Difference between revisions of "LEDLightDistrict"

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(Arduino code)
 
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|picture=ledwall_dark.jpg
 
|picture=ledwall_dark.jpg
 
|ProjectSkills=soldering,coding
 
|ProjectSkills=soldering,coding
|ProjectStatus=Active
+
|ProjectStatus=Finished
 
|ProjectNiche=Electronics
 
|ProjectNiche=Electronics
 
|ProjectPurpose=World domination
 
|ProjectPurpose=World domination
 
}}
 
}}
 +
The Led wall continues its life as our [[Fireplace]]
 +
 
Project to LED'ify <del>the outside facing glass 'block' wall. each glass box will be a pixel</del> the space
 
Project to LED'ify <del>the outside facing glass 'block' wall. each glass box will be a pixel</del> the space
  
== Turning it on/off ==
+
== The device ==
 +
 
 +
the Led-wall is currently housed in a surround that makes it look more like a proper fire-place; made of MDF , created by [[User:milo]] [[user:justa]] [[user:einstein]] for use on the UrbanResort open day of 20130921.
 +
 
 +
It's been fited with a set of switches on the left hand side that operate the functions of the led-wall and/or a power-bar mounted inside the left-most column of the fireplace.
 +
 
 +
The power-bar is supplied so that you can turn on any lamps or other 'peripherals' belonging to the fireplace with one simple action.
 +
 
 +
When turning on the fireplace, please allow one minute for the RaspPI to boot. It loads the firmware from an SD card and is not 'insta-on'
 +
 
 +
it will automatically start doing the fire. to run the all the animations
 +
 +
sudo bash ; cd /home/erik/lewd/src ; python ledshow.py -spi
  
* <strong>On:</strong> Plug in its power supply
 
* <strong>Off:</strong> Pull out its power supply
 
  
 
=== Doesn't work! ===
 
=== Doesn't work! ===
  
* log in to [[indicio]]
+
* log in to [[ledwall]] using the user techinc (pw is same as the wifi)
* add yourself to the dailup group
 
 
* <code>git checkout https://github.com/techinc/lewd.git</code>
 
* <code>git checkout https://github.com/techinc/lewd.git</code>
* follow instructions in lib/README to install USPP
+
* <code>for the C fireplace: cd c ; ./fire /dev/spidev0.0 (should be started automatically by /etc/rc.local)</code>
* <code>cd src ; python ledwall.py</code>
+
* <code>for the python implementation: cd src ; python ledshow.py -spi</code>
  
 
== Hardware ==
 
== Hardware ==
Line 27: Line 38:
 
==== Overview ====
 
==== Overview ====
  
   <strong>computer</strong> ===(serial over usb)===> <strong>arduino</strong> ===(SPI)===> <strong>ledwall</strong>
+
   <strong>Raspberry Pi</strong> ===(SPI)===> <strong>ledwall</strong>
                                                            ^
+
        ^                      ^
                                                            | (12V)
+
        | (5V)                  | (12V)
                                                          <strong>PSU</strong>
+
        \----------<strong>PSU</strong> ---------/
 +
 
 +
==== Raspi GPIO pin-out ====
  
==== Arduino code ====
+
The code uses the hardware SPI present on the the Raspberry Pi.
  
<code lang="C">
+
* <span style="color: green; font-weight: Bold;">Green wire</span> on <strong>Pin 23</strong> is <strong>Clock (SCLK)</strong>
#include <SPI.h>
+
* <span style="color: #dddd11; font-weight: Bold;">Yellow wire</span> on <strong>Pin 19</strong> is <strong>Data (MOSI)</strong>
+
* <span style="color: black; font-weight: Bold;">Black wire</span> <strong><del>should be connected to a ground pin.</del> does not have to be connected to the ground pin, not having a common ground works as well, and doesn't generate noise.</strong>
void setup()
+
* <span style="color: red; font-weight: Bold;">Red wire</span> <strong>should NOT be connected to the Raspi as it will break it!</strong>
{
 
    Serial.begin(1000000);
 
    SPI.begin();
 
    SPI.setBitOrder(MSBFIRST);
 
    SPI.setDataMode(SPI_MODE0);
 
    SPI.setClockDivider(SPI_CLOCK_DIV16);
 
}
 
 
void loop()
 
{
 
    uint8_t c;
 
 
    for(;;)
 
    {
 
        while (!Serial.available()) {}
 
 
          /* 254 signals end of frame in the communication
 
          * over the serial port
 
          */
 
          if ( (c = Serial.read()) == 254 )
 
            delay(1); /* the WS2801 chips will latch after not getting
 
                        * any data for .5ms, so we wait 1ms
 
                        */
 
        else
 
            SPI.transfer(c); /* not end of frame? push data */
 
    }
 
}
 
</code>
 
  
==== Arduino pin-out ====
+
[[Image:raspi_spi.jpg|480px]]
  
