Multipurpose sensor port

What is claimed is: 1. A method of adapting communications between a patient monitoring device and either an analog physiological sensor or a digital data source, the method comprising: providing a sensor port configured to couple the analog physiological sensor or the digital data source with the patient monitoring device; detecting, by the sensor port, whether the analog physiological sensor or the digital data source is connected to the sensor port; when said analog physiological sensor is detected: transmitting, via the sensor port, analog drive signals to the analog physiological sensor, and communicating, via the sensor port and a data path between the sensor port and a signal processor of the patient monitoring device, analog signals indicative of light that has been attenuated by body tissue; and when said digital data source is detected: transmitting, via the sensor port and communicating, via the data path, digital data between the digital data source and the patient monitor; wherein no hardware modification is required between the sensor port and the signal processor in the patient monitoring device to enable transmission of the analog signals and the digital data over the same data path between the sensor port and the signal processor. 2. The method of claim 1 wherein transmitting and communicating digital data further comprises: transmitting upgrade firmware to the patient monitoring device; and upgrading the firmware of the patient monitoring device. 3. The method of claim 2 wherein transmitting and communicating digital data further comprises connecting the sensor port to a non-volatile memory module storing said upgrade firmware. 4. The method of claim 2 wherein transmitting and communicating digital data further comprises connecting the sensor port to a PC storing said upgrade firmware. 5. The method of claim 1 wherein the digital data comprises measurement data. 6. The method of claim 1 wherein transmitting and communicating digital data further comprises: connecting the sensor port to a PC; and providing signal level, mechanical, and communication protocol compliance to the output of the PC through the sensor port interface. 7. The method of claim 1 wherein the transmitting and communicating digital data further comprises: connecting a digital physiological sensor to the sensor port; communicating a drive signal through the interface to the physiological sensor; and generating raw digital data by means of the physiological sensor; and communicating the raw digital data through the interface to the sensor port of the patient monitoring device. 8. The method of claim 1 wherein transmitting and communicating digital data further comprises connecting the sensor port to a wireless data device. 9. A system of adapting communications between a patient monitoring device and either an analog physiological sensor or a digital data source, the system comprising: a sensor port configured to couple the analog physiological sensor or the digital data source with the patient monitoring device; a signal processor of the patient monitoring device; a data path comprising a plurality of conductors connecting the sensor port and the signal processor; and a reader configured to detect whether the analog physiological sensor or the digital data source is connected to the sensor port and responsive to the detection, to enable transmission of either analog drive signals to the analog physiological sensor and analog signals indicative of light that has been attenuated by body tissue via the data path or transmission of digital data between the sensor port and the signal processor via the data path without hardware modification between the sensor port and the signal processor. 10. The system of claim 9 , wherein the digital data source comprises firmware upgrade data. 11. The system of claim 9 , wherein the digital data source comprises raw digital physiological data.