Intelligent proximity detector

The invention claimed is: 1. A portable device comprising a proximity sensor, the proximity sensor being arranged for detecting a body portion of a user in proximity of the portable device; the proximity sensor comprising: a first electrode capacitively couplable with a body part of a user of the portable device outside of the portable device; a second electrode capacitively couplable with a body part of a user of the portable device outside of the portable device; a readout circuit operatively arranged for acquiring a capacitance seen by the first electrode and a capacitance seen by the second electrode, wherein the portable device has a touch-sensitive display on a front side, the first electrode is positioned on a lateral side of the portable device, and the second electrode is positioned on a back side of the portable device opposite the front side, wherein the lateral side of the portable device is a different side than the front side or the back side of the portable device, the proximity sensor being arranged to generate a proximity signal based on said capacitances, and to reject spurious proximity signals based on measurement of a variation in time of one of the capacitances read by the readout circuit and comparison of the variation in time with a predefined threshold. 2. The portable device of claim 1 , wherein the first electrode is part of a radiofrequency antenna of the portable device and connected to the radio transmitter and to the readout circuit through decoupling elements. 3. The portable device of claim 1 , further comprising a reference device (Cref), and wherein the readout circuit is being arranged to acquire also the capacitance of a reference device (Cref). 4. The portable device of claim 1 , further comprising a display and/or a touch-sensitive panel, and a logic circuit arranged to inhibit the display and/or the touch sensitive panel based on said proximity signal. 5. The portable device of claim 1 , wherein the measurement of the time variation comprises a time derivative of a capacitance read by the readout circuit. 6. The portable device of claim 1 further comprising at least one additional sensor, wherein the additional sensor is one of: accelerometer; gyroscope; ambient light sensor, temperature sensor, compass; clinometer. 7. The portable device of claim 6 , wherein the identification of the spurious signals is further based on signals acquired from the additional sensors. 8. A portable device comprising a proximity sensor, the proximity sensor being arranged for detecting a body portion of a user in proximity of the portable device; the proximity sensor comprising: a first electrode capacitively couplable with a body part of a user of the portable device outside of the portable device; a second electrode capacitively couplable with a body part of a user of the portable device outside of the portable device and a reference device; a readout circuit operatively arranged for acquiring a capacitance seen by the first electrode, a capacitance seen by the second electrode and a capacitance of the reference device, the proximity sensor being arranged to generate a proximity signal based on said capacitances, and to reject spurious proximity signals based on: measurement of a variation in time of one of the capacitance seen by the first electrode, the capacitance seen by the second electrode or the capacitance of the reference device acquired by the readout circuit and comparison of the variation in time with a predefined threshold. 9. A portable device comprising a proximity sensor, the proximity sensor being configured for detecting a body portion of a user in proximity of the portable device; the proximity sensor comprising: a first electrode capacitively couplable with a body part of a user of the portable device outside of the portable device; a second electrode capacitively couplable with a body part of a user of the portable device outside of the portable device, a reference device; a readout circuit operatively arranged for acquiring a first capacitance seen by the first electrode, a second capacitance seen by the second electrode, and a reference capacitance of the reference device, the proximity sensor being configured to generate a proximity signal based on said first and second capacitances, and to reject spurious proximity signals based on a variation in time of one of the first capacitance, second capacitance, and reference capacitance. 10. The portable device of claim 9 , the proximity sensor being configured for rejecting spurious proximity signal by comparing the variation in time of the reference capacitance with a predefined threshold. 11. The portable device of claim 9 , wherein the reference capacitance of the reference device is less affected by proximity than the first and second capacitances.