MySensors battey board revision 1.0

axillent

I have news

prototype of the board fully tested except radio
stepup is working fine, power switching is working
programming using external FTDI is working, schematics corrected to get rid from parasite power
al I/O is fine
battery and solar voltage measurement is working
temperature sensor is excellent
it was not simple to solder, the package is unbelievably small - 1.7 x 1.2 mm, 6 pins

next and last is radio, going to solder it today

Zeph

Interesting that you are choosing GROVE connectors. Are they easy to find (other than SEEEDStudio)?

This makes for an almost drop in alternative to the DevDuino's :http://www.seeedstudio.com/wiki/DevDuino_sensor_node

axillent

@Zeph

@Zeph said:

Interesting that you are choosing GROVE connectors. Are they easy to find (other than SEEEDStudio)?

GROVE is just a convention on pin assignment. The physical connectors are standard 4 pin 2.0mm pitch (arduino is using 2.54mm)
Two pins are used for GND + VCC and two pins for data/analogue arduino pins
I have them purchased from aliexpress

This makes for an almost drop in alternative to the DevDuino's :http://www.seeedstudio.com/wiki/DevDuino_sensor_node
we are different.

we have compact, ready to use double power sensor node
devduino is using an external radio, v1 is using low capacity CR2032, v2 is using two AAA batteries
we are using radio on board, single AAA battery with step up and a solar connector with automatic switch

CR2032 is just 80-120mAh
AAA alkiline is about 800-1000mAh

two batteries on devduino is 1600-2000mAh but it will work until discharge of a cell to 0.9-1.65V (supplying 1.8-3.3 V) depending on the frequency used
we can run until discharge to 0.7V regardless frequency used. Single cell reduces space needed and stepup allows to draws a maximum

Zeph

Sorry, I by "almost a drop in replacement" I meant that somebody using a DevDuino could (almost) unplug it, plug in your board, upload the code, and go, if they use the same radio and connectors. (Or vice versa). That flexibility could be good.

I didn't mean that your design was the same or had no advantages! Thanks for listing the key differences, tho.

And - it's "almost" compatible, software wise. I think the data connector has different pin numbers. Not sure about the radio pins (other than dedicated SPI).

But I think that with a change in pin defs, most code could be moved between them, and with the same connectors, a physical switch could be simple.

axillent

@Zeph if you have developed a sketch for DevDuino you will just need to change a pin assignment to move it to MySensors board
it is a good practice to use #define for the definition of your hardware pins and move this to abstract level, for example:

#define RADIO_CE    8
#define RADIO_CSN   9
#define PIR_SENSOR  3

to change this assignment you just need to change this few lines

Zeph

Yes, that's about what I thought. Thanks.

Looking forward to your board being available. I had ordered a couple DevDuinos, but now I'm holding off on ordering more since seeing yours - and for me the option of being able to swap out which is used could be handy.

Looking forward to hearing more about availability and final pricing, when you have it.

Oh, did you use the same temp sensor?

axillent

@Zeph

@Zeph said:

Oh, did you use the same temp sensor?

devduino is using analogue sensor with accuracy ± 2 ° C in range -40 ° C +125 ° C

we are using very low consumption digital sensor with accuracy ± 0.5 ° C with MCU wake up function on alert
range -25 ° C +85 ° C

Zeph

@axillent
I feel like the straight man, feeding you lines :-)

Seriously, it's great to have the differences listed for everybody to see.

axillent

@Zeph YAW :)

Damme

How's the progress with the radio?

I was thinking about the small stuff soldering, Me myself don't have that much trouble with the multi-pin chips.
For QFN (I hate them) I usually pre-solder the pads and use lot of flux and heat gun.
For TQFP I usually solder just one pin in 2 corners, and then I put a thin strip of solder along the pins and just drag my iron across. and if it's a mess, you used too much solder and to little flux :)
I hate soldering smd resistors and stuff, the smaller the more ass they get.. :P

axillent

@Damme I get first success on testing soldered radio, but more tests are needed

I use similar technique for QFN and TQFP
goof flux is a must

And why you hate this little friendly SMD staff?) I like them. 0603 is optimal size, easy to solder, not too little.
0402 needs much more care

daulagari

@axillent

Looks like a very nice board and the ability to also power it using a solar cell and the very efficient step up converter makes it quite interesting to me.