[[Image:ledwall_arduino_pinout.jpg|480px]]
+
[[Image:raspi_casing.jpg|480px]]
  
 
==== PSU ====
 
==== PSU ====
  
 
[[Image:Ledwall_ATX.jpg|480px]]
 
[[Image:Ledwall_ATX.jpg|480px]]
 +
 +
There I fixed it X-/
 +
 +
[[Image:Ledwall_molex_thereifixedit.jpg|480px]]
  
 
== Software ==
 
== Software ==
Line 91: Line 80:
 
=== Lewd ===
 
=== Lewd ===
  
The Python (lewd) implementation features several backends. LedScreen,
+
The Python (lewd) implementation features several backends. '''-serial''',
RemoteLedScreen and VirtualLedScreen used for local, remote and virtual
+
'''-spi''', '''-net''' and '''-local''' (which renders on an SDL screen).
access respectively.
 
  
 
See the file "ledwall.py" for an example on how to use all these different
 
See the file "ledwall.py" for an example on how to use all these different
Line 105: Line 93:
  
 
http://old.villavu.com/merlijn/lewd
 
http://old.villavu.com/merlijn/lewd
 
  
 
== Photos & Videos ==
 
== Photos & Videos ==
Line 114: Line 101:
 
File:ledwall_dark.jpg
 
File:ledwall_dark.jpg
 
File:ledwall_arduino_pinout.jpg
 
File:ledwall_arduino_pinout.jpg
 +
File:Techinc_Hearth.jpg
 
</gallery>
 
</gallery>
 
  
 
== OLD ==
 
== OLD ==
  
Project to LED'ify the outside facing glass 'block' wall. each glass box will be a pixel
+
=== Alternative configuration using Arduino (Obsolete) ===
  
The [[Pledges/LEDLightDistrict|pledge]] has been funded and the wall has been built
+
  <strong>computer</strong> ===(serial over usb)===> <strong>arduino</strong> ===(SPI)===> <strong>ledwall</strong>
 +
                                                            ^
 +
                                                            | (12V)
 +
                                                          <strong>PSU</strong>
  
 +
==== Arduino code ====
  
TODO:
+
<code lang="C">
 +
#include <SPI.h>
 +
 +
void setup()
 +
{
 +
    Serial.begin(1000000);
 +
    SPI.begin();
 +
    SPI.setBitOrder(MSBFIRST);
 +
    SPI.setDataMode(SPI_MODE0);
 +
    SPI.setClockDivider(SPI_CLOCK_DIV16);
 +
}
 +
 +
void loop()
 +
{
 +
    uint8_t c;
 +
 +
    for(;;)
 +
    {
 +
        while (!Serial.available()) {}
 +
 +
          /* 254 signals end of frame in the communication
 +
          * over the serial port
 +
          */
 +
          if ( (c = Serial.read()) == 254 )
 +
            delay(1); /* the WS2801 chips will latch after not getting
 +
                        * any data for .5ms, so we wait 1ms
 +
                        */
 +
        else
 +
            SPI.transfer(c); /* not end of frame? push data */
 +
    }
 +
}
 +
</code>
  
* Finish documentation
+
==== Arduino pin-out ====
* Host documentation somewhere
 
* Add nice pictures of the (new) LED wall in action.
 
* Set up the software in such a way that it is trivial for anyone to at least "start" the ledwall in normal operation.
 
  
=== Usage ===
+
The code uses the hardware SPI present on the the ATMega
  
Plug both power supplies at either side of the wall
+
* <span style="color: green; font-weight: Bold;">Green wire</span> on <strong>Pin 13</strong> is <strong>Clock</strong>
 +
* <span style="color: #dddd11; font-weight: Bold;">Yellow wire</span> on <strong>Pin 11</strong> is <strong>Data</strong>
 +
* <span style="color: black; font-weight: Bold;">Black wire</span> <strong><del>should be connected to the arduino's ground pin.</del> does not have to be connected to the ground pin, not having a common ground works as well, and doesn't generate noise.</strong>
 +
* <span style="color: red; font-weight: Bold;">Red wire</span> <strong>should NOT be connected to the arduino as it will break it!</strong>
  
The arduino is by the power supply on the left hand side. The computer powering the server is under the retro gaming table.
+
[[Image:ledwall_arduino_pinout.jpg|480px]]
  
Running the software is pretty trivial; but requires access to the machine
+
{{OnFire
connected to the ledwall. Alternatively, you can attach your machine to the
+
|IsOnFire=Definitely
ledwall yourself and run the software locally.
+
}}
 
 
On whatever machine that is connected to the LED wall over USB (serial); run the
 
file net/net.py and then, in another terminal, run the file ledwall.py with the
 
-net flag. Alternatively, you can just run the ledwall.py file with no flags,
 
but do not run the net.py file concurrently in this case.
 

