System and method for automatically adjusting gas sensor settings and parameters

What is claimed is: 1. A system for configuring a sensor for detecting the presence of a gas, the system comprising: a transmitter portion including a transmitter processor; a sensor portion including a sensor processor, the sensor processor being in communication with the transmitter processor using digital communication; and a variable voltage supply associated with the transmitter portion and the sensor portion, the variable voltage supply including a plurality of potentiometers, each of the plurality of potentiometers configured to adjust an operating voltage that is output to the sensor portion for operation of the sensor; the sensor processor being configured to communicate a stored voltage value for operation of the sensor to the transmitter processor using the digital communication; and the transmitter processor being configured to set at least one of the plurality of potentiometers to at least one value to provide, to the sensor portion, an operating voltage for operation of the sensor that corresponds to the the stored voltage value. 2. The system of claim 1 , the variable voltage supply comprising the plurality of potentiometers to enable course and fine voltage adjustment. 3. The system of claim 1 , wherein the transmitter portion is further configured to transmit information received from the sensor portion to a wired or wireless network, the transmitted information including an identity of at least one sensed gas and a concentration of the at least one second gas. 4. The system of claim 1 , wherein the transmitter processor of the transmitter portion is further configured to: obtain a zero offset for a first gain setting and a second gain setting; and scale a calibration factor by a ratio of the first gain setting and the second gain setting to allow the sensor to operate in a plurality of ranges, each range corresponding to a different scaling of the calibration factor by the ratio. 5. The system of claim 1 , wherein the transmitter processor of the transmitter portion is configured to adjust a gain built into the transmitter processor to change a sensing range of the sensor. 6. A method for adjusting sensor excitation voltage, comprising: receiving, at a transmitter portion including a transmitter processor, a stored voltage value for operation of the sensor from a sensor processor of a sensor portion of a gas sensing system that is in digital communication with the transmitter portion; providing, at the transmitter portion, an operating voltage corresponding to the stored voltage value to the sensor portion; receiving, at the transmitter portion, the stored voltage value indicating a voltage for operation of the sensor portion; and automatically adjusting, at the transmitter portion, the operating voltage provided to the sensor portion using at least one of a first and second potentiometers of a plurality of potentiometers of a variable voltage supply. 7. The method of claim 6 , further comprising: using the first potentiometer for coarse voltage adjustment and using the second potentiometer for fine voltage adjustment; and transmitting information received from the sensor portion to a wired or wireless network, the transmitted information including an identity of at least one sensed gas and a concentration of the at least one sensed gas. 8. A universal gas sensor/transmitter unit, comprising: a transmitter portion having a recess configured to engage a sensor portion configured to sense gas, the transmitter portion including a transmitter processor and at least one power supply circuit for providing adjustable power to the sensor portion when the sensor portion is engaged with the recess of the transmitter portion; the sensor portion including a sensor processor configured to communicate a stored voltage value for operation of the sensor to the transmitter processor using digital communication; and the power supply circuit including a plurality of potentiometers controllable by the transmitter processor to automatically adjust the power supplied to the sensor portion for operation of the sensor, the transmitter processor configured to set at least one of the plurality of potentiometers to a value to provide, to the sensor portion, an operating voltage for operation of the sensor that corresponds to the stored voltage value. 9. The universal gas sensor/transmitter unit of claim 8 , wherein the sensor portion further includes an associated memory, the memory including a value representative of an excitation voltage of a sensor kernel of the sensor portion. 10. The universal gas sensor/transmitter of claim 8 , an external surface geometry of the sensor portion having a recess for receiving a seal member to seal the external surface geometry of the sensor portion to the recess of the transmitter portion.