Minimal design thoughts


  • Hero Member

    @Anticimex said:

    @tbowmo said:

    dirtypcbs

    Well, for a site that in their website footer prints
    "No bull, just crappy PCBs"
    what can possibly go wrong 😄

    LOL


  • Admin

    @Anticimex

    Just received the tracking number.. (so it took them 2 days to go from the factory to the shipping company :))

    Anyway, now I have a tracking number, so I can keep an eye on things 🙂



  • @tbowmo Since Domoticz (home automation software) got support for MySensors i have been looking for cool sensors. I want to place a MySensor node in every room in my house with temp/humidity motion and reed contact, run directly from battery. Your board looks very promising. I only have one question. Is it possible to have two interrupts (for the motion sensor and reed contact)?


  • Admin

    @CodeIt

    D2 is connected to radio socket IRQ pin.
    But as it currently not used by the library you could just cut the leg on radio and connect it to whatever you want.


  • Mod

    it is also possible to use PCINT interrupt on mostly any digital or even analog pin


  • Admin

    What bootloader should I go for, for the prodcution run? (that is preload a bootloader into the atmega) ?

    I am also thinking about preloading a default sketch as well, so it's almost plug'n'play.

    (@hek, this default sketch should probably be included in the mysensors git repo, right ?)

    / Thomas


  • Admin

    Yep, a default sketch would be nice that reports temp/hum. Think it should be added to examples-folder like the others.

    Would be fun to test the flash as well... Haven't seen @ToSa (the bootloader developer) around here for a while. Ideally a new bootloader should be adopted and MySensors library store bootloader update messages (in flash) at normal "runtime".


  • Admin

    @hek

    I have been trying to get DualOptiboot from lowpowerlabs to run.. because it's able to use the external flash. It also seems like it is starting up as it flashes the LED during bootup, but it doesn't respond when I try to download via serial port using arduino. I might be blind or something, as I can't seem to figure out what the *beep' is going on 🙂

    I have a sketch now, that is running on the first prototype here.. Should I make a pull request, to add it?

    Btw. I have tested the external flash, by writing "random" bytes to it, and read it back again.. So I know it is working.


  • Admin

    @tbowmo said:

    Should I make a pull request, to add it?

    Yep, do that.. And include the libraries for flash/hum/temp if needed.


  • Admin

    @tbowmo which flash ic are you using?


  • Admin

    @tekka

    It's an adesto AT25DF512C-SSHN-B. Chosen because supply range is 1.8 - 3.6V (It's a bit hard finding flash chips that cover the whole range)


  • Admin


  • Admin

    @hek

    I don't have problems with bootloaders in general, I tried the standard arduino bootloader, and it works ok. It's just the DualOptiboot from lowpowerlab I can't get to work.. And it drives me crazy 🙂

    Think I need to figure out some way of debugging the bugger, to figure out what it is doing, but it's hard to find time for it, when I only have one hour every now and then for debugging..


  • Admin

    @tbowmo yup, debugging these things is a pain in the neck - I've been working on the OTA bootloader for a while (mainly optimizing size, speed and additional features). What works best for me, is using debugwire in atmel studio...but sometimes quite cryptic and not straight forward 🙂


  • Admin

    @tekka

    Well, i have thought about that as well (Avr studio route) but then i have to start up my wimdows machine, too much work at the moment 😉


  • Admin

    Bugger.. DHL tried to deliver the package with PCB's from dirtypcbs, while I was at work today. So they only left me a note, that they couldn't deliver it. Have to wait untill monday, before they will try to deliver it again.. :s

    Anyway, I now know that the boards are in DK somewhere 🙂

    The other day I also have received 3 pcs of ATSHA204A (samples). so I can verify that part of the HW design.

    And last but not least. I have a uCurrent waiting at the post office, that I can pick up later today.. So I can also start measuring supply currents to the device! 🙂 Hope that I'll get some time to look at that part during the weekend 🙂


  • Admin

    Good news..

