Step attenuator with constant input capacitance

What is claimed is: 1. An apparatus comprising: a step attenuator configured to receive an input signal, provide a variable amount of attenuation for the input signal, and provide an output signal, the step attenuator having a constant input capacitance for different amounts of attenuation, the step attenuator including a plurality of attenuator sections with at least one attenuator section in the plurality of attenuator sections comprising: a first node; a second node; only one shunt capacitor and only one first switch connected in series, a first terminal of the shunt capacitor being connected to the first node, a second terminal of the shunt capacitor being connected to a first terminal of the first switch, and a second terminal of the first switch being coupled to circuit ground; and only one series capacitor and only one second switch connected in parallel, a first terminal of the series capacitor and a first terminal of the second switch being connected to the first node, and a second terminal of the series capacitor and a second terminal of the second switch being connected to the second node. 2. The apparatus of claim 1 , further comprising: a power detector coupled to the step attenuator and configured to receive the output signal and determine power of the output signal. 3. The apparatus of claim 1 , the step attenuator comprising: an input section comprising at least two capacitors coupled as a voltage divider network, the input section providing a fixed amount of attenuation. 4. The apparatus of claim 1 , wherein the step attenuator is further configured to select the at least one attenuator section by closing the first switch and opening the second switch. 5. The apparatus of claim 1 , wherein the plurality of attenuator sections are coupled in series, each attenuator section comprising a plurality of capacitors and having the constant input capacitance, the at least one attenuator section being selected or unselected to obtain a selected amount of attenuation for the step attenuator. 6. The apparatus of claim 5 , the plurality of attenuator sections comprising at least one first attenuator section and at least one second attenuator section, each first attenuator section providing a predetermined amount of attenuation when selected, each second attenuator section providing one of a plurality of different amounts of attenuation when selected. 7. The apparatus of claim 5 , wherein the at least one attenuator section is configured to always provide a fixed or a variable amount of attenuation. 8. The apparatus of claim 5 , wherein the at least one attenuator section comprises at least one adjustable attenuator section, wherein the shunt capacitor comprises a variable shunt capacitor, and wherein the series capacitor comprises a variable series capacitor. 9. The apparatus of claim 8 , wherein the variable shunt capacitor is set to one of a first set of capacitance values and the variable series capacitor is set to one of a second set of capacitance values, each capacitance value in the first set being paired with one capacitance value in the second set. 10. The apparatus of claim 9 , each adjustable attenuator section supporting a plurality of different amounts of attenuation determined by a plurality of pairs of capacitance values formed with the first set of capacitance values for the variable shunt capacitor and the second set of capacitance values for the variable series capacitor. 11. The apparatus of claim 5 , wherein each attenuator section comprises a shunt capacitor having a first capacitance value and a series capacitor having a second capacitance value, the first and second capacitance values being fixed values and selected to obtain the constant input capacitance and a target amount of attenuation for each attenuator section. 12. The apparatus of claim 11 , the plurality of attenuator sections including a plurality of shunt capacitors having same first capacitance value and a plurality of series capacitors having same second capacitance value. 13. The apparatus of claim 11 , the plurality of attenuator sections including a plurality of shunt capacitors having different first capacitance values and a plurality of series capacitors having different second capacitance values. 14. An apparatus comprising: a step attenuator configured to receive an input signal, provide a variable amount of attenuation for the input signal, and provide an output signal, the step attenuator having a constant input capacitance for different amounts of attenuation, the step attenuator including a plurality of attenuator sections with at least one attenuator section in the plurality of attenuator sections comprising: a first node; a second node; a shunt capacitor and a first switch connected in series, a first terminal of the shunt capacitor being connected to the first node, a second terminal of the shunt capacitor being connected to a first terminal of the first switch, and a second terminal of the first switch being coupled to circuit ground; and a series capacitor and a second switch connected in parallel, a first terminal of the series capacitor and a first terminal of the second switch being connected to the first node, and a second terminal of the series capacitor and a second terminal of the second switch being connected to the second node; and a power detector coupled to the step attenuator and configured to receive the output signal and determine power of the output signal, wherein the output signal comprises a radio frequency (RF) signal and the power detector comprises an RF power detector configured to detect the power of the RF output signal. 15. The apparatus of claim 14 , wherein the RF power detector is directly connected to the step attenuator. 16. An apparatus comprising: means for attenuating an input signal to obtain an output signal, the means for attenuating providing a variable amount of attenuation for the input signal and having a constant input capacitance for different amounts of attenuation, the means for attenuating including at least one attenuator section comprising: first and second means for connecting with the at least one attenuator section; only one shunt capacitor coupled to the first means for connecting; only one series capacitor coupled between the first and second means for connecting; means for selectively coupling the shunt capacitor in series with circuit ground; and means for selectively shorting the series capacitor. 17. The apparatus of claim 16 , further comprising: means for detecting power of the output signal. 18. The apparatus of claim 16 , further comprising: means for selecting at least one of a plurality of attenuator sections of the means for attenuating to obtain a selected amount of attenuation of the input signal, each attenuator section having the constant input capacitance. 19. The apparatus of claim 16 , wherein the shunt capacitor comprises a variable shunt capacitor and wherein the series capacitor comprises a variable series capacitor, the apparatus further comprising: means for selecting one of a first set of capacitance values for the variable shunt capacitor to obtain the selected amount of attenuation of the input signal; and means for selecting one of a second set of capacitance values for the variable series capacitor to obtain the selected amount of attenuation of the input signal. 20. The apparatus of claim 16 , wherein the means for attenuating is further configured to select the at least one attenuator section by closi