I'm currently trying to characterise a NIR 940nm laser device that I have recently made. The main thing I want to achieve is to see if the laser is truly doing what the enable signal told it to.
I began with a rather slow square wave - 10Hz at 50% duty cycle. I used a ThorLabs DET08CL photodetector that is pointed directly at the laser, with its output connected to an oscilloscope.
I was expecting some square waves on the scope, instead I got this:
The rising edge seemed all good, yet it doesn't stay high for half the period. Instead it begins to fall, where the falling doesn't look like a normal "1ns fall time" per datasheet. My guess was that the optical feedback coming from the laser, reflected by the photodiode may cause it, but I was unsure.
Please let me know if you think this is a good way of characterising the laser waveform, or if you have better ideas.
- Additional info: I convinced myself that the laser is functional, through a less reliable method: I replaced the photodetector with an IR visualizer card, and further dropped the square wave frequency to 1Hz at 50% duty cycle. I could tell that the visualizer flashes, with each blink approxiamtely 0.5 second, with bare eyes. If what's from the oscilloscope was true, I believe that the blinks on the visualizer would be too fast to be captured by eyes. Hence seeking improvements on the photodiode setup, or alternatives.