    On a saturday evening, where nothing is on TV, but a danish pre- european song contest program, I decided that I should have a look at the bootloader (amongst other stuff)

    I actually succeeded in getting the bootloader into the device, and I can reprogram using serial now. Next step is to verify that I can use the spi flash to reload the unit.

    I have thought of a strategy for testing the flash for reprogramming. It involves making a very basic sketch that I could compile and put into another sketch, which writes the first one to the flash, and reboots the device, and thus reprograms itself with the first sketch :). But it's going to take a while for that to happen (if anyone have a better idea, then please let me know :))

    I also have tried the uCurrent, and tried to do some measurements on current consumption. When it's a sleep, it uses arround 60uA, and while awake it's up to 22mA for 60m seconds.

    2015-02-07-1.jpg


  • Admin

    Sweet! 👍👍👍



  • @tbowmo

    That current draw seems a bit high.

    A modified 3.3V pro mini draws ~100nA in "deep" sleep without watchdog timer (pretty much everything disabled). The nrf24l01+ draws ~900nA in power down. If you wake up the 328 using its watchdog timer (i.e. sleep != 0), then that watchdog will draw around 5uA, but it wakes up every 8 sec, so the average "extra" current consumption caused by the watchdog is closer to 6uA. According to the si7021 datasheet* it draws 60 nA standby current, and 150 uA active current.
    In other words, you should see a current consumption < 10uA in sleep mode. When active, the si7021 is negligible compared to the nrf and 328's current consumption, but the total consumption for nrf and 328 should still be less than 22mA... The 60ms you see probably indicates that the nrf is not able to get a hardware ("link-level") ACK, so it retries up to 15 times. Also, disabling DEBUG in MyConfig.h will save a few extra milliseconds. You should also make sure node.send() is the last thing you do before node.sleep(), or else the NRF will countinue to draw ~13mA until sleep() or RF24::powerDown() is called.

    This should not be too far from the theoretical current consumption profile for your board when reading hum+temp at given INTERVAL:
    (Assuming the nrf, 328 and si7021 has already been "booted")

    sleep(INTERVAL): ~7uA on average
    awake time 2+12+10.8+8 = 32.8ms
    - 328 wakeup: 3.6mA for 2ms
    - si7021 conversion hum: 3.6mA + 150uA for 12ms
    - si7021 conversion temp: 3.6mA + 150uA for 10.8ms
    - nrf24 send: 3.6mA + 13.4mA for 8ms (assuming no message retries)

    What components are actually mounted on the board you tested?
    The ATSHA204 should draw max 3mA active, and <150nA sleeping.
    The 25aa080sn*

    • Write current: 3 mA maximum
    • Read current: 500uA typical
    • Standby current: 500 nA typical

    You probably already know all this, but I thought I might mention it anyway 🙂

    http://www.silabs.com/Support Documents/TechnicalDocs/Si7021.pdf
    http://www.atmel.com/Images/Atmel-8740-CryptoAuth-ATSHA204-Datasheet.pdf
    http://ww1.microchip.com/downloads/en/DeviceDoc/21230E.pdf


  • Admin

    @tlund

    I haven't done anything to optimise things yet. The sketch I'm running is in the examples section on Mysensors github repro so you could have a look there.

    The board is without external flash (didn't mount it on board #1 that i used last night) and without atsha204, as it's still the first prototype board. The new version should arrive tomorrow, where I can mount the atsha204.


  • Admin

    WUUUHUU! What a great sunday 🙂

    Just verified bootloader is working with external flash! Verified with dumping a small sketch to the external flash (By use of another sketch).

    So external flash is verified as functional, for the bootloader part...


  • Admin

    forgot an update last week, I received rev2 boards last monday (9/2). but was on vacation with the family (They have priority above "nerd" projects ;))

    Will see if I can get a couple of pictures of the new boards when I get home from daytime job today.

