Smartphone usage and sales have been surging for the last ten years. Smart mobile phones are getting more and more entangled in our daily life and have seen a big improvement in the last decade. Unfortunately, their batteries haven’t followed the fast innovation pace and are trailing behind. The thesis addresses the development and evaluation of a small smartphone charger and the commercialization of the product. The charger has been developed with a focus towards portability and usability. When the charger is not in use, it can pack down to a very small size and be used as a keyring. This feature enables users to have it always with them and use it whenever it’s necessary. The charger is powered by 4 AA batteries which are a standard size and available all around the world. We invented and developed a completely new product. The charger has a build in connector, which means that users don’t need an additional cable to charge their phones. The volume of the charger was minimized by removing the battery compartment. To do that, we used strong magnets, which hold the batteries on the contacts when the charger is in use. When it’s a keyring, the same magnets hold the two parts together. The electrical circuit was built around a voltage regulator, which provides 5 V output for the whole range of voltage inputs, that 4 AA batteries are able to provide. Pomeril sem karakteristiko uporabljenih baterij ter polnilnika v treh načinih. Najprej sem izmeril karakteristiko praznjenja petih različnih tipov baterij. To sem naredil tako, da sem vsakič štiri baterije priključil na fiksni upor ter meril električno napetost in električni tok skozi upor. Nato sem izmeril delovanje polnilnika z napajanjem različnih tipov baterij in kot breme uporabil enak fiksni upor ter meril vhodno in izhodno napetost ter vhodni in izhodni tok polnilnika I measured the characteristics of different types of batteries and the charger in three modes. First I measured the discharge characteristics of 5 sets of 4 AA batteries by connecting them to a fixed resistor and measuring the voltage and electrical current on it. Next I measured the characteristics of the charger by using 5 different sets of AA batteries to power the charger and using a fixed resistor as load and measuring the input and output voltage and electrical current. At the end I evaluated the charger by testing it with five different sets of brands and types of AA batteries charging an iPhone 6 and measuring the input and output voltage and electrical current. I calculated the power, energy and efficiency of the charger with different sets of batteries. Results show a big difference in provided electrical energy from alkaline batteries, even from those in the same price range. I also found out that the iPhone 6 changes its internal resistance during charging and has discreet levels of electrical current it charges with. The minimum voltage that I measured when the phone was still charging, was much lower than that written in the technical manuals. In the last part of the thesis I wrote about the commercialization of the charger, different steps in the development, challenges that we had to solve and mistakes that we made that culminated in the failure of the project.