One question: Would it be possible to use a rechargeable AAA battery and if there is enough (solar) power, recharge the battery?

axillent

@daulagari sure you can use rechargeable AAA as power source

it is decided not to add charging function
if you will use dual power (and if your sketch will be optimal from power saving) regular alkaline can lasts for 1-2 years
at the same time rechargeable AAA because of often charging-recharging circle (every day because of solar) it can last in one year
number of recharging circles are limited and also Ni-Mh/Cd they last faster in such way because of "memory" effect

daulagari

@axillent: Still a bit puzzled as the combination of support operation from an external (solar) supply but no charging support seems not logical to me.

Understood that the number of recharging cycles of rechargeable batteries is limited but batteries still have about 10 times the capacity of supercaps so also if the capacity is reduced to 10% of the initial capacity because of the number of recharging cycles they are still a better choice.

On Wikipedia I read that charging at C/300 or even C/40 seems to be safe over long time and that can be done using a diode and resistor I think.

But ... also if there is no charging support, I am interested to buy a few ;-)

axillent

@daulagari
the logic is that none rechargeable battery can lasts for 1-2 years
rechargeable battery can lasts for 1-2 years too
and what is a reason to pay more for rechargeable one?

it is theory, but it is based on deep thinking. If we will see a practical reasoning for recharging function it will be added to revision 2

Zeph

Interesting analysis.

We get into a mindset that solar + battery implies recharging the battery from solar. That is, we think of the solar as the power and the battery as a buffer for dark periods.

You are using the solar as a battery extender for a primary battery. It can run for very long periods in total darkness (much less cloudy days), but when it does get solar you can go longer between battery changes.

And your point is that the rechargeable batteries need to be changed every year or two anyway, so if you can get that long with a primary cell (cheaper and bridges longer gaps without solar), why bother?

Sounds good to me - I await practical experience. Do you yet have one or more test units accumulating data and testing the approach? On cool things about JeeLabs is that with each new design he puts up some long term test units, wirelessly logging the results. Over time he gets years worth of practical results to report and analyze.

axillent

@Zeph thanks for the feedback
I'm wondering on triple power sources - main is solar, buffer is super capacitor and none rechargeable as back-up
super-capacitor is a best choice for night time run while charging at daylight time
super capacitors are not cheap, but while we will have a production experience I think we will manage its price down

sure it will be good to track performance. May be Henrik can think of adding some statistics logging to MyCloud service and this can be seed from the whole community in the future

daulagari

@axillent:

the logic is that none rechargeable battery can lasts for 1-2 years
rechargeable battery can lasts for 1-2 years too

After the 1-2 years the none rechargeable battery is empty and should be brought to the recycling point but my own experience is that rechargeable batteries are not gone in two years.

See Nickel–metal hydride battery#Telecommunications, it looks to me NiMH batteries can be designed for 10 year operation. Also normal available batteries claim they retain 65-70% capacity after five years in storage and like written earlier, I think we can do with 10% of the original capacity.

No problem for me if this has to wait, I can always add something myself, and yes, let logging prove what's right. Only thing I find a pity is that it will take two but probably much more year to prove things ;-)

Zeph

@daulagari said:

After the 1-2 years the none rechargeable battery is empty and should be brought to the recycling point but my own experience is that rechargeable batteries are not gone in two years.

I've read that NiCD can sometimes do better for solar landscape lights than NiMH, because the type of cycle favors it, but often they say to plan to replace the batteries every couple of years anyway - between the charge cycling and the outdoor temperature cycling (cold and hot).

Perhaps this is different, being very shallow discharge compared to lighting. Really only testing will let us know for sure, and I'd be glad to see the results of that.

And yes, it's hard to wait a year or two for results. (It's hard to get most homebrewers to let their products age, too). But the time to start the test is now, and results will start trickling in. It used to be kind of fun when JeeLabs would post something like "Well, unit #1 is at 420 days and unit #2 is at 287 days, and here are the results so far". Sort of like slow gardening.

Dvbit

looks very good indeed. Any ETA on production?