Systems and methods for calibrating, operating, and setting a laser diode in a weapon

What is claimed is: 1. A weapon that cooperates with a provided tester, the weapon comprising: a processing circuit; a laser diode; and a memory having computer-executable instructions stored thereon that, in response to execution by the processing circuit, cause the weapon to: provide a first signal at a first duty cycle to set an operating point of the laser diode; provide a second signal at a second duty cycle, the second signal turns the laser diode on and off in accordance with the second duty cycle to establish a power of a light provided by the laser diode during a period of the second signal; receive a message from the tester regarding a magnitude of the power as measured by the tester; compare the magnitude of the power to a predetermined range; adjust at least one of the first duty cycle and the second duty cycle responsive to the comparison; and repeat receive, compare, and adjust until the magnitude of the power is within the predetermined range. 2. The weapon of claim 1 wherein the second duty cycle is about 50 percent. 3. The weapon of claim 1 wherein a second active edge of the second signal is synchronous with a first active edge of the first signal. 4. The weapon of claim 1 wherein the second signal is generated from the first signal using a divide-by-two counter. 5. The weapon of claim 1 further comprising a photo diode and a resistor coupled to the photo diode, wherein: a current through the photo diode is related to the magnitude of the power; a voltage across the resistor is related to the current; and the computer-executable instructions further cause the weapon to: record a magnitude of the voltage in the memory whereby the magnitude of the voltage relates to the predetermined range. 6. The weapon of claim 5 further comprising a capacitor in parallel with the resistor, wherein a time constant of the capacitor and the resistor is greater than the period. 7. A method performed by a weapon for calibrating an operation of a laser diode of the weapon, the method comprising: providing a first signal at a first duty cycle to set an operating point of the laser diode; providing a second signal at a second duty cycle to turn the laser diode on and off in accordance with the second duty cycle to establish a power of a light provided by the laser diode during a period of the second signal; receiving a message from a tester regarding a magnitude of the power as measured by the tester; comparing the magnitude of the power to a predetermined range; responsive to comparing, adjusting at least one of the first duty cycle and the second duty cycle; and repeating receiving, comparing, and adjusting until the magnitude of the power is within the predetermined range. 8. The method of claim 7 wherein providing the first signal comprises providing the first signal to a boost circuit to set the operating point of the laser diode. 9. The method of claim 7 wherein providing the second signal comprises operating a switch to: prohibit flow of a current through the laser diode while the laser diode is off; and permit flow of the current through the laser diode while the laser diode is on. 10. The method of claim 7 wherein adjusting comprises changing at least one of the first duty cycle and the second duty cycle to increase the magnitude of the power of the light when the magnitude of the power of the light as measured by the tester is less than a minimum magnitude. 11. The method of claim 7 wherein adjusting comprises changing at least one of the first duty cycle and the second duty cycle to increase the magnitude of the power of the light when the magnitude of the power of the light as measured by the tester is greater than a maximum magnitude. 12. A weapon that cooperates with a provided tester, the weapon comprising: a processing circuit; and a laser diode that provides a light; wherein the processing circuit: provides a first signal at a first duty cycle to establish a flow of a first current through the laser diode, while the first current flows through the laser diode, the laser diode provides the light at a first power; provides a second signal at a second duty cycle to enable and disable the flow of the first current through the laser diode to establish a second power of the light during a period of the second signal; receives a message from the tester regarding a magnitude of the second power as measured by the tester; compares the magnitude of the second power to a predetermined range; adjusts at least one of the first duty cycle and the second duty cycle responsive to the comparison; and repeats receiving, comparing, and adjusting until the magnitude of the second power is within the predetermined range. 13. The weapon of claim 12 wherein the tester measures a magnitude of the light provided by the laser diode over two or more periods of the second signal to determine the magnitude of the second power. 14. The weapon of claim 12 further comprising a resistor, a photo diode, and a memory, wherein: the resistor is coupled in series with the photo diode; the photo diode provides a second current that is related to the magnitude of the second power of the light; a voltage across the resistor is related to a magnitude of the second current; and when the processing circuit determines that the second power is within the predetermined range, the processing circuit records a magnitude of voltage in the memory. 15. The weapon of claim 14 further comprising a capacitor in parallel with the resistor wherein a time constant of the capacitor and the resistor is greater than the period. 16. The weapon of claim 12 wherein the second duty cycle is about 50 percent.