Capacitive-coupled chopper instrumentation amplifiers and associated methods

What is claimed is: 1. A capacitive-coupled chopper instrumentation amplifier (CCIA), comprising: a first chopper; a first gain stage; a capacitive isolation stage electrically coupled between inputs of the first gain stage and the first chopper; a second gain stage; a second chopper electrically coupled between outputs of the first gain stage and inputs of the second gain stage; clamping circuitry electrically coupled between the inputs of the first gain stage and a reference voltage rail, the clamping circuitry configured to clamp the inputs of the first gain stage to the reference voltage rail in response to assertion of a control signal; and a controller configured to: detect a change in a first common-mode voltage exceeding a threshold value, the first common-mode voltage being a common-mode voltage at inputs of the CCIA, and in response to detecting the change in the first common-mode voltage exceeding the threshold value, assert the control signal to cause the clamping circuitry to clamp the inputs of the first gain stage to the reference voltage rail. 2. The CCIA of claim 1 , further comprising first switching circuitry configured to electrically isolate the inputs of the first gain stage from the inputs of the CCIA when the clamping circuitry clamps the inputs of the first gain stage to the reference voltage rail. 3. The CCIA of claim 1 , wherein the controller is further configured to assert the control signal in response to detecting a change in slew rate of the first common-mode voltage exceeding the threshold value. 4. The CCIA of claim 1 , further comprising auto-zeroing circuitry electrically coupled to the outputs of the first gain stage. 5. The CCIA of claim 4 , wherein the auto-zeroing circuitry is configured to inject current at the outputs of the first gain stage to compensate for ripple induced by the first and second choppers. 6. The CCIA of claim 4 , wherein the auto-zeroing circuit comprises: a third gain stage including outputs electrically coupled to the outputs of the first gain stage; first and second auto-zeroing capacitors electrically coupled to inputs of the third gain stage; and respective first and second auto-zeroing switching devices electrically coupled between the first and second auto-zeroing capacitors and the outputs of the first gain stage. 7. The CCIA of claim 4 , wherein the controller is further configured to cause the auto-zeroing circuitry to sample the outputs of the first gain stage when the clamping circuitry clamps the inputs of the first gain stage to the reference voltage rail. 8. The CCIA of claim 1 , wherein the clamping circuitry comprises a plurality of switching devices configured to electrically clamp the inputs of the first gain stage to the reference voltage rail in response to assertion of the control signal. 9. The CCIA of claim 1 further comprising second switching circuitry configured to electrically isolate the inputs of the second gain stage from the outputs of the first gain stage when the clamping circuitry clamps the inputs of the first gain stage to the reference voltage rail. 10. The CCIA of claim 1 wherein the controller is further configured to cause each of the first and second choppers to repeatedly switch between a respective first operating state and a respective second operating state. 11. The CCIA of claim 1 , the reference voltage rail being at a fixed electrical potential. 12. A method for reducing common-mode settling of a capacitive-coupled chopper instrumentation amplifier (CCIA), comprising: detecting a change in a first common-mode voltage exceeding a threshold value, the first common-mode voltage being a common-mode voltage at inputs of the CCIA; and in response to detecting the change in the first common-mode voltage exceeding the threshold value, asserting a control signal; and in response to assertion of the control signal, electrically isolating inputs of a first gain stage of the CCIA from inputs of the CCIA. 13. The method of claim 12 , further comprising, in response to detecting the change in the first common-mode voltage exceeding the threshold value, clamping the inputs of the first gain stage to a reference voltage rail. 14. The method of claim 12 , wherein the step of detecting the change in the first common-mode voltage exceeding the threshold value comprises detecting a change in slew rate of the first common-mode voltage exceeding the threshold value. 15. The method of claim 12 , further comprising injecting current at outputs of the first gain stage to compensate for ripple induced by first and second choppers of the CCIA. 16. The method of claim 15 , further comprising sampling the outputs of the first gain stage when clamping the inputs of the first gain stage to the reference voltage rail, to determine magnitude of current to inject at the outputs of the first gain stage to compensate for ripple induced by the first and second choppers of the CCIA. 17. The method of claim 13 , further comprising electrically isolating inputs of a second gain stage of the CCIA from the outputs of the first gain stage, when clamping the inputs of the first gain stage to the reference voltage rail. 18. The method of claim 13 , wherein each the step of clamping comprises electrically coupling the inputs of the first gain stage to the reference voltage rail using a plurality of switching devices, in response to assertion of the control signal. 19. The method of claim 12 , further comprising causing each of first and second choppers of the CCIA to repeatedly switch between a respective first operating state and a respective second operating state. 20. A capacitive-coupled amplifier, comprising: a capacitive isolation stage; a gain stage communicatively coupled to the capacitive isolation stage; switching circuitry configured to electrically isolate the gain stage from inputs of the amplifier; and a controller configured to: detect a change in a first common-mode voltage exceeding a threshold value, the first common-mode voltage being a common-mode voltage at the inputs of the amplifier, and in response to detecting the change in the first common-mode voltage exceeding the threshold value, asserting a control signal to cause the switching circuitry to electrically isolate the gain stage from the inputs of the amplifier.