Controller for a voltage converter

The invention claimed is: 1. A pump comprising: a control module for a voltage converter, the control module comprising: an input configured to connect to an AC mains supply having an AC mains operating voltage range; a first AC mains detector configured to detect the AC mains operating voltage range of the AC mains supply and generate a first control signal to identify the detected AC mains operating voltage range; a second AC mains detector configured to detect the AC mains operating voltage range of the AC mains supply and generate a second control signal to identify the detected AC mains operating voltage range, wherein the first AC mains detector and the second AC mains detector are electrically connected to the input in parallel; and at least two switches configured to receive the first control signal and the second control signal and at least one of selectively enable or selectively disable a voltage multiplier in response to the first and second control signals and enable the voltage converter to output a DC voltage to an inverter. 2. The pump of claim 1 , wherein the at least two switches are configured to at least one of selectively enable or disable the voltage multiplier only when the first and second control signals both identify the same detected AC mains operating voltage range. 3. The pump of claim 1 , wherein the at least two switches are configured to selectively enable the voltage multiplier when the first control signal and the second control signal both identify a low detected AC mains operating voltage range. 4. The pump of claim 1 , wherein the at least two switches are configured to selectively disable the voltage multiplier when the first control signal and the second control signal both indicate that the AC mains supply voltage is in a high AC mains operating voltage range. 5. The pump of claim 1 , wherein the first AC mains detector and the second AC mains detector are operable independently of each other, and wherein the first AC mains detector and the second AC mains detector detect the AC mains operating voltage range simultaneously. 6. The pump of claim 1 , wherein the first detector is implemented in hardware, and wherein the second detector is implemented in a combination of hardware and firmware. 7. The pump of claim 1 , further comprising at least one of a first latch for latching the first control signal or a second latch for latching the second control signal. 8. The pump of claim 1 , further comprising a hysteresis control configured to control at least one of the first control signal or the second control signal. 9. The pump of claim 1 , further comprising a disarming circuit configured to disable the control module during power-up. 10. The pump of claim 1 , wherein a first switch of the at least two is associated with the first AC mains detector and a second switch of the one or more switches is associated with the second AC mains detector. 11. The pump of claim 1 , wherein the voltage multiplier comprises a voltage doubler. 12. A pump comprising: a voltage converter, the voltage converter comprising: a voltage multiplier; a control module comprising: an input configured to connect to an AC mains supply having an AC mains operating voltage range; a first AC mains detector configured to detect the AC mains operating voltage range of the AC mains supply and generate a first control signal to identify the detected AC mains operating voltage range; a second AC mains detector configured to detect the AC mains operating voltage range of the AC mains supply and generate a second control signal to identify the detected AC mains operating voltage range, wherein the first AC mains detector and the second AC mains detector are electrically connected to the input in parallel; at least two switches configured to receive the first control signal and the second control signal and at least one of selectively enable or selectively disable the voltage multiplier in response to the first and second control signals; and an output configured to supply a DC voltage to an inverter. 13. A method of controlling a voltage converter for a pump, the method comprising: receiving, by an input, an AC mains supply having an AC mains operating voltage range; detecting, by a first AC mains detector, the operating voltage range of the AC mains supply; generating, by the first AC mains detector, a first control signal to identify the detected AC mains operating voltage range; detecting, by a second AC mains detector, the AC mains operating voltage range of the AC mains supply, wherein the first AC mains detector and the second AC mains detector are connected to the input; generating, by the second AC mains detector, a second control signal to identify the detected AC mains operating voltage range; at least one of selectively enabling or disabling, by at least two switches, a voltage multiplier in response to the first and second control signals; and supplying, by the voltage converter, a DC voltage to an inverter. 14. The method of claim 13 , wherein the at least one of selectively enabling or disabling the voltage multiplier comprises at least one of selectively enabling or disabling the voltage multiplier only when the first and second control signals both identify the same detected AC mains operating voltage range. 15. The method of claim 13 , wherein the at least one of selectively enabling or disabling the voltage multiplier comprises at least one of selectively enabling the voltage multiplier when the first control signal and the second control signal both indicate that the AC mains supply voltage is in a low AC mains operating voltage range. 16. A pump comprising: a voltage multiplier control circuit, the voltage multiplier control circuit comprising: a first AC mains voltage level detector configured to detect an AC mains operating voltage range of an AC mains supply; a signal generator configured to generate a first control signal to identify the AC mains operating voltage range detected by the first AC mains voltage level detector; a second AC mains voltage level detector configured to detect the AC mains operating voltage range of the AC mains supply a second signal generator configured to generate a second control signal to identify the AC mains operating voltage range detected by the second AC mains voltage level detector; and at least two switches configured to receive the first control signal and the second control signal and at least one of enable or disable a voltage multiplier in response to the control signal and enable the voltage converter to output a DC voltage to an inverter. 17. The pump of claim 16 , further comprising a hysteresis circuit configured to control the control signal. 18. The pump of claim 16 , further comprising a disarming circuit configured to disable the control module during power-up. 19. The pump of claim 18 , wherein the hysteresis circuit comprises a hardware circuit, and wherein the disarming circuit comprises a hardware circuit. 20. The pump of claim 16 , wherein the voltage multiplier control circuit is implemented in hardware. 21. The pump of claim 16 , further comprising a peak detector configured to detect the peak voltage of the AC mains supply and output a signal to the voltage level detector. 22. The pump of claim 21 , further comprising a feedback buffer configured to protect the signal output by the peak detector. 23. A pump comprising: a control module for a voltag