U.FL plugs and sockets. A very useful board. I just finished giving an into lecture to NanoVNAs using this board. Went very well. I had read all the negative comments about U.FL, and was concerned about how all that would go. I didn't want to be in the middle of the demo, and have a cable fail. I used a loupe to look at the U.FL plug and socket. I noted that the /sides/ of the /plug/ are /open/ on the coax end, and there is a part of the clasp that rounds the /end/ of the /plug/. Also, the internal part of the U.FL /plug/ that grips the socket pin is designed to rotate in line with the coax axis, /not/ side to side. So I developed the habit of attaching the U.FL by "hanging" the end of the plug on the lip of the socket, then rotating the plug down toward the board in line with the coax axis. To get it to snap into the socket, I'd apply gentle pressure right at the plug as I was rotating downward. Removing is the opposite. I'd guide it off with my fingernails as I lifted the coax end of the plug. I was concerned at first about them being "loose", until I learned that "looseness" is part of the design. I have used the same pair of SMA-U.FL extensions ~100 times, and there is no degradation of the connector, at least at this level of use. I don't get signal glitches, static, broken contacts, or changes in signal quality with the NanoVNAs.
@ligius34 жыл бұрын
Just as a note: when changing the span/center frequency, the VNA should be recalibrated. I found this out first the hard way, and, afterwards, from a video from w2aew.
@DavidLopez-bz4rj4 жыл бұрын
Yes it is mandatory, or save the calibration and recall later
@sogosogo8343 жыл бұрын
Just got received demo board with nanoVNA 2 after waiting for 3 weeks time. The video is very helpful. Thanks.
@mikem50434 ай бұрын
There are also five test points on the other side with the Smith chart
@SmeeUncleJoe2 жыл бұрын
Thanks for doing this. I bought a card and was hoping someone would do a tutorial. You did it. Cheers.
@NimbleJack34 жыл бұрын
2:37 - one side of an unterminated attenuator is NOT equal to the characteristic impedance, and cannot be used as a load without some error from the impedance mismatch. It might be acceptable when performing low-precision measurements, but I'd try and have two loads instead.
@ChuckandChun4 жыл бұрын
The 10.7 MHz BP filter was bad on mine, so I put a good Murata one on. Yes , you are correct, calibration must be done at the end of the cable. Even if you use different cables. I bought some SMA to APX adapters from Megiq.
@grhinson4 жыл бұрын
Looks like a SMD crystal and resonator for the filters...neat board for teaching
@Factory4003 жыл бұрын
As noted......the board with SMA's would be a handy learning tool.
@IMSAIGuy3 жыл бұрын
the gerbers for the SMA version are on my github.com/imsaiguy/NANOVNA-Demo-Board-SMA
@Factory4003 жыл бұрын
@@IMSAIGuy I LOVE that! Thank you very much.
@richardnelson3616 Жыл бұрын
Thank you just what I needed to understand the Nano vna. Tomorrow I tune the 2nd Harmonics on my (tr)uSDX kit.
@dg1fbp4 жыл бұрын
my demo kit just arrived after 2 days waiting.. ty 4 the demo.. i played right with you ;)
@amirb7154 жыл бұрын
the BPF is a SAW filter (perhaps made by Murata?) they are usually never matched to 50 ohm so the circuit is not right for their measurement. Some of them are 150-300 ohm and some have 2-3Kohm I/O impedance. When you measure it in a 50 ohm system the response shows up very crappy unless a proper matching circuit is built around it
@IMSAIGuy4 жыл бұрын
There is a 50ohm match on the input. two resistors. looks like an inductor across the filter too. also a series resistor on the output but they loaded it with 0 ohms
@PapasDino4 жыл бұрын
I hate those darn UFL connectors, they're really not intended for repetitive mating. If it wasn't so expensive I'd build mine into a box with the connectors going to a panel with SMAs. Having said that it is a pretty neat demo.
@ryanbrooks16714 жыл бұрын
Would be nice if the board had SMAs...
