Voltage regulator having circuitry responsive to load transients

The invention claimed is: 1. A voltage regulator, comprising: a pass transistor configured to generate a voltage drop between an input and an output of the voltage regulator based on a signal at a controlling terminal; a differential amplifier configured to output a signal to the controlling terminal of the pass transistor; and a transient compensation circuit configured to adjust an offset of the differential amplifier based on the signal at the controlling terminal of the pass transistor in response to a load transient. 2. The voltage regulator according to claim 1 , wherein the offset is adjusted to prevent the pass transistor from being turned fully OFF. 3. The voltage regulator according to claim 1 , wherein the differential amplifier includes a compensation capacitor and the offset is adjusted to prevent the compensation capacitor from being fully discharged or from being charged in an opposite polarity. 4. The voltage regulator according to claim 1 , wherein the differential amplifier includes a differential pair of transistors receiving a first portion and a second portion of a bias current, the first portion and the second portion being equal when an output voltage is equal to a reference level and the first portion and the second portion being not equal when the output voltage is above the reference level. 5. The voltage regulator according to claim 4 , wherein the transient compensation circuit includes a bypass transistor configured to conduct a third portion of the bias current when the output voltage is above the reference level and not conduct when the output voltage equal to the reference level. 6. The voltage regulator according to claim 5 , wherein the differential pair of transistors are each a first size and the bypass transistor is a second size smaller than the first size. 7. The voltage regulator according to claim 6 , wherein the offset is adjusted by a level of the third portion, which corresponds to a size ratio of the first size to the second size. 8. The voltage regulator according to claim 1 , wherein the voltage regulator is a dual-rail linear voltage regulator. 9. The voltage regulator according to claim 8 , wherein the pass transistor is a N-type metal oxide semiconductor transistor and the controlling terminal is a gate terminal. 10. The voltage regulator according to claim 1 , wherein the offset is adjusted to decrease a delay in a response of the voltage regulator to a load-transient in back-to-back load transients. 11. The voltage regulator according to claim 10 , wherein the delay corresponds to a time necessary to re-charge a compensation capacitor. 12. The voltage regulator according to claim 10 , wherein a decrease of the delay in the response of the voltage regulator to the load transient corresponds to a reduction of an amplitude of the load transient. 13. The voltage regulator according to claim 12 , wherein the load transient is an undershoot of an output voltage of the voltage regulator. 14. The voltage regulator according to claim 1 , wherein the differential amplifier includes three stages. 15. The voltage regulator according to claim 14 , wherein: a first stage of the three stages includes a first bias current source, a differential pair of transistors, and a current mirror, a first transistor of the differential pair of transistors receiving a reference voltage from a reference voltage source and a second transistor of the differential pair of transistors receiving an output voltage from the output of the voltage regulator; a second stage of the three stages includes a second bias current source, a transistor amplifier, and a compensation capacitor that is coupled between a drain of the transistor amplifier and a gate of the transistor amplifier; and a third stage of the three stages includes a unity gain buffer amplifier that is coupled between the drain of the transistor amplifier and the controlling terminal of the pass transistor. 16. The voltage regulator according to claim 15 , wherein the first stage, the second stage, and the third stage are powered by a bias voltage at a bias terminal of the voltage regulator. 17. A method for responding to back-to-back load transients in a voltage regulator, the method comprising: sensing a voltage of a gate terminal of a pass transistor of the voltage regulator; determining that a first load transient has created an elevated output voltage at an output of the voltage regulator; adjusting an offset of an output of a differential amplifier coupled to the gate terminal of the pass transistor to prevent a difference between the elevated output voltage and a reference level from grounding the gate terminal of the pass transistor; and preventing the pass transistor from turning OFF completely in response to the first load transient so that the voltage regulator can respond more quickly to a second load transient, the first load transient and the second load transient being back-to-back transients. 18. The method for responding to back-to-back load transients in a voltage regulator according to claim 17 , wherein: preventing the pass transistor from turning OFF completely prevents a compensation capacitor of the voltage regulator from being charged in a polarity opposite to a polarity required for regulation. 19. A system comprising: a load configured to generate a load transient; and a dual-rail linear voltage regulator configured to supply an output voltage and output current to the load at an output, the dual-rail linear voltage regulator including: a pass transistor configured to generate a voltage drop between an input and the output based on an error signal at a controlling terminal; a differential amplifier configured to generate the error signal based on a difference between the output voltage and a reference level, the load transient causing a temporary change in the output voltage; and a transient compensation circuit configured to adjust an offset of the error signal to an adjusted value to prevent the temporary change in the output voltage from turning the pass transistor completely OFF. 20. The system according to claim 19 , wherein the transient compensation circuit is further configured to return the offset of the error signal to a normal value when the temporary change in the output voltage recovers to a regulated level.