CUI Inc
CUI Inc
  • Видео 22
  • Просмотров 90 949
Power 101: How GaN Increases Power Density
In this Power 101 video from CUI, we explain how GaN increases power density for smaller, lighter, and more efficient power supplies.
Просмотров: 327

Видео

Over Current Protection
Просмотров 317Год назад
Over Current Protection
Bouncing Square
Просмотров 264Год назад
Bouncing Square
Power 101: Versatility of USB Power Delivery Adapters
Просмотров 703Год назад
In this Power 101 video from CUI, we explain how USB Power Delivery (USB PD) works and its benefits and uses in relation to power adapters.
Power 101: Auxiliary Power Requirements for EV Supply Equipment
Просмотров 7732 года назад
In this Power 101 video from CUI, we review the different power levels of EV charging stations and what to consider when selecting an internal power supply for EV supply equipment (EVSE). EV Charger Levels | 00:00 - 00:32 AC vs DC Charging | 00:33 - 00:47 Aux Power Considerations | 00:48 - 01:48 Resources | 01:49 - 02:00
How to change the blade on a slide clip multi-blade adapter
Просмотров 2552 года назад
CUI demonstrates how to change the ac input blade on a slide clip multi-blade wall adapter.
How to change the blade on a pinch clip multi-blade adapter
Просмотров 4462 года назад
CUI demonstrates how to change the ac input blade on a pinch clip multi-blade wall adapter.
How to change the blade on a hidden clip multi-blade adapter
Просмотров 4322 года назад
CUI demonstrates how to change the ac input blade on a hidden clip multi-blade wall adapter.
Selecting a Power Supply for Harsh Environments
Просмотров 4822 года назад
In this Power 101 video from CUI, we look at the conditions found in harsh industrial environments and what to consider when selecting a power supply for this environment. Industrial Power Supply Requirements | 00:00 - 00:49 EMC Considerations | 00:50 - 01:13 Overvoltage Categories | 01:14 - 01:33 Ruggedized Power Supplies | 01:34 - 02:04 Resources | 02:05 - 02:16
Increasing EV Adoption with Multiple Charger Options
Просмотров 872 года назад
With the increasing prevalence of electric vehicles (EV), it is important to understand the different charger levels and applications. Learn more in this deep dive presentation from CUI.
Power 101: IEC 62368 Explained
Просмотров 3,4 тыс.3 года назад
In this Power 101 video from CUI, we dive into IEC 62368-1, also known as the safety standard replacing 60950 and 60065 for ICT & AV equipment. The Need for IEC 62368-1 | 00:00-00:27 IEC 62368-1 | HBSE Standard 00:28-00:52 IEC 62368-1 | Energy Sources 00:53-01:18 IEC 62368-1 | Benefits & Resources 01:19-01:53 www.cui.com/
Power 101: IEC 60335-1 Explained
Просмотров 9 тыс.3 года назад
In this Power 101 video from CUI, we dive into IEC 60335-1, also known as the safety standard for household appliances. The Need for IEC 60335-1 | 00:00-00:24 IEC 60335-1 | Creepage and Clearance 00:25-01:03 IEC 60335-1 | Isolation Voltage 01:04-01:20 IEC 60335-1 | Leakage Current 01:21-01:33 For More Information on IEC 60335-1 | 01:34-01:52 www.cui.com/
Internal vs External: Selecting a Power Supply for Your Next Design
Просмотров 1,5 тыс.3 года назад
Many power designs offer the option between external and internal power supplies, depending on the physical configuration of the system. Dive into the pros and cons of using integrated versus modular power supplies in your system in this training module.
Preparing for IEC 62368-1 Implementation
Просмотров 1,1 тыс.3 года назад
IEC 62368-1 represents an important step as it combines and replaces the long-standing IEC 60950 (ITE applications) and IEC 60065 (AV applications) standards. In this presentation we will discuss some background regarding IEC 62368 and will also discuss the implementation dates of these regulations in different international markets. Background of IEC 62368-1 | 00:00 - 01:46 Hazard-Based Safety...
How Gallium Nitride (GaN) Enables Smaller, More Efficient Power Supplies
Просмотров 6 тыс.3 года назад
How Gallium Nitride (GaN) Enables Smaller, More Efficient Power Supplies
Customizable Power Adapters: More Than Just a Black Box
Просмотров 1613 года назад
Customizable Power Adapters: More Than Just a Black Box
A Comparison Between Dc Switching Regulators & Linear Regulators
Просмотров 2,3 тыс.4 года назад
A Comparison Between Dc Switching Regulators & Linear Regulators
160 Watt GaN Desktop Adapter- Portable Power
Просмотров 4024 года назад
160 Watt GaN Desktop Adapter- Portable Power
How to Measure Ripple & Noise in Power Supplies
Просмотров 59 тыс.4 года назад
How to Measure Ripple & Noise in Power Supplies
The Benefit of GaN Power Adapters
Просмотров 1,6 тыс.4 года назад
The Benefit of GaN Power Adapters
How to Change a Blade on a Universal Wall Plug Power Adapter
Просмотров 2,8 тыс.4 года назад
How to Change a Blade on a Universal Wall Plug Power Adapter