    And hopefully, I'll get a couple of boards mounted during this week, so I can get it verified, and we can start preparing for "production to the masses" 🙂


  • Contest Winner

    @tbowmo
    Nice! I have updated the ATSHA204 personalizer to work without UART and I will try to push it to github tonight or tomorrow so you can use it to verify the ATSAHA (if you need to). I am not completly finished to release signing support to the masses yet, but things are moving along nicely and I hope to be able to do that will full documentation and HW independency by the end of the month.


  • Admin

    @Anticimex

    Nice! I have updated the ATSHA204 personalizer to work without UART and I will try to push it to github tonight or tomorrow so you can use it to verify the ATSAHA (if you need to).

    Is there any status messages sent to the UART, in case communication with ATSHA204 fails? Or is there any other method of indicating success/failure?


  • Contest Winner

    @tbowmo
    No, I am afraid you have to have a serial debug port to get any status. My updates merely "permits" you to personalize a ATSHA without UART input (something I have added as a "are you sure, this cant be undone" precaution).
    However, it is possible to check connectivity by downloading my example "secure actuator" sketch and use a gateway sketch from the same "repo". The "secure actuator" will inform the GW that it require signing, and when GW asks the actuator for a nonce, actuator will ask ATSHA for a random number. A "virgin" ATSHA will give a fixed value which is recognizable and can therefore be seen by the GW. And if pattern shows, you will know that the actuator can talk to the ATSHA. A bit cumbersome, but that can be done without any hacking using existing examples (from my personal signing haxxor-branch for the moment).
    The alternative is to make your own simple read-and-transmit sketch to test of course.


  • Hero Member

    @tbowmo said:

    forgot an update last week, I received rev2 boards last monday (9/2). but was on vacation with the family (They have priority above "nerd" projects ;))

    Will see if I can get a couple of pictures of the new boards when I get home from daytime job today.

    And hopefully, I'll get a couple of boards mounted during this week, so I can get it verified, and we can start preparing for "production to the masses" 🙂

    Say what?? I take offense to that.. I'm a geek.... 🙂

    Epic Rap Battle: Nerd vs. Geek – 03:44
    — Rhett & Link’s Wonderhole


  • Admin

    @ServiceXp

    Haha! That was fun!


  • Admin

    @ServiceXp

    Ahh, in Denmark we don't distinguish that hard between nerds and geeks..


  • Admin

    A couple of days ago I promised pictures of the new boards. Unfortunately I have been busy with some other projects :s (I hate it, when work related projects take too much of the spare time..).

    Anyway, here are a couple of pictures, not the best quality, as it was a couple of quick snaps I took when I received the boards last week..

    rev2-front.jpg
    rev2-back.jpg

    The front one is a bit blurry, sorry about that, but that is what I have at the moment..

    @bjornhallberg as you can see it seems that it works quite well with adding the break tabs


  • Hero Member

    @tbowmo Looks great! I hope my regulators turn out as nice. They should hopefully arrive next week.

    Best thing about the panelizer is obviously if you mass produce different sized boards, and use 10x10 cm PCBs (that are almost half the price / square cm), not only fitting a ton of boards in one space, but beating the freeware limitation in Eagle.


  • Admin

    So almost finished the first two boards of the new revision..

    I changed the footprint of all the SMD capacitors, and resistors, to footprints recomended by the manufacturer we are in dialog with for the mass production. Only problem is, that it's a nightmare soldering the 0402 smd components now, because the footprints are much smaller than what was used on the first revision.

    Anyway, only missing decoupling capacitors now, so I'm going to power it up, just to see if everything works like it should.

    2015-02-22-1.jpg 2015-02-22-2.jpg

    The two first is also with atsha204 mounted! Hope that everything is connected as it should be 🙂

    First powerup seems to be ok. no excessive power ussage, and bootloader is successfully dumped into the first board. So it seems like a success sofar. (Even LED lights up during bootloader startup.. So that's also a success :))

    2015-02-22-3.jpg

    Also ATSHA204 is confirmed working on the first prototype!


