Low power local oscillator

What is claimed is: 1. A local oscillator device comprising: an oscillator module having a first inductive element and a capacitive element coupled in parallel with the first inductive element, wherein the first inductive element and the capacitive element form a resonator; a frequency divider coupled to the oscillator module and configured to deliver a local oscillator signal; and an autotransformer comprising the first inductive element, a second inductive element, and a third inductive element, a first terminal of the second inductive element DC coupled to a first terminal of the first inductive element, a second terminal of the second inductive element being a first output terminal of the autotransformer, a first terminal of the third inductive element DC coupled to a second terminal of the first inductive element, a second terminal of the third inductive element being a second output terminal of the autotransformer, the first output terminal and the second output terminal of the autotransformer being DC coupled to input terminals of the frequency divider. 2. The local oscillator device of claim 1 , wherein the capacitive element comprises a plurality of capacitors coupled in parallel with the first inductive element. 3. The local oscillator device of claim 2 , wherein at least one capacitor of the plurality of capacitors is coupled to the first inductive element via a controllable switch. 4. The local oscillator device of claim 1 , further comprising: a sustaining amplifier coupled in parallel with the first inductive element; and a current source coupled to the sustaining amplifier. 5. The local oscillator device of claim 4 , further comprising an amplitude controller coupled to the current source. 6. The local oscillator device of claim 1 , wherein the first output terminal and the second output terminal of the autotransformer are each directly connected to a different input terminal of the frequency divider. 7. The local oscillator device of claim 1 , wherein the first terminal and the second terminal of the first inductive element are located on a first side of a periphery of the autotransformer, and the first output terminal and the second output terminal of the autotransformer are each located on another side of the periphery of the autotransformer. 8. The local oscillator device of claim 7 , wherein the first output terminal and the second output terminal of the autotransformer are located on a second side of the periphery of the autotransformer opposite the first side with respect to a central point of the autotransformer. 9. The local oscillator device of claim 1 , wherein the autotransformer has an octagonal shape. 10. A local oscillator device comprising: an oscillator module having a first inductive element and a capacitive element coupled in parallel with the first inductive element; a frequency divider coupled to the oscillator module and configured to deliver a local oscillator signal; and an autotransformer comprising the first inductive element, a second inductive element, and a third inductive element, a first terminal of the second inductive element DC coupled to a first terminal of the first inductive element, a second terminal of the second inductive element being a first output terminal of the autotransformer, a first terminal of the third inductive element DC coupled to a second terminal of the first inductive element, a second terminal of the third inductive element being a second output terminal of the autotransformer, the first output terminal and the second output terminal of the autotransformer being DC coupled to input terminals of the frequency divider, wherein the first inductive element comprises a first flat conductive track having an interlaced coil shape, and the second and third inductive elements each comprises respective second and third flat conductive track each having a coil shape, the second and third conductive tracks being interlaced with each other and located on a periphery of the first inductive element. 11. The local oscillator device of claim 10 , wherein a ratio of a width of the second and third conductive tracks over a width of the first conductive track is between 0.1 and 0.7. 12. The local oscillator device of claim 10 , wherein the local oscillator device is implemented in an integrated manner within an integrated circuit, the integrated circuit comprising the autotransformer. 13. The local oscillator device of claim 12 , wherein the frequency divider is implemented with Complementary Metal-Oxide-Semiconductor (CMOS) technology. 14. The local oscillator device of claim 10 , wherein the first, second, and third conductive tracks are located in a first interconnection level of an integrated circuit. 15. A local oscillator device comprising: an oscillator module having a first inductive element and a capacitive element coupled in parallel with the first inductive element; a frequency divider coupled to the oscillator module and configured to deliver a local oscillator signal; and an autotransformer comprising the first inductive element, a second inductive element, and a third inductive element, a first terminal of the second inductive element DC coupled to a first terminal of the first inductive element, a second terminal of the second inductive element being a first output terminal of the autotransformer, a first terminal of the third inductive element DC coupled to a second terminal of the first inductive element, a second terminal of the third inductive element being a second output terminal of the autotransformer, the first output terminal and the second output terminal of the autotransformer being DC coupled to input terminals of the frequency divider, wherein the frequency divider is configured to divide a frequency of an input signal at the first output terminal and the second output terminal of the autotransformer, wherein the oscillator module is configured to generate an oscillating signal with an amplitude below a threshold amplitude on terminals of the first inductive element, and the autotransformer is configured to generate the input signal with an amplitude above the threshold amplitude. 16. The local oscillator device of claim 15 , wherein the threshold amplitude is greater than 1 V. 17. A transceiver system comprising: an antenna configured to transmit and receive radio frequency signals, a transmitting stage coupled to the antenna; a receiving stage coupled to the antenna; and a local oscillator device coupled to the transmitting stage and the receiving stage, the local oscillator device comprising: an oscillator module having a resonator that comprises a first inductive element and a capacitive element coupled in parallel with the first inductive element; a frequency divider coupled to the oscillator module and configured to generate a local oscillator signal; and an autotransformer comprising the first inductive element, a second inductive element, and a third inductive element, a first terminal of the second inductive element DC coupled to a first terminal of the first inductive element, a second terminal of the second inductive element being a first output terminal of the autotransformer, a first terminal of the third inductive element DC coupled to a second terminal of the first inductive element, a second terminal of the third inductive element being a second output terminal of the autotransformer, the first output terminal and the second output terminal of the autotransformer being DC coupled to input terminals of the frequency divider. 18. The transceiver system of