Low power externally biased power-on-reset circuit

What is claimed is: 1. A power-on-reset circuit for generating a power-on-reset signal upon detecting that a supply voltage has reached a desired level comprising: a sense circuit comprising: (i) an inverter powered by a known bias voltage; (ii) a feedback circuit powered by the supply voltage; and (iii) an output node of the sense circuit that experiences a voltage transition when the supply voltage has reached the desired level; and a delayed buffer coupled to the output node of the sense circuit that generates the power-on-reset signal in response to the voltage transition; wherein the feedback circuit shuts off the sense circuit in response to the voltage transition; wherein the power-on-reset circuit generates the power-on-reset signal for a local system; and wherein the known bias voltage is provided by an external system; the sense circuit further comprising: a voltage divider coupled to the supply voltage and providing a divided voltage to an inverter input node; wherein the inverter comprises an inverter output node and the inverter input node; and wherein the inverter output node is the output node of the sense circuit; the voltage divider comprising: a first transistor that is gate coupled to the inverter input node, and that provides a first source-drain path between the supply voltage and the inverter input node; and a second transistor that is gate coupled to the inverter input node, and that provides a second source-drain path along a circuit branch between the input of the inverter and a ground node. 2. The power-on-reset circuit of claim 1 , the inverter comprising: a third transistor that is source coupled to the known bias voltage; and a fourth transistor that is source coupled to the ground node; wherein the first and third transistors are sized equivalently; and wherein the second transistor has one of: a width that is wider than the fourth transistor and a length that is shorter than the fourth transistor. 3. The power-on-reset circuit of claim 1 , the feedback circuit comprising: a fifth transistor that is gate coupled to the inverter output node and that provides a fifth source-drain path between the supply voltage and the inverter input node; and a sixth transistor that is gate coupled to the inverter output node and that provides a sixth source-drain path along the circuit branch between the second transistor and the ground node. 4. A power-on-reset circuit for generating a power-on-reset signal upon detecting that a supply voltage has reached a desired level comprising: a sense circuit comprising: (i) an inverter powered by a known bias voltage; (ii) a feedback circuit powered by the supply voltage; and (iii) an output node of the sense circuit that experiences a voltage transition when the supply voltage has reached the desired level; and a delayed buffer coupled to the output node of the sense circuit that generates the power-on-reset signal in response to the voltage transition; wherein the feedback circuit shuts off the sense circuit in response to the voltage transition; wherein the power-on-reset circuit generates the power-on-reset signal for a local system; and wherein the known bias voltage is provided by an external system, the delayed buffer comprising: a first sub-inverter that is input coupled to the output node of the sense circuit, and output coupled to a capacitive delay node; a second sub-inverter that is input coupled to the capacitive delay node, and output coupled to a second sub-inverter output node; a first transistor that is gate coupled to the inverter output node, and source coupled to the known bias voltage; a second transistor that is gate coupled to the second sub-inverter output node and drain coupled to the capacitive delay node; and a capacitive delay element coupled to the capacitive delay node; wherein a drain of the first transistor is coupled to a source of the second transistor; and wherein a delay period of the delayed buffer is set by the capacitive delay element. 5. The power-on-reset circuit of claim 4 , wherein: the power-on-reset signal rises to the known bias voltage in response to the voltage transition on the output node of the sense circuit after the delay period; and the power-on-reset circuit is immune to brown outs on the supply voltage. 6. A power-on-reset circuit: an inverter that is powered by an external power source and that outputs a signal when a supply voltage exceeds the external power source; a delayed buffer that is operatively coupled to an inverter output node of the inverter to receive the signal from the inverter; a feedback circuit; and a voltage divider coupled to the supply voltage, an inverter input node of the inverter, and the feedback circuit; wherein the feedback circuit isolates the voltage divider from ground and couples the voltage divider to the supply voltage in response to the signal; and wherein the delayed buffer generates a power-on-reset signal in response to the signal, the voltage divider further comprising: a first transistor that is gate coupled to the inverter input node, and that provides a first source-drain path between the supply voltage and the inverter input node; and a second transistor that is gate coupled to the inverter input node, and that provides a second source-drain path along a circuit branch between the input of the inverter and a ground node. 7. The power-on-reset circuit of claim 6 , the inverter comprising: a third transistor that is source coupled to the external power source; and a fourth transistor that is source coupled to the ground node; wherein the first and third transistors are sized equivalently; and wherein the second transistor has one of: a width that is wider than the fourth transistor and a length that is shorter than the fourth transistor. 8. The power-on-reset circuit of claim 6 , the feedback circuit comprising: a fifth transistor that is gate coupled to the inverter input node and that provides a fifth source-drain path between the supply voltage and the inverter input node; and a sixth transistor that is gate coupled to the inverter output node and that provides a sixth source-drain path along the circuit branch between the second transistor and the ground node. 9. A power-on-reset circuit: an inverter that is powered by an external power source and that outputs a signal when a supply voltage exceeds the external power source; a delayed buffer that is operatively coupled to an inverter output node of the inverter to receive the signal from the inverter; a feedback circuit; and a voltage divider coupled to the supply voltage, an inverter input node of the inverter, and the feedback circuit; wherein the feedback circuit isolates the voltage divider from ground and couples the voltage divider to the supply voltage in response to the signal; and wherein the delayed buffer generates a power-on-reset signal in response to the signal, the voltage divider further comprising: a first resistor coupled between the external power source and the inverter input node; and a second resistor forming a conductive path on a circuit branch between the inverter input node and a ground node, the feedback circuit comprising: a first transistor that is gate coupled to the inverter output node and that provides a first source-drain path between the supply voltage and the inverter input node; and a second transistor that is gate coupled to the inverter output node and that provides a second source-drain path along the circuit branch between the second resistor and the ground node. 10. A power-on-reset circuit: an inverter that is powered by an external power source and that outputs a signal when a supply voltage exceeds the e