💬 Easy/Newbie PCB for MySensors



  • @Nca78 and I've had a bunch of problems with seeed, however that wasn't related to their pcb services just their store and various bugs with the site that I had to multiple times point out to them and months later still needed to be fixed. (ie, incorrect paypal checkout flow that processes orders without a chance for final review as it should, and says will happen. Other people's PCB orders filling my cart with their gerbers and all. selling a galileo gen2 board right beside a gen1 case with no mention of incompatibility or that the case was for gen1 and at the time only the gen2 and that one case was for sale and they didn't seem to care that it was confusing, plus many other issues across just a couple orders. Seemed to be horrible customer service there.)


  • Hardware Contributor

    Everytime I panelize anything I get charged for specifying that it is panelized, even if i specify that i've done it and don't need them to do such. Do you just submit the board as a normal board but have your milling and drills such that it allows you to remove them all when you receive the product?


  • Hardware Contributor

    @Samuel235 you should not specify that you have panelized your boards.
    And yes I use milling for complex shapes so I just have a few straight lines to cut with scissors. I did it with DirtyPCB last time and had no problem.
    Seeed explains you should just not select panelizing related options when you order and they will not care.



  • @jens-persson What's the 0.1 uF capacitor next to the battery terminals for?


  • Hardware Contributor

    @maghac - below the booster on the right side? it is an output capacitor to filter the output on the booster. There isnt any evidence this works and there are capacitors on the booster itself as well, but I found that a 0.1uF capacitor worked great on one of my nodes which was all ST=FAIL (radio transmit/ack fail) until i added this. I have found that a cheramic capacitors on the booster worked best for some reason.



  • @sundberg84 Aha, good to know. Can't hurt to add it I suppose.

    But I was actually wondering about the other one - to the left and above where the 5V->3.3V regulator would sit.


  • Hardware Contributor

    @maghac - this one?
    0_1494833219211_1.jpg

    Its to maintain stability of the voltage regulator. If you look at different datasheet most voltage regulators has a typical application schematics where different capacitors is added before and after to make this. So the 10 and 0,1uF work together. Why 0,1 and 10? Well - I have seen this setup on the forum many times so I just went with that. There is alof to read about this, but I think the smaller cap can react faster while the bigger cap have more juice to give so to say.

    https://electronics.stackexchange.com/questions/21686/whats-the-purpose-of-two-capacitors-in-parallel



  • @sundberg84 Ok, I see. I do have those caps on my (so far) only 5V mysensor node, somewhere I read that you need them but I wasn't sure why - thanks for the explanation.

    But I suppose there is no reason to add them unless you are actually using the voltage regulator to power the radio? I noticed that @jens-persson added the smaller cap on the pics he posted earlier, but those nodes were battery powered.

    0_1494834092470_Capture.PNG


  • Hardware Contributor

    @maghac - not really, I have not used them with batteries.
    In that setup the 0,1cap is in paralell with the 4,7uF cap for the radio. Sure, might give some more stability to the radio itself but the 4,7uF cap should be enought. If you experience alof of errors you can try adding different values here to give more stability - but in normal operations it should not be needed.

    Edit - sorry not 0,1uF, but 10uF cap is in parallell. The 0,1uF does nothing if you dont have a voltage regulator.

    Edit 2 (note to myself) - Maybe I should change the 0,1 and 10uF for next rev so 10 is on the input and 0,1uf on th output instead.



  • @sundberg84 Ok, it doesn't hurt since capacitors in parallel are simply just added (if I remember my electronics classes correctly).

    So the end result is that you have a 14.7 uF cap on the radio.


  • Hero Member

    @maghac it is not just as simple as the capacitor size is added, true it is added but different size capacitors also filter disturbances at different frequencies. So adding different size capacitors in parallel can act as a more effective disturbance filter.


  • Hardware Contributor

    @korttoma @maghac - Exactly how they work is beyond my knowledge... im more of a trial and error guy (hence the 9th revision 🙂 ) but korttoma has right, and from experience I would go with a lower and a higher capacitor to try first, ie 0,1 and 10. 4,7 + 10 is to me two higher value capacitor.



  • A capacitor is considered a short to an AC signal and it works on certain frequencies depending on the setup. So if you get any AC ripple on your output of your regulator, the capacitor is used to smooth that out. Electrolytics are also use to give a quick extra burst of power when needed. That is why they are used for things like the incoming power for the radio. The radio transmits every so often and if you were to look at the power coming in to the radio on a scope with no capacitor on it, you would probably see dips in the power when it transmits. The dips in power could cause it to fall outside the operating range of the radio for a split second giving you transmission loss. The electrolytic is there to supply that extra jolt to stabilize the power on the transmit cycles.

