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Suggestions and Ideas for custom Omega2 Docks



  • @Matthias-Nowak said in Suggestions and Ideas for custom Omega2 Docks:

    @Lukas-Zeller

    My favorite dock would be a Ethernet-minidock, to allow wired omega usage without the clumsyness and excess size of the normal dock plus ethernet expansion:

    • mini dock style
    • but with Ethernet Jack
    • PPoE (passive PoE, just using free wires 4/5 7/8 for power, with down-regulator from 5..24V -> 3.3)
    • maybe second Ethernet Jack (if Omega2 pinout will eventually allow that, see here)

    (also posted as issue at your github repo, as requested)

    like that idea, but i had to read up about PoE first, dont have any knowledge in it and what its specs are (can you actually tranfer data and power through the same cable?) I thing that a second ethernet jack is a bit too big for the mini board, even one would be too big for the original mini dock because the ethernet jack is too thick and would 100% short something out on the omega if its directly under it.

    @s-j said

    I hope s RS485 dock provided since there are many sensors devices connected using RS485.

    Im not sure about RS485 Sensors (only know its used for vehicles and studio lighting). would be nice if you could give some examples of rs485 sensors, because out of my head i could only list maybe a few rs232 sensors. but generally it shouldnt be a big issue because rs232 to rs485 chips arent that expensive.

    This is one RS485 sensor:http://www.newegg.com/Product/Product.aspx?Item=9SIA2RP41H9127&nm_mc=KNC-GoogleMKP-PC&cm_mmc=KNC-GoogleMKP-PC--pla--EC+-+Engineering+Development+Tools-_-9SIA2RP41H9127&gclid=CjwKEAjwjqO_BRDribyJpc_mzHgSJABdnsFW5lzEAzQ-zVDM2_vm8ti7h-Xi9Ph0xEzBfCgkUpmMXxoCz8zw_wcB&gclsrc=aw.ds



  • @s-j said in Suggestions and Ideas for custom Omega2 Docks:

    This is one RS485 sensor:http://www.newegg.com/Product/Product.aspx?Item=9SIA2RP41H9127&nm_mc=KNC-GoogleMKP-PC&cm_mmc=KNC-GoogleMKP-PC--pla--EC+-+Engineering+Development+Tools-_-9SIA2RP41H9127&gclid=CjwKEAjwjqO_BRDribyJpc_mzHgSJABdnsFW5lzEAzQ-zVDM2_vm8ti7h-Xi9Ph0xEzBfCgkUpmMXxoCz8zw_wcB&gclsrc=aw.ds

    but that seems to be one of the very few sensors i could find out about. i think it would be better to put some general prototyping space on the full board so that f.ex. you could solder a SN75176BP in there (RS232 to RS485 converter) because it really seems like a thing just a handfull of people would use then



  • @Matthias-Nowak said in Suggestions and Ideas for custom Omega2 Docks:

    i think it would be better to put some general prototyping space on the full board so that f.ex. you could solder a SN75176BP in there (RS232 to RS485 converter) because it really seems like a thing just a handfull of people would use then

    That's an interesting concept. The challenge is finding controller components having a similar pinout so that designing and producing a universal PCB is more cost effective than designing several single purpose ones. The solution that manufacturers often opt for is to design a carrier board with 'standard' mezzanine modules. All the distinct features are packed into those mezzanine modules.

    An area where there is actually a void at this time, and a potential of growth because of its usefulness is cellular controllers for data communication. Up to this day, I found two manufacturers having huge family lines because of all the cellular frequencies around the world. So, the idea of just soldering a relevant parts kit on a 'universal' PCB to get cellular services is very appealing to me.



  • alt text

    First part of the PCB is done! next thing is to look if its possible to route everything out.
    if not, then i guess i'll have to drop the PPoE part



  • Aaaand routing is done šŸ™‚

    I will now do some work to make it look a bit nicer, but man this is packed.

    alt text

    alt text

    I sadly had to drop the 4 GPIO headers on the right side, because it wasnt possible to route them out. But only two are wasted because the other two are connected to the charging circuitry and change their state when the battery is nearly empty (20%) or when the battery is fully charged.

    But it still has the micro USB for connecting to the Omega2, the USB Host port, the LiPo connector, the Ethernet jack + Passive PoE and all of the GPIO on the left side, so yeah, still a beast šŸ˜„

    Gonna work the Bill Of material and the approxamite price out.