  • Contest Winner

    Properly done!



  • so @tbowmo when can we order em ? just waiting to get a may be around 10 to start with 🙂


  • Admin

    @sharath-krishna

    To my best knowledge at the moment, it will be Q2 this year.

    It should work, as the extra components added in rev. 2, have been verified as working (it's the atsha204 chip, for signing purposes). Everything else should be working, as I haven't altered in the schematics, so connections should be the same as the previous version.


  • Contest Winner

    @tbowmo Looking at the placement, I have a few questions regarding connectivity. With the RF-board mounted (looks like it goes in on the bottom layer), will it be possible to access the other holes?
    Essentially, I wonder about the mounting possibilities. As there are no holes for screws, I am guessing the board is intended to be mated to a backplane using the IO-pins as interconnects? But will that be possible when the RF board is mounted? The programmer and FTDI-headers I suppose go up from the top layer so they are out of the way, but my concern is that the RF board will cover the IO-rows on the other side.
    Or is the intention to have a board that is wire-soldered directly and RF module is mounted last? I worry a bit on maintenance then 🙂


  • Admin

    @Anticimex

    main thought was that it was only going to be used with wires connected to the board (that's the way I wanted to use it). the FTDI header, was only intended for downloading software, and debug purposes.

    The radio will cover the FTDI header, and the pinheader on one of the sides of the board. So you have to mount the board to another board "upside down", that is with the atmega facing down to the other board. In this case the micro sensor is sandwitched between the radio module, and the extension board.

    There are tradeoffs when trying to make things as small as possible (which was my initial goal of this board).


  • Contest Winner

    @tbowmo Sure, no problems. I was just wondering about the intended usecase. I think it should be possible to mount both the programming and the FTDI header on the same side though. This leaves the RF board free to use all needed space. And direct wires to all other IO. A "ugly" approach is also to simply not solder FTDI at all. Just put the pin header in and press it against the side when programming (if bootloader exists). Same could be done for the programming header (if you want a really thin board topology).
    But since batteries will create some "height" I think it should be possible to keep both headers pointing up from the AVR-side of the board. Might I suggest for future revisions a 3mm mounting hole/point up center between the nice silk screen grafitti? But perhaps it will be obscured by the RF board. It will be tricky to get the board mounted through that hole in that case if it has to be done before the board is soldered I guess. Oh well, you can't get everything 🙂
    Good work on the routing. The I2C pullups must have been painful.


  • Hero Member

    @Anticimex said:

    Just put the pin header in and press it against the side when programming

    This is what I do with the Pro Mini, have not had any problems yet.



  • @tbowmo what might be the cost we are talking of here for the complete assembled board ?


  • Admin


  • Admin

    @Anticimex

    I don't solder any pinheaders for the serial port, just putting the pins from the ftdi module in the holes on the micro board, and then holding it in place. Done the same thing for the ISP port, but it's a bit more problematic. The last two boards that I have assembled, is with pins in the ISP port.

    I expect to have a "standard" bootloader in the boards (Together with a standard sketch for reading / reporting sensor values), when we receive them from China, so the ISP port is not necessary for the average user. only serial port for reprogramming (if not going for OTA).

    But it might be an option for a future module, to have better access to the headers. Also might go with the nrf24 smd modules. But that's another project at the moment 🙂


  • Admin

    @Anticimex

    btw. the only painfull thing about the current layout, is handsoldering it 🙂 it's a nightmare.. Almost regret that I used the new footprints for resistors / capacitors, as it makes things a lot more difficult.


  • Contest Winner

    @tbowmo Sure. But after a chat with @hek I believe you have dabbled with a bootloader that can flash in new FW from the external SPI flash. This is to me very interesting because that means we can deploy FW updates OTA using the MySensor library to flash the external flash, write some EEPROM byte to inform bootloader that new firmware is available, reboot to have the FW transferred by the bootloader and then boot the new FW. And this in turn means that we can transfer the new firmware signed, therefore support signed FOTA and THAT is very much interesting to me 🙂
    So for me, the ideal would be that the board was preflashed with that bootloader (patched to be triggered by MySensors logic if necessary). Then there would be no requirement to have any extra headers, as you can push whatever you want, and signing can be implemented without actually changing the bootloader (headers will probably be needed during development, but that could just as well be done on breadboard).


