[neopixel Case_Lights] # To control Neopixel RGB in mini12864 display pin: PB14 chain_count: 70 initial_RED: 0.5 initial_GREEN: 0.5 initial_BLUE: 0.5 initial_WHITE: 1 color_order: GRBW # Macros for setting the status leds on the Voron StealthBurner toolhead (or for any neopixel-type leds). # # You will need to configure a neopixel (or other addressable led, such as dotstar). See # https://www.klipper3d.org/Config_Reference.html#neopixel for configuration details. ##################################### # INSTRUCTIONS # ##################################### # How to use all this stuff: # # 1. Copy this .cfg file into your Klipper config directory and then add [include stealthburner_leds.cfg] # to the top of your printer.cfg in order for register the LEDs and macros with Klipper. # 2. Define your LEDs by editing [neopixel sb_leds] below and entering the data pin from your control board # as well as the color order. # # Note: RGB and RGBW are different and must be defined explicitly. RGB and RGBW are also not able to # be mix-and-matched in the same chain. A separate data line would be needed for proper functioning. # # RGBW LEDs will have a visible yellow-ish phosphor section to the chip. If your LEDs do not have # this yellow portion, you have RGB LEDs. # # 3. Save your config and restart Klipper. # # Note: We set RED and BLUE to 1.0 to make it easier for users and supporters to detect # misconfigurations or miswiring. The default color format is for Neopixels with a dedicated # white LED. On startup, all three SB LEDs should light up. # # If you get random colors across your LEDs, change the color_order to GRB and restart. Then # omit the W for each suggested color_order in the next paragraph. # # If you get MAGENTA, your color order is correct. If you get CYAN, you need to use RGBW. If # you get YELLOW, you need to use BRGW (note that BRG is only supported in the latest Klipper # version). # # 4. Once you have confirmed that the LEDs are set up correctly, you must now decide where you want # these macros called up...which means adding them to your existing gcode macros. NOTHING will happen # unless you add the STATUS_????? macros to your existing gcode macros. # # Example: add STATUS_LEVELING to the beginning of your QGL gcode macro, and then add STATUS_READY # to the end of it to set the logo LED and nozzle LEDs back to the `ready` state. # # Example: add STATUS_CLEANING to the beginning of your nozzle-cleaning macro, and then STATUS_READY # to the end of it to return the LEDs back to `ready` state. # # 5. Feel free to change colors of each macro, create new ones if you have a need to. The macros provided below # are just an example of what is possible. If you want to try some more complex animations, you will most # likely have to use WLED with Moonraker and a small micro-controller (please see the LED thread for help inside # of the stealthburner_beta channel on Discord). # ##################################### # END INSTRUCTRUCTIONS # ##################################### [neopixel sb_leds] pin: PD3 # The pin connected to the neopixel. This parameter must be provided. chain_count: 3 # The number of Neopixel chips that are "daisy chained" to the # provided pin. The default is 1 (which indicates only a single # Neopixel is connected to the pin). color_order: GRBW # Set the pixel order required by the LED hardware. Options are GRB, # RGB, GRBW, or RGBW. The default is GRB. initial_RED: 1.0 initial_GREEN: 0.0 initial_BLUE: 1.0 initial_WHITE: 0.0 # Sets the initial LED color of the Neopixel. Each value should be # between 0.0 and 1.0. The WHITE option is only available on RGBW # LEDs. The default for each color is 0.# # Most configuration for the macros can be done by modifying the variables in the _sb_vars macro # at the start of this file. ########## # MACROS # ########## # The following status macros are available (these go inside of your macros): # # STATUS_READY # STATUS_OFF # STATUS_BUSY # STATUS_HEATING # STATUS_LEVELING # STATUS_HOMING # STATUS_CLEANING # STATUS_MESHING # STATUS_CALIBRATING_Z # # With additional macros for basic control: # # SET_NOZZLE_LEDS_ON # SET_LOGO_LEDS_OFF # SET_NOZZLE_LEDS_OFF # # Contributed by Voron discord users wile.e, Tetsunosuke, and etherwalker [gcode_macro _sb_vars] # User settings for the StealthBurner status leds. You can change the status colors and led # configurations for the logo and nozzle here. variable_colors: { 'logo': { # Colors for logo states 'busy': {'r': 0.4, 'g': 0.0, 'b': 0.0, 'w': 0.0}, 'cleaning': {'r': 0.0, 'g': 0.02, 'b': 0.5, 'w': 0.0}, 'calibrating_z': {'r': 0.8, 'g': 0., 'b': 0.35, 'w': 0.0}, 'heating': {'r': 0.3, 'g': 0.18, 'b': 0.0, 'w': 0.0}, 'homing': {'r': 0.0, 'g': 0.6, 'b': 0.2, 'w': 0.0}, 'leveling': {'r': 0.5, 'g': 0.1, 