Differential switchable capacitors for radiofrequency power amplifiers

What is claimed is: 1. A switchable capacitor system comprising: a differential switchable capacitor, comprising: a positive differential terminal; a negative differential terminal; a capacitor control switch (CCS) having a positive CCS node and a negative CCS node, the CCS to selectively toggle between a first mode and a second mode in response to a CCS control signal; a first capacitor coupled between the positive CCS node and the positive differential terminal; a second capacitor coupled between the negative CCS node and the negative differential terminal; and a switch network to selectively toggle between the first mode and the second mode in response to a switch network control signal, such that: in the first mode, the CCS control signal is set to a high reference voltage to electrically couple the first capacitor with the second capacitor, and the switch network is to pull the positive CCS node and the negative CCS node to a low reference voltage level; and in the second mode, the CCS control signal is set to a low control voltage to electrically decouple the first capacitor from the second capacitor, and the switch network is to pull the positive CCS node and the negative CCS node to the high reference voltage level, the low control voltage being greater than zero and set to a level in accordance with the high reference voltage minus a peak signal voltage. 2. The switchable capacitor system of claim 1 , wherein: in the first mode, the CCS is turned ON, thereby electrically coupling the first capacitor with the second capacitor; and in the second mode, the CCS is turned OFF, thereby electrically de-coupling the first capacitor from the second capacitor. 3. The switchable capacitor system of claim 1 , wherein: the CCS is a metal-oxide semiconductor (MOS) transistor comprising the positive CCS node, the negative CCS node, and a gate node; in the first mode, the high reference voltage is applied to the gate node as the CCS control signal to electrically couple the first capacitor with the second capacitor; and in the second mode, the low control voltage is applied to the gate node as the CCS control signal to electrically decouple the first capacitor from the second capacitor. 4. The switchable capacitor system of claim 1 , further comprising: a master positive node; and a master negative node, wherein the differential switchable capacitor is one of a plurality of differential switchable capacitors, the positive differential terminal of each of the plurality of differential switchable capacitors is coupled with the master positive node, and the negative differential terminal of each of the plurality of differential switchable capacitors is coupled with the master negative node. 5. The switchable capacitor system of claim 4 , further comprising: a master control node to receive the CCS control signal, wherein the plurality of differential switchable capacitors comprises N differential switchable capacitors, where N is an integer greater than one, and the CCS control signal is an N-bit signal, each bit associated with a respective one of the differential switchable capacitors, such that each differential switchable capacitor is selectively togglable between the first mode and the second mode responsive to the associated bit of the CCS control signal. 6. The switchable capacitor system of claim 1 , wherein the switch network comprises: an inverter to generate an inverter output at an inverter output node responsive to the switch network control signal; a first resistor coupled between the inverter output node and the positive CCS node; and a second resistor coupled between the inverter output node and the negative CCS node. 7. The switchable capacitor system of claim 6 , wherein the negative differential terminal is coupled with a ground reference. 8. The switchable capacitor system of claim 1 , wherein the switch network comprises: a first sub-network having a first switch to selectively couple the positive differential terminal with the positive CCS node and the negative CCS node in accordance with the CCS control signal; and a second sub-network having a second switch to selectively couple the negative differential terminal with the positive CCS node and the negative CCS node in accordance with the CCS control signal, such that in the first mode, the first sub-network is to decouple the positive CCS node and the negative CCS node from the high reference voltage level, and the second sub-network is to couple the positive CCS node and the negative CCS node to the low reference voltage level, and such that in the second mode, the first sub-network is to couple the positive CCS node and the negative CCS node to the high reference voltage level, and the second sub-network is to decouple the positive CCS node and the negative CCS node from the low reference voltage level. 9. The switchable capacitor system of claim 8 , wherein: the first sub-network further has a first resistor coupled between the first switch and the positive CCS node, and a second resistor coupled between the first switch and the negative CCS node; and the second sub-network further has a third resistor coupled between the second switch and the negative CCS node, and a fourth resistor coupled between the second switch and the negative CCS node. 10. The switchable capacitor system of claim 8 , wherein: the first sub-network further has a first filter capacitor in parallel with the first switch; and the second sub-network further has a second filter capacitor in parallel with the second switch. 11. A transceiver system comprising: a power amplifier to generate an output signal at an output terminal as a function of applying gain to an input signal; and a resonant circuit comprising an inductor and a switchable capacitor system, the switchable capacitor system comprising a plurality of differential switchable capacitors, each differential switchable capacitor comprising: a positive differential terminal coupled with the output terminal to receive a first differential input signal responsive to the output signal; a negative differential terminal; a capacitor control switch (CCS) having a positive CCS node and a negative CCS node, the CCS to selectively toggle between a first mode and a second mode in response to a CCS control signal; a first capacitor coupled between the positive CCS node and the positive differential terminal; a second capacitor coupled between the negative CCS node and the negative differential terminal; and a switch network to selectively toggle between the first mode and the second mode in response to a switch network control signal, such that: in the first mode, the CCS control signal is set to a high reference voltage to electrically couple the first capacitor with the second capacitor, and the switch network is to pull the positive CCS node and the negative CCS node to a low reference voltage level; and in the second mode, the CCS control signal is set to a low control voltage to electrically decouple the first capacitor from the second capacitor, and the switch network is to pull the positive CCS node and the negative CCS node to the high reference voltage level, the low control voltage level being greater than zero and set to a level in accordance with the high reference voltage minus a peak signal voltage. 12. The transceiver system of claim 11 , wherein: the negative differential terminal is coupled with the output terminal to receive a second differential input signal corresponding to a complement of the first differential signal. 13. The transceiver system of claim 11 , wherein: the CCS is a metal