#pragma once #include #include // Settings for filament load / unload from the LCD menu. // This is for Prusa MK3-style extruders. Customize for your hardware. #define MMU2_FILAMENTCHANGE_EJECT_FEED 80.0 #define NOZZLE_PARK_XY_FEEDRATE 50 #define NOZZLE_PARK_Z_FEEDRATE 15 // Nominal distance from the extruder gear to the nozzle tip is 87mm // However, some slipping may occur and we need separate distances for // LoadToNozzle and ToolChange. // - +5mm seemed good for LoadToNozzle, // - but too much (made blobs) for a ToolChange static constexpr float MMU2_LOAD_TO_NOZZLE_LENGTH = 87.0F + 5.0F; // As discussed with our PrusaSlicer profile specialist // - ToolChange shall not try to push filament into the very tip of the nozzle // to have some space for additional G-code to tune the extruded filament length // in the profile // Beware - this value is used to initialize the MMU logic layer - it will be sent to the MMU upon line up (written into its 8bit register 0x0b) // However - in the G-code we can get a request to set the extra load distance at runtime to something else (M708 A0xb Xsomething). // The printer intercepts such a call and sets its extra load distance to match the new value as well. static constexpr float MMU2_FILAMENT_SENSOR_POSITION = 0; // mm static constexpr float MMU2_LOAD_DISTANCE_PAST_GEARS = 5; // mm static constexpr uint8_t MMU2_TOOL_CHANGE_LOAD_LENGTH = static_cast(MMU2_FILAMENT_SENSOR_POSITION + MMU2_LOAD_DISTANCE_PAST_GEARS); // mm static constexpr float MMU2_EXTRUDER_PTFE_LENGTH = 42.3f; // mm static constexpr float MMU2_EXTRUDER_HEATBREAK_LENGTH = 17.7f; // mm static constexpr float MMU2_LOAD_TO_NOZZLE_FEED_RATE = 20.0F; // mm/s static constexpr float MMU2_UNLOAD_TO_FINDA_FEED_RATE = 120.0F; // mm/s // The first the MMU does is initialise its axis. Meanwhile the E-motor will unload 20mm of filament in approx. 1 second. static constexpr float MMU2_RETRY_UNLOAD_TO_FINDA_LENGTH = 80.0f; // mm static constexpr float MMU2_RETRY_UNLOAD_TO_FINDA_FEED_RATE = 80.0f; // mm/s static constexpr uint8_t MMU2_NO_TOOL = 99; static constexpr uint32_t MMU_BAUD = 115200; struct E_Step { float extrude; ///< extrude distance in mm float feedRate; ///< feed rate in mm/s }; static constexpr E_Step ramming_sequence[] PROGMEM = { { 0.2816F, 1339.0F / 60.F}, { 0.3051F, 1451.0F / 60.F}, { 0.3453F, 1642.0F / 60.F}, { 0.3990F, 1897.0F / 60.F}, { 0.4761F, 2264.0F / 60.F}, { 0.5767F, 2742.0F / 60.F}, { 0.5691F, 3220.0F / 60.F}, { 0.1081F, 3220.0F / 60.F}, { 0.7644F, 3635.0F / 60.F}, { 0.8248F, 3921.0F / 60.F}, { 0.8483F, 4033.0F / 60.F}, { -15.0F, 6000.0F / 60.F}, { -24.5F, 1200.0F / 60.F}, { -7.0F, 600.0F / 60.F}, { -3.5F, 360.0F / 60.F}, { 20.0F, 454.0F / 60.F}, { -20.0F, 303.0F / 60.F}, { -35.0F, 2000.0F / 60.F}, }; static constexpr E_Step load_to_nozzle_sequence[] PROGMEM = { { MMU2_EXTRUDER_PTFE_LENGTH, 810.0F / 60.F}, // feed rate = 13.5mm/s - Load fast while not at heatbreak { MMU2_EXTRUDER_HEATBREAK_LENGTH, 198.0F / 60.F}, // feed rate = 3.3mm/s - Load slower once filament reaches heatbreak };