  • Admin

    @Anticimex

    But you would still need to set the keys...


  • Contest Winner

    @hek Well, not really. If you like, you can FOTA down the personalizer with your PSK and execute it by remote on a "virgin" unit Then FOTA down your application FW. It is only when your application tells the GW that it require signing, signing actually kicks in.


  • Admin

    @Anticimex

    Yes, I have a bootloader, that copies external flash, to internal. It's also verified as working, with a local firmware update where I downloaded a sketch to the micro, which put another sketch into the external flash, so no OTA in the verification phase. I used DualOptiboot from lowpowerlabs (There is a copy on my github account.)

    The bootloader looks for a signature in the first couple of bytes of the external flash, if present it copies data and erases the external flash.

    I just don't know what direction things are going at the moment, as there also exists the standard MySensors bootloader. If we use dualoptiboot, we need to have FOTA code in the default application that is loaded into the device, before shipment from china.


  • Admin

    @hek, @Anticimex

    if we are going to use the external flash for OTA, then it should be included in the library? So the libraray handles the OTA packets, putting data into the external flash etc.


  • Admin

    @tbowmo
    Yes, that would be the most reliable option to allow updates un normal running mode.

    I discussed this with @Anticimex earlier today and how to combine it with signing without totally flood the network with nonce requests etc.

    Neither of us have the flash memory though 😉


  • Contest Winner

    @tbowmo Yep. The way I understand how things work, I suggest the following:
    Library initiates OTA transfer stream and transmit all FW for storage in external flash. Both sender and transmitter calculates some checksum of the FW and the checksum is sent finally, as a separate command.
    The stream data is sent with a special command that bypasses signature. The checksum is sent with a type that is included with other signed types (currently only the singing handshake commands are excluded from signing).
    That way, if receiver require it, FOTA will also be signed since the checksum packet is signed.
    If the receiver accepts the signature (and the checksum is valid) receiver writes the bootloader specific indicators and restarts, so bootloader can transfer the received firmware to PROGMEM, and "Bob's your uncle". Secure FOTA to your difficult-to-reach node somewhere in the house 🙂


  • Admin

    @hek said:

    Neither of us have the flash memory though 😉

    Hmm we should do something about that at som point in time 😉

    I could send you a couple of bare boards, you could practice your soldering skils on ? 😉


  • Admin

    @hek said:

    Neither of us have the flash memory though 😉

    Maybe we could figure something out.. I could send a couple of empty rev. 2 boards, and you could practice your soldering skills and assemble one yourself 😉


  • Admin

    That might be a good idea. Just hope I won't mess it up too much. Which components do I have to order in the meantime.


  • Admin

    @hek

    I have a BOM at mouser, but need to double check it.. (Also, might have some of the capacitors/resistors in my "private" stock, so you don't need to order them)


  • Admin

    @tbowmo you can sign me up too however I can handle the component side of it if you share the mouser BOM.


  • Admin

    @blacey said:

    @tbowmo you can sign me up too however I can handle the component side of it if you share the mouser BOM.

    The BOM should be available at
    http://www.mouser.com/ProjectManager/ProjectDetail.aspx?AccessID=a509f9ca59

    It should match the current PCB layout for the major number of parts. I haven't looked at the crystal yet, to see if that fits, as I have changed the footprint to the one provided by the manufacturer in china when going with rev. 2.

    At the moment I'm considering if the crystal should be dropped from the BOM, kind of missing a real purpose for it at the moment, as I don't think that "precise timing" is necessary for a node that repports in at a regular interval.. I (for one) don't care if it reports temperature / humidity "exactly" every 60 seconds, or if it's every 55 or 65 seconds.. But others might have another priority?

