Circuit and method for generating a reference voltage with a voltage regulator and a sample and hold circuit

What is claimed is: 1. A circuit comprising: a reference generator operable to receive a supply voltage and provide a reference voltage, the reference generator comprising: a voltage regulator operable to: receive the supply voltage; and provide a first output voltage; and a sample-and-hold circuit coupled to the voltage regulator and operable to: receive the first output voltage and a refresh signal; sample the first output voltage in response to the refresh signal; and provide a second output voltage based on the sampled first output voltage, wherein the second output voltage is the reference voltage; and a control circuit coupled to the voltage regulator and to the sample-and-hold circuit, the control circuit operable to: provide an enable signal to the voltage regulator responsive to a transmit capability of a sensor being enabled, wherein a portion of the voltage regulator is enabled responsive to the enable signal; and provide a disable signal to the voltage regulator responsive to the transmit capability of the sensor being disabled, wherein the portion of the voltage regulator is disabled responsive to the disable signal. 2. The circuit of claim 1 , wherein the portion of the voltage regulator that is enabled responsive to the transmit capability of the sensor being enabled, and disabled responsive to the transmit capability of the sensor being disabled, includes a bandgap reference circuit. 3. The circuit of claim 1 , wherein the voltage regulator includes: a bandgap reference circuit operable to receive the supply voltage and generate a bandgap reference voltage based on the supply voltage; and a low drop out regulator operable to: receive the supply voltage and the bandgap reference voltage; and provide the first output voltage based on the supply voltage and the bandgap reference voltage. 4. The circuit of claim 3 , wherein: the low drop out regulator includes: a feedback network coupled to receive the first output voltage and provide a feedback voltage; and an error amplifier operable to compare the feedback voltage and the bandgap reference voltage to determine an error signal; and the low drop out regulator is operable to adjust the first output voltage based on the error signal. 5. The circuit of claim 3 , wherein the low drop out regulator circuit includes a pass element operable to provide the first output voltage based on the supply voltage and the bandgap reference voltage. 6. The circuit of claim 1 , wherein the control circuit is operable to provide the enable signal to enable the portion of the voltage regulator prior to causing the refresh signal to cause the sample-and-hold circuit to sample the first output voltage. 7. The circuit of claim 1 , wherein the control circuit is operable to provide the enable signal to disable the portion of the voltage regulator after the sample-and-hold circuit has sampled and locked the first output voltage. 8. The circuit of claim 1 , wherein the control circuit is operable to provide the refresh signal to have a period based on a hold time of the sample-and-hold circuit. 9. The circuit of claim 1 , wherein the sensor is a remote sensor operable to transmit sensed data that is separate from the reference generator. 10. A system comprising: a sensor operable to transmit sensed data, wherein the sensor is operable to have a first period where transmission of the sensed data is enabled and a second period where transmission of the sensed data is disabled; a reference generator operable to receive a supply voltage and provide a reference voltage, the reference generator comprising: a voltage regulator operable to: receive the supply voltage; and provide a first output voltage; a sample-and-hold circuit coupled to the voltage regulator and operable to provide a second output voltage based on the first output voltage, wherein the second output voltage is the reference voltage; and a control circuit coupled to the voltage regulator and to the sample-and-hold circuit, the control circuit operable to: provide an enable signal to the voltage regulator responsive to transmission of the sensed data being enabled during the first period, wherein a portion of the voltage regulator is enabled responsive to the enable signal; and provide a disable signal to the voltage regulator responsive to transmission of the sensed data being disabled during the second period, wherein the portion of the voltage regulator is disabled responsive to the disable signal. 11. The system of claim 10 , wherein the portion of the voltage regulator that is enabled during the first period and disabled during the second period includes a bandgap reference circuit. 12. The system of claim 11 , wherein: the bandgap reference circuit is operable to receive the supply voltage and generate a bandgap reference voltage based on the supply voltage; and the voltage regulator includes a low drop out regulator operable to: receive the supply voltage and the bandgap reference voltage; and provide the first output voltage based on the supply voltage and the bandgap reference voltage. 13. The system of claim 12 , wherein: the low drop out regulator includes: a feedback network coupled to receive the first output voltage and provide a feedback voltage; and an error amplifier operable to compare the feedback voltage and the bandgap reference voltage to determine an error signal; and the low drop out regulator is operable to adjust the first output voltage based on the error signal. 14. The system of claim 12 , wherein the low drop out regulator includes a pass element operable to provide the first output voltage based on the supply voltage and the bandgap reference voltage. 15. The system of claim 10 , wherein the control circuit is operable to provide the enable signal to enable the portion of the voltage regulator prior to causing the sample-and-hold circuit to sample the first output voltage. 16. The system of claim 10 , wherein the control circuit is operable to provide the enable signal to disable the portion of the voltage regulator after the sample-and-hold circuit has sampled and locked the first output voltage. 17. The system of claim 10 , wherein the sensor is a remote sensor operable to transmit sensed data that is separate from the reference generator. 18. A method implemented by a reference generator operable to receive a supply voltage and provide a reference voltage, the method comprising: receiving, by a voltage regulator, the supply voltage; providing, by the voltage regulator, a first output voltage based on the supply voltage; sampling, by a sample-and-hold circuit, the first output voltage to provide a second output voltage, wherein the second output voltage is the reference voltage; and disabling a portion of the voltage regulator responsive to a transmit duty cycle of a sensor such that the voltage regulator is disabled responsive to a transmit capability of the sensor being disabled. 19. The method of claim 18 , wherein the portion of the voltage regulator includes a bandgap reference circuit. 20. The method of claim 18 further comprising enabling the portion of the voltage regulator prior to the sampling of the first output voltage by the sample-and-hold circuit.