LASER TRIGGER FOR CHRONOGRAPH

I finished this laser wall trigger for my HIGH RESOLUTION AND ACCURACY CHRONOGRAPH. The purpose of this device is to generate the trigger start and stop impulses for my chronograph as soon as an object disrupts any of the laser beams.

LASER TRIGGER FOR CHRONOGRAPH

So if I have two laser walls (with one or more laser beams on each of the walls) and they are placed at a given distance from each other, as soon as an object crosses the first laser beams a start impulse will be generated and the chronograph will start counting. Then as soon as the object crosses the second laser beams a new impulse will be generated and the chronograph will stop counting.

For testing purposes I printed two small frames on my 3D printer and built the laser walls. Because the laser diode casings are larger than the beam I put them in two rows in such an order that there is no space between the beams which guarantees me that even small objects will be detected.

The schematic consists of power supply module and comparators module.

The power supply is high efficiency switching regulator that is set to 4 volts output. The cheap laser diodes found in Interned are rated for 5 volts but there is a current limiting resistor that starts heating quite a lot at 5 volts, so to lower the heat generation in those resistors I set the output to 4 volts.

As indicated on the PCB L1PS and L2PS are the outputs for the laser diodes supply. L1 and L2 are the inputs from the photodiodes. S1OUT and S2OUT are the outputs for the impulses that go to the chronograph.

As shown on the drawing further above all phototransistors are connected in series and as long as the laser beam is illuminating them they are open and conducting. In reality they are never fully open and there’s quite a voltage present between Q1 and R5. This voltage is compared by a comparator with an adjustable reference voltage. So when any of the laser beams is interrupted and the corresponding transistor is switched off, the voltage at the point Q1-R5 rises and if it gets above the reference voltage then, the comparator toggles its output. As shown on the schematic RV1 and RV2 are potentiometer dividers that set the reference voltages for the corresponding comparator.

For example in the following test picture I measured the velocity of a grain that was “shot” or blown through a straw. In the picture S1=3.95v is the voltage at point Q1-R5 and therefore I set the comparator reference level C1=4.16v. Respectively for the second sensor the voltage at point Q1-R5 was S2=4.04v and the comparator reference level was C2=4.19v. So when the grain crossed the first wall the voltage at S1 rose briefly above the reference level C1 and this triggered an impulse at the comparator output, which on its turn started the chronograph. The same happened for the second wall when the grain crossed it and this impulse stopped the chronograph.

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