Комментарии

  • @l00kns33
    @l00kns33 15 дней назад

    There was a lot of "ripple" picked up on the audio recording of this video

  • @martinho53
    @martinho53 3 месяца назад

    👍

  • @fellpower
    @fellpower 5 месяцев назад

    U should work on your audio. Sounds like u are in a tornado ^^ Maybe u should fix that first ^^

  • @quietstorm9866
    @quietstorm9866 8 месяцев назад

    Would not using coax suffice. Reworked correctly this is the best way to fully minimize the loop area.

  • @parkerea
    @parkerea 10 месяцев назад

    Really good demonstration, clearly illustrating the advantages of switching regulators, and I really like the pin compatibility & simplicity of using CUI's P78-500 series. CUI's P7812 are used in a product line we will purchase, and I am wondering about RFI, since these devices will be very near VHF radio receivers (~8 inches away). Linear supplies are known to be very clean since there is no switching. I see in CUI's P78-500 series spec sheet that caps are recommended on the input & output. Am I correct in assuming that these are used to filter out switching noise and/or prevent oscillations? If so, what if they are left out? There are no caps on the P7812 for the product line we are purchasing. The product previously had a linear power supply, but the supplier simply substituted the P7812 to handle an increased input voltage of 48VDC.

  • @sandsack123
    @sandsack123 10 месяцев назад

    that is very ironic having a video about noise and the audio has almost more noise than information.

  • @stigbengtsson7026
    @stigbengtsson7026 11 месяцев назад

    Youre audio is full of interferece as a bacground noice 🙄 something you maby could do something about. Good luck from Sweden. SB.

  • @SuperBicycleRepairMan
    @SuperBicycleRepairMan 11 месяцев назад

    Nice work

  • @naderhumood
    @naderhumood 11 месяцев назад

    Video is great Thank you very much indeed.

  • @gblargg
    @gblargg 11 месяцев назад

    Why wouldn't ripple be AC RMS? Peak to peak can be exaggerated if it has small spikes.

    • @wormdamage
      @wormdamage 11 месяцев назад

      Exactly! A great lookin' RMS spec can hide large peak-to-peak spikey crap that causes havoc - board coupling, PSRR issues, etc. If I can't have both numbers, I'll take Vpp any day. It's nice of Cui to be specific about how they measured Vpp, but many manufacturers leave it vague. I never fully trust these numbers till I've looked at them directly.

    • @gblargg
      @gblargg 11 месяцев назад

      @@wormdamage Good point. I realize the point of RMS is to measure power delivered. But ripple isn't about power (since it's riding on DC!), it's about what must be filtered out. Thanks for convincing me that Vpp is the better of the two.

  • @NoosaHeads
    @NoosaHeads 11 месяцев назад

    Excellence suggestions.

  • @andrewverran3498
    @andrewverran3498 11 месяцев назад

    Say I had a 20amp regulated power supply, how do you calculate the values of the Electrolytic and ceramic capacitors? Much appreciated

  • @aurynaichi7030
    @aurynaichi7030 11 месяцев назад

    Some good ripple and noise in that audio lol.

    • @gblargg
      @gblargg 11 месяцев назад

      You stole my joke. I just assumed the video was made 10+ years ago.

  • @Vebinz
    @Vebinz Год назад

    Very good professional guide.

