Protection circuits for tunable resistor at continuous-time ADC input

What is claimed is: 1. A method for protecting a tunable resistor circuit at an input of an analog-to-digital converter (ADC), the method comprising: generating a first voltage and a second voltage based on a voltage at a summing node of an operational amplifier of the ADC; and driving a transistor coupled to a resistor slice of the tunable resistor circuit with the first voltage to switch in the resistor slice; wherein the transistor is coupled to the summing node and the resistor slice is coupled to an input terminal of the ADC and the transistor. 2. The method of claim 1 , further comprising: driving the transistor with the second voltage to switch out the resistor slice. 3. The method of claim 1 , wherein: generating the first voltage comprises shifting the voltage at the summing node by a first DC voltage shift. 4. The method of claim 2 , wherein: generating the second voltage comprises shifting the voltage at the summing node by a second DC voltage shift. 5. The method of claim 2 , wherein: generating the first voltage comprises up shifting the voltage at the summing node up by a first voltage shift; and generating the second voltage comprises down shifting the voltage at the summing node down by a second voltage shift. 6. The method of claim 2 , wherein: driving the transistor with the first voltage turns on the transistor; and driving the transistor with the second voltage turns off the transistor. 7. The method of claim 1 , wherein: switching the resistor slice in and out adjusts an overall resistance of the tunable resistor circuit. 8. The method of claim 2 , wherein: the voltage at the summing node deviates in response to an overload condition at the input of the ADC; and the first voltage and the second voltage follow the voltage at the summing node to limit gate to drain voltage and gate to source voltage of the transistor. 9. A tunable resistor circuit at an input of an analog-to-digital converter (ADC), the tunable resistor comprising: resistor slices in parallel, wherein each resistor slice is coupled to an input terminal of the ADC; transistors coupled to respective resistor slices and a summing node of an operational amplifier of the ADC for switching the resistor slices in and out of the tunable resistor circuit; and drivers coupled to respective transistors for generating on and off voltages for the transistors from a voltage at the summing node. 10. The tunable resistor circuit of claim 9 , wherein the on voltage turns on a first transistor of the transistors and switches a first resistor slice of the resistor slices in, and the off voltage turns off the first transistor and switches the first resistor slice out. 11. The tunable resistor circuit of claim 9 , wherein: the on voltage is the voltage at the summing node plus a first voltage shift; and the off voltage is the voltage at the summing node minus a second voltage shift. 12. The tunable resistor circuit of claim 9 , wherein a first driver of the drivers comprises: a first voltage generator for generating the on voltage and shifting the voltage at the summing node by a first voltage shift; and a second voltage generator for generating the off voltage and shifting the voltage at the summing node by a second voltage shift. 13. The tunable resistor circuit of claim 12 , wherein the first driver further comprises a buffer for buffering the voltage at the summing node and providing a buffered voltage to the first and second voltage generators. 14. The tunable resistor circuit of claim 9 , wherein: the voltage at the summing node deviates during an overload condition at the input terminal of the ADC; and the on and off voltages follow the voltage at the summing node. 15. The tunable resistor circuit of claim 12 , wherein the first voltage generator and the second voltage generator comprise source followers coupled to the summing node. 16. The tunable resistor circuit of claim 9 , wherein: a first resistor slice of the resistor slices is coupled to a drain of a first transistor of the transistors; a source of the first transistor of the transistors is coupled to the summing node; and a gate of the first transistor is coupled to a first driver of the drivers. 17. The tunable resistor circuit of claim 9 , wherein maximum allowable terminal-to-terminal voltage specification of the transistors is less than or equal to 1 volt. 18. The tunable resistor circuit of claim 9 , wherein the ADC is a continuous time delta-sigma ADC. 19. The tunable resistor circuit of claim 9 , wherein the ADC is a continuous time pipeline ADC. 20. An apparatus comprising: a tunable resistor circuit having parallel resistor slices and corresponding switches, said tunable resistor circuit being coupled to an input of an ADC and a summing node of an operational amplifier of the ADC; and means for generating voltages for controlling on and off states of the switches, wherein the voltages follow a voltage of the summing node.