Optical sensor for range finding and wind sensing measurements

What is claimed is: 1. An optical sensor comprising: a photodiode configured to receive detect light shone on the optical sensor; an electrical switch configured to toggle an output of the photodiode between a first electrical node and a second electrical node; a trans-impedance amplifier (TIA) comprising: an input connected with the first electrical node; and an output connected with a first output of the optical sensor; and a capacitive trans-impedance amplifier (CTIA) comprising: an input connected with the second electrical node; and an output connected with a second output of the optical sensor. 2. The optical sensor of claim 1 , wherein the CTIA further comprises an integration reset input connected with a third output of the optical sensor, the integration reset input enabling an integration performed by the CTIA to be reset. 3. The optical sensor of claim 1 , wherein the photodiode comprises a PIN diode. 4. The optical sensor of claim 3 , wherein the photodiode comprises an InGaS PIN diode. 5. The optical sensor of claim 1 , wherein the photodiode comprises a flip-chip diode. 6. The optical sensor of claim 1 , wherein the electrical switch, the TIA, and the CTIA compose at least part of an application-specific integrated circuit (ASIC). 7. An optical sensor package comprising: a body having electrical pins coupled thereto and housing a photodiode and electrical circuitry, wherein: the body further comprises a window and the photodiode is positioned within the body such that at least a portion of light passing through the window will shine on the photodiode; the electrical circuitry comprises: an electrical switch configured to toggle an output of the photodiode between a first electrical node and a second electrical node; a trans-impedance amplifier (TIA) comprising: an input connected with the first electrical node; and an output connected with a first output of the optical sensor; and a capacitive trans-impedance amplifier (CTIA) comprising: an input connected with the second electrical node; and an output connected with a second output of the optical sensor. 8. The optical sensor package of claim 7 , wherein the CTIA further comprises an integration reset input connected with a third output of the optical sensor, the integration reset input enabling an integration performed by the CTIA to be reset. 9. The optical sensor package claim 7 , wherein the photodiode comprises a PIN diode. 10. The optical sensor package of claim 7 , wherein the body is hermetically sealed. 11. The optical sensor package of claim 7 , wherein the photodiode is disposed on a pedestal mounted on a circuit board within the body. 12. The optical sensor package of claim 7 , wherein the electrical switch, the TIA, and the CTIA compose at least part of an application-specific integrated circuit (ASIC), disposed within the body. 13. A method of operating an optical sensor, the method comprising: using a switch within electrical circuitry of the optical sensor to cause the optical sensor to operate in a first mode, wherein, in the first mode: an output of a photodiode of the optical sensor is provided to a trans-impedance amplifier (TIA) via the switch, and an output of the TIA is connected with a first output of the optical sensor; and using the switch to cause the optical sensor to operate in a second mode, wherein, in the second mode: the output of the photodiode of the optical sensor is provided to a capacitive trans-impedance amplifier (CTIA) via the switch, and an output of the CTIA is connected with a second output of the optical sensor. 14. The method of operating a dual-mode optical sensor of claim 13 , further comprising causing an integration performed by the CTIA to be reset based on an input received at the optical sensor. 15. The method of operating a dual-mode optical sensor of claim 13 , further comprising providing output signals of the TIA and output signals of the CTIA to a first analog-to-digital converter (ADC) and a second ADC, respectively. 16. The method of operating a dual-mode optical sensor of claim 15 , further comprising determining a range measurement based on output signals of the first ADC. 17. The method of operating a dual-mode optical sensor of claim 16 , further comprising causing determining a ballistic solution based on the range measurement. 18. The method of operating a dual-mode optical sensor of claim 15 , further comprising causing determining a crosswind measurement based on output signals of the second ADC. 19. The method of operating a dual-mode optical sensor of claim 18 , further comprising causing determining a ballistic solution based on the crosswind measurement.