I want to use a power bank as battery back up for a Raspberry Pi. The power bank has to have pass through charging so that I can leave the power bank connected to the mains while the Pi is powered from the output. I gather not all power banks can be used that way.
Does anybody have any general or specific advice about how to choose the power bank?
You haven't been reading the group messages, have you?
Someone recommended this to me:
and there is a 10 Ah one as well. Also a smaller 2Ah unit.
-- Cheers, David Web: http://www.satsignal.eu
I just got a similar unit from dx.com
What I found was if there is power being put into the unit, then no power comes out, so it won't work as a UPS type of supply, which basically is what you want, correct?
Mine is a 20000mAh. Sure it has 2.1A and 1A outputs, but nothing comes out unless you either pull out the input plug, or switch off the source of input power.
May pay to check the unit before you purchase. BTW I got mine for phone backup, not as a micro UPS.
Cheers Don...
-- Don McKenzie http://www.dontronics-shop.com All Olimex products now 60% to 95% off normal Olimex Prices. http://www.dontronics-shop.com/olimex-ltd.html Many other items discounted up to 95% off. Also discounts on FTDI modules, Sparkfun, CCS, SimmStick, etc.
My post was intended to check the unit before I purchased! Thanks for eliminating the DX one.
On 24/01/2015 21:36, Don McKenzie wrote: []
Yes, that's the problem. I guess you could always ask before purchase. Anyway, I can confirm that RS 10 Ah unit /does/ work as a UPS. I have one of my Raspberry Pi PCs working on it right now. Unplugged the main, and the RPi carried on working. Replugged the mains and the device continues to supply power to the RPi.
-- Cheers, David Web: http://www.satsignal.eu
The spec says, "Input power source rating: 500mA @ +5V"
I'm not sure if that limits the input current to 500 mA or if it is saying 500 mA is required from the power source. If the unit won't draw more than 500 mA it won't power the rPi at max current draw without draining the battery, no?
-- Rick
Does that mean that this:
is currently the best bet at GBP 48.99? This charges at 350 mA, but then again it is a UPS and can run off mains, batteries or solar cells and seems to accept supply voltages from 5v - 18v.
This looks a bit more reasonable when you know that Amazon flogs 2500 mAh 'phone chargers, i.e. a pocketable 2500 mAh hard-cased Li-poly battery for anywhere between GBP 9 - GBP 25 and only the more expensive ones have chargers and a micro-USB output connector.
-- martin@ | Martin Gregorie gregorie. | Essex, UK org |
On 25/01/2015 21:21, rickman wrote: []
The instructions are along the lines of: if the input source can supply
1A or more the unit will draw 1A otherwise it draws 0.5A. Not sure how it determines that. Mine has been running an RPi B with Wi-Fi and a GPS attached for 20 hours now, and as soon as I started it the "charge greater than 80% LED" was flashing, and it still is. When running, that RPi takes 0.4A. My USB ammeter is only USB-A connectors, so I can't easily measure the current into the unit, or know how it determines whether to draw 0.5A or 1A.-- Cheers, David Web: http://www.satsignal.eu
On 26/01/2015 01:50, Martin Gregorie wrote: []
It's only a quarter of the capacity, though. In any case, as I am only experimenting, I preferred the more versatile in-the-power-line unit, although it's not a true UPS.
-- Cheers, David Web: http://www.satsignal.eu
USB devices negotiate current draw with the host when connected. Default is 100/150mA (USB2/3) maximum 500/900mA. If the data pins are shorted the device knows it's a dumb charger and can draw 500-1500mA. ISTR there's a recent extension (USB3.1?) to this that provides 2A at 5V but I don't recall the details, and of course Apple chargers/devices have their own method.
