Bipolar junction transistor based switched capacitors

What is claimed is: 1. A switched capacitor, comprising: a pair of parallel component stacks, each of the stacks connected to a common top node and a common bottom node, and including: a bipolar junction transistor; a first resistor in series with the bipolar junction transistor and having a first side connected to a collector of the bipolar junction transistor at an intermediate node in a same one of the stacks and a second side connected to the common top node; a capacitor having a first side connected to the intermediate node and a second side for providing an impedance; and a second resistor having a first side connected to a base of the bipolar junction transistor to prevent base-current surge in the bipolar junction transistor and a second side connected to a switch base control signal that selectively turns the bipolar junction transistor on or off. 2. The switched capacitor of claim 1 , wherein each of the stacks further comprises another capacitor having a first side connected to the second side of the second resistor and a second side connected to the common bottom node for mitigating bipolar junction transistor instability from routing base inductance. 3. The switched capacitor of claim 2 , wherein each of the stacks further comprises a metal oxide semiconductor field effect transistor having a source connected to the first side of the second resistor, a drain connected to the common bottom node, and a gate connected to the second side of the second resistor. 4. The switched capacitor of claim 3 , wherein the gate is indirectly connected to the second side of the second resistor using a digital inverter having an input connected to the second side of the second resistor and an output connected to the gate. 5. The switched capacitor of claim 3 , wherein the metal oxide semiconductor field effect transistor is configured to prevent an accidental powering on of, and an avalanche breakdown of, the bipolar junction. 6. The switched capacitor of claim 1 , wherein the top common node is connected to a switch collector control signal for selectively turning the bipolar junction transistor on or off. 7. The switched capacitor of claim 1 , wherein the bipolar junction transistor in each of the stacks is controlled using two independent signals that comprise the switch base control signal and a switch collector control signal. 8. The switched capacitor of claim 7 , wherein the two independent signals have different values and lack an inversion relationship when used to selectively turn on the bipolar junction transistor in each of the stacks. 9. The switched capacitor of claim 1 , wherein the bottom common node is connected to ground. 10. The switched capacitor of claim 1 , wherein the switched capacitor is comprised in a capacitor bank of a voltage controlled oscillator for tuning a frequency range of the voltage controlled oscillator. 11. The switched capacitor of claim 10 , wherein the capacitor bank comprises a metal-oxide semiconductor varactor for coarse tuning the frequency range of the voltage controlled oscillator, and wherein the switched capacitor is for fine tuning of the frequency range of the voltage controlled oscillator. 12. A method for providing a switched capacitor, the method comprising: providing a pair of parallel component stacks, each of the stacks connected to a common top node and a common bottom node, and including: a bipolar junction transistor; a first resistor in series with the bipolar junction transistor and having a first side connected to a collector of the bipolar junction transistor at an intermediate node in a same one of the stacks and a second side connected to the common top node; a capacitor having a first side connected to the intermediate node and a second side connected to an inductor as part of an inductor capacitor resonant tank for providing an impedance; and a second resistor having a first side connected to a base of the bipolar junction transistor to prevent base-current surge in the bipolar junction transistor and a second side connected to a switch base control signal that selectively turns the bipolar junction transistor on or off. 13. The method of claim 12 , further comprising providing, in each of the stacks, another capacitor having a first side connected to the second side of the second resistor and a second side connected to the common bottom node for mitigating bipolar junction transistor instability from routing base inductance. 14. The method of claim 13 , further comprising providing, in each of the stacks, a metal oxide semiconductor field effect transistor having a source connected to the first side of the second resistor, a drain connected to the common bottom node, and a gate connected to the second side of the second resistor. 15. The method of claim 14 , further comprising configuring the metal oxide semiconductor field effect transistor to prevent an accidental powering on of, and an avalanche breakdown of, the bipolar junction transistor. 16. The method of claim 12 , further comprising connecting the top common node to a switch collector control signal for selectively turning the bipolar junction transistor on or off. 17. The method of claim 12 , further comprising controlling the bipolar junction transistor in each of the stacks using two independent signals that comprise the switch base control signal and a switch collector control signal. 18. The method of claim 17 , wherein the two independent signals have different values and lack an inversion relationship when used to selectively turn on the bipolar junction transistor in each of the stacks. 19. The method of claim 12 , further comprising including the switched capacitor in a capacitor bank of a voltage controlled oscillator for tuning a frequency range of the voltage controlled oscillator. 20. The method of claim 19 , wherein the capacitor bank comprises a metal-oxide semiconductor varactor for coarse tuning the frequency range of the voltage controlled oscillator, and wherein the method further comprises fine tuning the frequency range of the voltage controlled oscillator using the switched capacitor.