  • @DanielS-mc5tx
    @DanielS-mc5tx Год назад

    Thanks, very good explanation 🙂👍

  • @claudesnyder5753
    @claudesnyder5753 Год назад

    🤩 "Promo SM"

  • @mahamudaakter2631
    @mahamudaakter2631 Год назад

    Hello friend, I'm watching from Bangladesh 🇧🇩, Nice programme, thanks

  • @AB-yu2tj
    @AB-yu2tj Год назад

    Thank you so much appreciate it if I may critique because I'm a student of videos I watch. I feel the speed that you were set up Your instrument was for people who already Know how to do what you do! Which kind of I think defeats the purpose of your video I couldn't tell which graph is for what? when you were sent up the scope slow down and explain what you are pressing And elaborate if you can. I wish I knew every button that you press and what they are for.

  • @lc-mn5ww
    @lc-mn5ww Год назад

    We use VMS-300A-24-CNF and apply for safety approval. In the specification, this device is compliant with IEC-60601-1 ed4. Please let me know your technical support for detail.

  • @carleynorthcoast1915
    @carleynorthcoast1915 Год назад

    I don't get it; your measuring voltage with one lead?

  • @toma9318
    @toma9318 Год назад

    P R O M O S M

  • @uni-byte
    @uni-byte Год назад

    So ... I really object to the 20MHz bandwidth limit. It may have been the bees knees back 55 years ago when 20MHz scopes were the best there was and when 99.997% of all products were immune to noise much over a few MHz. That is not longer the case. Even me as a hobbyist can put together a small computer that is badly effected to power supply noise well in excess of 20MHz. Indeed even 30 year old microprocessor based systems utilized and were sensitive to frequencies in the 100's of MHz. The industry needs to pull up it's sock on this one and get real. The noise on that small PS before you switched in the 20MHz bandwidth limit was unacceptable. Just to be clear, I have no issue with your probing advice and technics, it's only the outdated bandwidth limitations.

    • @arkatub
      @arkatub 22 дня назад

      I have a cheap 10MHz digital scope, I was thinking of testing a PSU with it, would it not be good enough?

    • @uni-byte
      @uni-byte 22 дня назад

      @@arkatub It depends on what you are goin g to use the power supply for and what kind pf power supply it is. If it's a linear supply you will be using with audio and simple op-amp circuits, then it's fine. If it's a switching power supply you will be using with a PC, some other fast digital system or HF/UHF radio, then most probably not.

  • @tecnisdaimondm.g9321
    @tecnisdaimondm.g9321 Год назад

    Excelente

  • @raj_c
    @raj_c 2 года назад

    Excellent explanation

  • @Robert-hr6sh
    @Robert-hr6sh 2 года назад

    Nice video and another way when working on Government power supplies as I did in the past as was in the test procedures for external noise when using something like the paper-clip method, was to connect a (0.1uf cap) between the probe tip and ground lead. Of course having a high voltage ceramic cap way above what was being measured for test purposes, this worked very well for removing stray & unwanted noise and gave true output noise readings.

  • @motorbikeray
    @motorbikeray 2 года назад

    After watching the video my question is, What must you do to measure the peak-to-peak Voltage of ripple?

  • @Boobtube.
    @Boobtube. 2 года назад

    I am looking for a Dc Switching Regulator that I can use on a E bike. That I can tie a usb phone charger to it. I would use the bikes battery that can range from 54 VDC (full charge) to as low as 40 VDC when bike is exhausted. I would need a constant 12 VDC output from the Regulator, no matter what the input voltage is from the bike battery. I would tie that 12 volts output to a usb charger, that in turn would drop the voltage to 5 VDC to charge my phone. Any ideas on what is out there that would serve this purpose? Looking for something small, since it would be mounted on a bike. Thanks

  • @olegmakogon4977
    @olegmakogon4977 2 года назад

    Thanks a lot. Great comparison and explanation.

  • @garymoore3497
    @garymoore3497 2 года назад

    Surface power supply can filter out all that switching noise . . . .

  • @ovalwingnut
    @ovalwingnut 2 года назад

    My newbee experience(s) exactly. Thank you.

