Stitching Via Deep Dive | PCB Layout
Рет қаралды 25,270
Күн бұрынTech Consultant Zach Peterson jumps into a stitching vias exploration in this video. He focuses specifically on their uses, as well as how to both size and space them correctly.
0:00 Intro
0:36 When to Use Stitching Vias
2:32 Tying Together Copper Pour
4:59 Grid Size?
6:57 Layer Transitions
10:31 Shielding
14:49 Checking the Buses
For more PCB Layout videos, click here: • PCB Layout
For more PCB Design for Beginners videos, click here: • PCB Design for Beginners
For more Tech Consultant Zach Peterson videos, click here: • Technical Consultant Z...
👉 Learn more about the Return Path rule in Altium Designer: • How to Create and Vali...
👉 Getting Started with an nRF52 Series MCU Part One: • Getting Started with a...
👉 To Pour or Not To Pour | Copper Pour in PCB Design: • To Pour or Not To Pour...
👉 Why Via Impedance Calculators Can Be Inaccurate: • Why Via Impedance Calc...
👉 Everything You Need to Know About Stitching Vias: resources.altium.com/p/everyt...
👉 15 Days Free Altium Designer Access: altium.com/yt/altium-academy
Don't forget to follow us on social to stay up-to-date on the latest Altium Academy content.
👉 Follow Altium on Twitter: / altium
👉 Follow Altium on Linkedin: / altium
👉 Follow Altium on Facebook: / altiumofficial
👉 Ready to try the industry's best-in-class design experience yourself? Download it today and get started! www.altium.com/downloads?utm_...
The Altium Academy is an online experience created to bring modern education to PCB Designers and Engineers all across the world. Here you can access a vast library of free training and educational content covering everything from basic design to advanced principles and step-by-step walkthroughs. Join industry legends as they share their career knowledge, review real-life design projects, or learn how to leverage one of Altium's leading design tools. No matter your level of experience, the Altium Academy can help you become a better Designer and Engineer!
About Altium LLC
Altium LLC (ASX:ALU), a global software company based in San Diego, California, is accelerating the pace of innovation through electronics. From individual inventors to multinational corporations, more PCB designers and engineers choose Altium software to design and realize electronics-based products.
#Altium #PCBdesign #ElectronicsDesign
@icestormfr 8 күн бұрын
Btw, doing the routing of hi-speed-signals (including I/Os with considerable short rise/fall times) early and placing the return vias at the same time when they swith layers can reduce later problems/overhead-work to add the return vias.
@leeslevin7602 Жыл бұрын
Thank you Zach and Altuim Academy for another brilliant deep dive topic. I use stitching via's in my design for ground returns and tying ground layers etc. I never took into consideration the spacing shielding properties and would play around with the spacing not understanding exactly how and why, apart from reducing impedance. Until now that was the extent of my knowledge on how to use stitching via's. 🙌👍
@ThePaulus2010 Жыл бұрын
When adding gng vias to connect all the planes, I usually set the opasity of the planes to 50 basically giving you a view through all the planes/layers, so you can easily see the areas where you can add gnd stitching vias without having to move a lot.
@Zachariah-Peterson Жыл бұрын
That's a good point, I normally do it with polygons after I have them drawn the way I like them. The automatic tool will apply clearance rules to the via array but if you're doing it by hand you can run into clearance errors, setting the opacity definitely helps.
@jangrooten68 Жыл бұрын
To place additional vias and connect them properly you need of course copper from one layer to the other layer. To check this Altium Designer has a nice Design Rule. It is called ReturnPath and can be found in High Speed Section of your Design Rules.
@Zachariah-Peterson Жыл бұрын
Good point, I added a link to a Return Path rule video in the description
@lavixl Жыл бұрын
As someone who's layed out a few pretty nice EVBs for sub 6Ghz RF products my main goal was always best return loss for my traces. Proper via spacing is very important when thinking of cpwg. When meeting a trace and SMA it's a pretty big challenge (no sharp corners, tear dropping preferred). VIA spacing is critical and also artwork on transitions from a trace to any other shape is almost as critical. When in doubt always talk to your fabricator. Loving these vids.
@Zachariah-Peterson Жыл бұрын
You should see the video I did on digital signals through a coplanar waveguide, the via pitch and the distance via-to-trace clearance both have a big effect on bandwidth.
