System and method for a switchable capacitance

What is claimed is: 1. A switchable capacitance circuit comprising: a plurality of capacitance-switch cells, wherein each capacitance-switch cell comprises: a capacitance circuit having a capacitance between a first terminal and a second terminal of the capacitance circuit; and a semiconductor switching circuit comprising a first terminal coupled to the first terminal of the capacitance circuit, a plurality of series connected radio-frequency (RF) switch cells comprising a load path and a common node, wherein each of the plurality of series connected RF switch cells comprises a switch transistor and a gate resistor having a first end coupled to a gate of the switch transistor and a second end coupled to the common node, and a resistance circuit having a first end coupled to the common node and a second end coupled to a control node, wherein the resistance circuit comprises a resistance between the first end and the second end, wherein the gate resistor in each of the plurality of RF switch cells has a same resistance value, wherein the switch transistors in a first of the plurality of capacitance-switch cells has a first width, the switch transistors in a second of the plurality of capacitance-switch cells has a second width, and the first width is different from the second width, and wherein the resistance circuit in the first of the plurality of capacitance-switch cells is configured to set a switching time of the first of the plurality of capacitance-switch cells to substantially match a switching time of the second of the plurality of capacitance-switch cells, the resistance of the resistance circuit for first of the plurality of capacitance-switch cells being different from the resistance of the resistance circuit for the second of the plurality of capacitance-switch cells. 2. The switchable capacitance circuit of claim 1 , wherein the second terminal of each capacitance circuit of the plurality of capacitance-switch cells are coupled to a same node. 3. The switchable capacitance circuit of claim 1 , wherein a value of the resistance of the resistance circuit is inversely proportional to a value of the capacitance of the capacitance circuit of the plurality of capacitance-switch cells. 4. The switchable capacitance circuit of claim 1 , wherein a value of the capacitance of the capacitance circuit of a first of the plurality of capacitance-switch cells is different from a value of the capacitance of a second of the plurality of capacitance-switch cells. 5. The switchable capacitance circuit of claim 4 , wherein a value of the resistance of the resistance circuit is inversely proportional to the value of the capacitance of the capacitance circuit in the plurality of capacitance-switch cells. 6. The switchable capacitance circuit of claim 1 , wherein: the resistance circuit comprises a resistor coupled between the first end and the second end of the resistance circuit; and the capacitance circuit comprises a capacitor coupled between the first terminal and the second terminal of the capacitance circuit. 7. The switchable capacitance circuit of claim 6 , wherein the capacitor comprises a plurality of series connected capacitors. 8. The switchable capacitance circuit of claim 6 , wherein: the resistor comprises a value that is substantially equal to a value of the resistance between the first end and the second end of the resistance circuit; and the capacitor comprises a value that is substantially equal to a value of the capacitance between the first terminal and the second terminal of the capacitance circuit. 9. The switchable capacitance circuit of claim 1 , wherein values of the capacitance of the capacitance circuit of the plurality of capacitance-switch cells are binary weighted. 10. The switchable capacitance circuit of claim 1 , further comprising a control circuit having a plurality of outputs coupled to the corresponding control nodes of the plurality of capacitance-switch cells. 11. The switchable capacitance circuit of claim 1 , wherein a second terminal of the semiconductor switching circuit of each of the plurality of capacitance-switch cells is coupled to ground. 12. The switchable capacitance circuit of claim 1 , wherein the first width of the switch transistors in the first of the plurality of capacitance-switch cells is proportional to the second width of the switch transistors in the second of the plurality of capacitance-switch cells. 13. A method of operating a switchable capacitance circuit, the method comprising: increasing a load capacitance of the switchable capacitance circuit comprising switching-on at least one of a plurality of capacitance-switch cells, wherein each of the plurality of capacitance-switch cells comprises a capacitance circuit having a capacitance between a first terminal and a second terminal of the capacitance circuit, and a semiconductor switching circuit comprising a first terminal coupled to the first terminal of the capacitance circuit, a plurality of series connected radio-frequency (RF) switch cells comprising a load path and a common node, wherein each of the plurality of series connected RF switch cells comprises a switch transistor and a gate resistor having a first end coupled to a gate of the switch transistor and a second end coupled to the common node, and a resistance circuit having a first end coupled to the common node and a second end coupled to a control node, wherein the resistance circuit comprises a resistance between the first end and the second end, wherein the gate resistor in each of the plurality of RF switch cells has a same resistance value, wherein the switch transistors in a first of the plurality of capacitance-switch cells has a first width, the switch transistors in a second of the plurality of capacitance-switch cells has a second width, and the first width is different from the second width, and wherein the resistance circuit in the first of the plurality of capacitance-switch cells is configured to set a switching time of a first of the plurality of capacitance-switch cells to substantially match a switching time of a second of the plurality of capacitance-switch cells, the resistance of the resistance circuit for first of the plurality of capacitance-switch cells being different from the resistance of the resistance circuit for the second of the plurality of capacitance-switch cells, switching-on comprises activating the semiconductor switching circuit of the at least one of the plurality of capacitance-switch cells; and decreasing the load capacitance of the switchable capacitance circuit comprising switching-off the at least of the plurality of capacitance-switch cells, wherein switching-off comprises deactivating the semiconductor switching circuit of the at least one of the plurality of capacitance-switch cells. 14. The method of claim 13 , wherein activating the semiconductor switching circuit of the at least one of the plurality of capacitance-switch cells comprises activating the plurality of series connected RF switch cells of the at least one of the plurality of capacitance-switch cells via the control node. 15. The method of claim 13 , wherein a value of the resistance of the resistance circuit is inversely proportional to a value of the capacitance of the capacitance circuit of the plurality of capacitance-switch cells. 16. The method of claim 13 , further comprising applying a RF signal to the switchable capacitance circuit. 17. The method of claim 13 , further comprising: coupling the switchable capacitance circuit to an antenna; and tuning the antenn