Frequency-tunable and slot-fed planar antenna, and satellite-based positioning receiver comprising such an antenna

The invention claimed is: 1. A frequency-tunable and slot-fed planar antenna comprising: a structure in which there are successively superimposed a resonant patch, a first dielectric layer, a ground plane comprising a first slot for each linear polarization, a second dielectric layer and a transmission line comprising, for each first slot, an end strand extending beneath said first slot, said antenna being frequency tunable for each linear polarization through at least one variable capacitance element connected between a radiating side of the resonant patch and the ground plane, wherein matching of said antenna varies for each linear polarization as a function of a bias voltage applied to said at least one variable capacitance element, for each linear polarization, at least one second slot extending along the first slot and having at least one dimension different from the first slot, said end strand of the transmission line extending beneath said first slot and said at least one second slot, said first slot creating a first resonance and said at least one second slot creating an additional resonance, and a frequency tunability resulting, for each linear polarization, from said first resonance for at least one first value of the bias voltage, and from said additional resonance for at least one second value of the bias voltage, for a first value of the bias voltage, the antenna covers a first sub-band resulting from the first resonance created by the first slot and, for a plurality of second successive values of the bias voltage, the antenna covers a plurality of second successive sub-bands distinct from the first sub-band, and each resulting from the additional resonance created by said at least one second slot, the first sub-band is around 2.5 GHz and the plurality of successive second sub-bands form a band ranging from 1.1 GHz to 1.6 GHz, the first value is 0V and the plurality of second successive values are between 1.5V to 3V. 2. The frequency-tunable and slot-fed planar antenna according to claim 1 , wherein, for each linear polarization, said at least one second slot and said first slot are of the same shape. 3. The frequency-tunable and slot-fed planar antenna according to claim 2 , wherein, for each linear polarization, said at least one second slot and said first slot possess parallel longitudinal axes. 4. The frequency-tunable and slot-fed planar antenna according to claim 1 , wherein the resonant patch is square shaped with a side length l p equal to 55 mm ±1 mm, and, for each linear polarization: said first slot is rectangular with a length l 3 equal to a 40 mm ±1 mm and a width w 3 equal to 1 mm ±0.1 mm; and said at least one second slot is rectangular, with a length l 2 equal to 30 mm ±1 mm and a width w 2 equal to 2 mm ±0.1 mm. 5. The frequency-tunable and slot-fed planar antenna according to claim 1 , wherein the antenna works according to a single linear polarization. 6. The frequency-tunable and slot-fed planar antenna according to claim 1 , wherein the antenna works according to first and second orthogonal linear polarizations, the combination of which gives a circular polarization, and the first slot and said at least one second slot for the first linear polarization are orthogonal respectively to the first slot and said at least one second slot for the second linear polarization. 7. A satellite positioning receiver enabling reception and processing of signals coming from different satellite positioning systems, comprising: a frequency-tunable, over at least two frequency bands, and slot-fed planar antenna comprising: a structure in which there are successively superimposed a resonant patch, a first dielectric layer, a ground plane comprising a first slot for each linear polarization, a second dielectric layer and a transmission line comprising, for each first slot, an end strand extending beneath said first slot, said antenna being frequency tunable for each linear polarization through at least one variable capacitance element connected between a radiating side of the resonant patch and the ground plane, wherein matching of said antenna varies for each linear polarization as a function of a bias voltage applied to said at least one variable capacitance element, for each linear polarization, at least one second slot extending along the first slot and having at least one dimension different from the first slot, said end strand of the transmission line extending beneath said first slot and said at least one second slot, said first slot creating a first resonance and said at least one second slot creating an additional resonance, and a frequency tunability resulting, for each linear polarization, from said first resonance for at least one first value of the bias voltage, and from said additional resonance for at least one second value of the bias voltage, for a first value of the bias voltage, the antenna covers a first sub-band resulting from the first resonance created by the first slot and, for a plurality of second successive values of the bias voltage, the antenna covers a plurality of second successive sub-bands distinct from the first sub-band, and each resulting from the additional resonance created by said at least one second slot, the first sub-band is around 2.5 GHz and the plurality of successive second sub-bands form a band ranging from 1.1 GHz to 1.6 GHz, the first value is 0V and the plurality of second successive values are between 1.5V to 3V.