@87Spectr Жыл бұрын
Thank you very much for this video, Zach! I get pleasure when watch such videos
@AltiumAcademy Жыл бұрын
Glad to hear that!
@happyhippr Жыл бұрын
I'd love some info on via fill % during enig/ hasl. I'm using stitching vias for thermal conductivity, and not sure on optimal size / qty to get best bang for buck, from standard via plating processes without extra fill complexity.
@K.D.Fischer_HEPHY Жыл бұрын
Unless you use very small via-holes (and or Micro-Vias / buried) the dimensions and amount of stitching vias for thermal puposes will not alter the production costs significantly i guess. We'll see what Zach has to say.
@Zachariah-Peterson Жыл бұрын
Given the finite hole-wall to hole-wall clearance limits for mechanical drilling, I think you would get the best bang for your buck with some intermediate value for the via size. That's just my intuition based on drill cost and the heat flux you would want to achieve across the board. It's actually a fun little dual optimization problem, maybe I'll play with it and if it's fruitful I'll do a video on it.
@nasibfahim4183 4 ай бұрын
Great video! Thank you very much.. I always used the vías super close one to the next one.. being so conservative has any inconvenience? On the other hand, why you use 2 when the DK is 4? Thanks!
@Zachariah-Peterson 3 ай бұрын
I used Dk 4, the refractive index is equal to 2 if Dk is 4, that value (square root of Dk) is what determines the propagation velocity. Being conservative and using the vias super close to each other is fine but might add cost per drill hit at volume manufacturing. The cost per drill hit is small and is normally ignored in prototypes, but it adds up in volume production. There is also hole-to-hole clearance requirement that has to be satisfied.
@naveengupta5588 3 ай бұрын
Thanks for clearing out.@@Zachariah-Peterson
@Stephenkim-mn9lb 5 ай бұрын
The via shielding(top to second layer) for micro strip line, when the via is connection on top layer it is not working. Why?
@maxsintar108 Жыл бұрын
Hi Zach, why do L2-L5 have a cut out below the antenna trace. Is it because the idea was to make the antenna trace thicker by distancing gnd further away in the stack and hence use L6 as a reference for the coplanar wave guide?
@Zachariah-Peterson Жыл бұрын
Two reasons: 1) It was used in the reference design, and to de-risk the design we used a line design that we know works, 2) it requires a wider width, which does give lower conductor loss. The nRF documentation makes some claim about reducing capacitance that would affect impedance or unintentional coupling to other traces, but that explanation is nonsense; you would actually want to keep the ground if that was your reasoning. In this design we kept everything (including digital) clear around the trace and we're not routing under it on an inner layer, so it will operate with low noise even with the ground clearance. In general, you do not have to do this. In some designs, it's better to keep all the ground because you actually need it. An example where I did this was in a radar board that we have in assembly. The board uses blind vias on the coplanar line and adjacent ground, but the layer stack has 10 layers total and tons of high speed digital, we have no choice but to route that digital stuff under L2 GND on internal layers because it has to connect to the radar SoC for configuration and data capture. If I were to eliminate ground in that design the board would definitely not work.
@dimonasua Жыл бұрын
Hello Zach, thanks for the nice video! It would also be great to make it possible to check for the presence of stitching vias by Altiums DRC. I think the idea pitch already exists in bugcrunch for a long time. Probably needs a little push by an expert like you. :)
@Zachariah-Peterson 11 ай бұрын
I recently talked with someone about this and they are playing with the idea of adding stitching vias and antipads automatically around specific signal vias, we'll see if the feature ever goes live. I do not think I am the first person to have requested this.
@dimonasua 11 ай бұрын
@@Zachariah-Peterson It sounds promising!
@nurhaida1983 3 ай бұрын
Hey Zach, great video! I was just wondering: if I have mounting holes that will be connected to a metal enclosure via screw, and create a via fence along the edges that is tied to the chassis that acts as chassis ground, will the shielding effect work? Thanks again!
@Zachariah-Peterson 3 ай бұрын
The shielding effect can work regardless of where the vias are placed, if you have a fence structure they can create a shielding effect in certain frequency ranges.
@nurhaida1983 3 ай бұрын
@@Zachariah-Peterson thank you very much for this, Zach. Helps cleared out some of the doubts that I have. Thanks again! 😃🫡
@jimjjewett Жыл бұрын
Why *must* layers 4-6 be symmetrical with 1-3 in terms of copper fill? Is it just a convention? Does it stave off some manufacturing problems?
