The 8 pins PIC12F683 microcontroller is one of the smallest members of the Microchip 8-bit microcontroller families but equipped with powerful peripherals such as ADC and PWM capabilities. This make this tiny microcontroller is suitable for controlling the DC motor speed. In order to demonstrate the PIC12F683 capabilities and to make this tutorial more attractive, I decided to use the PIC12F683 microcontroller to generate simple and yet fascinating laser light show from a cheap keychain laser pointer.
Building your own Simple Laser Projector using the Microchip PIC12F683 - [Link]
Joe Grand has finished work on his Laser Range Finder (LRF) project. This project, which has been in development in cooperation with Parallax Inc., is now in final beta testing. Check out Joe’s development diary for all the exhaustive details and links to development videos.
Joe reports that after final tweaking is completed, he expects the module should be going into production sometime in July and would be ready for sale through Parallax a few months after that.
Joe Grand’s laser range finder – [Link]
This project is my second one with laser, I had learn many thing from my first green laser projector. Now I had decide to make a professional laser projector with 3 laser of 3 different color, Red, Green and Blue. And with galvos who have better spec. I had buy a 30kpps galvo, a 300mw red, 80mw green and 250mw blue.
RGB Laser Projector - [Link]
A 5-wire unipolar stepper motor (these could also be salvaged from old 5¼” floppy disk drives), ULN2003 IC (stepper motor driver), wire, stripboard (or a solderless breadboard ), solder and DB-25 Male connector (buy these two if you can solder. Soldering is not necessary for doing this project, but it will ensure that your connections are secure), DB25 (female/male) parallel port cable, a multimeter, a power adapter (with voltage rating depending on your motor’s requirements)
Joe Grand of Grand Idea Studio has released the code and complete design files for his open source Laser Position Sensor (LPS) project. The project is based on the Freescale MC9S08JM8CLC and several Linear Technology LT1491ACS op amps.
The Laser Position Sensor (LPS) module is an optical sensor that measures and provides the two-dimensional coordinates of visible red laser light (630-694nm) shined onto its surface. The LPS has a resolution of 0.0001″, an accuracy of 0.001″, and a measurement range of +/-0.2″ (+/-5mm). Applications include positioning and alignment, long-range beam-break/security trip wires, remote device control, data communications, and high-speed photography.
Laser Position Sensor – [Link]
We have had a lot of tutorials on electronic parts and Arduino lately, so we wanted to mix it up with some tutorials on the tools we use here every day at Adafruit. We have a very streamlined operation here and a lot of that has to do with the technology we’ve cooked into the business!
This tutorial is for the barcode scanner we use for shipping invoices as part of our custom shipping system. they can ‘talk’ rs-232 serial, ps/2 or USB so they are possible to connect to an embedded system. we have some usb HID interface example code as well for reading data directly from the barcode scanner.
Barcode scanners for a maker business – [Link]
I have been trying to get my hands on a laser cutter for some time but they always seem out of reach. All the great things that can be done with a real laser cutter tickle the imagination. Now I feel it’s time to share my latest project – a low cost laser engraver, and maybe just have the chance to get my hands on the real thing . The workspace is a bit small but none the less it works and comes so cheap that most will be able to replicate the result. I did take a few shortcuts, as I feel I don’t have the knowledge to do all the electronics I opted for readymade but low cost in favor of trying to make my own (and most likely fail). All parts used are however easy to find.
Pocket laser engraver – [Link]
I have been messing around with a few components and my arduino. I figured out this project last week and just had to share it with all of you. What it is, is a laser beam hitting a photo cell. The arduino reads the photo cell and when it detects the voltage level is below a certain amount, the beam must be broken while sounding an alarm. The alarm stays on until you punch in the code you have set up to the keypad in. Once the correct code is typed in, the arduino turns of the buzzer and gives you 15 seconds ( or what ever you set the delay time to) to reset the laser beam. You are able to change the code if you like. The steps are very easy to follow and i hope everyone makes one!!!
Arduino laser detector with keypad – [Link]
Pete Mills from Ann Arbor, MI, shares his Cigar Box Laser Light Show. [via]
It was spring break last week so I had some spare time to kill. I wanted to do a project that would be done fairly quickly and still have some time to study for classes resuming. I do have several other projects going that I could have worked on but, I figured a laser light show would be appropriate for the occasion, being spring break and all. Actually, I have no idea if spring break party goers are the least bit interested in seeing laser light shows but, I am interested in getting some motors spinning programmatically. And to seal the deal there is a new cat in the mix over here so I have buckets full of laser pointers.
Laser Light Show Fits in a Cigar Box – [Link]
Bart from buildlog.net shares his latest DIY laser cutter design, the 2.X laser. [via]
The second generation open source laser cutter/engraver design from buildlog.net is complete. The new machine is called the Buildlog.net 2.x Laser. The name comes from the fact that this is the second generation machine and it is basically a 2 axis design. The third, vertical axis, is manually controlled with an optional upgrade to digital control. The 2.x Laser takes all the optimizations learned from the first laser and all the other lasers documented on buildlog.net forum.
The usable work envelope is 12” x 20” x 4”. The internal design has been optimized so the overall size of the machine is much smaller than the previous design and can easily fit on a small table. It is designed to work with 40W CO2 lasers sealed gas lasers. The frame is built from inexpensive 20mm aluminum T Slot extrusion and the skin is made from a painted aluminum and HDPE laminate.
Open Source Lasercutter Reaches Version 2 – [Link]