Ultra-wideband signal amplifier

The invention claimed is: 1. An amplifier for an ultra-wideband signal receiver having: a signal input for receiving an ultra-wideband signal transmitted in a predetermined sequence of transmission channels; an amplifier element having an input connection coupled to the signal input, and an output; a resonant circuit connected to the output of the amplifier element, the resonant circuit comprising at least one inductance connected to an adjustable capacitance circuit, wherein the resonant circuit is configured to exhibit an adjustable resonant frequency, the adjustable resonant frequency adjusted according to a control signal to select a channel from the predetermined sequence of transmission channels; wherein the control signal is driven by data associated with the predetermined sequence of transmission channels; wherein the amplifier element is operable to amplify the ultra-wideband signal provided at the signal input in a plurality of differing frequency bands in an order dictated by the predetermined sequence of transmission channels; and a signal output configured to provide the amplified ultra-wideband signal. 2. The amplifier of claim 1 , wherein the amplifier element comprises a transistor. 3. The amplifier of claim 1 , wherein the adjustable capacitance comprises: an adjustable capacitance circuit having a plurality of capacitors connected to branching nodes by associated controllable switches; and a switch actuation logic unit that controls the controllable switches according to the control signal. 4. The amplifier of claim 3 , wherein the control signal comprises a channel word. 5. The amplifier of claim 1 , further comprising a memory operably coupled to the amplifier, and configured to store information relating to the predetermined sequence of transmission channels. 6. The amplifier of claim 5 , wherein a retrieval of the information stored in the memory dictates a content of the control signal. 7. The amplifier according to claim 6 , further comprising a controller operably configured to adjust the adjustable resonant frequency, wherein the controller is configured to retrieve the information stored in the memory and generate the control signal in response thereto. 8. The amplifier according to claim 7 , wherein: the controller is operably connected to provide a plurality of control signals to a switch actuation unit operably associated with the resonant circuit, the control signals based on the transmission channel sequence; the resonant circuit includes a plurality of capacitors coupled in series with corresponding switches; and the switch actuation unit is operable to controllably actuate the switches in accordance with the control signals. 9. The amplifier according to claim 1 , further comprising a cascade stage operably coupled between the amplifier element and the signal output. 10. The amplifier according to claim 1 , wherein the amplifier element comprises a MOS field-effect transistor. 11. The amplifier according to claim 1 , wherein the amplifier element comprises a bipolar transistor. 12. The amplifier according to claim 1 , wherein the frequency bandwidth of a transmission channel is about 500 MHz. 13. The amplifier according to claim 1 , further comprising a matching circuit coupled to the signal input, the matching circuit configured to match an input impedance of the amplifier to an impedance of a reception antenna of the ultra-wideband receiver. 14. The amplifier according to claim 13 , wherein the matching circuit is operable to perform variable impedance matching as a function of the transmission channel sequence. 15. An amplifier for an ultra-wideband signal receiver having: a differential signal input for receiving an ultra-wideband signal transmitted in a predetermined sequence of transmission channels; a first amplification element having an input connection connected to the differential signal input, and having a first output, and a second amplification element having an input connection connected to the differential signal input, and having a second output; a first resonant circuit connected to the first output of the first amplification element, the first resonant circuit having a first adjustable resonant frequency, the first adjustable resonant frequency adjusted according to the predetermined sequence of transmission channels; a second resonant circuit connected to the second output of the second amplification element, the second resonant circuit having a second adjustable resonant frequency, the second adjustable resonant frequency adjusted according to the predetermined sequence of transmission channels; and a differential signal output coupled to the first and second outputs, respectively, and configured to provide the amplified ultra-wideband signal, the differential signal output being tapped off at the first output of the first amplification element, and at the second output of the second amplification element; wherein the amplifier is operable to amplify the ultra-wideband signal provided at the differential signal input in a plurality of differing frequency bands in an order dictated by the predetermined sequence of transmission channels. 16. The amplifier according to claim 15 , further comprising a memory operably coupled to the amplifier, and configured to store information relating to the predetermined sequence of transmission channels. 17. The amplifier according to claim 15 , wherein each of the first and second resonant circuits comprises at least one inductive coil and an adjustable capacitance circuit. 18. The amplifier according to claim 17 , wherein each adjustable capacitance circuit includes a plurality of capacitors that are selectively connected in parallel. 19. The amplifier according to claim 18 , further comprising a first cascade stage operably coupled between the first amplification element and the differential signal output, and a second cascade stage operably coupled between the second amplification element and the differential signal output. 20. The amplifier according to claim 15 , wherein the first and second amplification elements comprise first and second transistors, respectively.