    ~Matthias Nowak



  • Soooo....if anything goes right in the first run, this board should retail for only 20-25ā‚¬!

    So only thing left is to revisite the schematic and tripple check everything, making the pcb fancy-er and then order everything šŸ™‚



  • Aaand some nice renders of the board!

    alt text

    alt text

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    All of these things are in the github repo, + some PDFs of the board and schematic



  • @Matthias-Nowak said in Suggestions and Ideas for custom Omega2 Docks:

    So only thing left is to revisite the schematic and tripple check everything...

    Yes, indeed !! šŸ˜‰



  • @Calavero-. Got to wait now. I heard that they changed something in the pinout and yeah. Gotta wait until they update it.



  • Nevertheless the circuit should be double checked. šŸ˜‰ i.e. values and connections around C6, R4 and R5 . The Borg would say "Resistance is futile" :upside_down:
    Ī£ R1//R15//R24 ā‰ˆ 3.3K



  • @Calavero-. thanks for pointing all that out, dont know what i thought about those extra resistors on the poweron-rail.
    and also didnt noticed the wrong values on the 3v regulator. changed the values to fit the datasheed (150K and 680K) although C6 is alright.

    got some time this weekend to recheck everything.

    Corrected, thanks again šŸ™‚



  • @Matthias-Nowak said in Suggestions and Ideas for custom Omega2 Docks:

    ā€¦ although C6 is alright ā€¦
    almost - šŸ™‚ - 22 pF instead of 22nF



  • @Calavero-. ok, im blind šŸ˜„ 1h sleep isnt enough lol thanks again.



  • While we're at changing things,: i will maybr consider changing the lipo charger to something that can deliver a bit more current. 500mah seems a bit low for me. Like 1A would be more than enough.



  • Soooo, just to update stuff:

    Didnt worked on it bcs its still not known if the pinout has changed now or not, messaged them on KS though



  • Matthias

    Great work!
    Questions:

    1. Do you think MT7688's Ethernet controller is using 3.3V in its DC bias?
      I know Omega 1's using 2.0V bais, while many commercial SoC /CPU or standalone Ethernet MAC are using 1.8V.
      MT7688 datasheet as Onion linked does not have enough info on this.

    2. Even it's using 3.3V, probably you've already know this, Omega 2's Vout (Net_POW) pin is left open.
      There are two reserved spaces on PCB backside probably for 0 ohm resistor as jumper. But none populated.
      Also AFAIK, Omega 2 does not have 1.8V or 2V output lead exposed/available.

    Your comment is appreciated.

    ccs_hello



  • @ccs-hello

    Hey, havent been here for a few days and received my onions latery.

    Yeah, it really isnt connected, so im really wondering what theyre doing (still waiting for their schematic).
    But ive noticed that the LinkIt Smart 7688 also doesnt need a center tap voltage.
    And as you said, the Datasheet also doesnt give any indication.
    Makes you really wonder why, but seems like it works



  • Yeah, that design is (on facing MT7688 side) tying both the transformer magnetics Tx's CT and Rx's CT together, then thru 100 nF bypass capacitor to Gnd. No extra DC bias is applied. If that is the working design, it begins to make sense that
    Omega 2's Net_PWR output lead is left floating, since there is no DC voltage needs to be supplied.
    In another word, it's not 3.3V nor 2.0V DC bias.

    ccs_hello



  • My suggestion is a dock that holds a bunch of AAA batteries to power the thing. Maybe an on/off switch to go with it.

    Also, there should be a video out option. I know the official line is that the Omega2+ isn't powerful enough to output video, but that's horse hockey. That's thinking like a Millennial who only knows HDMI and 1080p.

    If the Atari 2600 could output composite video in 1977 with 128 BYTES of RAM running at 1MHz, then the Omega can do at least as good as a Commodore VIC-20.



  • @WayneL said in Suggestions and Ideas for custom Omega2 Docks:

    If the Atari 2600 could output composite video in 1977 with 128 BYTES of RAM running at 1MHz, then the Omega can do at least as good as a Commodore VIC-20.

    Apples and oranges. It wasn't the MOS 6507 on the Atari directly driving the composite-output, it was controlling the TIA, which did the actual driving of the analog signal. On the Omega2 there is no analog output at all and certainly nothing to drive a composite-output or the like at all; on the Atari 2600, the game-logic was running on the MOS and video-rendering and signal-driving happened on the TIA -- the CPU-speed is irrelevant wrt. video-output in such a setup.



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