The Plasma library is intended to drive APA102 / DotStar™ or WS2812 / NeoPixel™ LEDs on the Plasma 2040 board, though it can be used with your own custom pins/wiring.
- [Notes On PIO Limitations](#notes-on-pio-limitations)
The WS2812 and APA102 drivers use the PIO hardware on the RP2040. There are only two PIOs with four state machines each, placing a hard limit on how many separate LED strips you can drive.
In most cases you'll use `0` for PIO and `0` for PIO state-machine, but you should change these if you plan on running different strand types together, or if you're using something else that uses PIO.
Start the LED strip by calling `start`. This sets up a timer which tells the RP2040 to DMA the pixel data into the PIO (a fast, asyncronous memory->peripheral copy) at the specified framerate.
APA102 pixels support global brightness, allowing their brightness to be specified independent of their colour. You can set the overall brightness of your strip by calling:
```python
led_strip.set_brightness(15)
```
You can set brightness from `0` to `31`. This directly maps to the 5-bit brightness value sent to the APA102 LEDs.
Start the LED strip by calling `start`. This sets up a timer which tells the RP2040 to DMA the pixel data into the PIO (a fast, asyncronous memory->peripheral copy) at the specified framerate.
```python
led_strip.start(FPS)
```
### Set An LED
You can set the colour of an LED in either the RGB colourspace, or HSV (Hue, Saturation, Value). HSV is useful for creating rainbow patterns.
#### RGB
Set the first LED - `0` - to Purple `255, 0, 255`:
To get the button state, call `.read()`. If the button is held down, then this will return `True` at the interval specified by `repeat_time` until `hold_time` is reached, at which point it will return `True` every `repeat_time / 3` milliseconds. This is useful for rapidly increasing/decreasing values such as hue:
Plasma 2040 feasures low-side current sensing, letting you measure how much current a strip of LEDs is drawing. This could be used just for monitoring, or as a way to reduce the maximum brightness of a strip to keep its current draw within the range of the USB port or power supply being used.
The `pimoroni` module contains an `Analog` class to simplify the reading of this current draw.
```python
Analog(pin, amplifier_gain=1, resistor=0)
```
The `plasma` module contains a `plasma2040` sub module with constants for the current sensing:
*`plasma2040.CURRENT_SENSE` = 29
*`plasma2040.ADC_GAIN` = 50
*`plasma2040.SHUNT_RESISTOR` = 0.015
### Analog
Import the `Analog` class from `pimoroni` and the pin and gain constants for the current sensing:
```python
from pimoroni import Analog
from plasma import plasma2040
```
And set up an instance of `Analog` for the current sensing:
```python
sense = Analog(plasma2040.CURRENT_SENSE, plasma2040.ADC_GAIN, plasma2040.SHUNT_RESISTOR)
```
To read the current draw, call `.read_current()`. The returned value will be in amps (A):