    And @maghac, you are correct, parallel capacitance adds and series capacitance divides, which is the opposite of resistors where series resistance adds and parallel resistance divides.


  • Hardware Contributor

    @nitroburn said in 💬 Easy/Newbie PCB for MySensors:

    @Nca78: Yeah, PCBways base price is $5 for 10 100x100 as well but they don't seem to charge for vcut (doesn't change quote) and allow 0mm spacing so no need to cut. I used EMS to ship and was here in 3 days without taxes or fees unlike DHL has every single time I use them. $15 just to collect $0.10 in tax.

    So yesterday I tried to submit my PCBs to PCBWay, they accept similar design if you don't check panelizing options, but my interest is to lower prices by combining different PCBs on the same board. I don't need them to cut anything, but they just refused and changed to panelized version. In the end it was 137$ compared to less than 70 with Seeed.
    So PCBWay is great to have many similar boards (but who really needs 50-60 items of the same board ?) but if you want to save costs by combining multiple boards it's not an option.


  • Hardware Contributor

    @Nca78 - This is exactly why i was shocked when someone got away with it. They get personally checked every time and soon as they pick something up where they can see two separate boards there then they refuse it unless you paid the extra for the panelising.


  • Mod

    Draw some fake routes across the boards, maybe they will not notice it 😀



  • @Nca78

    @Nca78 said in 💬 Easy/Newbie PCB for MySensors:

    So yesterday I tried to submit my PCBs to PCBWay, they accept similar design if you don't check panelizing options, but my interest is to lower prices by combining different PCBs on the same board. I don't need them to cut anything, but they just refused and changed to panelized version. In the end it was 137$ compared to less than 70 with Seeed.
    So PCBWay is great to have many similar boards (but who really needs 50-60 items of the same board ?) but if you want to save costs by combining multiple boards it's not an option.

    I combined different PCBs and right on the form for submitting them for a quote it explains you just select how many different designs you want per board, so if you fit 3 different designs but with 8 total boards from the 100x100, you just enter 3 designs and submit all 3 gerbers individually zipped inside a main zip file. In my case, I selected 2 designs and submitted both as single not panalized. You can always just copypaste them together in eagle or something and avoid them saying anything about it.

    Only extra thing I did was submit the board size as the 2 designs added together then in the requirements specified there were 2 designs one being X * Y and the other X * Y. I don't know if they would have accepted me requesting they then put the designs onto one board more then once, but I assume that is what they would do for the panalization. It definitely doesn't have to be the same design on 1 board. Order 10 pcs, fit 4 designs or 2 designs 2 time and end up with 40 total PCBs. But I do notice if you have 2 designs done 8 times total and you want the boards pre-separated then you would say 8. But yeah, that does raise the price. Weird because I swear it wasn't doing it like that before.

    I guess I just got lucky and had a nice person review my files and they combined and separated them for me for free. In the future I'm just going to throw a panel together myself and submit as 1 design and maybe not even bother to have them score the boards, I'll do it myself and then it's definitely 1 design. They must have felt bad I was ordering 30x23 boards wasting the rest of the 100x100 so they threw them together. Its a 10 second copy and paste so I'll just do it myself next time and not bother with them charging more. Could also be they counted it as 1 design because the sizes were nearly identical.



  • A completely unrelated question: what is that header called that @jens-persson used on the MySX connector (see the pic that I reposted above)? I soldered the longer, jumper-style, headers instead so I can connect dupont wires.

    Are there any benefits to using this other type of header? (And what does the corresponding male connector look like)?


  • Hardware Contributor

    @maghac said in 💬 Easy/Newbie PCB for MySensors:

    A completely unrelated question: what is that header called that @jens-persson used on the MySX connector (see the pic that I reposted above)? I soldered the longer, jumper-style, headers instead so I can connect dupont wires.

    Are there any benefits to using this other type of header? (And what does the corresponding male connector look like)?

    It's just header with round pins. No interest in using them IMHO, better stick to the standard square shaped headers as they are the more common. You cannot use standard square shaped headers with those so it's a bit limiting.



  • Please note, that when using the link to ITEAD, the order is not actually completed. The order is received by ITEAD, you get an order confirmation and everything, but the order is actually not processing before you upload the gerber files.

    This may be a beginners mistake, as it is the first time i'm using this service. I had the understanding that when you pressed the shopping cart above, and chose a service the gerber-part of the transaction would be handled automatic.

    I dont know if this is a misunderstanding on my side, I may have misunderstood the instructions on this site. It also may be an error on ITEAD's side as they didn't process the order correctly.
    What is your experience with this ?
    My problem is solved now, as I wrote and asked ITEAD for status. They made me aware of the issue and I emailed them the gerbers.

    This is in no way a critique of the project. I really appreciate the hours of work put into it.


  • Admin

    @R2DK, sounds strange.