    Schematics / PCB layout is available on github : https://github.com/tbowmo/MySensorMicro (please double check BOM from mouser, and the eagle files. I might have missed something :))


  • Admin

    @tbowmo Awesome! I'm on it 👍


  • Admin

    So, a small update on the rev.2 board status.

    I am verifying the rest of the board now, before we kick of an initial testrun of 5 boards at the manufacturer. Everything seems to be working, electrically..

    Unfortunately something has happened in the SPI library in arduino, so the external flash, is now crashing the arduino sketch, while initializing. Someone else has already reported it to lowpowerlabs github repo https://github.com/LowPowerLab/SPIFlash/issues/8

    Having had the above issues, I have already build, and disassembled two nodes, trying to debug things :s

    Oh the fun of debugging embedded things...

    update

    I found a solution, someone else had made the necessary changes to lowpowerlabs spiflash library (check the issue comments in the link above)

    I also read in the release notes for arduino 1.6.0, that they have changed the SPI library to support transactions. Will this have any effect on MySensors? (@hek, any comments?)



  • @tbowmo : if the connections are fine when can we expect he board for production ?? looks everything is fine


  • Admin

    @sharath-krishna

    We are getting closer to a launch. A production partner has been found. All on-board hardware have been verified as OK! And I'm verifying the last bits (Want to have a complete node running, before giving a GO..) Also finishing the software that should be preloaded on the atmega.

    Depending on how things are going, we should be able to make the first trial batch within the next couple of weeks (I hope!) which we then need to verify before starting the big machine.

    Going to be an exiting spring this year 🙂



  • To where will you be able to ship the nodes ? I live in France. I don't know where you are located...


  • Admin

    @doblanch

    It will be shipped directly from the producer to any location.



  • @hek Thank you for your reply. I'm going to deploy may be like 5/6 nodes. Another question, By any chance, did you think about a case which accept module+battery ?


  • Admin

    A case already was on my short-list and we could very well provide it.

    Depending on demand it could be 3d-printed or for larger quantities done with mold injection by our partner.

    But I would really need some help from a (talented) 3d modeller for this. Do we have anyone here that can help out?

    The box must have a battery compartment for 2XAA. A big question is if it also should have space for an extra sensor?
    Would be great if we could provide a couple of cover-options for things like motion (HC-SR501) and another for light/uv/ir sensor. Hope we can get creative together here.


  • Admin

    A small update from the workbench here 🙂

    The first rev.2 node is transmitting like it has never done anything else right now.

    Next up is programming the bootloader, I am having some troubles in that area.. It seems that it is programmed, but I can't get it to accept any downloads from the arduino IDE.

    Anyone got any hints for me to follow?


  • Contest Winner

    @tbowmo have you checked that the fuse configuration matches the HW with respect to frequencies and such?


  • Admin

    @Anticimex

    I have checked, and double checked fuses 🙂 I'm using avrdude to program the bootloader directly, and it seems that it is starting up (the LED is lighting up as it is supposed to). Also when I program a sketch via ISP (using jtagice3) serial is working fine, so it seems that fuse settings is right for oscillator (at least)

    But I might have missed something with the fuse settings.

    I get these fuses
    AVRDUDE -U lfuse:w:0xE2:m -U hfuse:w:0xDA:m -U efuse:w:0xFE:m -U lock:w:0xFF:m

    from http://eleccelerator.com/fusecalc/fusecalc.php?chip=atmega328p&LOW=E2&HIGH=DA&EXTENDED=FE&LOCKBIT=FF


  • Contest Winner

    @tbowmo I am just taking wild guesses and the one thing that came to my mind if you seem to have bootloader running but cannot download is that the serial line is out of sync for some reason. But I have not dissected the arduino bootloader or the protocol so I am in deep murky waters making assumptions now 🙂


  • Admin

    @Anticimex

    Yeah, but it's hard to debug things in the bootloader.


