Building a UPS with Raspberry Pi and Supercapacitors

building a UPS with Raspberry Pi and supercapacitors

It is always a dilemma when integrating a Raspberry Pi (RBPi) Single Board Computer into a project that works on the mains voltage and the RBPi has to turn it on or off. The difficulty is in deciding whether to power the RBPi separately or maybe power it from a UPS.

Lutz Lisseck solved the problem in an ingenious way. He was looking for a way to shut down his RBPi gracefully, after it had turned off his ambient-lamp. Since the lamp operated directly from the mains and Lutz wanted to turn it on/off from the mains power switch, he would normally have two choices. He could either use a mains wall adapter to power his RBPi or use a battery pack as a traditional UPS. He decided he did not like either, and instead opted for a third alternative, building a UPS with supercapacitors.

Lutz used two 50F supercapacitors to make his UPS. When the lamp was on, the capacitors stored enough charge to outlast the RBPi. When the SBC cuts the power, a GPIO pin senses the loss and informs the RBPi to begin its shutdown sequence. The RBPi takes about 30 seconds to shut down, and the capacitors happily power it for the time. Supercapacitors are usually rated at 2.7V; therefore, Lutz had to put them in series for the RBPi to get 5V. An alternative would be to place the capacitors in parallel and use a step-up converter to jack up the voltage. An upside to this is the capacitors will supply the RBPi for a longer time.

Since the project was a very simple one, there are some shortcomings in using the RBPi this way. First, the capacity is just about enough to shut down the RBPi in 30 seconds. However, when switched on, the capacitors take time to charge and the RBPi has to wait for about 10 seconds, before it gets adequate voltage to boot. Another drawback is that although the RBPi has only 30 seconds to shutdown, the capacitors discharge very slowly, and the system has to remain unplugged for about 10 minutes after shutdown, before it will boot up again. For this ambient-lamp project, Lutz does not consider that as a handicap.

Using supercapacitors over batteries has some advantages as well. The capacitors have a lifetime that far surpasses that of batteries. For example, you could charge and discharge supercapacitors completely several 100,000 times. Moreover, supercapacitors can be charged and discharged at rates that are not possible with a battery. A completely discharged supercapacitor can be fully charged up in just 2 minutes.

Therefore, with the supercapacitors in place, you do not need to worry about improper shutdown when the mains supply collapses. A GPIO pin on the RBPi senses when the mains voltage has been removed and the RBPi immediately begins a shutdown sequence. Whether using the supercapacitors in series or in parallel, a low value resistor (0.5-2.0 Ohms) must be placed in series with the batteries to limit the inrush current at startup. As the resistor can get hot, preferably a high wattage type should be used.