Multi-dynamic-range sensor

What is claimed is: 1. A respiration sensing system for sensing respiration of a patient, the respiration sensing system comprising: a sensing element configured to sense a respiration flow rate, the sensing element configured to provide an analog output signal that is related to the sensed respiration flow rate; a first channel configured to receive the analog output signal from the sensing element, the first channel including a first amplifier having a first gain and a first offset for providing a first amplified output signal to a first Analog-to-Digital Converter (ADC), the first amplifier in combination with the first Analog-to-Digital Converter (ADC) providing a first digital output signal that has a first dynamic range and a first resolution, the first resolution corresponding to a quantization of the first dynamic range using a first quantization level of the first ADC, wherein the first amplified output signal is offset, wherein the first ADC is included within the respiration sensing system; a second channel configured to receive the analog output signal from the sensing element, the second channel including a second amplifier having a second gain different from the first gain for providing a second amplified output signal to a second Analog-to-Digital Converter (ADC), the second amplifier in combination with the second Analog-to-Digital Converter (ADC) providing a second digital output signal that has a second dynamic range and a second resolution, the second resolution corresponding to a quantization of the second dynamic range using a second quantization level of the second ADC, and wherein the second dynamic range is narrower than the first dynamic range, and the second resolution is higher than the first resolution, wherein the second amplified output signal is offset, wherein the second ADC is included within the respiration sensing system; an output selector, formed as an integrated circuit, configured to receive the analog output signal from the sensing element and output the first digital output signal or the second digital output signal according to the analog output signal received by the output selector, wherein the output selector is configured to select and output the second digital output signal if the analog output signal is within the dynamic range of the second ADC and to select and output the first digital output signal if the analog output signal is outside the dynamic range of the second ADC; wherein the output selector is configured to receive the first digital output signal for all analog output signals over the entire first dynamic range, and wherein the output selector is configured to receive the second digital output signal for all analog output signals over the entire second dynamic range; and wherein the first offset and the second offset are adjustable and are configured to cause a level shift and/or a gain shift in the first channel and/or the second channel. 2. The respiration sensing system of claim 1 , wherein the second dynamic range is a subset of the first dynamic range. 3. The respiration sensing system of claim 1 , wherein a number of bits of the quantization level of the first ADC is the same as a number of bits of the quantization level of the second ADC. 4. The respiration sensing system of claim 1 , further comprising a third channel configured to receive the analog output signal from the sensing element, the third channel including a third Analog-to-Digital Converter (ADC) and providing a third digital output signal that has a third dynamic range different than the first and second dynamic ranges. 5. The respiration sensing system of claim 1 , wherein the first dynamic range and/or the second dynamic range is dynamically reconfigurable. 6. The respiration sensing system of claim 1 , further comprising signal processing electronics configured to perform linearization, temperature compensation, calibration, and/or translation on the first digital output signal and the second digital output signal; and wherein the first gain is equal to one. 7. A flow sensing system for sensing a fluid flow in a fluid stream, the flow sensing system comprising: a sensing element configured to sense a fluid flow in a fluid stream, the sensing element configured to provide an analog output signal that is related to the sensed fluid flow; a first channel configured to receive the analog output signal from the sensing element, the first channel including a first amplifier having a first offset, provided in the first amplifier, for providing a first amplified output signal to a first Analog-to-Digital Converter (ADC), the first amplifier in combination with the first Analog-to-Digital Converter (ADC) providing a first digital output signal that has a first dynamic range, wherein the first amplified output signal is offset, wherein the first ADC is included within the flow sensing system; and a second channel configured to receive the analog output signal from the sensing element, the second channel including a second amplifier having a second offset, provided in the second amplifier, different from the first offset for providing a second amplified output signal to a second Analog-to-Digital Converter (ADC), the second amplifier in combination with the second Analog-to-Digital Converter (ADC) configured to provide a second digital output signal that has a second dynamic range, wherein the second amplified output signal is offset, wherein the second ADC is included within the flow sensing system; and an output selector, formed as an integrated circuit, configured to receive the analog output signal from the sensing element and select and output either the first digital output signal or the second digital output signal according to the analog output signal. received by the output selector, wherein: the second dynamic range is narrower than the first dynamic range, the second dynamic range falls within or substantially falls within the first dynamic range, and a starting value of the first dynamic range is different than starting value of the second dynamic range as dictated by the first offset and the second offset; wherein the first digital output signal has a first resolution corresponding to a quantization of the first dynamic range and the second digital output signal has a second resolution corresponding to a quantization of the second dynamic range, wherein the second resolution is greater than the first resolution; wherein the first offset and the second offset are adjustable and are configured to cause a level shift and/or a gain shift in the first channel and/or the second channel; and wherein the output selector is configured to select and output one of the first digital output signal or the second digital output signal based on the analog output signal from the sensing element. 8. The flow sensing system of claim 7 , further comprising a third channel configured to receive the analog output signal from the sensing element, the third channel including a third amplifier having a third offset for providing a third amplified output signal to a third ADC, the third amplifier and the third ADC configured to provide a third digital output signal that has a third dynamic range different than the first dynamic range and the second dynamic range. 9. The flow sensing system of claim 7 , wherein the quantization levels of the first ADC and the second ADC correspond to a common number of bits. 10. The flow sensing system of claim 7 , wherein the sensing element includes a heat source and a number of temperature sensors. 11. The flow sensing system of claim 10 , wherein at least one of the temperature sensors is positioned upstream of the heat source and at least one of th