  • Contest Winner

    @tbowmo Tell me about it. It's what I do for a living 🙂
    You don't have means to pick up the serial line after the FTDI adapter by any chance? It perhaps reveals garbage or signs of non-matching BAUD rates.


  • Admin

    @tbowmo

    The fuse settings say 8Mhz internal, 2kb bootloader. Which bootloader are you using and did you adjust the baud settings in the boards.txt for the IDE (i.e. upload.speed=57600)? Also, do you get serial output at the set baud rate when uploading a simple serial output sketch via isp? Alternatively, I recommend recompiling the bootloader at 8Mhz for correct baud settings.


  • Admin

    @tekka

    It's DualOptiboot that I'm using, compiled for 8Mhz (internal RC oscillator).



  • @hek Hello, I have a friend who is working with 3D modeling. i can study it. I do not guaranty for the moment, as it doesn't rely on me directly. however I can do the best, and try to move forward.
    If I understand correctly, we need the place for the sensor+antenna+AA battery...
    On the PCB, is there some hole to place some screws ?
    How should we close the case ? by putting some screw or just putting a cover ? make sense ?


  • Admin

    @doblanch

    The board has humidity/temperature build in. So we only need space for maybe one extra sensor (question is how large volume this would need?).
    Punch out holes for wires to external things like permanent power, buttons or reed-switches.

    Click on cover would be nice but requires more accuracy in the making. A screw wouldn't be a big problem.

    Many variables... 😉


  • Admin

    @tekka @Anticimex

    Bootloader is working now.. I tried to compile for another target, atmega328_pro8, which worked.. (used "pro8" the other day, which also compiles for atmega328.. Hmm.. go figure)



  • @hek I know , yes for the T/H sensor. As we put 2 AA battery, we have to know if we want to stack sensor/battery or not...otherwise, battery and sensor will be on the same plan.
    I think that we can start without extra sensor, and add it in function of request, I'm going to buy a 3D printer, It will be my first tests.


  • Admin

    Today the production files have been sent off to China, for the first batch of 5 prototypes build by them. We then need to verify them, and if they are found OK, we start a larger production run.

    Feeling like Christmas is comming up 🙂



  • I'm too late for my suggestion, but maybe it can be implemented in future versions if considered. Just in order to simplify connectivity with sensors, spare pins could be accessible via grove connectors. However the board looks amazingly small!


  • Hardware Contributor

    Why do not use CR123A accumulator?
    It is smaller and can be charged.
    And not nide regulator

    I use box with charger. With CR123A accumulator.
    http://www.ebay.com/itm/2600Mah-USB-Portable-External-Battery-Charger-Power-Bank-for-Cell-Mobile-Phone-/301514424642?pt=LH_DefaultDomain_0&var=&hash=item4633a90142

    Very cheap

    1420881033-0de30-1672kb.jpg
    1420881032-82f5e-1161kb.jpg



  • @Ivan-Z Really nice idea for battery powered nodes:)


  • Hero Member

    @Ivan-Z how did you connect the power to the arduino? How are you powering the Radio? Is it a Pro Mini 3.3V? How long does the battery last? Did you do anything special to the arduino ( hardware changes or something else? )


  • Hardware Contributor

    CR123A in full charge has 4.07v

    Gas counter started 2014/11/01.

    In winter, temperatures drop below -10

    скачанные файлы.png


  • Admin

    @Ivan-Z

    You say that it don't need a regulator? the battery voltage is 4.07 when fully charged, that is 0.47V above the absolute maximum rating of the NRF24L01+, as it's only rated to 3.6V maximum. Same goes for the Si7021, maximum supply voltage is 3.6V.