    Should just be a one-click operation to order... and you shouldn't have to do any gerber uploads.
    Could you PM me who you were in contact with over at ITEAD?


  • Hardware Contributor

    We have sold pcbs from itead before and this is the first time I hear this. As @hek said it should be a 1 click operation but something maybe went wrong just this time?



  • This happened to me too, I ordered from the link, and thought I was Ok with the order. Yesterday I did find out that my order was waiting for the gerber files, so I downloaded, zipped and uploaded the to itead. I also mailed them about it. Got a reply that they should check the gerber files.


  • Hardware Contributor

    @mickecarlsson - I think @hek are looking into this... if I look at my Sales stat there are mostly ordered/aborted from Itead without known reason so they have not been comfirmed. The lastest revision from EasyPCB is over 7 months old and works great with PCBway... so if the gerber files are bad I hope I would have been notised before.


  • Admin

    I have mailed the person responsible for the integration. Hope to get some answers tomorrow.



  • Allright, now it looks like I am getting them 👍
    PCBs have been finished and are ready to be sent out.



  • same hear...i ordered from itead...i had to upload the gerbers myself....



  • I have some issues with battery powered version with this board, maybe someone can point out what I did wrong. I have several of these boards working great (rev 8 says on them, the radio cap is however properly connected). I recently noticed that battery powered sensors do not work if battery is under 2.7v (on one pro mini it goes under 2.3v) even thought I have 3.3v booster. I have one dht22 sensor, measuring resistors and cap, bat jumper, basically my board looks exactly like example on the openharware, this one https://www.openhardware.io//uploads/568ed84b60aa3f8965fbf095/image/Rev8 Bat.jpg
    Also did the battery hack, removed led and removed onboard regulator.
    I have rechecked several times, changed several radios and several arduinos, but they just wont work reliably on lover battery power then 2.8v . Is that the limit?
    I cannot debug using serial adapter, as when I connect it, then pro works fine as it gets 3.3v from the pc.
    But here is some debug measurements I did on 2.5v batteries: vcc - gnd pins on pro mini show 3.3v. Pins out of booster do show 3.3v. So do pins on the dht22.
    Pins on the radio show 2.5v, so do D2-gnd show 2.5v (or -2.5v i forgot). Why does pin2 have 2.5v, I have desoldered it so it is not connected to anything, I guess that is some feedback voltage from the radio (as dht22 gets 3.3v) Can this pin (or voltage measurement a0) somehow disturb the pro mini?
    Do you have some suggestions on how I can debug what is going on?
    The led on arduino goes red for 3-4s, then goes off for 2s then again red for 3s, then off...
    I have two identical boards, and only thing that is determining the lov limit is pro mini modules. Some of them go to 2.7v (on both boards) and on of them goes down to 2.3v on both boards. I do not understand why when they do get 3.3v on the vcc from the booster?

    What is the lowest voltage the batteries can go (with the 3.3v booster)?


  • Hardware Contributor

    @dakipro - hi!

    but they just wont work reliably on lover battery power then 2.8v . Is that the limit?

    No, the limit should be (if you have a genuine radio) 1,9v. Im not sure what kind of voltages a clone will manage, but my nodes goes below 2.8v!

    I cannot debug using serial adapter, as when I connect it, then pro works fine as it gets 3.3v from the pc.

    This should not be a problem - you can power the node from the "normal" way and just connect RX/TX and GND from the ftdi to the arduino ftdi header. I have done this several times.

    D2-gnd show 2.5v

    The IRQ line from the radio is 2.5v since thats what the radio gets. Im not exactly sure what this does, but in SPI which is what the radio are using, its either HIGH or LOW so 2.5v sounds right since the radio has that voltage. This should not disturb the arduino! This is changed in REV9 so you can disconnect D2 from the radio if wanted. You should not use D2 for any sensor below Rev9.

    The led on arduino goes red for 3-4s, then goes off for 2s then again red for 3s, then off...

    Sounds like the radio is transmitting... if this goes on and on it can mean the radio isnt getting connected/ack or establish a way to the gateway.

    Do you have some suggestions on how I can debug what is going on?

    You need to check the debut output (see above)!
    Could you describe the issue? Are the node lost from the controller?

    What is the lowest voltage the batteries can go (with the 3.3v booster)?

    1.9v is the minimum to the radio.
    0,8v is the minimum for the booster.



