Piezoelectric sensor arrangement and a method of discriminating signals

The invention claimed is: 1. A piezoelectric sensor arrangement for use in a projectile, said piezoelectric sensor arrangement comprising a piezoelectric sensor fully or partially enveloped by a damping layer adapted to attenuate at least some mechanical wave frequencies, wherein the piezoelectric senor is arranged to generate a voltage output signal indicative of a mechanical wave traveling through the body of the projectile upon impacting on an object, wherein the sensor arrangement is arranged to integrate the voltage output signal over time, wherein the sensor arrangement is arranged to compare said integrated value with a predetermined threshold, wherein integral values above said threshold are indicative of the projectile impacting objects that are hard targets, and wherein the damping layer attenuation of mechanical wave and the integration of the voltage output signal together are arranged to filter mechanical wave frequencies above a predetermined cutoff frequency, wherein mechanical wave frequencies above said cutoff frequency are indicative of the projectile impacting objects that are soft objects, and wherein said predetermined cutoff frequency is at most 800 Hz. 2. The piezoelectric sensor arrangement according to claim 1 , wherein the damping layer is glued or soldered to the piezoelectric sensor. 3. The piezoelectric sensor arrangement according to claim 1 , wherein the damping layer has a thickness ranging from 0.01 to 1 mm. 4. The piezoelectric sensor arrangement according to claim 1 , wherein the damping layer is composed of silicone or a silicone-based material. 5. The piezoelectric sensor arrangement according to claim 1 , wherein the piezoelectric sensor is a piezoelectric crystal. 6. Method of discriminating voltage outlet signals by means of the piezoelectric sensor arrangement according to claim 1 comprising i) integrating the voltage output signals obtained from the piezoelectric sensor upon impact over time to calculate the electrical energy ii) setting a threshold limit based on knowledge of the calculated electrical energies obtained in step i) thus safeguarding discrimination of low-energy content originating from undesired soft objects below said threshold limit from high-energy content originating from desired hard targets. 7. The piezoelectric sensor arrangement according to claim 1 , wherein a use of a piezoelectric sensor arrangement in a projectile to safeguard that an unintentional detonation does not occur. 8. Projectile arranged with a piezoelectric sensor according to claim 1 .