Systems and methods for determining the condition of a gas sensor

The invention claimed is: 1. A sensor interface circuit for measuring a gas concentration and an impedance of an electrochemical gas sensor, the sensor interface circuit comprising: an integrated circuit comprising a first node configured to be connected to a first electrode in the electrochemical gas sensor; a first switch located within the integrated circuit, the first switch being configured to connect a first noise-suppression circuit from the first electrode to an electrical reference node in a gas sensing mode and disconnect the first noise-suppression circuit in an impedance testing mode; and bias circuitry configured to provide a bias signal to an electrode in the electrochemical gas sensor, the bias circuitry configured to perform operations comprising: applying a constant bias signal to the first node; and in the impedance testing mode with the constant bias signal being applied, applying a time-varying excitation signal to the first node. 2. The sensor interface circuit of claim 1 , wherein the integrated circuit further comprises a second node configured to be connected to a second electrode of the electrochemical gas sensor. 3. The sensor interface circuit of claim 1 , wherein the first node is configured to be connected to a working electrode of the electrochemical gas sensor and a second node configured to be connected to a reference electrode of the electrochemical gas sensor. 4. The sensor interface circuit of claim 3 , wherein the integrated circuit comprises a third node configured to be connected to a counter electrode of the electrochemical gas sensor. 5. The sensor interface circuit of claim 3 wherein the integrated circuit further comprises a second switch configured to connect a second noise-suppression circuit from the reference electrode to the electrical reference node while the integrated circuit is in a gas sensing mode. 6. The sensor interface circuit of claim 5 , wherein the first switch and the second switch are configured to be closed contemporaneously. 7. The sensor interface circuit of claim 5 , wherein the first switch and the second switch are configured to be closed at different times. 8. The sensor interface circuit of claim 4 , wherein the integrated circuit includes a third switch configured to deactivate filter circuitry located within the integrated circuit while the integrated circuit is in an impedance testing mode. 9. The sensor interface circuit of claim 1 , the bias circuitry comprising a biasing amplifier having a first biasing amplifier terminal and a second biasing amplifier terminal, the sensor interface circuit further comprising a damping circuit to connect the first biasing amplifier terminal to the electrical reference node and a damping circuit to connect the second biasing amplifier terminal to the electrical reference node. 10. A system for measuring a gas concentration and an impedance of an electrochemical gas sensor, the system comprising: means for, in a gas sensing mode, connecting a first noise-suppression circuit between a first electrode of an electrochemical gas sensor and an electrical reference node, and, in an impedance testing mode, disconnecting the first noise-suppression circuit; means for applying a specified bias signal to the electrochemical gas sensor; and means for, in the impedance testing mode, applying a time-varying signal to the electrochemical gas sensor, the applying of the time-varying signal being while the specified bias signal is being applied. 11. The system of claim 10 , wherein the first noise-suppression circuit is connected between a working electrode of the electrochemical gas sensor and the electrical reference node. 12. The system of claim 10 , further comprising means for, in the gas sensing mode, connecting a second noise-suppression circuit between a second electrode of the electrochemical gas sensor and the electrical reference node and, in the impedance testing mode, disconnecting the second noise-suppression circuit. 13. The system of claim 12 , wherein the first noise-suppression circuit and the second noise-suppression circuit are disconnected contemporaneously. 14. The system of claim 12 , wherein the first noise-suppression circuit and the second noise-suppression circuit are disconnected at different times. 15. The system of claim 10 , further comprising means for, in the gas sensing mode, connecting a second noise-suppression circuit between a reference electrode of the electrochemical gas sensor and the electrical reference node and, in the impedance testing mode, disconnecting the second noise-suppression circuit. 16. The system of claim 10 , further comprising means for deactivating filter circuitry in the impedance testing mode. 17. The system of claim 10 , further comprising a damping circuit positioned between the means for applying the specified bias signal and the electrical reference node. 18. A circuit for controlling an electrochemical gas sensor, comprising: a first switch configured to: in a gas sensing mode, connect a first noise-suppression circuit between a first electrode of the electrochemical gas sensor and an electrical reference node; and in an impedance testing mode, disconnect the first noise-suppression circuit; bias circuitry to provide a bias signal to the electrochemical gas sensor, the bias circuit configured to perform operations comprising: applying a constant bias signal to the electrochemical gas sensor; and in the impedance testing mode and while the constant bias signal is being applied to the electrochemical gas sensor, applying a time-varying excitation signal to the electrochemical gas sensor. 19. The circuit of claim 18 , wherein the first switch is configured to connect the first noise-suppression circuit between a working electrode of the electrochemical gas sensor and the electrical reference node. 20. The circuit of claim 19 , further comprising a second switch configured to: in the gas sensing mode, connect a second noise-suppression circuit from a reference electrode of the electrochemical gas sensor to the electrical reference node; and in the impedance testing mode, disconnect the second noise-suppression circuit.