Variable frequency charge pump

What is claimed is: 1. A variable frequency charge pump circuit, including: (a) at least one charge pump having a clock signal input, a voltage supply input, and an output, each for providing a pumped output voltage at the corresponding output based on a regulated input voltage applied at the corresponding voltage supply input, with a current available at the corresponding output as a function of the frequency of a signal applied to the corresponding clock signal input; (b) at least one feedback circuit, each coupled to the output of a corresponding charge pump, each feedback circuit for providing a feedback signal indicative of the pumped output voltage at such output; and (c) at least one charge pump regulator and variable frequency clock circuit, each coupled to a voltage source, the voltage supply input and the clock signal input of a corresponding charge pump, and the feedback signal of the feedback circuit corresponding to such charge pump, each charge pump regulator and variable frequency clock circuit for generating an output control signal as a function of the feedback signal, and providing the output control signal to (1) charge pump regulator circuitry for generating and providing the regulated input voltage to the voltage supply input of the corresponding charge pump to regulate the pumped output voltage at the output of the corresponding charge pump, and (2) variable-frequency clock circuitry for generating and providing a continuously variable-frequency clock signal to the clock signal input of the corresponding charge pump to control the amount of current available at the output of the corresponding charge pump; wherein, for each one of the at least one charge pumps, as a load at the output of such one charge pump increases, the frequency of the provided continuously variable-frequency clock signal increases and the current available at the output of such one charge pump increases, and as the load decreases, the frequency of the provided continuously variable-frequency clock signal decreases and the current available from such one charge pump decreases. 2. The variable frequency charge pump circuit of claim 1 , wherein at least one of the at least one charge pump regulator and variable frequency clock circuits is coupled to the voltage supply input and the clock signal input of a corresponding positive charge pump, and at least one of the at least one charge pump regulator and variable frequency clock circuits is coupled to the voltage supply input and the clock signal input of a corresponding negative charge pump. 3. The variable frequency charge pump circuit of claim 1 , wherein at least one of the at least one charge pump regulator and variable frequency clock circuits includes a low-dropout regulator. 4. The variable frequency charge pump circuit of claim 1 , wherein at least one of the at least one charge pump regulator and variable frequency clock circuits is coupled to the voltage supply input and the clock signal input of a corresponding positive charge pump. 5. The variable frequency charge pump circuit of claim 1 , wherein at least one of the at least one charge pump regulator and variable frequency clock circuits is coupled to the voltage supply input and the clock signal input of a corresponding negative charge pump. 6. A method for controlling a charge pump circuit, including: (a) providing at least one charge pump having a clock signal input, a voltage supply input, and an output, each for providing a pumped output voltage at the corresponding output based on an input voltage applied at the corresponding voltage supply input, with a current available at the corresponding output as a function of the frequency of a signal applied to the corresponding clock signal input; and (b) for each charge pump, (1) generating a corresponding feedback signal indicative of the pumped output voltage at the output of such charge pump; (2) generating an output control signal as a function of the corresponding feedback signal; (3) generating a regulated input voltage as a function of the output control signal and providing the regulated input voltage to the voltage supply input of such charge pump to regulate the pumped output voltage at the output of such charge pump; (3) generating a continuously variable-frequency clock signal as a function of the output control signal and providing the continuously variable-frequency clock signal to the clock signal input of such charge pump to control the amount of current at the output of such charge pump; (4) increasing the frequency of the provided continuously variable-frequency clock signal as a load at the output of such charge pump increases, thereby increasing the current available at the output of such charge pump; and (5) decreasing the frequency of the provided continuously variable-frequency clock signal as the load decreases. 7. The method of claim 6 , wherein at least one charge pump is a positive charge pump. 8. The method of claim 6 , wherein at least one charge pump is a negative charge pump.