Exponentially scaling switched capacitor

The invention claimed is: 1. An exponentially-scaling switched impedance circuit, comprising: two or more impedance scaling circuits, wherein each impedance scaling circuit comprises: an input port; an output port; and a switched impedance circuit connected in parallel to the output port; wherein each impedance scaling circuit is configured to provide an effective impedance at the input port corresponding to a scaled-down version of the exponentially-scaling switched impedance circuit; wherein an input of a first impedance scaling circuit forms an input for the exponentially-scaling switched impedance circuit, and an output of a last impedance scaling circuit forms an output of the exponentially-scaling switched impedance circuit, wherein the output of the exponentially-scaling switched impedance circuit is connected to a circuit or a component; and wherein the two or more impedance scaling circuits are connected in a cascade such that an input of an impedance scaling circuit is connected to an output of a previous impedance scaling circuit and/or an output of the impedance scaling circuit is connected to an input of a next impedance scaling circuit. 2. The exponentially-scaling switched impedance circuit according to claim 1 , wherein the switched impedance circuit is a switched capacitor circuit, the switched capacitor circuit comprising a capacitor in series with a transistor as a switch, wherein controlling a gate or a base of the transistor changes the capacitance of the switched capacitor circuit. 3. The exponentially-scaling switched impedance circuit according to claim 1 , wherein the switched impedance circuit is a switched capacitor circuit, the switched capacitor circuit comprising a varactor with one terminal as input and another terminal as control, wherein changing a control voltage changes the capacitance of the switched capacitor circuit. 4. The exponentially-scaling switched impedance circuit according to claim 1 , wherein an impedance scaling circuit of the two or more impedance scaling circuits comprises: a first capacitor connected in series with a second capacitor, wherein the input of the first capacitor corresponds to an input of the impedance scaling circuit and an output of the first capacitor corresponds to an output of the impedance scaling circuit, wherein the output of the impedance scaling circuit is connected to a switched impedance circuit of the impedance scaling circuit, and wherein the second capacitor is connected in parallel to the output of the impedance scaling circuit. 5. The exponentially-scaling switched impedance circuit according to claim 4 , wherein the switched impedance circuit is a switched capacitor circuit, the switched capacitor circuit comprising a capacitor in series with a transistor as a switch, wherein controlling a gate or a base of the transistor changes the capacitance of the switched capacitor circuit. 6. The exponentially-scaling switched impedance circuit according to claim 4 , wherein the switched impedance circuit is a switched capacitor circuit, the switched capacitor circuit comprising a varactor with one terminal as input and another terminal as control, wherein changing a control voltage changes the capacitance of the switched capacitor circuit. 7. The exponentially-scaling switched impedance circuit according to claim 4 , wherein the first capacitor has a capacitance that is two times a capacitance of the circuit or component connected to the output of the exponentially-scaling switched impedance circuit, and the second capacitor has a capacitance that is the same as the capacitance of the circuit or component connected to the output of the exponentially-scaling switched impedance circuit. 8. The exponentially-scaling switched impedance circuit according to claim 7 , wherein the switched impedance circuit is a switched capacitor circuit with two-bit operation. 9. The exponentially-scaling switched impedance circuit according to claim 1 , wherein an impedance scaling circuit of the two or more impedance scaling circuits comprises: a first resistor connected in series with a second resistor, wherein the input of the first resistor corresponds to an input of the impedance scaling circuit and an output of the first resistor corresponds to an output of the impedance scaling circuit, wherein the output of the impedance scaling circuit is connected to a switched impedance circuit of the impedance scaling circuit, and wherein the second resistor is connected in parallel to the output of the impedance scaling circuit. 10. The exponentially-scaling switched impedance circuit according to claim 9 , wherein the switched impedance circuit is a switched resistor circuit with two-bit operation. 11. A system, comprising: an exponentially-scaling switched impedance circuit, comprising two or more impedance scaling circuits, wherein each impedance scaling circuit comprises an input port, an output port, and a switched impedance circuit connected in parallel to the output port, wherein an input of a first impedance scaling circuit forms an input for the exponentially-scaling switched impedance circuit, and an output of a last impedance scaling circuit forms an output of the exponentially-scaling switched impedance circuit, wherein the output of the exponentially-scaling switched impedance circuit is connected to a circuit or a component, and wherein the two or more impedance scaling circuits are connected in a cascade such that an input of an impedance scaling circuit is connected to an output of a previous impedance scaling circuit and/or an output of the impedance scaling circuit is connected to an input of a next impedance scaling circuit; and a digitally-controlled oscillator (DCO) tank connected to the exponentially-scaling switched impedance circuit, the DCO tank being configured to provide fine frequency tuning with the exponentially-scaling switched impedance circuit. 12. A system, comprising: an exponentially-scaling switched impedance circuit, comprising two or more impedance scaling circuits, wherein each impedance scaling circuit comprises an input port, an output port, and a switched impedance circuit connected in parallel to the output port, wherein an input of a first impedance scaling circuit forms an input for the exponentially-scaling switched impedance circuit, and an output of a last impedance scaling circuit forms an output of the exponentially-scaling switched impedance circuit, wherein the output of the exponentially-scaling switched impedance circuit is connected to a circuit or a circuit component, and wherein the two or more impedance scaling circuits are connected in a cascade such that an input of an impedance scaling circuit is connected to an output of a previous impedance scaling circuit and/or an output of the impedance scaling circuit is connected to an input of a next impedance scaling circuit; and a transformer, wherein a secondary coil of the transformer is connected to the exponentially-scaling switched impedance circuit, the transformer being configured to isolate the exponentially-scaling switched impedance circuit to reduce the loading of the exponentially-scaling switched impedance circuit. 13. A system, comprising: an exponentially-scaling switched impedance circuit, comprising two or more impedance scaling circuits, wherein each impedance scaling circuit comprises an input port, an output port, and a switched impedance circuit connected in parallel to the output port, wherein an input of a first impedance scaling circuit forms an input for the exponentially-scaling switched impedance circuit, and an output of a last impedance scaling circuit forms an output of the ex