total - shouldnt there be just 4?
8-diode is not only for 802.3.bt requirement, 802.3.at still need 8 diodes. PoE power can be conducted with Alt-A through 1/2/3/6 wire in cable, and it can also be conducted with Alt-B through 4/5/7/8 wire in cable. When you plug in a PD, you don’t know the supply is Alt-A or Alt-B so we must add diode-bridge for both Alt-A and Alt-B, total 8 diodes.
very clear and informative. thank you for a great explanation!
Glad it was helpful!
I am just a hobbist but that was very clear and helpful. Thank you for making this available!
Glad it was helpful!
can you buy this filter kit somewhere?
For this question, please reach out to the presenter directly at the following email address: amediano@unizar.es
Awesome
Glad you enjoyed it!
really good!
Thank you!
Thanks for your documents and information
Glad this was helpful!
Hi, not sure I understood, is the LGA version socketed? For easier replacement than soldered parts?
MPC22163-130 LGA is not socketed. The device needs to be soldered down to achieve the target output current. MPS does not recommend socketing these parts as it eliminates the power density benefit of the device.
@@monolithicpowersystemsmps534 Ah, thanks. Still an interesting design.
الحمد لله والشكر ❤
Hello... Thanks for the video...Could you upload the session 2 as well? Although the content is same, the questions asked in Q&A session is different.
Hi, we only upload one recording per webinar. We decided session 1 had more questions in the Q&A portion.
@@monolithicpowersystemsmps534 Ok..Thanks for the response
Javier Bardem narrates PCB design...
💩💩💩💩💩💩💩💩💩💩💩💩
Can you share the answer of the question about the possible spike on the ouput voltage when the load current drops to 0A? Also can you share the test setup to simulate and measure the stability?
I do not understand why you bother promoting this chip so much when at the same time you will not allow anyone to look at the datasheet of the chip. It's the first company I have come across where you need to get an account in order to view the datasheet, and upon obtaining an account, you are then told you need a special plus account. What's the big secret?
The audio has a terrible background noise. Did you ever listen to the audio? And you thought it was good?
Thank you for your feedback. We are working on making improvements to our audio in our live webinars.
Talks way to fast and too much music.
Hello engineer will you help me in designing flyback converter. Input 60v dc Output 15v DC, 2A Ferrite core EE25 Only one output. How to design ferrite transformer. It's primary and secondary number of turns. Hope you will reply soon. Thank you
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/
@@monolithicpowersystemsmps534 Please make a video for design ferrite transformer for use in flyback converter specially input range 24v - 80v DC
"Promosm" 😬
Great information!
Glad you enjoyed it!
nice )
13:36 the explanation wasn't super clear. What's the advantage to having a lower RDSon for the low-side mosfets as compared to the high-side mosfets?
The low side MOSFET in each H-bridge is one for a full half step, as current is flowing in one direction. Also, usually the duty cycle of the other side (which is switching with a PWM waveform) is around 50% or less. So averaged over a long time (like a whole step) the total amount of time that the low side FETs conduct is maybe twice the amount of time that the high side conducts. Making the low side lower rds(on) then generates less heat (again, averaged over time).
Thanks for the valuable information.I would like to know what is the use of LLC converter in DC DC converters for electric vehicles .
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/
Nice video! But still a bit unclear on how this works in application. I am currently designing a charging module for a wearable based on the MP2722, which requires 5V at VSYS. Do I need a separate buck boost converter for this to work?
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/
Excelent video!
Glad you enjoyed it!
These workshops are the best thing ever 🎉
Glad it was helpful!
Very very very interesting!!! Thank You!!!
Glad you enjoyed it!
Pedaling overpriced snakeoil. Controlling an active PFC is painfully easy. It's so easy, it's an entry-level arduino project.
How do I access the workshop's slide?
The slides can be accessed at: www.monolithicpower.com/en/support/videos/webinar-emc-and-power-electronics-workshop-day-1.html
Great workshop!
Thank you!
Thanks for good information.
Our pleasure!
Excellent..need more of this
Glad this was helpful!
Great info. I came here by accident. What I’m actually looking for is what happens with the BEMF of the ACTIVE coil upon fall of supplied current? Where or how is the (expectable) reverse voltage handled? You explain very well what happens with the inactive coil when the permanent magnet moves close-by.
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/
my lifesaver, thank you <3
Glad it helped!
This doesnt make any sense. So moving the components away from eachother reduces the thermal transfer between them and allows more of it in to the air for better cooling. If you have the entire boards worth of space though why not just put the components to opposite corners of the pcb if theres all that pcb space?
Hi, please see the link to the full video here: czcams.com/video/ivg-_mpVzn4/video.html
I do not need this stuff you are talking about, I need balance carrent ? How mouch current is this BMS capable ? 15 - 20 - 25 - 30 - 35 A Active balance current ? How precise is SOC ? After 6 month without synchronisation, what will be real and measured value of SOC ? Measured 72 % SOC and real after voltage chceck 5 % ? Because modern SOC meters have large error at current measuremet and after 6 x 30 x 24 hours of integration, error is so high, that SOC and SOH are only fabulations not real values and all this values you display are fake.
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/
I can not access to the site to look at the design tool. Is there any alternative site ?
Please use the following link for the LLC Design Tool. www.monolithicpower.com/en/design-tools/design-tools/llc-design-tool.html
The site does not work,is there any alternative site ?
Please use the following link for the LLC Design Tool. www.monolithicpower.com/en/design-tools/design-tools/llc-design-tool.html
I would love to get a reference design - and/or even offer my services to test early prototypes to help prove out your reference tests. I have a CZcams channel KissAnalog
This is helping me FA one of our products. Thank you!
Glad it was helpful!
New subscriber here. Looks like a very capable part.
Welcome! Glad you enjoyed this video
Why is not on the market?
The MPS mCar was created to highlight various MPS products and is not available on the market.
Appreciate the video. Where can I source these ICs for prototype & production quantities in India?
Please our list of distributors at www.monolithicpower.com/en/sales-distributors
please, can you provide me the PDF file? thanks.
The PDF of the presentation can be found at: www.monolithicpower.com/en/support/videos/webinar-on-demand-understanding-datasheet-thermal-parameters-and-ic-junction-temperature.html
Hi... It was an excellent webinar. In the final efficiency comparison slide (before Q&A), I could see that the part selected has lesser saturation current than Idc. Can you explain how that's possible logically ?? (So far, I've seen inductors with Saturation current greater than rated current)
IDC and ISAT are different currents. IDC is related to the self-heating effect caused by the heat dissipation of the inductor windings. Rated current is related to the cooper loss. In case of the MPL-AL series, due the flat wire construction it will have even lower resistance, so the rated current will be higher. ISAT is the change of Inductance value at certain percentage of current (in this case 30% inductance drop). Saturation current is related to the core loss which is depends from the the core material, temperature, frequency, current, pressure.
I am using evkt-mp6570 and cannot be connected to this bench how can get the acess of emotion virtual bench for evkt-mp6570
Thank you for your inquiry. Please go to our forum for technical questions. We have engineers that will respond within 24 hours. forum.monolithicpower.com/