  • Thank you for your answer, the tip about debugging helped a lot.
    I now checked on one board and it looks that some pro minis are having problems when battery voltage goes bellow certain level (f.eks. 2.7v).
    Testing results:
    "good pro mini" works up to 2.0v , on 1.9v it shows fallowing errors

    send: 4-4-0-0 s=1,c=0,t=7,pt=0,l=0,sg=0,st=fail:
    find parent
    send: 4-4-255-255 s=255,c=3,t=7,pt=0,l=0,sg=0,st=bc:
    send: 4-4-0-0 s=2,c=0,t=6,pt=0,l=0,sg=0,st=fail:
    temp: nan
    nan
    send: 4-4-0-0 s=255,c=3,t=0,pt=1,l=1,sg=0,st=fail:62
    send: 4-4-0-0 s=2,c=1,t=0,pt=7,l=5,sg=0,st=fail:0.00
    send: 4-4-0-0 s=1,c=1,t=1,pt=7,l=5,sg=0,st=fail:0.0
    

    "bad pro mini" works fine above 2.7, on 2.6 it logs

    
    84973 MCO:SLP:MS=15000,SMS=1,I1=255,M1=255,I2=255,M2=255
    85047 !MCO:SLP:TNR
    85874 TSM:FAIL:RE-INIT
    85897 TSM:INIT
    85919 TSM:INIT:TSP OK
    85942 TSM:INIT:STATID=3
    85968 TSF:SID:OK,ID=3
    85991 TSM:FPAR
    86042 TSF:MSG:SEND,3-3-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    88117 !TSM:FPAR:NO REPLY
    88141 TSM:FPAR
    88193 TSF:MSG:SEND,3-3-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    90269 !TSM:FPAR:NO REPLY
    90294 TSM:FPAR
    90345 TSF:MSG:SEND,3-3-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    92422 !TSM:FPAR:NO REPLY
    92446 TSM:FPAR
    92497 TSF:MSG:SEND,3-3-255-255,s=255,c=3,t=7,pt=0,l=0,sg=0,ft=0,st=OK:
    94574 !TSM:FPAR:FAIL
    94595 TSM:FAIL:CNT=4
    94617 TSM:FAIL:PDT
    95066 MCO:SLP:MS=4999
    95088 !TSF:SND:TNR
    95610 MCO:SLP:TPD
    
    

    What I see on the log parser is that the "No potential parents replied to find parent request" pops out as the biggest issue, suggesting that radio communication is not doing well.

    I am testing using the small bench power supply (the Chinese ones with the oled screen) so the current should not be the problem. Why would pro mini be the problem, when it is getting 3.3v directly from same stepup?
    The radio and all other components are exactly the same in all the tests i just swap the minis, I think radio would have failed with both minis if it is the radio... or perhaps the signal to the radio is not good/stable enough? No idea to be honest 🙂

    If that matters: they are all getting 2.7v (or what I set) on pin 2 even though I have physically cut the connection to the radio irq (with the knife, on the board, they are not touching anything else on the board).

    p.s. now that I write this, i realize that another difference is the sketch on them, "the good one" is "vanilla" mysensors 1.5 code and all the bad ones are latest mysensors using the node-manager library. I do not know enough about chip programming, but as a web developer I would think that the code should not determine minimum voltage needed on board? (or there are some routines in some strange combination doing some magic... hm...)



  • Well I just tested with latest example from mysensors library, and we can exclude my latest p.s., nothing to do with using the node-manager (as expected).
    Only difference is the pro minis (but again, they should all get 3.3v via popup)?
    and on the "good" node I have mysensors 1.5 while on the others I use 2.1.


  • Hardware Contributor

    @dakipro - It looks like when the voltage drops, you are having issues with your radio (No reply and ST=Fail).
    This should not be a problem, since this is powered directly from the batteries and you say there are 2.8v left.

    The first thing that comes to my mind is that as the voltage drops, the booster needs to work harder and introduces more noice into the board. As the noice increase, the radio gets in trouble.
    The other I can imagine is that you have a bad clone which cant handle lower voltages.

    Both problems are a bit tricky to diagnose. First I would try some different radios, if possible from different batches. Second I would look more close to the booster. They vary greatly in quality and some are just really bad. Sometimes a cheramic capacitor might help (from output to gnd on the booster). You could also just disconnect the booster and see if it works (the pro mini shoudl be able to handle down to 2.8v).



  • After several hours of debugging and changing all possible components, i built exactly same circuit on prototype board and with exactly same (active) components I was able to go down to 1.9, sometimes to 1.8, while on the easyboard only down to 2.6. I also used exactly the same booster on both prototype and on the easyboard.

    But then a breakthrough, I have found one passive component that was different between the two mentioned boards! It was the radio freaking capacitor, on the "good" board it was 47uf, and on the problematic board had 4.7uf!
    I changed radio cap to 47uf and I am now able to go on both boards down to 2.3v. Which is ok, not the 1.9v but it is good enough (for now 🙂 ) So those 42.3uf were missing for radio to go ~0.5v lower in voltage I guess.

    The one thing I am missing on the prototyping board is the voltage measurement circuit, so I guess that gives some 0.4v lowest threshold or something, i will test these days on the prototyping board, just to verify.

