Among the many laptops and desktops that Lenovo announced at CES 2025 is an intriguing peripheral: the Self-Charging Bluetooth Keyboard. This unique productivity keyboard ditches the traditional battery, instead utilizing solar and ambient light to charge and store energy.
The Lenovo Self-Charging Bluetooth Keyboard might seem like your run-of-the-mill keyboard, but it comes with a party trick that might just save you a buck in the long run. Using advanced photovoltaic technology and fast-charging supercapacitors, the keyboard actually harnesses ambient light to store energy, eliminating the need for disposable batteries.
Where are you getting that number? There are many different types of supercapacitors, which cary in lifespan quite a bit, the conditions (mostly voltage and temp) also have a big impact. The article doesn’t specify the type of cap used.
For instance this paper tests a supercapacitor rated for 2.7V at 2.5 and 3v. At 2.5v the cap is estimated to have a lifespan of 100yrs, with 3v scenario it’s 10.
Keyboards don’t get very hot, and the voltage draw is very predictable so I don’t think designing a long lasting capacitor for this usecase is particularly tricky.
I would be worried about the lifespan of the solar panel, but at least it’s still usable without that.