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Raspberry Pi UPS from junk box

Raspberry Pi UPS from junk box

I’ve been using the Raspberry Pi 1 as an ssh shell for Irssi and as a web server for my IP cameras and self-made IoT gadgets. Maybe I had just a bad luck with the corrupting SD cards, but I ended up to put the Arch Linux and other files to 120 GB SSD (although the SD card is still needed for bootloader), which was connected to RPi via 2.5″ USB HDD box. Some time ago the SSD died and I got a good reason to upgrade the whole system, so I bought the RPi 3 and replaced the SSD with an 250 GB Samsung 840 basic. The extra performance (1x 700 MHz vs. 4x 1.2 GHz ARM cores) is nice especially when rendering timelapse videos from my IP camera photos.

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To get some extra reliability, I thought that some kind of UPS could be nice. There’s plenty of complete kits on ebay, but I happened to have some suitable parts in my junk box, so I didn’t bother to wait 2 weeks. It wouldn’t need any fancy features, but obviously should have at least an overcharging protection and under-voltage cutoff if the power outage is long enough. So there’s the plan:


Raspberry Pi UPS from junk box 4
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To keep it simple, there’s no separate charging circuit for the 12 V sealed lead acid battery. I had couple of 12 V power supplies so it could charge the battery up to 12 volts. However fully charged battery would sit around 14.2 volts, so charging it only to 12 volts would waste about half of it’s full capacity (2.9 Ah). For me, that’s not a problem because the RPi would stay on more than long enough even with 1.45 amp-hours. We can limit the charge current of the battery with the 47R resistor, but allow higher discharge currents through the schottky diode, when the primary power supply cuts off. Theres also a protection diode for the 12 V power brick, so it cannot draw current from the battery when the main PSU is down. At these voltages we don’t have to care about overcharging the battery.


RPi requires 5 volts, so there’s also a regulator. Because the voltage drop from 12 V to 5 V is quite large when considering the 400-1000 mA operating current, I chose a buck switch mode power supply module instead of regular LM7805 linear regulator. That Murata module is pin-compatible with LM7805 but the efficiency is a lot better as it’s an SMPS.

The undervoltage cutoff prevents the output of 5 V SMPS module to fall down slowly by causing all kind of unwanted effects for the RPi. When the battery voltage reaches ~6 V, the relay disconnects the battery, which is connected again when the main 12 V supply returns. The coil of the relay is rated for 5 volts, so there must be a series resistor to limit the current. The value of the resistor sets the cutoff voltage. But why there’s a capacitor in series with relays coil? I noticed that when the resistor value would be good in terms of cutoff voltage, the relay didn’t switch on even at 12 volts. So the capacitor works as a high-pass filter which bypasses the 270R resistor and provides the “kick” to the relay coil when the main PSU turns on, but after that, the current passes only via the resistor, as the capacitor cannot pass DC current. After the transition, everything above 6 volts is enough to keep the relay switched on.


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* The picture above still with the RPi 1 model B.


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