    Thank you @sundberg84 for attention and help 🙂

    Are you able to provide 1.9v on battery input on some easy board with the dht22? Like the one from the photos on the openhardware?


  • Hardware Contributor

    @dakipro - the radio capacitor is crusial which has been proven many times before so good you found out your problem. What can be a pain with the radios is that some clones/batches seems to work with on capacitor value and the next need some higher/lower value on the capacitor to work at its best.

    The source is most likley what i explained above, the booster noice which interfere with the radio. On a breadboard you have much more space and possibility to put the booster further away from the radio with longer wires. This is most likley your case here...

    Are you able to provide 1.9v on battery input on some easy board with the dht22? Like the one from the photos on the openhardware?

    I have not made any a large quantity of measurments, because i almost never have to change my AA batteries. I have 5 Easy nodes (different revs though) with DHT22 and the only time I measured it was around 2 if I remember right. Cant remember if it was 2.0 or 2.2 though... I will keep that in mind for the next battery change but the lowest node is at 2.5V at the moment so it might take a while. If I remember right according to Domoticz I will not have to change these batteries for atleast a couple of months.

    So the short answer... im not far from 1.9V, but It will depend on the radio and the booster quality.



  • @dakipro Jut to test, now that you have your voltages closer with the change in capacitor, you may want to just try swapping the radio modules between the two (provided you have them in sockets) and see if the voltage drop follows the radio.
    .



  • both boards are now identical, they go down to 2.3, but I will put 2.4 in scripts as the minimum, just to be sure.
    If a board boots at 2.4 it can go down til 2.2 and maybe 2.1, and it will work, but cannot reboot at that voltage.


  • Hardware Contributor

    @dakipro - 2.4 volts will last you a long time.

    If you want to go further I would suggest you look at the advanced user section of the EasyPCB and remove the booster and lower BOD instead. This will not work with the DHT22 but you could change that to BME280 and the radio @ 1.9v will be your lowest point. Either that or go for a more expensive booster. Im accually trying this in another project (https://www.sparkfun.com/products/10967) so I can give some feedback in a near future.

    Im also building a variable power supply which might help me to try different volt levels on my boards as well... all I need now is a oscilloscope - anyone wants to fund (and teach) me 🙂 ?



  • I will consider that for new nodes. Where is a "advanced user section of the EasyPCB", i tried searching the forum and openhardware, but not sure what exactly you are referring to?


  • Mod

    @sundberg84 wow, that's a quite expensive booster 😰


  • Hardware Contributor

    @gohan - yes almost 5 times more expensive but I'm building it myself and it's probably five times better...

    @dakipro https://www.openhardware.io/view/4/EasyNewbie-PCB-for-MySensors check "Battery without step up booster (advanced users)"


  • Hardware Contributor

    @gohan said in 💬 Easy/Newbie PCB for MySensors:

    @sundberg84 wow, that's a quite expensive booster 😰

    The chip itself is less than 0.7$ on Arrow.com (so, legit one) so with additional components it should be 2$.

    But I see in the datasheet that typical operating current for 3.3V version is 45uA, added to the 15% of losses (max 85% efficiency) I'm a bit skeptical about the battery life you can get using it ?

    @sundberg84 if you find someone funding oscilloscopes, please send me the contact 😄 Else you have the captures in the datasheet for the most critical cases 😛


  • Hardware Contributor

    @Nca78 45 uA will last me a long time. On my dht nodes I aim for <100uA so if you sleep between readings that's ok. If this circuit would be much better than these cheap eBay boosters I'm happy even if they run at a couple of more uA

    Will let you know if I find oscilloscope funder 😉


  • Hardware Contributor

    @sundberg84 said in 💬 Easy/Newbie PCB for MySensors:

    @Nca78 45 uA will last me a long time. On my dht nodes I aim for <100uA so if you sleep between readings that's ok. If this circuit would be much better than these cheap eBay boosters I'm happy even if they run at a couple of more uA

    Will let you know if I find oscilloscope funder 😉

    But I still fail to see the interest of all the pain with the boosters and keeping the DHT22 which need "high" voltage of 3.3V when a sht21/si7021 is 3$ or less on aliexpress and can run way over 1 year with a simple cr2032 ? And if you use 2 AA it will run for 5 years. No problem with noise/stability, no booster to buy, just a 0.x$ big capacitor to add in parallel with the battery if you're using a CR2032 (and nothing if you're using 2 AA/AAA).



  • @Nca78 Another option that I went with is an HDC1080. The only problem with this one is that according to the datasheet, the recommended operating minimum voltage is 2.7v, where the si7021's minimum is 1.9v. When I was looking on ebay, these said that they were a replacement for the si7021, and it was my mistake not checking the datasheet before buying. They do seem to be working good though and I have had one of them running for about 5 months with no trouble so far.