    So CR123A is not a good battery, unless you put a regulator in the loop, which then again uses current, and causes a voltage drop from battery supply


  • Hardware Contributor

    DHT22 = 3.3-6V DC

    CR123A = 3.6v ( Bat full charge i have 4.07v )

    NRF24L01+ = 3.6

    I have 8 device and his work with CR123A for 6 months
    When charge some device cannot translate packets, but after work


  • Hero Member

    @Ivan-Z I think you are lucky... I burned a few radio's with a similar setup (with LiPO solar charger) I like your minimal design. If you replace the DHT sensor with a htu21 you can make it even smaller. There are a few htu21d boards with a 3.3v regulator on it which you could use to power the radio.


  • Hardware Contributor

    @AWI
    What regulator do you use?

    I do not use the regulator because it has a extremeconsumption
    AMS1117-3.3 = 5~10mV in idle


  • Hero Member

    @Ivan-Z I use the XC6206 series regulator. most of the times. The quiescent current for this one is very low 1-3 uA. This regulator is used by many of the sensor board suppliers to supply sensors with 3.3v Eg. In many cases (eg Adafruit) you can use the board as a "3.3v power supply"
    upload-087eda80-75af-457b-804a-a16e6d67612f



  • Hi guys. I'm waiting for your board!
    the only concern is about the 2xAA batteries adoption that could increase the overall size of a sensor node to a "normal node" size ( http://www.seeedstudio.com/depot/s/devduino.html?search_in_description=0).
    I would like a stack as following: battery+board+radio. with the same footprint of the radio module.
    The battery could be a CR123 with regulator, and the holder could be a pcb holder as this: http://www.memoryprotectiondevices.com/datasheets/BH-CR2-PC-datasheet.pdf
    I actually ordered some of these: http://www.elecrow.com/devduino-sensor-node-v4-atmega-328-p-1201.html, at this moment the closest to my size requirements.
    What do you think.?


  • Hero Member

    @Roberto-Brunialti I am looking forward to this board also. I deployed a few Devduino V4's. These are really well built but lack the "minimal" size, have only a few connectors (enough in most cases as a good temp/hum sensor is on board).. And "restrict" you to the use of non-rechargable CR123 cells (3V,no regulator). I will love the very small footprint combined with the flexibility in power sources (and extra features) in the "Minimal design thoughts" design. 😍


  • Admin

    Think we should rename the thread to "Mysensors Micro" as this is the new name, since it's the first "official" board from mysensors.

    Anyway, just got a couple of pictures from the factory in China, they have build the first batch of 5 pcb's that they are verifying at the moment, and then they should be shipped to us (either @hek or me?) and then we need to verify it, before giving a go on the production.

    So we are comming closer to a "launch" of the device.


  • Admin

    @tbowmo

    Yep, might also be good to create a new thread in Announcement when it has been launched (and is for sale) with a back-reference here for history/design decisions made by you.

    I should probably start working on a more complete page on the main site with more details and illustrations.



  • In your design, C3, the nrf 4u7 capacitor, is a classic ceramic capacitor. In the mysensors tutorial, they write a polarized capacitor is better for the NRF. I use tantalum capacitor wich are bigger but is there a difference with the ceramic one for the nrf. I would like to use a ceramic 0603 too if there is no difference for nrf.

    Thank's


  • Admin

    @Tibus

    In theory ceramic capacitors should be better, it has a lower ESR, and are better suited to reduce ripple, or noise on the supply locally, as it has a faster response to power requirements, than equivalent electrolytic capacitors.



  • will it be possible to use this board pcb without soldering the sensor , flash and security chip?


  • Admin

    @Mickey

    Yes, you can use it without those mounted. But I don't think that we are going to sell it without those components mounted



  • Any good news about the d-day (delivery day 😃 ) ?


  • Admin

    Small production run of 200 units started this morning. 🙂



  • @hek said:

    Small production run of 200 units started this morning. 🙂

    You would run-out of units very soon...



  • when preorders will be available ?


  • Admin

    @Roberto-Brunialti

    I will check with Itead Studio if their shop can handle pre-orders.


  • Admin

    @Mickey

    Then we will make another 200 (or more, depending on requests) 🙂


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