  • @EasyOne
    @EasyOne 2 года назад

    Good video

  • @franciscoalvarez5211
    @franciscoalvarez5211 2 года назад

    ignoraba este nuevo semiconductor hasta que el estudio de los LED me enseño el nitruro de galio. gracias

  • @richwiskin4860
    @richwiskin4860 3 года назад

    Good video. But I do question the relevance of the measurements when a PSU is connected to a circuit (in use). Any wires away from the PSU output are likely to introduce the same issues as the ground clip method. So on the one hand you can validate the spec sheet, but it does little to assist with the actual business of getting the "lab" results in practice.

    • @erikwallebom
      @erikwallebom 2 года назад

      Not sure I am right, but the noise that would be picked up on the wires between the PSU and the load are met with the low impedance of the PSU and the load so they won't matter much. The oscilloscope is high impedance so that path is disturbed much easier.

    • @foogod4237
      @foogod4237 11 месяцев назад

      He didn't mention it, but note that in the video the wires going to the load are twisted and always kept close to each other. This provides some inherent shielding, and also ensures that any external interference they encounter will be picked up and transmitted equally down both wires (common mode interference) and thus not affect the (differential) signal measurements of the scope. It is only when interference is picked up more by one side than the other (i.e. you have a short probe tip but a long ground clip, so the ground picks up the noise more strongly than the tip does) that it will affect the oscilloscope readings. (Of course you do also want to ensure that your load is sufficiently high-quality that it does not introduce differential noise of its own into the power lines...)

  • @Ratkill
    @Ratkill 3 года назад

    Very worth reiterating to the newbies that the PSU is connected to a bench AC supply and NOT directly to mains. You should not connect the ground clip AT ALL if the power supply is not isolated!

  • @KikusuiElectronics
    @KikusuiElectronics 3 года назад

    GREAT!!!

  • @phuang3
    @phuang3 3 года назад

    Thank you. You answered all my questions regarding GaN power supply.

    • @CUIproducts
      @CUIproducts 3 года назад

      Thank you Po-Ting, we are glad to hear it! We also have more GaN resources available on our website at www.cui.com/resources/resource-library

  • @phuang3
    @phuang3 3 года назад

    IMHO, electronic load also makes the difference. On my setup, the electronic load will make things more complicated. The waveform is heavily disturbed by it. Finally, I used pure resistor load.

    • @CUIproducts
      @CUIproducts 3 года назад

      Thanks for your comment, Po-Ting! Electronic loads can emit noise that will get picked up by the scope probes, however this effect should be minimal if the probe loop area is small.

    • @la7yka
      @la7yka 3 года назад

      A good idea. Also it should be better to measure the noise at the load side, not the PS side (with respect to closed loops).

    • @phuang3
      @phuang3 3 года назад

      @@la7yka It's adviced to do measurements for minimized ground loop. Best at the bypass capacitors without ground clips.

  • @acf2802
    @acf2802 3 года назад

    Maybe your company should research more efficient microphones next.

    • @CUIproducts
      @CUIproducts 3 года назад

      We appreciate the response, Acf! We are actively working on improving our audio and recording quality for every video.

    • @acf2802
      @acf2802 3 года назад

      @@CUIproducts Just a joke. 😉

  • @respawnnnn
    @respawnnnn 3 года назад

    Very good and concise explanation. Thanks

    • @CUIproducts
      @CUIproducts 3 года назад

      Thank you, Pedro! We are glad to hear that our video was helpful.

  • @robertw1871
    @robertw1871 3 года назад

    Appreciate the information.... Great job nailing that 80s handycam audio 🤠 really takes us back a ways.

    • @CUIproducts
      @CUIproducts 3 года назад

      Thank you for the feedback, Robert! We are working on improving our audio for future videos.

    • @theovannieuwenhuizen5756
      @theovannieuwenhuizen5756 8 месяцев назад

      That's the nicest way to point out the most hilarious thing about this otherwise informative video. To me it's most obvious what noise is.😂 Get an audio engineer in to fix the audio please.

  • @m.sabbirrahman8313
    @m.sabbirrahman8313 3 года назад

    Informative video, but. poor sound quality.

    • @CUIproducts
      @CUIproducts 3 года назад

      Thank you for the feedback Sabbir! We are working on improving our audio for future videos.

  • @els1f
    @els1f 3 года назад

    Wow, I just learned a lot really quickly! 👍✌️

    • @CUIproducts
      @CUIproducts 3 года назад

      Love to hear it, Elsif! Glad we could help.