  • Hardware Contributor

    @Nca78 that's why I added the option without boosters. The only downside is that it's not that easy changing bod. When you get the booster function to work you can also run a motion dec in 3.3v for example. 3.3v will give you more sensor options.



  • @sundberg84 said in 💬 Easy/Newbie PCB for MySensors:

    Battery without step up booster (advanced users)

    I could just (do it very very ugly) and cut the vcc line near the board and solder it directly to the battery input?
    That way both arduino and radio will get battery power, and dht22 would still receive 3.3v? (then I can lower the BOD)
    Or would that not work due to some other connection?

    Also, would flashing pro mini to 1Mhz benefit battery consumption at all? (while still using 3.3 booster)

    (p.s. I stole your signature 🙂 )



  • @sundberg84 That is one of the nice things about your board is it's flexibility.


  • Hardware Contributor

    @sundberg84 said in 💬 Easy/Newbie PCB for MySensors:

    @Nca78 that's why I added the option without boosters. The only downside is that it's not that easy changing bod. When you get the booster function to work you can also run a motion dec in 3.3v for example. 3.3v will give you more sensor options.

    Well, it is pretty easy IMHO, you just have to follow on of the many tutorials, and you learn a lot on the way 🙂
    For motion detection isn't a booster a bad idea ? You can use AM312 anyway, very small and very stable, no soldering necessary to run it down to 2.7V meaning you can use most of the capacity of a lithum cell like CR123.

    @dbemowsk thanks for the information I didn't even know about this sensor, looks like a very precise one with a very low power consumption. Can you link to where you bought it from I see nothing below 4$ on aliexpress ?



  • @Nca78 said in 💬 Easy/Newbie PCB for MySensors:

    when a sht21/si7021 is 3$ or less on aliexpress

    The thing is that when people start with mysensors and arduinos, none of these are listed on Store page, so using them would be experimenting basically. And experimenting before you have even begun anything is a bit masochistic. At least in my case that is how I was thinking, so I ordered several of dht22, not really knowing that there are better/efficient alternatives. Maybe we can get those sensors in the store page, perhaps mention them on the examples page, noting that they are more efficient?



  • I went for the BME280, a little expensive, but it uses I2C and can be run from 1.71 volt to 3.3 volt.



  • @Nca78 I believe this is the same one that I bought, at least the carrier board looks to be labeled the same. Mine was just listed as an HDC1080, where this one is listed as a GY-213V-HDC1080. I am assuming it is the same chip. When I bought the 2 that I have I paid $5/module shipped which after looking at this one was a bit high. Live and learn though.

    http://www.ebay.com/itm/Low-Power-GY-213V-HDC1080-I2C-High-Accuracy-Digital-Humidity-Temperature-Sensor-/172666252980?hash=item2833b5eeb4:g:1C8AAOSwi7RZELpK


  • Hardware Contributor

    @dakipro the dht22 is a hot potato not only due to 3.3 req but also quality... I know this has been requested for removal on homepage before and I think it's just a matter of someone makes a good example for another sensor to replace it with.

    Yes you can cut the trace for vcc and hardwire it from bat if you want to lower bod.

    And yes it's not that hard to lower bod... but harder than booster and therefore I choose the easiest option since that's my board goal.

    I'm running 1mhz with booster and motion without problems... but same there, with a bad booster it will false trigger.


  • Mod

    This might be the better example you are looking for https://github.com/mysensors/MySensorsArduinoExamples/pull/25


  • Hardware Contributor

    @mfalkvidd so all we need is some graphics and some text 👍?


  • Hardware Contributor

    @sundberg84 said in 💬 Easy/Newbie PCB for MySensors:

    @dakipro the dht22 is a hot potato not only due to 3.3 req but also quality... I know this has been requested for removal on homepage before and I think it's just a matter of someone makes a good example for another sensor to replace it with.

    The only thing for the DHT sensors is they have their own pins, so you don't have to solder pins like on the breakout board of the I2C sensors. That's a good reason to keep them in example section otherwise a soldering iron is necessary, but it should at least talk about the existence of I2C sensors.


  • Mod

    Mod: Fuse/bootloader discussion moved to https://forum.mysensors.org/topic/7296/burning-fuses on request by @sundberg84



  • @sundberg84 just to update success of the story, I cut the vcc trace and connected mini directly to battery, burned the fuses based on your advice here https://forum.mysensors.org/topic/7296/burning-fuses/8, and now the sensor goes down to 2.0v 🙂
    Booster is still used but only for dht22, radio and pro mini run directly from the battery.

    Thank you very much guys for help, now I have a foundation (and the knowledge) for more awesome sensors! 🙂



  • Dear All!

