Methods and apparatus for monitoring a level of a regulated source

What is claimed is: 1. A monitor circuit for monitoring a current level of a first regulated current and a second regulated current, the monitor circuit comprising: a first current regulator configured to generate the first regulated current; a second current regulator configured to generate the second regulated current; a first resistor divider coupled to the first current regulator; a second resistor divider coupled to the second current regulator; a first comparator having a first input coupled to receive a signal proportional to the first regulated current and having a second input coupled to the second resistor divider, the first comparator configured to generate a first error signal indicative of at least one of an overcurrent condition of the first regulated current and an undercurrent condition of the second regulated current; and a second comparator having a first input coupled to receive a signal proportional to the second regulated current and having a second input coupled to the first resistor divider, the second comparator configured generate a second error signal indicative of at least one of an undercurrent condition of the first regulated current and an overcurrent condition of the second regulated current. 2. The monitor circuit of claim 1 , wherein the first resistor divider and the second resistor divider are substantially the same. 3. The monitor circuit of claim 1 , wherein at least one of the first and second comparators has hysteresis. 4. The monitor circuit of claim 1 , wherein the first regulated current and the second regulated current are substantially the same. 5. The monitor circuit of claim 1 , wherein the monitor circuit is provided on an integrated circuit. 6. The monitor circuit of claim 5 , wherein the integrated circuit is a magnetic field sensor. 7. The monitor circuit of claim 6 , wherein the magnetic field sensor comprises at least one Hall effect element. 8. The monitor circuit of claim 7 , wherein the at least one Hall effect element is a planar Hall element, a vertical Hall element, or a Circular Vertical Hall (CVH) element. 9. The monitor circuit of claim 7 , wherein the magnetic field sensor comprises at least one magnetoresistance element. 10. The monitor circuit of claim 9 , 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. 11. The monitor circuit of claim 5 , wherein the integrated circuit comprises a controller responsive to the first error signal and the second error signal to generate an error output signal indicative of one or more of the overcurrent condition of the first regulated current, the undercurrent condition of the second regulated current, the undercurrent condition of the first regulated current, and the overcurrent condition of the second regulated current. 12. The monitor circuit of claim 1 , wherein the monitor circuit and at least one of the first current regulator and the second current regulator are provided on an integrated circuit. 13. A monitor circuit for monitoring a current level of a first regulated current and a second regulated current, the monitor circuit comprising: a first comparator having a first input coupled to a divided version of the first regulated current and a second input coupled to a divided version of the second regulated current to generate a first error signal indicative of at least one of an overcurrent condition of the first regulated current and an undercurrent condition of the second regulated current; a second comparator having a first input coupled to a divided version of the first regulated current and a second input coupled to a divided version of the second regulated current to generate a second error signal indicative of at least one of an undercurrent condition of the first regulated current and an overcurrent condition of the second regulated current; a first resistor divider coupled to the first regulated current to generate a first voltage, wherein the first input of the first comparator is coupled to the first voltage, wherein the first resistor divider is coupled to the first comparator and to the second comparator; and a second resistor divider coupled to the second regulated current to generate a second voltage, wherein the second input of the second comparator is coupled to the second voltage, wherein the second resistor divider is coupled to the first comparator and to the second comparator. 14. The monitor circuit of claim 13 , wherein the first resistor divider and the second resistor divider are substantially the same. 15. The monitor circuit of claim 13 , wherein at least one of the first and second comparators has hysteresis. 16. The monitor circuit of claim 1 , wherein the first regulated current and the second regulated current are substantially the same. 17. The monitor circuit of claim 1 , wherein the monitor circuit is provided on an integrated circuit. 18. The monitor circuit of claim 17 , wherein the integrated circuit is a magnetic field sensor. 19. The monitor circuit of claim 18 , wherein the magnetic field sensor comprises at least one Hall effect element. 20. The monitor circuit of claim 19 , wherein the at least one Hall effect element is a planar Hall element, a vertical Hall element, or a Circular Vertical Hall (CVH) element. 21. The monitor circuit of claim 19 , wherein the magnetic field sensor comprises at least one magnetoresistance element. 22. The monitor circuit of claim 21 , 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. 23. The monitor circuit of claim 17 , wherein the integrated circuit comprises a controller responsive to the first error signal and the second error signal to generate an error output signal indicative of one or more of the overcurrent condition of the first regulated current, the undercurrent condition of the second regulated current, the undercurrent condition of the first regulated current, and the overcurrent condition of the second regulated current. 24. The monitor circuit of claim 13 , wherein the monitor circuit and at least one of the first current regulator and the second current regulator are provided on an integrated circuit.