@Zachariah-Peterson Жыл бұрын
I say "must" with an asterisk. Fab houses like stackups that are symmetrical in terms of copper coverage, especially once you start going to higher volume. The main point they will worry about is warpage. If there is heavily uneven copper distribution on top and bottom half of the stack, there could be some warpage if one side of the stack cools before the other side after layer build up. The same could happen after repeated reflow. Since it's a simple design element that is easy to implement, most people just go for it. We've used uneven copper in small boards and have not had problems, even for a board going into order of 10k units production.
@WinChester_Ltd 6 ай бұрын
Hi, can you please explain to me one more time because I didn't get. Via shielding prevents frequencies which are lower or higher than a calculated frequency?
@Zachariah-Peterson 5 ай бұрын
They help shield against all frequencies, but lower frequencies are much more effectively shielded than higher frequencies. The shielding is most effective against frequencies below some cutoff value. The cutoff is approximately determined by the distance between the vias, and when this distance is equal to a half-wavelength the frequency corresponding to that half-wavelength will be the highest frequency that is most effectively shielded without starting to strongly radiate.
@WinChester_Ltd 5 ай бұрын
@@Zachariah-Peterson thank you very much
@ananthadattadhruva8689 Ай бұрын
Can we integrate the following into this? As we know the stack up and the material properties loaded into the designer 1. Trace width calculator along with the impedance calculator 2. Via shielding of a net. (spacing calculated based on the stackup input) kindly let me know if it already exisits or if we need such a tool.
@ananthadattadhruva8689 Ай бұрын
Really Love these videos, they help me a ton!
@Zachariah-Peterson Ай бұрын
Thank you, the layer stack manager currently does not support coplanar waveguide with ground vias. The impedance and maximum TEM frequency will depend on the via pitch and spacing, so it is not a trivial problem to incorporate these features into the calculator. Other programs you can use to evaluate your coplanar waveguide design include Polar and Simbeor.
@ftmmrbs1996 Жыл бұрын
hello, the dk for fr4 is 4.. then why did you divide 3e8 by 2?
@Zachariah-Peterson Жыл бұрын
Because I was calculating the speed of electromagentic wave propagation in MKS units. The speed of wave propagation is the speed of light in vacuum (3e8 m/s) divided by refractive index, or square root of Dk (2).
@creedo8301 11 ай бұрын
what if my PCB contains multiple substrates how do i calculate my constant ?
@Zachariah-Peterson 11 ай бұрын
What do you mean by multiple substrates? Do you mean stacks of prepreg with different dielectric constants? In this case you have an effective dielectric constant that depends on the thickness of those stacked sheets, the simplest approximation is to use a thickness-weighted average to approximately get an effective dielectric constant. From this you could then calculate the wave speed in the substrate, and then you can estimate the spacing required for stitching to ensure isolation.
@creedo8301 11 ай бұрын
@@Zachariah-Peterson its exactly what i meant thanks a lot !
@googlesucks1376 Жыл бұрын
And a 4mil annular ring ((18-10)/2)? Even for class II most PCB fabs want a min of 5mil... one thing to note is calling out finished hole size. So for a 10mil finished on an 18mil pad, they'd prob. be drilling 12 over that for the plating.
@Zachariah-Peterson Жыл бұрын
I've never had a Class II called out as must-be 5 mils with the two main fabs I use, as well as by my EMS clients. But there is one fab I have used that always requests teardrops added in Class II just for extra protection at the trace-to-pad connection, they do the same for Class III.
@mz9zn 6 ай бұрын
I still don't understand, why you have placed so many vias, which can shield up to 37 GHz signal, while the actual signal is only 2.4 GHz and it's also not explained, why there are 2 rows of them.
@akhilab9715 Жыл бұрын
How to length match rf lines in pcb ..
@Zachariah-Peterson Жыл бұрын
Typically there are two situations where you need some kind of length matching in an RF system: when you are using differential RF components (some amplifiers do this) or if you have two lines and you need to precisely control the phase between the signals on those lines. Which type of instance are you referring to?
@akhilab9715 Жыл бұрын
@@Zachariah-Peterson i have to match the phase of two signals
@akhilab9715 Жыл бұрын
Is there any dimension for using accordion length tuning
Giggle Jiggle
Рет қаралды 33 МЛН
Inter Link
Рет қаралды 588 М.