    I would like to use this PCB. I would like power it with 5V, but I would like to use a 3.3V version mini Pro. How should I do it? I would like to use it from 5V (USB adapter) or battery 2xAA . Could I do it?

    Best regards,
    T


  • Mod

    just power it from the usb adapter, the pro mini can work at 5V. If you have other HW not 5V tolerant you need to use the RAW pin and let the pro mini regulator to its job. It all depends on what you want to do with the node



  • Dear @gohan !

    Thank for your help!
    Which configuratation should i use? Or do i have to modify one of the above configurations? (3.3V , 5V regulated, or 6-12V) ?


  • Mod

    There is no right answer since without knowing what you want to do, they could be all wrong or even all correct. 🙂


  • Hardware Contributor

    @Tommas 5v + 3.3v pro mini there is no example for this. Add your 3.3v pro mini and radio. Connect 5v to raw and put a jumper/connect both reg and bat.

    If you want to use to for 2xaa please follow the example.



  • @sundberg84 I do have the same problem with my setup. As soon as power drops below 2.8 the radio will have problem connecting to gateway. Sometimes it connect after 10-15 tryes. Is there any way to see if nrf sending or any outer way to test stuff? Any ideas are welcome //Håkan


  • Hardware Contributor

    @keldandorin - are you using a booster as mentioned above?
    The problem is in that case noice introduces in the radio from the booster (a known issue). I will in the future try to buy me a oscilloscope and diagnose more... but for now, if you add a "bad/cheap" booster it will be this problem. 2.8v sounds really bad though, and most likley a really bad clone.

    You have two options.

    1. Try another booster, and/or try to filter with capacitors.
    2. Load a new bootloader that can handle lower voltages accoring to link above.

    Let me know if I can assist you in any way.



  • Dear @sundberg84 !
    Thank you! ANd which example should i follow with this modification?
    Thanks
    T



  • @gohan

    Dear gohan!
    I would like to power all my nodes from a central power source with 5V . I would like to use 3.3V microcontroller with 3V sensors... because of the voltage drop down caused by the distance (5-15m from the power source). Maybe there will be 1-2 battery powered sensor nodes..
    This is my plan.
    I dont like using battery. It is too hard for me to optimize the sensors for battery...

    Best regards
    T


  • Mod

    In that case you could also go for rs485 bus. Voltage sources could be also 7 or 9v since you will be using the internal regulator anyway. Most sensor can operate at 5v too, so you don't actually need 3.3v. Optimizing for battery isn't that bad too. Since you are powering the nodes you could also use esp8266 nodes



  • Dear @sundberg84

    If i use 5V regulated example, has it got 3.3V output for the sensors?

    Thanks
    T


  • Mod

    if you install the voltage regulator in the top left area, you will have the 3.3v ( if I got your question right)



  • @gohan

    Oh OK! Thank you! The decision is hard for me, which solution i should use:) .



  • @Tommas If you are using 5 volts in and not using a 3.3v pro mini that has the 3.3v regulated output, then you have to add a TO92 case style 3.3v regulator and two capacitors to the board. Here are some that should work. Whatever one you get, make sure you check the pinout against the markings on the board as not all regulators have the same pinout.
    http://www.mouser.com/Semiconductors/Power-Management-ICs/LDO-Voltage-Regulators/_/N-5cgac?P=1z0y3jsZ1z0wa2e&pop=88zz



  • Dear @dbemowsk

    I bought these: https://www.ebay.com/itm/401088383355

    Thank you!


  • Hardware Contributor

    @Tommas - this is the voltage regulator that the board is designed for so the markings/pinout will be right for you. If you put 5v on the PCB input and use 3.3v pro mini though, the only choise you have is to put 5v on RAW and let the onboard voltage regulator on the PCB regulate it down to 3.3v. The voltage regulator on the PCB only regulate the voltage to the radio and are meant for a 5v input on a 5v pro mini. Using raw means there is no need for the LE33.



  • @sundberg84 Is there any way to say if booster is a bad one or not before ordering them?
    The one I ordered was the one on shoping list from aliexpress. Will try I capacitator and see if I can get a new booster from kjell&Comany tomorrow just to try. Build a setup on bread bord where I powered radio with 2 AA and got the same result. Got a fju places where I like to put some sensors with no power so realy need to get this working :). Could the radiomodules be bad to?


  • Mod

    Bad quality from cheap Chinese suppliers, is always an option 😁


  • Hardware Contributor

    @keldandorin - could be a weak clone radio yes.
    Just to get your hopes up, I got booster driven nodes all around the place with Nrf24l01+ radio and they works great!
    I change battery every 1-1.5 years but as I said, the experience is that the radio - booster needs a good teamwork 🙂



  • @sundberg84 Sounds good, Thats what I'm looking for. Have never worked with tinkers like this befor so everything is new. But this place is great thx for taking time.