There are (at least) 3 different schemes for the data lines to indicate it's a dedicated charging port. Shorting (usually done with a 200 ohm resistor) is one way. Another is 2.0V on one and 2.7V on the other data line to indicate 10W output (2.1A), or 5W output if the voltages on the two data lines are are swapped. Another is 1.2V on the DP line. There are USB PSU chips which detect which method the USB device is trying to use, and adapt the effective resistance and voltages on the data lines to match it (such as Texas Instruments TPS2511).
However, the mess with USB charging standards (the Chinese standard, EU standard, Apple, and USB Consortium standard) mean many devices nowadays work out the current available by steadily increasing the draw whilst monitoring the voltage drop, and back off a bit when the voltage drops below some device specific threshold (such as 4.75V), or if the supply cuts out. This can mean that a low spec charging cable can severely limit the ability to draw max current from a supply even when both the device and the supply are capable of high current use.
10W (2.1A) can be available from USB chargers to Chinese and EU standards.The USB consortium standards allow for up to 1.5A on USB2 dedicated charging port I think, but they also have standards for up to 90W or 100W for laptops but using different connectors and higher voltages. I've never seen these in use anywhere, possibly because you have to pay a license fee to implement their standards, which I don't think is the case if you use the Chinese or EU dedicated charging port standards.
-- Andrew Gabriel [email address is not usable -- followup in the newsgroup]
I once got a pack somewhere (I think it was included with an old HD 808 camera I ordered via ebay) that exibits this behaviour. I was more or less happy until I found out it did not recharge the battery when something is connected to the output.
Another one for the checklist: does it recharge when power comes back?
-- [J|O|R]
FWIW: I have an Anker 15,000 mAh unit (bought from amazon) and I powered a Pi from it last week - noticed the following morning it was down to 1 dot, so plugged it in to charge - and it started charging. However it's taken 3 days to charge fully - while powering in the Pi.
That, I suspect is the biggest issue with these units - the ability to take 2x the output capacity to enable charging in a sensible time span...
I suspect it would go off an stay off when it ran out of juice though.
Gordon
Might this have something to do with limitations in the mains PSU you were using to charge it? I assume that's a USB charger, so what's its maximum current capability?
Might be worth testing that.
-- martin@ | Martin Gregorie gregorie. | Essex, UK org |
2 amps.
However who knows if the battery device actually senses the input voltage or what. USB power is notoriously rubbish.
One day maybe!
Gordon
On 03/02/2015 16:51, Oscar wrote: []
Yes, it does. You can unplug it from the mains, plug it back in, and the charging light resumes as you would expect.
-- Cheers, David Web: http://www.satsignal.eu
My 2c is to choose the appropriate sla/wet/agm/lipoly/???? to provide for what ever duration blackout/relocation period you want and then mate it to the appropriately battery charger and USB power supply.
I looked at the manual and they say you can do this pass through charging, but they warn you that it "may" reduce the battery life in the Anker unit. I found in the manual for one of the smaller Anker units they tell you not to do it because of harm to the battery life.
-- Rick
On 04/02/2015 02:46, news13 wrote: []
Which is just what the pre-made units I've been mentioning do.
-- Cheers, David Web: http://www.satsignal.eu
As a 72 hour charge for that battery should (in theory) need just 208mA, a 2 amp PSU should have plenty of capacity for running both.
Charging a LiPO or Li-ion battery is fairly complex: a good charger provides constant current at a 1C rate (a 1000mA cell is charged at 1 amp) until the full pack voltage is reached and then constant voltage until the current falls to an arbitrary small value, when the charger reports fully charged and turns off.
My guess is that the built-in charger was designed on the assumption that there is no load on the pack when its being charged, so the running RPi is simply eating some of the 1C current, meaning that the battery is being changed at a rather lower rate than expected. That shouldn't hurt the battery as the charging circuit will just dimly sit and wait until the battery gets to the end of the constant current phase. After a power outage I imagine that the charger restarts in constant current mode.
-- martin@ | Martin Gregorie gregorie. | Essex, UK org |
ElectronDepot website is not affiliated with any of the manufacturers or service providers discussed here. All logos and trade names are the property of their respective owners.