In this contribution a wireless, energy autonomous sensor micro-system is presented. The innovation of this wireless system is that it has been designed as an energy autonomous sensor system especially for use in vehicles. The newly developed pressure sensor system is intended to measure the pressure in the fuel system of vehicles and to wirelessly transmit it in the 2.4 GHz-frequency band to a receiver. The sensor system is powered by an electromagnetic energy harvester driven by vibration and transmits the measured data as soon as there is sufficient energy available in the system. As a consequence the system´s data rate varies depending on the system energy level and consequently on the vibration power available. So the basic idea is to supply an energy storage system, e. g. a capacitor, with energy until a certain threshold value is achieved. This threshold value was defined such that the stored energy is sufficient for measuring the pressure and the temperature and transmitting these values to the receiver. After successful transmission the circuit goes back into the state of “energy collection”. In order to realize a system setup as compact as possible consisting of pressure sensor, energy converter with energy storage, controller, and HF module, we have developed and implemented a housing constructed as a PCB/MID support frame.