Methods and apparatus for monitoring a level of a regulated source

What is claimed is: 1. A monitor circuit for monitoring a voltage level of a first regulated voltage and a second regulated voltage, the monitor circuit comprising: at least two multiplexers, each having a first input responsive to the first regulated voltage, a second input responsive to the second regulated voltage, and a third input responsive to a threshold voltage and an output at which a selected one of the first regulated voltage, the second regulated voltage and the threshold voltage is provided; and a comparator having a first input responsive to the output of a first one of the multiplexers, a second input responsive to the output of a second one of the multiplexers, and an output at which an error signal is provided, wherein the error signal is indicative of a selected one of an overvoltage condition of the first regulated voltage, an undervoltage condition of the second regulated voltage, an undervoltage condition of the first regulated voltage, and an overvoltage condition of the second regulated voltage, wherein the first regulated voltage is generated by a first regulator and the second regulated voltage is generated by a second regulator. 2. The monitor circuit of claim 1 , wherein the comparator is powered by a third regulated voltage, wherein the threshold voltage is generated from the third regulated voltage. 3. The monitor circuit of claim 2 , wherein the output of each of the multiplexers is controlled by one or more control signals received from a controller. 4. The monitor circuit of claim 1 , wherein the monitor circuit is provided on an integrated circuit. 5. The monitor circuit of claim 4 , wherein the integrated circuit is a magnetic field sensor. 6. The monitor circuit of claim 5 , wherein the magnetic field sensor comprises at least one Hall effect element. 7. The monitor circuit of claim 6 , wherein the at least one Hall effect element is a planar Hall element, a vertical Hall element, or a Circular Vertical Hall (CVH) element. 8. The monitor circuit of claim 5 , wherein the magnetic field sensor comprises at least one magnetoresistance element. 9. The monitor circuit of claim 8 , wherein the at least one magnetoresistance element is an anisotropic magnetoresistance (AMR) element, a giant magnetoresistance (GMR) element, a tunneling magnetoresistance (TMR) element, a magnetic tunnel junction (MTJ) element, or a spin valve element. 10. A monitor circuit for monitoring a voltage level of a first regulated voltage and a second regulated voltage, the monitor circuit comprising: a first multiplexer coupled to receive the first regulated voltage, the second regulated voltage, and a first threshold voltage; a second multiplexer coupled to receive the first regulated voltage, the second regulated voltage, and a second threshold voltage; and a comparator coupled to a first output of the first multiplexer and a second output of the second multiplexer, the comparator configured to generate an error signal indicative of a selected one of an overvoltage condition of the first regulated voltage, an undervoltage condition of the second regulated voltage, an undervoltage condition of the first regulated voltage, and an overvoltage condition of the second regulated voltage, wherein the first regulated voltage is generated by a first regulator and the second regulated voltage is generated by a second regulator. 11. The monitor circuit of claim 10 , wherein each multiplexer is configured to provide a selected one of the first regulated voltage, the second regulated voltage, or the received threshold voltage at the output of the respective multiplexer. 12. The monitor circuit of claim 10 , wherein the first threshold voltage is different than the second threshold voltage. 13. The monitor circuit of claim 10 , wherein the first and second threshold voltages are provided by a third regulated voltage. 14. The monitor circuit of claim 10 , wherein the monitor circuit is provided on an integrated circuit (IC), and wherein the IC is a magnetic field sensor. 15. The monitor circuit of claim 14 , wherein the magnetic field sensor comprises at least one Hall effect element or at least one magnetoresistance element. 16. A method for monitoring a voltage level of a first regulated voltage and a second regulated voltage, the method comprising: receiving, at a first multiplexer, the first regulated voltage, the second regulated voltage, and a first threshold voltage; receiving, at a second multiplexer, the first regulated voltage, the second regulated voltage, and a second threshold voltage; receiving, at inputs of a comparator coupled to a first output of the first multiplexer and a second output of the second multiplexer, selected ones of the first regulated voltage, the second regulated voltage, the first threshold voltage, or the second threshold voltage as output by the first multiplexer and the second multiplexer; and comparing, by the comparator, the first output of the first multiplexer to the second output of the second multiplexer to provide an error signal indicative of a selected one of an overvoltage condition of the first regulated voltage, an undervoltage condition of the second regulated voltage, an undervoltage condition of the first regulated voltage, and an overvoltage condition of the second regulated voltage, wherein the first regulated voltage is generated by a first regulator and the second regulated voltage is generated by a second regulator. 17. The method of claim 16 , wherein comparing the first output to the second output comprises: comparing the first regulated voltage to the first threshold voltage to generate a first error signal indicative of an overvoltage condition of the first regulated voltage; comparing the first regulated voltage to the second threshold voltage to generate a second error signal indicative of an undervoltage condition of the first regulated voltage; comparing the second regulated voltage to the first threshold voltage to generate a third error signal indicative of an overvoltage condition of the second regulated voltage; and comparing the second regulated voltage to the second threshold voltage to generate a fourth error signal indicative of an overvoltage condition of the second regulated voltage.