Latest revision as of 14:39, 23 December 2023

Projects
Ledwall dark.jpg
Participants Guido, Wizzup
Skills soldering, coding
Status Finished
Niche Electronics
Purpose World domination

The Led wall continues its life as our Fireplace

Project to LED'ify the outside facing glass 'block' wall. each glass box will be a pixel the space

The device

the Led-wall is currently housed in a surround that makes it look more like a proper fire-place; made of MDF , created by User:milo user:justa user:einstein for use on the UrbanResort open day of 20130921.

It's been fited with a set of switches on the left hand side that operate the functions of the led-wall and/or a power-bar mounted inside the left-most column of the fireplace.

The power-bar is supplied so that you can turn on any lamps or other 'peripherals' belonging to the fireplace with one simple action.

When turning on the fireplace, please allow one minute for the RaspPI to boot. It loads the firmware from an SD card and is not 'insta-on'

it will automatically start doing the fire. to run the all the animations

sudo bash ; cd /home/erik/lewd/src ; python ledshow.py -spi


Doesn't work!

  • log in to ledwall using the user techinc (pw is same as the wifi)
  • git checkout https://github.com/techinc/lewd.git
  • for the C fireplace: cd c ; ./fire /dev/spidev0.0 (should be started automatically by /etc/rc.local)
  • for the python implementation: cd src ; python ledshow.py -spi

Hardware

Design

Overview

 Raspberry Pi ===(SPI)===> ledwall
       ^                       ^
       | (5V)                  | (12V)
       \----------PSU ---------/

Raspi GPIO pin-out

The code uses the hardware SPI present on the the Raspberry Pi.

  • Green wire on Pin 23 is Clock (SCLK)
  • Yellow wire on Pin 19 is Data (MOSI)
  • Black wire should be connected to a ground pin. does not have to be connected to the ground pin, not having a common ground works as well, and doesn't generate noise.
  • Red wire should NOT be connected to the Raspi as it will break it!

Raspi spi.jpg

Raspi casing.jpg

PSU

Ledwall ATX.jpg

There I fixed it X-/

Ledwall molex thereifixedit.jpg

Software

Software Implementations

[https://github.com/techinc/lewd The current python based implementation called lewd] runs on the machine connected to the LED-Wall over a serial port.

The older javascript node.js version can communicate with the python implementation to push frames to the LED-Wall using TCP sockets.

Python documentation (temporary location) http://old.villavu.com/merlijn/lewd

Lewd

The Python (lewd) implementation features several backends. -serial, -spi, -net and -local (which renders on an SDL screen).

See the file "ledwall.py" for an example on how to use all these different LedWall frontends. At the space, you should typically use RemoteLedScreen to interface with the (already running) server to the LEDWall.

To just play around with the code locally, look into the VirtualLedScreen code; you will need to install pygame to actually use the local UI.

Python documentation (temporary location)

http://old.villavu.com/merlijn/lewd

Photos & Videos

OLD

Alternative configuration using Arduino (Obsolete)

 computer ===(serial over usb)===> arduino ===(SPI)===> ledwall
                                                           ^
                                                           | (12V)
                                                          PSU

Arduino code

#include <SPI.h>

void setup()
{
    Serial.begin(1000000);
    SPI.begin();
    SPI.setBitOrder(MSBFIRST);
    SPI.setDataMode(SPI_MODE0);
    SPI.setClockDivider(SPI_CLOCK_DIV16);
}

void loop()
{
    uint8_t c;

    for(;;)
    {
        while (!Serial.available()) {}

         /* 254 signals end of frame in the communication
          * over the serial port
          */
         if ( (c = Serial.read()) == 254 )
            delay(1); /* the WS2801 chips will latch after not getting
                       * any data for .5ms, so we wait 1ms
                       */
        else
            SPI.transfer(c); /* not end of frame? push data */
    }
}

Arduino pin-out

The code uses the hardware SPI present on the the ATMega

  • Green wire on Pin 13 is Clock
  • Yellow wire on Pin 11 is Data
  • Black wire should be connected to the arduino's ground pin. does not have to be connected to the ground pin, not having a common ground works as well, and doesn't generate noise.
  • Red wire should NOT be connected to the arduino as it will break it!

Ledwall arduino pinout.jpg

Is on Fire? Definitely