Founder Mate Rimac (31) started developing his vision of a fast, electrically powered sports car in a garage in 2009. Rimac unveiled his most recent electric car, the C Two, at the Geneva International Motor Show in March 2018. The two-seater vehicle generates almost 2,000 PS and reaches a top speed of 412 kilometres per hour. It boasts a range of 650 kilometres (NEDC) and can recharge 80 percent of its full battery capacity within half an hour thanks to a 250 kW fast charging system. The company also develops and produces high-performance electric drives and battery systems.
The rapidly growing company based in Zagreb employs a workforce of around 550. Rimac focusses on battery technology within the high-voltage segment, electric powertrains and developing digital interfaces between humans and machines (HMI). The company also develops and produces electric bikes. This strand of the business was established in 2013 in the form of the sister company Greyp Bikes.
* The published consumption (l/100km and Wh/km), emissions (g/km) and kilometre (km) range figures are determined by
The specified charging outputs and times (hour/minutes) are dependent on various factors: in general, the charging output and time can vary due to physical and chemical limits, depending on factors such as the available output of the country-specific energy infrastructure, the customer's own domestic installation, the temperature, interior pre-conditioning and charging status, as well as the age of the battery. Charging times may therefore be significantly higher than those specified. To achieve the optimum value of the specified DC charging time (DC = direct current) for a charge status increase from 5 to 80%, a CCS (combined charging system) fast-charging pedestal with > 270kW and > 850V is required, as well as a battery temperature of 30°–35°C. The charging status when commencing charging must not exceed 5%. For physical and chemical reasons, the charging speed decreases as the battery approaches its full capacity. Therefore, it usually makes sense to use fast DC charging to charge the battery up to 80% or up to the required range. The predominant use of CCS fast charging pedestals leads to a long-term increase in charging times. For regular fast DC charging, we recommend a maximum charging output of 50kW. When charging in a domestic environment, AC charging (AC = alternating current) is recommended. Using an (AC) industrial electrical outlet will result in improved efficiency and a much shorter charging time compared to using a household socket.
Published figures should only be used for the purpose of comparison between vehicles. Please contact an Official