Optical Communication in Free Space: Difference between revisions
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=Milestones= | =Milestones= | ||
==Range== | ==Range== | ||
*Demonstrate point to point communications across a room with Class IIIa lasers and no optics | *Demonstrate point to point communications across a room with Class IIIa lasers and no receiver optics | ||
*Demonstrate point to point communications across a field with Class IIIa lasers and optics present | *Demonstrate point to point communications across a field with Class IIIa lasers and receiver optics present | ||
*Determine distance limitations of point to point communications using Class IIIa lasers | *Determine distance limitations of point to point communications using Class IIIa lasers | ||
*Procure Class IIIb lasers and necessary protective gear and attempt longer range communications | *Procure Class IIIb lasers and necessary protective gear and attempt longer range communications | ||
==Data Transfer== | ==Data Transfer== | ||
===Half Duplex=== | ===Half Duplex=== | ||
Revision as of 20:36, 3 April 2011
Overview
Forum Link http://www.knoxvillehackerspace.com/phpbb/viewtopic.php?f=6&t=13
Milestones
Range
- Demonstrate point to point communications across a room with Class IIIa lasers and no receiver optics
- Demonstrate point to point communications across a field with Class IIIa lasers and receiver optics present
- Determine distance limitations of point to point communications using Class IIIa lasers
- Procure Class IIIb lasers and necessary protective gear and attempt longer range communications
Data Transfer
Half Duplex
- Go/No Go with simple breadboard circuit
- Simple voice communication with modulator and amplifier circuits
- High speed network communications
Full Duplex
- Go/No Go with simple breadboard circuit
- Simple voice communication with modulator and amplifier circuits
- High speed network communications
Optics
Transmitter
Lasers
A 5 mW green laser pointer is available from http://www.optotronics.com/green-laser-pointers.php with very good beam properties Beam divergence: <1.2 mrad Beam diameter: <1.5 mm
- Add equations for divergence and maybe wolfram alpha application for calculations
LEDs
Receiver
Legal & Safety
Code of Federal Regulations Title 21 Section 1040 [1]
OSHA Technical Manual Section III Chapter 6 Laser Hazards [2]
ANSI Z136.1 (2007) - Safe Use of Lasers
ANSI Z136.6 (2005) - Safe Use Of Lasers Outdoors
http://en.wikipedia.org/wiki/Laser_safety
External Links
Ronja Project http://ronja.twibright.com/
http://members.misty.com/don/laserfaq.htm
http://www.repairfaq.org/sam/laserdps.htm
http://captain.haddock.8m.com/laser/laser1.html
http://en.wikipedia.org/wiki/Free-space_optical_communication