Voltage control using rectifying circuitry

What is claimed is: 1. An apparatus comprising: an antenna; a capacitor; and voltage control circuitry including: a first rectifying circuit configured and arranged to rectify a wireless signal received by the antenna and to provide a rectified first signal to an output load; a second rectifying circuit configured and arranged to rectify the wireless signal received by the antenna and to provide a rectified second signal to the capacitor; and a control logic circuit configured and arranged to regulate an output voltage at the output load relative to a threshold voltage value, and, for each rectifying cycle, determine whether the output voltage is above the threshold voltage value or below the threshold voltage value; enable, in response to determining that the output voltage is below the threshold voltage value, the first rectifying circuit to provide the rectified first signal to the output load; and enable, in response to determining that the output voltage is above the threshold voltage value, the second rectifying circuit to provide the rectified second signal to the capacitor. 2. The apparatus of claim 1 , wherein the control logic circuit is configured and arranged to determine that the output voltage is below the threshold voltage value for a current rectifying cycle based on a value of the output voltage during a preceding rectifying cycle, the current rectifying cycle being later in time than the preceding rectifying cycle. 3. The apparatus of claim 1 , wherein the voltage control circuitry is configured and arranged to synchronously regulate the output voltage with providing the rectified first and second signals. 4. The apparatus of claim 1 , wherein the voltage control circuitry further includes a reference adjustment circuit configured and arranged to shift a reference point of the rectified first and second signals. 5. The apparatus of claim 4 , wherein the control logic is configured and arranged to enable a first transistor of the reference adjustment circuit based on detecting a first phase of the rectified first signal, and to enable a second transistor of the reference adjustment circuit based on detecting a second phase of the rectified first signal. 6. The apparatus of claim 1 , further including another capacitor configured and arranged to accumulate voltage output from the first rectifying circuit and to output the accumulated voltage to the output load. 7. The apparatus of claim 1 , wherein the capacitor is configured and arranged to adjust an impedance of the capacitor over time in response to one or more rectified signals provided to the capacitor. 8. An apparatus comprising: an antenna; a capacitor; and voltage regulator circuitry including: a first rectifying circuit configured and arranged to rectify a wireless signal received by the antenna and to provide a rectified first signal to an output load; a second rectifying circuit configured and arranged to rectify the wireless signal received by the antenna and to provide a rectified second signal to the capacitor; and a control logic circuit configured and arranged to regulate an output voltage at the output load relative to a threshold voltage value, and, for each rectifying cycle associated with a half-wave of the wireless signal, compare the output voltage to the threshold voltage value; in response to the output voltage being below the threshold voltage value, enable one of a first path and a second path of the first rectifying circuit to provide the rectified first signal to the output load; and in response the output voltage being above the threshold voltage value, enable one of a third path and a fourth path of the second rectifying circuit to provide the rectified second signal to the capacitor. 9. The apparatus of claim 8 , wherein the control logic circuit is configured and arranged to determine the output voltage based on a value of the output voltage during a preceding rectifying cycle, the preceding rectifying cycle being earlier in time than a current rectifying cycle. 10. The apparatus of claim 8 , wherein the apparatus is configured and arranged to pre-charge the capacitor to a same voltage level as another capacitor associated with the output load. 11. The apparatus of claim 8 , further including another capacitor configured and arranged to low-pass filter the output voltage. 12. The apparatus of claim 8 , wherein the capacitor is configured and arranged to adjust an effective impedance of the capacitor in response to the receiving the provided rectified second signal. 13. The apparatus of claim 8 , wherein the voltage regulator circuit further includes: a reference adjustment circuit configured and arranged to shift a reference point of the rectified first and second signals, wherein the control logic circuit is configured and arranged to selectively shift a reference point for the wireless signal based on a polarity of the wireless signal. 14. The apparatus of claim 8 , wherein the control logic circuit is configured and arranged to change an enabled path for each rectifying cycle synchronously with a beginning of a particular rectifying cycle of the wireless signal. 15. An apparatus comprising: an antenna configured and arranged to receive a wireless signal; a capacitor configured and arranged to accumulate voltage; and voltage control circuitry including: a first rectifying circuit configured and arranged to rectify the wireless signal received by the antenna and to provide a rectified first signal to an output load, the first rectifying circuit including: a first rectifying path through a first transistor, and configured and arranged to provide the rectified first signal to an output load; and a second rectifying path through a second transistor, and configured and arranged to provide the rectified first signal to the output load; a second rectifying circuit configured and arranged to rectify the wireless signal and to provide the rectified second signal to the capacitor, the second rectifying circuit including: a third rectifying path through a third transistor, and configured and arranged to provide the rectified second signal to the capacitor; and a fourth rectifying path through a fourth transistor, and configured and arranged to provide the rectified second signal to the capacitor; and a control logic circuit configured and arranged to regulate an output voltage at the output load relative to a threshold voltage value, and for each rectifying cycle associated with a half-wave of the wireless signal, determine if the output voltage is below the threshold voltage value; enable, in response to the output voltage being below the threshold voltage value, one of the first and second rectifying paths to provide the rectified first signal to the output load; and enable, in response to the output voltage being above the threshold voltage value, one of the third and fourth rectifying paths to provide the rectified second signal to the capacitor. 16. The apparatus of claim 15 , wherein the control logic circuit is configured and arranged to determine if a value of the output voltage during a first rectifying cycle is below the threshold voltage value, and enable, in response to the value of the output voltage during the first rectifying cycle being below the threshold voltage value, one of the first and second rectifying paths to provide the rectified first signal to the output load for a second rectifying cycle. 17. The apparatus of claim 15 , wherein the control logic circuit is configured and arranged to determine if a value of the ou