  • Sorry, I'm a bit slow and maybe a little off-topic: A quicky:

    Can I read somewhere how payment is done when ordering from openhardware.io? On the start page for openhardware.io there is no clue. I've also tried to search this section (easy-newbie-pcb-for-mysensors) for "payment".

    Yes, I've read that the "order" is more like a forward of orderinformation to the supplier, but do I really need to order first and after that ask what payment solution is present?

    🙂


  • Hardware Contributor

    @pellusfromtellus - to get a 100% right answer we ping @hek but I recommend paypal!


  • Admin

    @pellusfromtellus

    I think most of them handle paypal/card. You can press the "Order" button to find out. Nothing is binding until payment has been done.



  • Is there a drilling and outline file available?


  • Hardware Contributor

    @Paul-Robertson - hi!
    Yes, but this is Eagles output gerber files.

    Drill: SundbergMys9.TXT
    Outline can be found in all other files:

    https://www.pcbway.com/project/share/How_to_generate_Gerber_from_Eagle.html

    0_1505990995661_upload-c5e3c1d3-3dfb-46dc-9e10-e2d5dbfaca0d


  • MySensors Evangelist

    Damn. Just missing the 0,1uF capacitor ..... to complete the 5v build. This will be my smallest build yet 😉 using PCB v9



  • This post is deleted!



  • Mod

    If you want to use a lipo battery, you need a voltage regulator


  • Hardware Contributor

    @hiddenuser - well not out of the box as mentioned by gohan. Im not really sure what you want to do. Its not possible to use this instead of step-up booster since it outputs 5v and the step-up needs to output 3.3v. But with a voltage regulator in between maybe? As I said - don really understand so maybe you can explain some more about your project?


  • Mod

    @sundberg84 that tp4056 outputs just the lipo battery voltage



  • Thanks @sundberg84 and @gohan

    I have used made the board for 3.3v set up as per the instruction. I have usd the output from tp4056 into the Battery connector of the board I have a step board from https://www.aliexpress.com/item/New-Electric-Unit-1-PC-NEW-DC-0-8-3-3V-to-DC-3-3V-StepUP/32724361266.html According to the specification given in the same link it is supposed to stabilize to 3.3v above 3v but the sensor reports something else back to the gateway.

    0_1512985662819_a428954d-5f74-4026-8782-e12b51f52bf3-image.png


  • Hardware Contributor

    @hiddenuser - well, what would a battery measurer be if it reported a constant 3.3v boosted voltage? 😉
    It all depends on how everything is connected (pictures?) but if you have connected it as battery instryctions the radio and voltage divider that measured the incoming battery are not a part of the booster circuit. This to prevent noice to the radio and to be able to actually measure the battery voltage and not step-up voltage which is the idea behind the board.


  • Mod

    @hiddenuser I'm missing how can you use a booster to get 3.3v from a lipo battery



  • hey, has anyone maybe made a fritzing drawing/component of the board?
    I know, I'm lazy as f but.. since the board is that easy, documenting with it could be easy as well 🙂



  • @sundberg84 interesting question...or maybe stupid question not sure...

    i have a tonn of 3v pro mini's but im thinking of mains powering some for motion sensors.... would i set it up as battery, and then just use a voltage regulator on where the step up usually would be? or is there a better way to handle it?


  • Mod

    there is a voltage regulator footprint on the pcb made for that



  • ahhh thats cool... so use regulated instead and it will pull down the voltage for antenna over that side
    ...and the board can handle the voltage anyway so it should be fine....



  • @gohan The only voltage regulator that I know of on the board is mainly for the radio. Unless you are talking the one on the pro mini.

    @markjgabb If you want to do them from mains power, you might wan t to look at the HLK modules like these
    https://www.ebay.com/itm/1Pcs-Power-Supply-Step-Down-Buck-Isolated-Hlk-Pm03-220V-To-3-3V-Module-New-Ic-N/332047987473?epid=571729397&hash=item4d4f9a3311:g:nyMAAOSw4GVYPa8q
    Otherwise an old phone charger should work.


  • Mod

    @dbemowsk if I remember well the regulator Vout is also connected to the pro mini vcc



  • @gohan Have a bare board right in front of me. Ran continuity and no connection from regulator V-Out to VCC. VCC goes to the REG jumper and V-Out goes to the BAT jumper. VCC ties to the V-In on the regulator.



  • @gohan ayou wouldn't want to run the pro mini and the radio both off of that small regulator anyway. Takes too much from the radio.



  • @dbemowsk cheers for that...yeah i have a tonn of old 5v bricks lying around from old nokia chargers, so was just going to try use some of them up without having to buy anythiing else, as i have all of it on hand.... i have some LE33a's which should take care of any step down issues i think?



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