@gorak90008 ай бұрын
Pretty sure u.fl connectors are only rated for 20 or 30 matings - they're not resilient connectors - really meant for wifi antennas to be plugged into a wifi card once during manufacturing and never touched again.
@josemihotek58174 жыл бұрын
I think Digikey has some SMA to UFL coax cables available.
@amirb7154 жыл бұрын
those are MMCX connectors widely used in all RF test gear. Prying it up with screw driver was a bad idea as it puts uneven pressure on the socket and the plug. I'd just grab them on both sides and pull them up by pushing my two finger tips to the board.
@mariuspetrescu15624 жыл бұрын
Actually, those are U.FL connectors. MMCX are more robust. U.FL pigtails are cheaply available for connecting WiFi card antennas.
@PapasDino4 жыл бұрын
@@mariuspetrescu1562 I've see a tool especially made to remove them but it was ~$35-$40 on Amazon.
@robust56154 жыл бұрын
@@PapasDino just buy 25 U.FL connectors and connect it on the board all of them so we will never get to disconnect it lol..
@PapasDino4 жыл бұрын
@@robust5615 Actually that was my point in another comment! Problem is they're really pricey and too much trouble to homebrew...outfitting all the ports would cost as much as about two NanoVNAs! ;-)
@Leo-pd8ww3 жыл бұрын
@@PapasDino What about ipx to sma adapters? they are 75 cents
@arts95913 жыл бұрын
I use cables on each circuit and I don’t need to keep removing them around from circuit to circuit.
@JackSquat542 жыл бұрын
I find this all very difficult to follow for a first timer. When doing short open load, am i supposed to ge through the menu and calebrate each one or does the RF Demo Kit do that automatically. This video seems very vague to me. i think i need a personal tutor.
@IMSAIGuy2 жыл бұрын
don't feel bad. vector network analyzers are probably the most difficult piece of test equipment. I have a playlist for 'nanovna' that has lots of videos that may help you.
@hobbyrob3133 жыл бұрын
Hello sir, I have now found this video of you. i learned from you not to buy this kit and learn it from your video. Bringing out the smith map on the VNA and on a correct scale I didn't know how to do that. . DBs is also something that I need to take a closer look at / to learn Thank you again for a VERY educational video! Healthy and Friendly Greetings from NL / Rotterdam! Rob
@aneeshprasobhan2 жыл бұрын
So I have a costly R&S VNA here and need to calibrate at the end of a pigtail connector with the small socket just like this one. Do you think its a good idea to use these Demo Boards for calibrating it at 2.4 GHz ? If no, what do you recommend ? Nice video btw.
@IMSAIGuy2 жыл бұрын
no, this is a bad cal reference. if you have no money you can do what I did: kzbin.info/www/bejne/nIfdhWVppNN2rqs not sure how good is is at 2.4G have not measured it. the open and short will probably be OK and I might buy a better load. You can get good priced loads will get you to 18G
@GodzillaGoesGaga4 жыл бұрын
Very useful for us noobs. Thanks.
@bertbronson83959 ай бұрын
A BIT CONFUSED On the #1 LP-30MHz (about 7 min into video), I am confused about the high rolloff of this 3rd Order Pi Filter. It would appear to be down way more than it should - like 21db/Octave (60MHz) and 16db/Octave (50 MHz depending on where fc is actually at). I would expect to see something like -10db ish at one Octave. My nanoVNA gives almost exactly the same readings on the same board as far as I can tell. So have the Chinese made a 3rd order filter miraculously act like 5th order filter or am I missing something?? I could be missing something, I am no expert on these things - thats why I am watching videos like these LOL.
@IMSAIGuy9 ай бұрын
from wiki: The frequency response of the Butterworth filter is maximally flat (i.e., has no ripples) in the passband and rolls off towards zero in the stopband.[2] When viewed on a logarithmic Bode plot, the response slopes off linearly towards negative infinity. A first-order filter's response rolls off at −6 dB per octave (−20 dB per decade) (all first-order lowpass filters have the same normalized frequency response). A second-order filter decreases at −12 dB per octave, a third-order at −18 dB and so on.
