Systems, devices, and methods for laser projectors

The invention claimed is: 1. A laser projector comprising: at least one laser diode; a power source; a photodetector responsive to laser light output by the at least one laser diode; a current sensor responsive to electric current output by the power source; a beam splitter positioned and oriented to direct a first portion of laser light from the at least one laser diode along a first optical path towards the photodetector and a second portion of laser light from the at least one laser diode along a second optical path towards an output of the laser projector; a first laser safety circuit communicatively coupled to the photodetector and responsive to signals therefrom, the first laser safety circuit comprising a first switch that mediates an electrical coupling between the power source and the at least one laser diode, wherein in response to a signal from the photodetector indicative that a power of the laser light output by the at least one laser diode exceeds a first threshold, the first switch interrupts a supply of power to the at least one laser diode from the power source; a second laser safety circuit communicatively coupled to the current sensor and responsive to signals therefrom, the second laser safety circuit comprising a second switch that mediates electrical coupling between the power source and the at least one laser diode, wherein in response to a signal from the current sensor indicative that an electric current output by the power source exceeds a second threshold, the second switch interrupts a supply of power to the at least one laser diode from the power source; a processor communicatively coupled to the at least one laser diode and to both the first laser safety circuit and the second laser safety circuit, the processor to modulate the at least one laser diode; and a non-transitory processor-readable storage medium communicatively coupled to the processor, wherein, in response to either a signal from the photodetector indicative that a power of the laser light output by the at least one laser diode exceeds a first threshold or a signal from the current sensor indicative that an electric current output by the power source exceeds a second threshold: the processor stops modulating the at least one laser diode; the processor stores a flag in the non-transitory processor-readable storage medium; and upon boot-up of the laser projector, the processor accesses the non-transitory processor-readable storage medium to check for the flag, wherein in response to the processor finding the flag stored in the non-transitory processor-readable storage medium the processor prevents modulations of the at least one laser diode. 2. The laser projector of claim 1 wherein the first laser safety circuit further includes a first latch that is communicatively coupled to the photodetector and to the first switch, and wherein: a state of the first latch is responsive to signals from the photodetector and the first switch is responsive to the state of the first latch; the state of the first latch changes from a first state to a second state in response to the signal from the photodetector indicative that the power of the laser light output by the at least one laser diode exceeds the first threshold; and the first switch interrupts the supply of power to the at least one laser diode from the power source in response to the state of the first latch changing from the first state to the second state. 3. The laser projector of claim 2 wherein the first latch is operable to store a current state selected from the first state and the second state and maintain the current state during a reboot event. 4. The laser projector of claim 2 wherein the processor is communicatively coupled to the first latch and wherein, in response to the first latch being in the second state, the processor stops modulating the at least one laser diode and prevents further modulations of the at least one laser diode. 5. The laser projector of claim 4 wherein in response to the first latch being in the second state, the processor stores a flag in the non-transitory processor-readable storage medium. 6. The laser projector of claim 1 wherein the second laser safety circuit further includes a second latch that is communicatively coupled to the current sensor and to the second switch, and wherein: a state of the second latch is responsive to signals from the current sensor and the second switch is responsive to the state of the second latch; the state of the second latch changes from a first state to a second state in response to the signal from the current sensor indicative that the electric current output by the power source exceeds the second threshold; and the second switch interrupts the supply of power to the at least one laser diode from the power source in response to the state of the second latch changing from the first state to the second state. 7. The laser projector of claim 6 wherein the second latch is operable to store a current state selected from the first state and the second state and maintain the current state during a reboot event. 8. The laser projector of claim 6 wherein the processor is communicatively coupled to the second latch, and wherein, in response to the second latch being in the second state, the processor stops modulating the at least one laser diode and prevents further modulations of the at least one laser diode. 9. The laser projector of claim 8 wherein in response to second latch being in the second state the processor stores a flag in the non-transitory processor-readable storage medium. 10. The laser projector of claim 6 , further comprising: a digital potentiometer to set the second threshold; and a comparator communicatively coupled to the digital potentiometer and communicatively coupled in between the current sensor and the second latch, the comparator to compare signals from the current sensor to the second threshold set by the digital potentiometer and to control the state of the second latch based on a comparison between at least one signal from the current sensor and the second threshold set by the digital potentiometer. 11. The laser projector of claim 1 wherein the second laser safety circuit further includes a digital potentiometer to set the second threshold.