Thermal pattern sensor

What is claimed is: 1 - 14 . (canceled) 15 . A thermal pattern sensor comprising a plurality of pixels, each pixel comprising at least one pyroelectric capacitance formed by at least one portion of pyroelectric material arranged between a lower electrode and an upper electrode, in which one of the lower and upper electrodes corresponds to an electrode for reading the pixel and in which a heating element that can heat the portion of pyroelectric material of the pyroelectric capacitance of said pixel by Joule effect during a measurement of the thermal pattern by the pyroelectric capacitance of said pixel is formed by the other of the lower and upper electrodes. 16 . The thermal pattern sensor according to claim 15 , in which the pyroelectric material comprises PVDF and/or P(VDF-TrFE) and/or PZT. 17 . The thermal pattern sensor according to claim 15 , further comprising a substrate on which are arranged the pyroelectric capacitances of the pixels, the lower electrode of the pyroelectric capacitance of each pixel being arranged between the substrate and the portion of pyroelectric material of the pyroelectric capacitance of the pixel, and in which the upper electrode of the pyroelectric capacitance of each pixel forms the heating element of said pixel. 18 . The thermal pattern sensor according to claim 15 , in which the electrodes of the pyroelectric capacitances of the pixels corresponding to the electrodes for reading the pixels are formed by first distinct portions of electrically conductive material and electrically insulated from each other. 19 . The thermal pattern sensor according to claim 15 , in which the electrodes of the pyroelectric capacitances of the pixels corresponding to the heating elements are electrically connected together and are formed by at least one second portion of electrically conductive material provided with two ends to which a heating voltage of the pyroelectric material of the pyroelectric capacitances of the pixels is capable of being applied. 20 . The thermal pattern sensor according to claim 15 , in which: the pixels are arranged by forming a matrix of several lines and several columns of pixels, the electrodes of the pyroelectric capacitances of each line of pixels corresponding to the heating elements are electrically connected together and are formed by a second portion of electrically conductive material distinct from the second portions of electrically conductive material of the other lines of pixels, each second portion of electrically conductive material comprises two ends to which a heating voltage of the pyroelectric material of the pyroelectric capacitances of the line of pixels is capable of being applied. 21 . The thermal pattern sensor according to claim 20 , in which one of the two ends of each second portion of electrically conductive material are electrically connected together. 22 . The thermal pattern sensor according to claim 20 , in which each second portion of electrically conductive material comprises, at each of the electrodes formed by said second portion of electrically conductive material, parts of which the electrical resistance is greater than that of the remainder of said second portion of electrically conductive material. 23 . The thermal pattern sensor according to 19 , further comprising means for applying the heating voltage to the ends ( 116 , 118 ) of the second portion(s) ( 111 ) of electrically conductive material such that, during a measurement of the thermal pattern by one of the pixels ( 102 ), the value of the electrical potential on the electrode ( 110 ) forming the heating element of said pixel ( 102 ) is substantially constant throughout the measurement. 24 . Sensor ( 100 ) according to claim 19 , in which the pixels ( 102 ) are arranged by forming a matrix of several lines and several columns of pixels ( 102 ), and in which each pixel ( 102 ) comprises at least one line selection transistor ( 130 ) capable of receiving on its gate a control signal common to the entire line of pixels ( 102 ) to which said pixel ( 102 ) belongs and, when the line selection transistor ( 130 ) is in the on state, electrically connecting the electrode for reading said pixel ( 102 ) to a reading circuit ( 131 ) including at least one amplifier ( 132 , 144 ) and common to the pixels ( 102 ) of the column to which said pixel ( 102 ) belongs. 25 . Sensor ( 100 ) according to claim 24 , in which the line selection transistor ( 130 ) is connected to an inverting input of the amplifier ( 132 ), and in which the reading circuit ( 131 ) further comprises: means for applying a reference voltage to a non-inverting input of the amplifier ( 132 ), a switch ( 136 ) connecting the inverting input of the amplifier ( 132 ) to the output of the amplifier ( 132 ), a capacitance ( 134 ) connecting the inverting input of the amplifier ( 132 ) to the output of the amplifier ( 132 ). 26 . Sensor ( 100 ) according to claim 25 , further comprising a control circuit capable of implementing, for reading a line of pixels ( 102 ), at least the following steps: turning on the line selection transistors ( 130 ) of the pixels ( 102 ) of said line and closing the switches ( 136 ) of the reading circuits ( 131 ), application of the heating voltage to the ends ( 116 , 118 ) of the second portion ( 111 ) of electrically conductive material or one of the second portions ( 111 ) of electrically conductive material associated with said line of pixels ( 102 ), opening the switches ( 136 ) of the reading circuits ( 131 ), waiting for an integration time corresponding to the measurement of the thermal pattern by the pixels ( 102 ) of said line, reading an output voltage of the amplifier ( 132 ). 27 . Sensor ( 100 ) according to claim 24 , in which each pixel ( 102 ) further comprises: a reset transistor ( 140 ) capable of applying a reset voltage to the reading electrode ( 108 ) of the pixel ( 102 ), a voltage follower transistor ( 142 ) of which one gate is connected to the reading electrode ( 108 ) of the pixel ( 102 ) and of which one of the source and drain electrodes is connected to the line selection transistor ( 130 ). 28 . Sensor ( 100 ) according to claim 27 , further comprising a control circuit capable of implementing, for reading a line of pixels ( 102 ), at least the following steps: turning on the reset transistors ( 140 ) of the pixels ( 102 ) of said line, turning off the line selection transistors ( 130 ) of the pixels ( 102 ) of said line, application of the heating voltage to the ends ( 116 , 118 ) of the second portion ( 111 ) of electrically conductive material or one of the second portions ( 111 ) of electrically conductive material associated with said line of pixels ( 102 ), turning off the reset transistors ( 140 ) of the pixels ( 102 ) of said line, waiting for an integration time corresponding to the measurement of the thermal pattern by the pixels ( 102 ) of said line, turning on the line selection transistors ( 130 ) of the pixels ( 102 ) of said line, reading the voltages applied to the inputs of the amplifiers ( 144 ) of the reading circuits.