💬 Easy/Newbie PCB for MySensors

AWI

@ileneken3 like @dbemowsk says you need capacitors (and probably a jumper) . The LDO will go into oscillation without capacitors.

sundberg84

@ileneken3 - as mentioned the PCB is made generic so to activate the voltage regulation part (Power -> Volt Reg -> Radio) you need to add a jumper for REG. If one want to bypass the voltage regulation part you jump BAT (and use the booster instead). Have a look at the instructions here and let me know if you think something is missing. The capacitors for the voltage regulator are also recommended as mentioned.

In your case with 4.2 volts, BAT will give you 4.2 volts on the radio and nothing more (if you dont jump the booster as well) and REG will give you 4.2 volts to the arduino and sensors and the regulated voltage to the radio.

It looks like you used BAT in the pictures? If you didnt solder any BAT/REG you should not get anything. Dont solder both!

@AWI , @dbemowsk - thanks for helping out!

ileneken3

@sundberg84

OK, looks like I had multiple problems.
I somehow missed the instructions about "don't solder both", and was also slightly confused about the directions because I am using a battery (LIPO), but following the "5V regulated" instructions. When the instructions mention battery, it always mean a 3.3V battery. I had the BAT jumpered, and then I tried with and without the REG jumpered.
At the same time, I believe I damaged the MCP1700 regulator - I will have to take it off and test it.
So in the interest of getting this resolved quickly, I started all over again with a new board, new regulator, and jumping only REG. It worked! Here is the picture:

You can see that the radio will get 3.3V, and the rest of the board will get 4+ volts. (The TP4056 will cut it off as it goes down to around 3V).

So I will continue the build, and if everything goes according to spec, the radio, arduino, and sensors should all be OK. (Assuming the sensor can handle 4+ volts).

As far as the capacitors, it looks like the spec says 1uF on input and output. So I will put those where there are labels for .1 and 10uF. For the radio, I am well aware of its capacitor needs (learning the hard way). At this point, I always put the 4.7uF cap directly on the radio.

If everything goes well, I would recommend putting some sort of reference to LIPO batteries in the instructions. I couldn't be the only one who wants to do this.

Great support from everyone!

gohan

I am also looking at using lipo batteries, but I've been told they have a tendency to self discharge over time, so normal AA batteries or cr123 provide longer battery life of course if the node is not power hungry

Samuel235

@gohan - I can't and wont throw figures around here concerning how much they discharge per day, but they do indeed self-discharge and in my opinion wouldn't be suitable for a sleeping node.

ileneken3

@Samuel235
The key question here (at least for this forum subject), is "should you a LIPO with a Easy/Newbie PCB board"? My answer is "in some cases". For sure, the gold standard of sleeping nodes is 2 AA batteries that last over a year. It's best both in terms of price and longevity. But there are scenarios for using LIPO's:

• The AA batteries are too big. LIPO's come in all sizes, and the one from my old cell phone was nice and compact for a particular enclosure I wanted to use.

• You have LIPO's lying around (like from an old laptop) and you just want to use them.

• The sensors you are using are "power hungry" and you just can't find a way around it (and you can't plug it into the wall). Using a LIPO will avoid having to throw away a lot of AA's.

As far as discharge rate, from what I read it's not too bad (just not as good as AA's). With sensors that are not power hungry, and with the right voltage regulator (like a MCP1700), I am anticipating it lasting for months. At that point, it's not that big of a deal to recharge with that frequency.

For use with power hungry sensors (which may mean using just 2 ma), I am hoping for weeks.

I will continue with the experiment unless someone says I am way off in my estimations.

jens persson

As requested a few images of the version 9 board, mounted for battery with some extra pin sockets while experimenting.

sundberg84

@jens-persson - Tnx, but hmmm.. I cant see them. Just a stop sign. Maybe my web-browser?

gohan

@sundberg84 same here

jens persson

:-(
Thought the settings on the album should apply to the images also.
Here is a link to the album: https://goo.gl/photos/bX9HZSXdbMCvuyAv9
Does it work?

sundberg84

@jens-persson - It does! Nice images! Well done :+1:
I like you have added headers so you can add and remove quickly,.

gohan

is it me or that pro mini looks a little different than what I usually see?

dbemowsk

@gohan It's not just you. I had some 5v pro minis that were from china that looked different than the standard ones. The outer pin config was the same, but the guts of the board weere a bit different. A4 and A5 were towards the back of the board.

jens persson

These were bought here: https://www.aliexpress.com/item/10pcs-pro-mini-atmega168-Pro-Mini-168-Mini-ATMEGA168-3-3V-8MHz-for-Arduino/32413050538.html

gohan

@jens-persson they are atmega 168, that's why 😀

maghac

Any comments on delivery times from itead, pcbway or seeed? Which one is fastest/easiest to deal with (I'm located in Sweden)?

sundberg84

@maghac - tried itead and pcbway and they use same shipping so shipping times has been pretty much the same.

I have some old revisions I can sell you cheap in Sweden if you need fast delivery. Rev 6 and 7 I think.

maghac

@sundberg84 Would be great, I'll send you a PM!

johmei

Got a couple of 5V DC running as "test boards". Very convenient and quick to get started. A+
Will have a few battery nodes running soon as the step ups come in.

sundberg84

@johmei - thank you for your feedback! :)