Dual-voltage detector having disable outputs within separate voltage domain and related methods

What is claimed is: 1. A dual-voltage detector, comprising: a control input configured to receive a control signal from a first voltage domain, the control signal indicating whether or not a supply voltage for the first voltage domain is stable; a first disable output configured to have a first set of voltage levels including a voltage level when the control signal indicates that the supply voltage is stable and a different voltage level when the control signal indicates that the supply voltage is not stable, the voltage levels being in a second voltage domain; a second disable output configured to have a second set of voltage levels including a voltage level when the control signal indicates that the supply voltage is stable and a different voltage level when the control signal indicates that the supply voltage is not stable, the voltage levels being in the second voltage domain; a resistor divider coupled between a supply voltage level for the second voltage domain and a second node; and a switch coupled between the second node and ground, the switch providing the control input and being controlled by the control signal; wherein an internal node within the resistor divider is used to provide the first disable output and the second node is used to provide the second disable output. 2. The dual-voltage detector of claim 1 , further comprising a bias transistor coupled between a first node and the second node, and wherein the resistor divider is coupled between the supply voltage level and the first node. 3. The dual-voltage detector of claim 1 , wherein the first disable output is configured to have a first voltage level when the control signal indicates that the supply voltage is not stable and a second voltage level when the control signal indicates that the supply voltage is stable; and wherein the second disable output is configured to have the second voltage level when the control signal indicates that the supply voltage is not stable and a third voltage level when the control signal indicates that the supply voltage is stable; wherein the first voltage level, the second voltage level, and the third voltage level are in the second voltage domain; and wherein the first voltage level is higher than the second voltage level and the second voltage level is higher than the third voltage level. 4. The dual-voltage detector of claim 1 , wherein the first voltage domain is configured to be used for core functions within an integrated circuit, and wherein the second voltage domain is configured to be used for input/output circuitry. 5. The dual-voltage detector of claim 1 , wherein the switch is configured to turn on when the control signal indicates that the supply voltage is stable and to turn off when the control signal indicates the supply voltage is not stable. 6. The dual-voltage detector of claim 1 , further comprising a first set of two inverters coupled to the internal node and configured to provide the first disable output and a second set of two inverters coupled to the second node and configured to provide the second disable output. 7. The dual-voltage detector of claim 6 , further comprising a feedback transistor coupled to a first of the second set of two inverters. 8. A system, comprising a power management controller configured to receive a supply voltage for a first voltage domain and to output a control signal indicating whether or not the supply voltage for the first voltage domain is stable; a dual-voltage detector configured to receive the control signal from the first voltage domain and to assert a plurality of disable outputs when the control signal indicates that the supply voltage for the first voltage domain is not stable, the disable outputs being within a second voltage domain; and at least one input/output cell configured to receive the disable outputs and to have a high impedance state when the disable outputs are asserted; wherein the dual-voltage detector comprises: a control input configured to receive the control signal; a first disable output configured to have a first set of voltage levels including a voltage level if the control signal indicates that the supply voltage is stable and a different voltage level if the control signal indicates that the supply voltage is not stable, the voltage levels being in the second voltage domain; a second disable output configured to have a second set of voltage levels including a voltage level if the control signal indicates that the supply voltage is stable and a different voltage level if the control signal indicates that the supply voltage is not stable, the voltage levels being in the second voltage domain; a resistor divider coupled between a supply voltage level for the second voltage domain and a second node; and a switch coupled between the second node and ground, the switch providing the control input and being controlled by the control signal; wherein an internal node within the resistor divider is used to provide the first disable output and the second node is used to provide the second disable output. 9. The system of claim 8 , wherein the at least one input/output cell comprises a stacked output driver controlled by a pull-up side control signal and a pull-down side control signal. 10. The system of claim 8 , wherein the first voltage domain is configured to be used for core functions within an integrated circuit, and wherein the second voltage domain is configured to be used for input/output circuitry. 11. The system of claim 8 , further comprising a bias transistor coupled between a first node and the second node, and wherein the resistor divider is coupled between the supply voltage level and the first node. 12. The system of claim 8 , wherein the first disable output is configured to have a first voltage level when the control signal indicates that the supply voltage is not stable and a second voltage level when the control signal indicates that the supply voltage is stable; and wherein the second disable output is configured to have the second voltage level when the control signal indicates that the supply voltage is not stable and a third voltage level when the control signal indicates that the supply voltage is stable; wherein the first voltage level, the second voltage level, and the third voltage level are in the second voltage domain; and wherein the first voltage level is higher than the second voltage level and the second voltage level is higher than the third voltage level. 13. The system of claim 8 , wherein the switch is configured to turn on when the control signal indicates that the supply voltage is stable and to turn off when the control signal indicates the supply voltage is not stable. 14. A method, comprising: receiving a control signal indicating whether or not a supply voltage for a first voltage domain is stable; asserting first and second disable outputs when the control signal indicates that the supply voltage for the first voltage domain is not stable, the disable outputs being within a second voltage domain; and using a resistor divider, a bias transistor, and a switch coupled between a supply voltage level for the second voltage domain and ground to generate the first and second disable outputs, the switch receiving the control signal; wherein the first disable output has a first set of voltage levels including a voltage level when the control signal indicates that the supply voltage is stable and a different voltage level when the control signal indicates that the supply voltage is not stable; wherein the second disable output has a second set of voltage levels including a voltage level when the