Laser Distance Measurer: Difference between revisions
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[circuit diagram] | [circuit diagram] | ||
Procedure: | |||
31/1 Researched several sensor cases and finalized the laser distance measurer. | |||
6/2 | |||
21/2 amplifier | |||
7/3 pic and scale | |||
14/3 circuit | |||
21/3 laser circuit | |||
25/3 laser structure | |||
28/3 choice of detector | |||
4/4 delay time data | |||
9/4 try to scale time with distance | |||
11/4 sliding rail | |||
15/4 add mirror | |||
22/4 | |||
Revision as of 15:54, 24 April 2025
Team members: Arya Chowdhury, Liu Sijin, Jonathan Wong
This project aims to build a laser interferometer that measures short distances (i.e., within a room).
Components:
- Laser diode (source)
- Function generator
- Band pass filter
- Photodiode detector
- Amplifier
- (Optional - Arduino board)
Theory / Principle: Light emitted from a laser can be used to measure distances via phase shift detection. Our setup consists of a laser diode (which serves as a light source) with a given frequency (or wavelength) and amplitude. The reflection of the light off a surface serves as a phase shift operation on the incident light. Hence, if we compare the incident light wave to the reflected light wave, we can meausre such a phase shift and therefore calculate the distance.
The detector consists of a photodiode to receive the reflecting light and a circuit to power the photodiode and output the signal. By supplying the dector with a certain voltage, we can construct the circuit as the below diagram and measure the signal via the difference in voltage.
[circuit diagram]
Procedure: 31/1 Researched several sensor cases and finalized the laser distance measurer. 6/2 21/2 amplifier 7/3 pic and scale 14/3 circuit 21/3 laser circuit 25/3 laser structure 28/3 choice of detector 4/4 delay time data 9/4 try to scale time with distance 11/4 sliding rail 15/4 add mirror 22/4
