Tag: soldering
Retro PC Part 8: Making our own CMOS battery
Recapping an Octek Fox M 286 Mainboard
Retro PC Part 6: Assembling the XT CF Lite 4.1
Retro PC Part 4: Assembling the AdLib IC sockets
Still alive: Upcoming Videos
Soldering a DSO138 Oscilloscope – Part 3
Soldering a DSO138 Oscilloscope – Part 2
Soldering a DSO138 Oscilloscope – Part 1
RGB LED Matrix with the Raspberry Pi
Here I show how to attach a WS2812 based LED strip or matrix to the Raspberry Pi.
Short introduction on how to actually install the rpi_ws218x library on the Pi:
-
- Install build essentials:
sudo apt-get update && sudo apt-get install build-essential python-dev git scons swig
- Clone the repository and build the library:
git clone https://github.com/jgarff/rpi_ws281x.git cd rpi_ws281x scons
- Compile and install the Python library:
cd python sudo python setup.py install
- Install build essentials:
Also, I have written this small example program, large parts were taken from the supplied example programs in the repository:
#!/usr/bin/env python import time import math import colorsys from neopixel import * # LED strip configuration: LED_COUNT = 64 # Number of LED pixels. LED_PIN = 18 # GPIO pin connected to the pixels (must support PWM!). LED_FREQ_HZ = 800000 # LED signal frequency in hertz (usually 800khz) LED_DMA = 10 # DMA channel to use for generating signal (try 10) LED_BRIGHTNESS = 255 # Set to 0 for darkest and 255 for brightest # True to invert the signal (when using NPN transistor level shift) LED_INVERT = False def plasma (w, h, t): out = [ Color( 0, 0, 0 ) for x in range( w * h ) ] for x in range( w ): for y in range( h ): hue = 4.0 + math.sin( t + x ) + math.sin( t + y / 4.5 ) \ + math.sin( x + y + t ) + math.sin( math.sqrt( ( x + t ) ** 2.0 + ( y + 1.5 * t ) ** 2.0 ) / 4.0 ) hsv = colorsys.hsv_to_rgb( hue / 8.0, 1, 1 ) out[ x + y * w ] = Color( *[ int( round( c * 10.0 ) ) for c in hsv ] ) return out # Main program logic follows: if __name__ == '__main__': # Create NeoPixel object with appropriate configuration. strip = Adafruit_NeoPixel( LED_COUNT, LED_PIN, LED_FREQ_HZ, LED_DMA, LED_INVERT, LED_BRIGHTNESS ) # Intialize the library (must be called once before other functions). strip.begin() t = 0.0 # time dt = 0.1 # speed of time for i in range( 0, strip.numPixels(), 1): # iterate over all LEDs strip.setPixelColor( i, Color( 0, 0, 0 ) ) # set LED to black (off) while True: t = t + dt # increment time pic = plasma( 8, 8, t ) # render plasma of size 8x8 at time t for i in range( 0, strip.numPixels(), 1 ): # iterate over all LEDs strip.setPixelColor( # set pixel to color in picture i, pic[ i ] ) strip.show() # update LEDs time.sleep(0.001) # white a short while before loop