Proximity sensor for portable wireless device

The invention claimed is: 1. A proximity sensor for a portable wireless connected device, the sensor being arranged to determine whether a part of a user's body is near the portable connected wireless device, the sensor comprising at least one capacitive input electrode, a circuit configured to determine a capacitance of the at least one capacitive input electrode and generate, based on the capacitance, an immediate proximity status flag that becomes active when a part of a user's body is close to the proximity sensor, characterized by an averaging unit configured to generate a running average of the immediate proximity status flag in a predetermined time window, and by a decision unit generating a time-averaged proximity status flag based on an averaged or accumulated value of the immediate proximity status flag in the time window. 2. The proximity sensor of claim 1 , the decision unit being configured to switch the time-averaged proximity status flag to an active state when the running average exceeds a predetermined threshold. 3. The proximity sensor of claim 1 , the decision unit being configured to switch temporarily and repeatedly the time-averaged proximity status flag to an inactive state when the immediate proximity status flag is active. 4. The proximity sensor of claim 1 , the averaging unit including a sigma/delta modulator and a FIFO buffer, wherein the sigma/delta modulator is configured as a rate compression unit and the FIFO buffer is periodically supplied with values provided by the sigma/delta modulator. 5. The proximity sensor of claim 1 wherein the immediate proximity status flag is any one of: a binary proximity flag indicating that the detector is near a conducting body, a qualified binary proximity flag indicating that the detector is near a body part of a user but with a lower sensitivity for inanimate objects and/or contaminations, a multi-level proximity flag encoding distance to the conducting body, a digital value issued from the conversion of a self-capacitance of a sense electrode and/or a self-capacitance of a radio antenna, a combined proximity flag produced by a logic function of individual proximity flags each derived from the self-capacitance of a distinct sense electrode or radio antenna. 6. The proximity sensor of claim 4 , the FIFO buffer having a selectable length. 7. The proximity sensor of claim 1 , including a logic circuit configured to inhibit the transmission of further values of the immediate proximity status flag to the averaging unit if the time-averaged proximity status flag is active. 8. The proximity sensor of claim 1 in combination with a portable connected wireless device that includes a radio transmitter, the proximity sensor being operatively arranged to reduce a power of the radio transmitter based on the value of the combined proximity status flag or of the immediate proximity status flag or of the time-averaged proximity status flag. 9. The proximity sensor of claim 8 , the sensor being a capacitive sensor arranged to determine whether a user is in proximity to the portable connected wireless device based on a capacitance seen by a sense electrode. 10. The proximity sensor of claim 9 , the sense electrode being also an antenna for emitting radio waves. 11. A method of reducing a dose of integrated SAR in a user of a wireless device comprising, in a temporal cycle: determine a capacitance of at least one capacitive input electrode; obtain an immediate proximity flag indicating whether the wireless portable device is momentarily near the user based on the capacitance; compute a running average value of the immediate proximity flag based on present and past values of the proximity flag and determine a time-averaged proximity flag based thereon; and reduce a power of a radio emission of the wireless device when the time-averaged proximity flag is asserted. 12. The method of claim 11 , including resetting the power to the initial value momentarily in periods when the immediate proximity flag is asserted. 13. The method of claim 11 , including reducing the rate of the immediate proximity flags before the computation of the average value to a second rate lower than a first rate of the temporal cycle by providing the immediate proximity flag to a sigma/delta modulator. 14. The method of claim 11 , wherein the computing of an average value comprises pushing cyclically the value of the immediate proximity flag into a FIFO buffer and computing a sliding-window average from the sum of all the values in the FIFO buffer.