#pragma once #include #include "axis.h" /// Wrangler for assorted compile-time configuration and constants. namespace config { static constexpr const uint8_t toolCount = 5U; ///< Max number of extruders/tools/slots /// Absolute positions for Idler's slots: 0-4 are the real ones, the 5th index is the idle position static constexpr U_deg idlerSlotPositions[toolCount + 1] = { 45.0_deg, 2 * 45.0_deg, 3 * 45.0_deg, 4 * 45.0_deg, 5 * 45.0_deg, 0.0_deg }; // Selector's setup /// slots 0-4 are the real ones, the 5th is the farthest parking positions static constexpr U_mm selectorSlotPositions[toolCount + 1] = { 20.0_mm, 20.0_mm + 14.0_mm, 20.0_mm + 2 * 14.0_mm, 20.0_mm + 3 * 14.0_mm, 20.0_mm + 4 * 14.0_mm, 20.0_mm + 5 * 14.0_mm }; // Printer's filament sensor setup static constexpr const uint16_t fsensorDebounceMs = 10; // LEDS /// The complete period of LED's blinking (i.e. ON and OFF together) static constexpr uint16_t ledBlinkPeriodMs = 1000U; // FINDA setup static constexpr const uint16_t findaDebounceMs = 100; static constexpr const uint8_t findaADCIndex = 6; ///< ADC index of FINDA input static constexpr const uint16_t findaADCDecisionLevel = 512; ///< ADC decision level when a FINDA is considered pressed/not pressed // Buttons setup static constexpr const uint8_t buttonCount = 3; ///< number of buttons currently supported static constexpr const uint16_t buttonsDebounceMs = 100; static constexpr const uint16_t buttonADCLimits[buttonCount][2] = { { 0, 50 }, { 80, 100 }, { 160, 180 } }; static constexpr const uint8_t buttonsADCIndex = 5; ///< ADC index of buttons input // Motion and planning /// Do not plan moves equal or shorter than the requested steps static constexpr uint8_t dropSegments = 0; /// Max step frequency 40KHz static constexpr uint16_t maxStepFrequency = 40000; /// Minimum stepping rate 120Hz static constexpr uint16_t minStepRate = 120; /// Size for the motion planner block buffer size static constexpr uint8_t blockBufferSize = 2; /// Step timer frequency divider (F = F_CPU / divider) static constexpr uint8_t stepTimerFrequencyDivider = 8; /// Smallest stepping ISR scheduling slice (T = F_CPU / divider * quantum) /// 16 = 8us (25us is the max frequency interval per maxStepFrequency) static constexpr uint8_t stepTimerQuantum = 16; /// Pulley axis configuration static constexpr AxisConfig pulley = { .dirOn = false, .mRes = MRes_2, .vSense = false, .iRun = 20, .iHold = 20, .stealth = false, .stepsPerUnit = (200 * 2 / 19.147274), }; /// Pulley motion limits static constexpr PulleyLimits pulleyLimits = { .lenght = 1000.0_mm, // TODO .jerk = 4.0_mm_s, .accel = 800.0_mm_s2, }; /// Selector configuration static constexpr AxisConfig selector = { .dirOn = true, .mRes = MRes_2, .vSense = false, .iRun = 20, .iHold = 20, .stealth = false, .stepsPerUnit = (200 * 2 / 8.), }; /// Selector motion limits static constexpr SelectorLimits selectorLimits = { .lenght = 75.0_mm, .jerk = 1.0_mm_s, .accel = 200.0_mm_s2, }; /// Idler configuration static constexpr AxisConfig idler = { .dirOn = true, .mRes = MRes_16, .vSense = false, .iRun = 20, .iHold = 20, .stealth = false, .stepsPerUnit = (200 * 16 / 360.), }; /// Idler motion limits static constexpr IdlerLimits idlerLimits = { .lenght = 270.0_deg, .jerk = 0.1_deg_s, .accel = 10.0_deg_s2, }; /// Max retries of FeedToBondtech used in LoadFilament static constexpr uint8_t feedToBondtechMaxRetries = 2; // TMC2130 setup static constexpr int8_t tmc2130_sg_thrs = 3; // @todo 7bit two's complement for the sg_thrs static_assert(tmc2130_sg_thrs >= -64 && tmc2130_sg_thrs <= 63, "tmc2130_sg_thrs out of range"); static constexpr uint32_t tmc2130_coolStepThreshold = 400; ///< step-based 20bit uint static_assert(tmc2130_coolStepThreshold <= 0xfffff, "tmc2130_coolStepThreshold out of range"); static constexpr uint32_t tmc2130_PWM_AMPL = 240; static_assert(tmc2130_PWM_AMPL <= 255, "tmc2130_PWM_AMPL out of range"); static constexpr uint32_t tmc2130_PWM_GRAD = 4; static_assert(tmc2130_PWM_GRAD <= 255, "tmc2130_PWM_GRAD out of range"); static constexpr uint32_t tmc2130_PWM_FREQ = 2; static_assert(tmc2130_PWM_FREQ <= 3, "tmc2130_PWM_GRAD out of range"); static constexpr uint32_t tmc2130_PWM_AUTOSCALE = 1; static_assert(tmc2130_PWM_AUTOSCALE <= 1, "tmc2130_PWM_AUTOSCALE out of range"); } // namespace config