'b': 0.4, 'w': 0.0}, 'meshing': {'r': 0.2, 'g': 1.0, 'b': 0.0, 'w': 0.0}, 'off': {'r': 0.0, 'g': 0.0, 'b': 0.0, 'w': 0.0}, 'printing': {'r': 1.0, 'g': 0.0, 'b': 0.0, 'w': 0.0}, 'standby': {'r': 0.01, 'g': 0.01, 'b': 0.01, 'w': 0.1}, }, 'nozzle': { # Colors for nozzle states 'heating': {'r': 0.8, 'g': 0.35, 'b': 0.0, 'w':0.0}, 'off': {'r': 0.0, 'g': 0.0, 'b': 0.0, 'w': 0.0}, 'on': {'r': 0.8, 'g': 0.8, 'b': 0.8, 'w':1.0}, 'standby': {'r': 0.6, 'g': 0.0, 'b': 0.0, 'w':0.0}, }, 'thermal': { 'hot': {'r': 1.0, 'g': 0.0, 'b': 0.0, 'w': 0.0}, 'cold': {'r': 0.3, 'g': 0.0, 'b': 0.3, 'w': 0.0} } } variable_logo_led_name: "sb_leds" # The name of the addressable LED chain that contains the logo LED(s) variable_logo_idx: "1" # A comma-separated list of indexes LEDs in the logo variable_nozzle_led_name: "sb_leds" # The name of the addressable LED chain that contains the nozzle LED(s). This will # typically be the same LED chain as the logo. variable_nozzle_idx: "2,3" # A comma-separated list of indexes of LEDs in the nozzle gcode: # This section is required. Do Not Delete. [gcode_macro _set_sb_leds] gcode: {% set red = params.RED|default(0)|float %} {% set green = params.GREEN|default(0)|float %} {% set blue = params.BLUE|default(0)|float %} {% set white = params.WHITE|default(0)|float %} {% set led = params.LED|string %} {% set idx = (params.IDX|string).split(',') %} {% set transmit_last = params.TRANSMIT|default(1) %} {% for led_index in idx %} {% set transmit=transmit_last if loop.last else 0 %} set_led led={led} red={red} green={green} blue={blue} white={white} index={led_index} transmit={transmit} {% endfor %} [gcode_macro _set_sb_leds_by_name] gcode: {% set leds_name = params.LEDS %} {% set color_name = params.COLOR %} {% set color = printer["gcode_macro _sb_vars"].colors[leds_name][color_name] %} {% set led = printer["gcode_macro _sb_vars"][leds_name + "_led_name"] %} {% set idx = printer["gcode_macro _sb_vars"][leds_name + "_idx"] %} {% set transmit = params.TRANSMIT|default(1) %} _set_sb_leds led={led} red={color.r} green={color.g} blue={color.b} white={color.w} idx="{idx}" transmit={transmit} [gcode_macro _set_logo_leds] gcode: {% set red = params.RED|default(0)|float %} {% set green = params.GREEN|default(0)|float %} {% set blue = params.BLUE|default(0)|float %} {% set white = params.WHITE|default(0)|float %} {% set led = printer["gcode_macro _sb_vars"].logo_led_name %} {% set idx = printer["gcode_macro _sb_vars"].logo_idx %} {% set transmit=params.TRANSMIT|default(1) %} _set_sb_leds led={led} red={red} green={green} blue={blue} white={white} idx="{idx}" transmit={transmit} [gcode_macro _set_nozzle_leds] gcode: {% set red = params.RED|default(0)|float %} {% set green = params.GREEN|default(0)|float %} {% set blue = params.BLUE|default(0)|float %} {% set white = params.WHITE|default(0)|float %} {% set led = printer["gcode_macro _sb_vars"].nozzle_led_name %} {% set idx = printer["gcode_macro _sb_vars"].nozzle_idx %} {% set transmit=params.TRANSMIT|default(1) %} _set_sb_leds led={led} red={red} green={green} blue={blue} white={white} idx="{idx}" transmit={transmit} [gcode_macro set_logo_leds_off] gcode: {% set transmit=params.TRANSMIT|default(1) %} _set_logo_leds red=0 blue=0 green=0 white=0 transmit={transmit} [gcode_macro set_nozzle_leds_on] gcode: {% set transmit=params.TRANSMIT|default(1) %} _set_sb_leds_by_name leds="nozzle" color="on" transmit={transmit} [gcode_macro set_nozzle_leds_off] gcode: {% set transmit=params.TRANSMIT|default(1) %} _set_sb_leds_by_name leds="nozzle" color="off" transmit={transmit} [gcode_macro status_off] gcode: set_logo_leds_off transmit=0 set_nozzle_leds_off [gcode_macro status_ready] gcode: _set_sb_leds_by_name leds="logo" color="standby" transmit=0 _set_sb_leds_by_name leds="nozzle" color="standby" transmit=1 [gcode_macro status_busy] gcode: _set_sb_leds_by_name leds="logo" color="busy" transmit=0 set_nozzle_leds_on [gcode_macro status_heating] gcode: _set_sb_leds_by_name leds="logo" color="heating" transmit=0 _set_sb_leds_by_name leds="nozzle" color="heating" transmit=1 [gcode_macro status_leveling] gcode: _set_sb_leds_by_name leds="logo" color="leveling" transmit=0 set_nozzle_leds_on [gcode_macro status_homing] gcode: _set_sb_leds_by_name leds="logo" color="homing" transmit=0 set_nozzle_leds_on [gcode_macro status_cleaning] gcode: _set_sb_leds_by_name leds="logo" color="cleaning" transmit=0 set_nozzle_leds_on [gcode_macro status_meshing] gcode: _set_sb_leds_by_name leds="logo" color="meshing" transmit=0 set_nozzle_leds_on [gcode_macro status_calibrating_z] gcode: _set_sb_leds_by_name leds="logo" color="calibrating_z" transmit=0 set_nozzle_leds_on [gcode_macro status_printing] gcode: _set_sb_leds_by_name leds="logo" color="printing" transmit=0 set_nozzle_leds_on