@bertbronson83959 ай бұрын
@@IMSAIGuy That makes sense, my bad. Thanks for the reply. I was hung up on the 3db thing. Its a shame these things have similarities to the db formula for db for voltage/current. For years I assumed they were talking about voltage in the filter section despite reading many ac/dc books from cover to cover (from Boylestad and other authors) - some more than once. Assumption is the mother of all screwups LOL.
@amoghjain3 жыл бұрын
3:04 would this RF kit be good for performing calibrations for 2.4GHz? ( you said in the video the kit operates at 500Mhz..)
@IMSAIGuy3 жыл бұрын
this is NOT for calibration. Just a teaching tool. It will work fine at 2.4G
@thomasdanuch9363 жыл бұрын
Hi IMSAI Guy, congratulations on your excellent videos! Do you have any idea what the metal dots on the backside of the RF demo boards are for? Is that used for a sensor or probe?
@IMSAIGuy3 жыл бұрын
they are just various locations on the smith chart (for teaching I guess). open inf + 0j short 0 + 0j load 50 + 0j and two extra points 50 + 50j and 50 - 50j
@727jetjumper3 жыл бұрын
this board is limited by the stupid connectors, I can never get accurate readings unless I'm pressing them down onto the board (yes they are properly snapped on) I've seen an SMA version.. shopping for one now, who needs stuff that requires fiddling?
@rogerp58164 жыл бұрын
As always a great demo. I'll be getting one as a teaching aid. If Google didn't insert mid roll ads it would be a bit easier to follow your train of thought. If Google could at least let you finish the sentence before breaking for an add that would be great.
@IMSAIGuy4 жыл бұрын
I tried to set my profile not to place mid roll ads but I guess it didn't stick. If you are teaching you will be interested in a future video in about a month. I have layed out a SMA connector version of the demo board. I will unsolder the parts and move them to my board.
@vidasvv4 жыл бұрын
@@IMSAIGuy I did NOT see any ads when I viewed it on 8-13-20
Well the F V2 model is built better and goes to 4GHz. The H model has better firmware if you load the Dislord version.
@richardlmontel2 жыл бұрын
The video and voice are in sync till about 2 minutes in. After that, it is hard to follow.
@IMSAIGuy2 жыл бұрын
works fine here.
@MartinBarquero954 жыл бұрын
good video thanks
@clems69892 жыл бұрын
Is "fiddly" a technical term ?....😅
@2100Warzone2 жыл бұрын
Only when it's fiddly.
@defensegeneral98933 жыл бұрын
so what is the point of this?
@IMSAIGuy3 жыл бұрын
It helps teach the concepts of a Smith chart. It is a playground for the VNA
@eliasaguilar53524 жыл бұрын
Quiero. Uno soy principiante con el analizador
@dabdoube92 Жыл бұрын
Broken link
@DIYJim-wx6hq3 ай бұрын
The failure in these boards is the poor coax connectors on the board. SMA would be much better.
@IMSAIGuy3 ай бұрын
like this one: kzbin.info/www/bejne/iZ65eXSifdllnrssi=VGmKwt7HUv8R_deA kzbin.info/www/bejne/aIiToZ2DoJppqKMsi=KAcIq0aRwEwSPFbQ
@DIYJim-wx6hq3 ай бұрын
@@IMSAIGuy yes exactly, but with the SMA and components already attached. Nice job, you made your own! Thanks for the videos. I’m playing today with a Siglent SVA-1015X SA/VNA testing coax adapters. There is a huge difference in UHF vs N connectors above 450 MHZ. Now I see it.
@IMSAIGuy3 ай бұрын
@@DIYJim-wx6hq my test showed 300mhz max: kzbin.info/www/bejne/iaKWq3imjsx2j9Esi=UO4i02LYTFDSFTvE
@markjacobsen3023 жыл бұрын
Really like your vids. I find them very educational. Also they help me unwind after work. - WB8YMV