Difference between revisions of "Radio controlled bicycle back light"

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m (31 January, 2018, made component placement)
(31 January, 2018, made component placement)
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this is the component placement drawing as a .PDF : [[File:Componenten opstelling rf backlight rev 2,2.pdf]]
 
this is the component placement drawing as a .PDF : [[File:Componenten opstelling rf backlight rev 2,2.pdf]]
  
this is a 3D rendering of the PCB with this component placement.
+
this is a 3D rendering of the PCB with the latest component placement.
 
[[File:Rfbacklight 3D view.png|1000px]]
 
[[File:Rfbacklight 3D view.png|1000px]]
  
 
J1 connects to the manual on switch
 
J1 connects to the manual on switch
J2 connects to the piezo buzzer
+
J2 connects to the piezo buzzer (now mounted on the PCB)
 
J3 connects to the 3V battery
 
J3 connects to the 3V battery
 
J4 is an optional connection to a commercial 315MHz receiver (for testing).
 
J4 is an optional connection to a commercial 315MHz receiver (for testing).

Revision as of 23:58, 13 February 2018

Project Radio controlled Bicycle back light
Achterlicht.jpg
A battery powered bicycle back light that can be used to find your bike.
Status Initializing
Contact Mahjongg
Last Update 2018-02-13

My nephew asked me if I could help him design a school project, a bicycle back light that could be remotely controlled to blink and emit sound.

I engineered a solution around a 315MHz receiver. This is the (updated to rev 2.1) schematic. File:RF Achterlicht rev2.1.pdf RF Achterlicht rev2.1.png


31 January, 2018, made component placement

Also updated the schematic: File:Rf achterlicht rev 2,2.pdf this is the component placement drawing as a .PDF : File:Componenten opstelling rf backlight rev 2,2.pdf

this is a 3D rendering of the PCB with the latest component placement. Rfbacklight 3D view.png

J1 connects to the manual on switch J2 connects to the piezo buzzer (now mounted on the PCB) J3 connects to the 3V battery J4 is an optional connection to a commercial 315MHz receiver (for testing).

13 February 2018, made the layout

Added a buzzer (type ABT-407-RC) 12mm round, 6.5mm pin pitch 5.5mm high) moved main LED up to top of PCB Moved mounting holes to 66mm interval added all the copper traces and copper planes created gerber and drill files, and new 3D view. The above 3D picture is now updated.