  • @AnkitGargIndia
    @AnkitGargIndia 3 года назад

    sir, why 10uF electrolyte and 1uF ceramic capacitor was connected across the output before probing? What are the precautions to be taken for measuring ripple in HV output (1000V, 1mA)

    • @CUIproducts
      @CUIproducts 3 года назад

      Thanks for asking, Ankit! The 10uF and 0.1uF capacitors are typical for low voltage power supplies and represent the typical bypassing that might be applied by the application to eliminate high frequency noise picked up by output cabling. The datasheet value for ripple typically specifies this external capacitance, which is necessary to apply if you want to compare measurements to the datasheet value. In terms of the precautions you asked about, for high voltage rails you should observe proper high-voltage safety guidelines, including making sure your equipment is properly rated and isolated.

    • @AnkitGargIndia
      @AnkitGargIndia 3 года назад

      @@CUIproducts Thanks for your response.

    • @CUIproducts
      @CUIproducts 3 года назад

      @@AnkitGargIndia glad we could help!

  • @sanjursan
    @sanjursan 3 года назад

    Are those probes available? Or the schematics or mechanical 3d models, say in Rhino, or SolidWorks? What min bandwidth scope is required? Thank you in advance!

    • @CUIproducts
      @CUIproducts 3 года назад

      Sanjursan, thank you for asking! The probes we used for this video are the Tektronix TPP0500 (500MhZ, 300V, 3.9pF/10MΩ). Scope bandwidth should be at least 20MHz, and set to a 20MHz limit, if higher.

  • @UnbornWarrior123
    @UnbornWarrior123 4 года назад

    Hi, this video is quite educational. I have a doubt. Here it looks like you are using a single-ended probe/non-isolated probe. What if you have to use a differential probe and still you need to suppress noise pick up? I have used the Yokogawa differential probe and its loop area is significantly high. At least three times more than the single-ended probe.

    • @CUIproducts
      @CUIproducts 3 года назад

      Vakacharla, thank you for noticing! Yes, we used single ended non-isolated probes in this video. Differential and/or isolated probes could have been used for this test, but attention should still be paid to the loop area.

  • @JohnUsp
    @JohnUsp 4 года назад

    Best video on youtube about these methods. Thanks

  • @JohnUsp
    @JohnUsp 4 года назад

    Excellent explanation. Thanks

    • @CUIproducts
      @CUIproducts 4 года назад

      Appreciate the feedback, thank you!

  • @bobd.
    @bobd. 4 года назад

    It's unfortunate the audio is poor on this video.

    • @CUIproducts
      @CUIproducts 4 года назад

      Thank you for the feedback Bob! We are working on improving our audio for future videos.

    • @andrewverran3498
      @andrewverran3498 11 месяцев назад

      ​@CUIproducts maybe Bob should put his hearing aids in.

    • @gblargg
      @gblargg 11 месяцев назад

      @@andrewverran3498 Maybe you should if you didn't notice the poor (but entirely intelligible) audio.

    • @anshchawla566
      @anshchawla566 4 месяца назад

      Nothing that cannot be fixed with AI today

  • @dannyperry8070
    @dannyperry8070 4 года назад

    A couple of questions. I extended the test point via a coax cable with a bnc connector and a small capacitor at the end. Is that Ok. Also should the input impedance of the scope be at 50 ohms or 1 mega ohm? I made a 5 volt Flyback smps and loading it with 5 amps. I figured with 50 ohm input you get rid of noise which is not part of the power supply. I noticed that some youtubers used this method. What do you think? thanks

    • @CUIproducts
      @CUIproducts 4 года назад

      Thanks for the question, Danny! Yes, using a coax or twisted pair of wire is acceptable to extend the test point. Both 1 MΩ or 50 Ω input impedances are acceptable, however with 50 Ω a dc blocking capacitor must be placed between the output measurement and the scope. A 1 MΩ termination will tend to be noisier than a 50Ω, but it is generally not too difficult, with good probing, to get a good measurement on a standard ac/dc power supply. For very low ripple measurements, such as multi-phase point-of -load regulators, the 50 Ω termination may be necessary due to the low signal level. If you would like further information upon this topic, be sure to check out this Analog Devices application note: www.analog.com/media/en/technical-documentation/application-notes/AN-1144.pdf