Voltage regulator with stability compensation

What is claimed is: 1. A system comprising: a voltage regulating circuit including a pass element configured to provide a regulated voltage to a load; and a compensation circuit configured to adjust a variable resistance based on a current of the load, wherein the compensation circuit comprises: a current controlled voltage source comprising a first transistor coupled with the pass element, where a current that flows through the first transistor corresponds to the current of the load, and a first resistor, coupled between the first transistor and a ground, to provide a current controlled voltage that adjusts the variable resistance based on the current that flows through the first transistor, a capacitor coupled with a gate terminal of the pass element and a gate terminal of the first transistor, a second transistor coupled in series between the capacitor and the ground to provide the variable resistance in accordance with the current controlled voltage received at a gate terminal of the second transistor, wherein the first resistor is coupled between the gate terminal of the second transistor and the ground, and a second resistor coupled in parallel with the second transistor, the second resistor being coupled with the ground, and wherein at least the capacitor, the second transistor, and the second resistor reduce a sensitivity of the system to variations in the current of the load. 2. The system of claim 1 , wherein the first transistor is a NMOS (n-channel Metal Oxide Semiconductor) transistor. 3. The system of claim 1 , wherein: the voltage regulating circuit has a transfer function that has a pole defined at least partly by a capacitance and a resistance of the load; and the compensation circuit adds a zero into the transfer function to compensate for the pole. 4. The system of claim 1 , wherein the voltage regulating circuit is a low-dropout voltage regulating circuit. 5. The system of claim 1 , wherein the first resistor is coupled between a drain terminal of the first transistor and the ground, and wherein the gate terminal of the second transistor is coupled with the drain terminal of the first transistor. 6. The system of claim 1 , wherein the first resistor is coupled between a source terminal of the first transistor and the ground, and wherein the gate terminal of the second transistor is coupled with the source terminal of the first transistor. 7. The system of claim 1 , wherein the first transistor is a PMOS (p-channel Metal Oxide Semiconductor) transistor. 8. A system comprising: a load; and a voltage regulator coupled with the load and configured to provide a regulated supply voltage to the load, the voltage regulator comprising: a voltage regulating circuit including a pass element configured to provide the regulated supply voltage to the load, and a compensation circuit configured to adjust a variable resistance based on a current of the load, wherein the compensation circuit comprises: a current controlled voltage source comprising a first transistor coupled with the pass element, where a current that flows through the first transistor corresponds to the current of the load, and a first resistor coupled between the first transistor and a ground to provide a current controlled voltage that adjusts the variable resistance based on the current that flows through the first transistor, a capacitor coupled with a gate terminal of the pass element and a gate terminal of the first transistor, a second transistor coupled in series between the capacitor and the ground to provide the variable resistance in accordance with the current controlled voltage received at a gate terminal of the second transistor, wherein the first resistor is coupled between the gate terminal of the second transistor and the ground, a second resistor coupled in parallel with the second transistor, the second resistor being coupled with the ground, and wherein at least the capacitor, the second transistor, and the second resistor reduce a sensitivity of the system to variations in the current of the load. 9. The system of claim 8 , wherein the first transistor is one of a NMOS (n-channel Metal Oxide Semiconductor) transistor or a PMOS (p-channel Metal Oxide Semiconductor) transistor. 10. The system of claim 8 , wherein: the voltage regulating circuit has a transfer function that has a pole defined at least partly by a capacitance and a resistance of the load; and the compensation circuit adds a zero into the transfer function to compensate for the pole. 11. The system of claim 8 , wherein the voltage regulating circuit is a low-dropout voltage regulating circuit. 12. The system of claim 8 , wherein the first resistor is coupled between a non-gate terminal of the first transistor and the ground, and wherein the gate terminal of the second transistor is coupled with the non-gate terminal of the first transistor. 13. The system of claim 12 , wherein the non-gate terminal of the first transistor is a drain terminal of the first transistor. 14. The system of claim 12 , wherein the non-gate terminal of the first transistor is a source terminal of the first transistor. 15. A method comprising: providing, at a source terminal or a drain terminal of a pass element, a regulated voltage to a load; while providing the regulated voltage, determining a current of the load; adjusting a variable resistance based on the determined current of the load, the variable resistance being coupled to a gate terminal of the pass element through a capacitor; providing, through a first transistor coupled with the pass element, a current corresponding to the determined current of the load; and providing, via a first resistor coupled between the first transistor and a ground, a current controlled voltage that adjusts the variable resistance based on the current flowing through the first transistor, wherein adjusting the variable resistance comprises: receiving the current controlled voltage at a gate terminal of a second transistor provided by the first resistor coupled between the gate terminal of the second transistor and the ground, providing, by the second transistor, the variable resistance in accordance with the current controlled voltage, the second transistor being coupled in series between the capacitor and the ground, and reducing a sensitivity to variations in the determined current of the load based on the capacitor, the second transistor, and a second resistor, the second resistor being coupled in parallel with the second transistor, and the second resistor being coupled with the ground. 16. The method of claim 15 , wherein the first transistor is one of a NMOS (n-channel Metal Oxide Semiconductor) transistor or a PMOS (p-channel Metal Oxide Semiconductor) transistor. 17. The method of claim 15 , further comprising: adding a zero into a transfer function of a voltage regulation circuit, which generates the regulated voltage, to compensate for a pole based in part on the variable resistance, wherein the pole is defined at least partly by a capacitance and a resistance of the load. 18. The method of claim 15 , wherein providing the regulated voltage comprises: providing a regulated voltage at an output of a low-dropout voltage regulator.