VBOOST signal generation

What is claimed is: 1. An integrated circuit, comprising: a first power rail for carrying a common carrier voltage (VCC), a circuit ground, and a charge pump voltage output pin; a voltage regulator having terminals coupled between the first power rail and the circuit ground, the voltage regulator having a second power rail to generate a second power rail voltage (VCC-VX) which is a voltage less than the voltage on the first power rail and is a voltage greater than ground in response to a reference voltage VX and the voltage on the first power rail; a clock generator circuit having a first clock output providing a first clock signal, the first clock signal being coupled to the first power rail during a first half-cycle and being coupled to the second power rail during a second half-cycle; a first flyback capacitor having a first terminal and a second terminal, the first terminal being coupled to the first clock output; and a first charge pump circuit having inputs coupled to the first power rail, to the second terminal of the first flyback capacitor and to the charge pump voltage output pin, the first charge pump circuit coupling a charge pump voltage greater than the voltage on the first power rail from the second terminal of the first flyback capacitor to the charge pump voltage output pin during the second half-cycle of the first clock signal. 2. The integrated circuit of claim 1 in which the clock generator circuit has a second clock output providing a second clock signal, the second clock signal being coupled to the first power rail during a second half-cycle of the second clock cycle and being coupled to the second power rail during a first half-cycle of the second clock cycle; a second flyback capacitor having a first terminal and a second terminal, the first terminal being coupled to the second clock output; and the first charge pump circuit coupling the charge pump voltage from the second terminal of the second flyback capacitor to the charge pump voltage output pin during the first half-cycle of the second clock signal. 3. The integrated circuit of claim 2 including: a pair of input transistors coupled between the first power rail and the second terminals of the first and second flyback capacitors; and a pair of output transistors coupled between the second terminals of the first and second flyback capacitors and the charge pump voltage output pin. 4. The integrated circuit of claim 3 in which the input transistors have drains and the drains of the input transistors are coupled together and to the first power rail. 5. The integrated circuit of claim 3 in which the output transistors have drains and the drains of the output transistors are coupled together and to the charge pump voltage output pin. 6. The integrated circuit of claim 1 in which the charge pump voltage output pin is adapted to be coupled to a bucket capacitor. 7. A method of operating a charge pump, comprising: receiving power from a first power rail providing a first power rail voltage Vcc; generating a second power rail voltage Vcc-VX on a second power rail in response to a reference voltage VX and the first power rail voltage Vcc, the second power rail voltage Vcc-VX being less than the first power rail voltage; coupling the first power rail voltage Vcc to a first terminal of a first flyback capacitor during a first half-cycle of a clock signal; coupling the second power rail voltage Vcc-Vx to a first terminal of a second flyback capacitor during the first half-cycle of the clock signal; coupling the first power rail voltage Vcc to the first terminal of the second flyback capacitor during a second half-cycle of the clock signal; coupling the second power rail voltage Vcc-VX to the first terminal of the first flyback capacitor during the second half-cycle of the clock signal; and coupling a boosted voltage VCP greater than the first power rail voltage Vcc on a second terminal of the first flyback capacitor and on a second terminal of the second flyback capacitor to a charge pump output. 8. A system, comprising: (a) an integrated circuit including: a first power rail for carrying a common carrier voltage (VCC), a circuit ground, and a charge pump voltage output pin; a voltage regulator having terminals coupled between the first power rail and the circuit ground, the voltage regulator having a second power rail to generate a second power rail voltage (VCC-VX) which is a voltage less than the voltage on the first power rail and is a voltage greater than ground in response to a reference voltage VX and the voltage on the first power rail; a clock generator circuit having a first clock output providing a first clock signal, the first clock signal being coupled to the first power rail during a first half-cycle of the first clock signal and being coupled to the second power rail during a second half-cycle of the first clock signal; a first flyback capacitor having a first terminal and a second terminal, the first terminal being coupled to the first clock output; and a first charge pump circuit having inputs coupled to the first power rail, to the second terminal of the first flyback capacitor and to the charge pump voltage output pin, the first charge pump circuit coupling a charge pump voltage greater than the voltage on the first power rail from the second terminal of the first flyback capacitor to the charge pump voltage output pin during the second half-cycle of the first clock signal; and (b) a bucket capacitor coupled to the charge pump voltage output pin. 9. The system of claim 8 in which the clock generator circuit has a second clock output providing a second clock signal, the second clock signal being coupled to the first power rail during a second half-cycle of the second clock signal and being coupled to the second power rail during a first half-cycle of the second clock signal; a second flyback capacitor having a first terminal and a second terminal, the first terminal being coupled to the second clock output; and the first charge pump circuit coupling the charge pump voltage from the second terminal of the second flyback capacitor to the charge pump voltage output pin during the first half-cycle of the second clock signal. 10. The system of claim 8 including: a second flyback capacitor having a first terminal and a second terminal, the first terminal being coupled to the second clock output; a pair of input transistors coupled between the first power rail and the second terminals of the first and second flyback capacitors; and a pair of output transistors coupled between the second terminals of the first and second flyback capacitors and the charge pump voltage output pin. 11. The system of claim 10 in which the input transistors have drains and the drains of the input transistors are coupled together and to the first power rail. 12. The system of claim 10 in which the output transistors have drains and the drains of the output transistors are coupled together and to the charge pump voltage output pin. 13. The system of claim 8 in which the charge pump voltage output pin is adapted to be coupled to a bucket capacitor.