Merge branch 'MK3' into remove-unnecessary-delay

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DRracer 2020-03-26 18:45:34 +01:00 committed by GitHub
commit b95d7365c8
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34 changed files with 1152 additions and 486 deletions

View file

@ -16,8 +16,8 @@ extern uint16_t nPrinterType;
extern PGM_P sPrinterName;
// Firmware version
#define FW_VERSION "3.9.0"
#define FW_COMMIT_NR 3175
#define FW_VERSION "3.9.0-RC1"
#define FW_COMMIT_NR 3272
// FW_VERSION_UNKNOWN means this is an unofficial build.
// The firmware should only be checked into github with this symbol.
#define FW_DEV_VERSION FW_VERSION_UNKNOWN
@ -424,7 +424,7 @@ your extruder heater takes 2 minutes to hit the target on heating.
#define DEFAULT_XJERK 10 // (mm/sec)
#define DEFAULT_YJERK 10 // (mm/sec)
#define DEFAULT_ZJERK 0.4 // (mm/sec)
#define DEFAULT_EJERK 2.5 // (mm/sec)
#define DEFAULT_EJERK 4.5 // (mm/sec)
//===========================================================================
//=============================Additional Features===========================

View file

@ -100,16 +100,22 @@ void print_mem(uint32_t address, uint16_t count, uint8_t type, uint8_t countperl
#ifdef DEBUG_DCODE3
#define EEPROM_SIZE 0x1000
/*!
*
### D3 - Read/Write EEPROM <a href="https://reprap.org/wiki/G-code#D3:_Read.2FWrite_EEPROM">D3: Read/Write EEPROM</a>
This command can be used without any additional parameters. It will read the entire eeprom.
D3 [ A | C | X ]
- `A` - Address (0x0000-0x0fff)
- `C` - Count (0x0001-0x1000)
- `X` - Data
*
#### Usage
D3 [ A | C | X ]
#### Parameters
- `A` - Address (x0000-x0fff)
- `C` - Count (1-4096)
- `X` - Data (hex)
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
void dcode_3()
{
@ -206,13 +212,13 @@ void dcode__1()
#ifdef DEBUG_DCODES
/*!
*
### D0 - Reset <a href="https://reprap.org/wiki/G-code#D0:_Reset">D0: Reset</a>
D0 [ B ]
- `B` - Bootloader
*
#### Usage
D0 [ B ]
#### Parameters
- `B` - Bootloader
*/
void dcode_0()
{
@ -251,16 +257,22 @@ void dcode_1()
}
/*!
*
### D2 - Read/Write RAM <a href="https://reprap.org/wiki/G-code#D2:_Read.2FWrite_RAM">D2: Read/Write RAM</a>
### D2 - Read/Write RAM <a href="https://reprap.org/wiki/G-code#D2:_Read.2FWrite_RAM">D3: Read/Write RAM</a>
This command can be used without any additional parameters. It will read the entire RAM.
D2 [ A | C | X ]
- `A` - Address (0x0000-0x1fff)
- `C` - Count (0x0001-0x2000)
- `X` - Data
*
#### Usage
D2 [ A | C | X ]
#### Parameters
- `A` - Address (x0000-x1fff)
- `C` - Count (1-8192)
- `X` - Data
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
void dcode_2()
{
@ -306,17 +318,17 @@ void dcode_2()
}
/*!
*
### D4 - Read/Write PIN <a href="https://reprap.org/wiki/G-code#D4:_Read.2FWrite_PIN">D4: Read/Write PIN</a>
### D4 - Read/Write PIN <a href="https://reprap.org/wiki/G-code#D4:_Read.2FWrite_PIN">D4: Read/Write PIN</a>
To read the digital value of a pin you need only to define the pin number.
D4 [ P | F | V ]
- `P` - Pin (0-255)
- `F` - Function in/out (0/1)
- `V` - Value (0/1)
*
#### Usage
D4 [ P | F | V ]
#### Parameters
- `P` - Pin (0-255)
- `F` - Function in/out (0/1)
- `V` - Value (0/1)
*/
void dcode_4()
{
@ -351,18 +363,24 @@ void dcode_4()
#ifdef DEBUG_DCODE5
/*!
*
### D5 - Read/Write FLASH <a href="https://reprap.org/wiki/G-code#D5:_Read.2FWrite_FLASH">D5: Read/Write Flash</a>
This command can be used without any additional parameters. It will read the 1kb FLASH.
D5 [ A | C | X | E ]
- `A` - Address (0x00000-0x3ffff)
- `C` - Count (0x0001-0x2000)
- `X` - Data
- `E` - Erase
*
*/
#### Usage
D5 [ A | C | X | E ]
#### Parameters
- `A` - Address (x00000-x3ffff)
- `C` - Count (1-8192)
- `X` - Data
- `E` - Erase
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
void dcode_5()
{
printf_P(PSTR("D5 - Read/Write FLASH\n"));
@ -427,24 +445,18 @@ void dcode_5()
#ifdef DEBUG_DCODES
/*!
*
### D6 - Read/Write external FLASH <a href="https://reprap.org/wiki/G-code#D6:_Read.2FWrite_external_FLASH">D6: Read/Write external Flash</a>
Reserved
*
*/
*/
void dcode_6()
{
LOG("D6 - Read/Write external FLASH\n");
}
/*!
*
### D7 - Read/Write Bootloader <a href="https://reprap.org/wiki/G-code#D7:_Read.2FWrite_Bootloader">D7: Read/Write Bootloader</a>
Reserved
*
*/
*/
void dcode_7()
{
LOG("D7 - Read/Write Bootloader\n");
@ -461,16 +473,16 @@ void dcode_7()
}
/*!
*
### D8 - Read/Write PINDA <a href="https://reprap.org/wiki/G-code#D8:_Read.2FWrite_PINDA">D8: Read/Write PINDA</a>
D8 [ ? | ! | P | Z ]
- `?` - Read PINDA temperature shift values
- `!` - Reset PINDA temperature shift values to default
- `P` - Pinda temperature [C]
- `Z` - Z Offset [mm]
*
#### Usage
D8 [ ? | ! | P | Z ]
#### Parameters
- `?` - Read PINDA temperature shift values
- `!` - Reset PINDA temperature shift values to default
- `P` - Pinda temperature [C]
- `Z` - Z Offset [mm]
*/
void dcode_8()
{
@ -514,21 +526,21 @@ void dcode_8()
}
/*!
*
### D9 - Read ADC <a href="https://reprap.org/wiki/G-code#D9:_Read.2FWrite_ADC">D9: Read ADC</a>
D9 [ I | V ]
- `I` - ADC channel index
- `0` - Heater 0 temperature
- `1` - Heater 1 temperature
- `2` - Bed temperature
- `3` - PINDA temperature
- `4` - PWR voltage
- `5` - Ambient temperature
- `6` - BED voltage
- `V` Value to be written as simulated
*
#### Usage
D9 [ I | V ]
#### Parameters
- `I` - ADC channel index
- `0` - Heater 0 temperature
- `1` - Heater 1 temperature
- `2` - Bed temperature
- `3` - PINDA temperature
- `4` - PWR voltage
- `5` - Ambient temperature
- `6` - BED voltage
- `V` Value to be written as simulated
*/
const char* dcode_9_ADC_name(uint8_t i)
{
@ -604,11 +616,8 @@ void dcode_9()
}
/*!
*
### D10 - Set XYZ calibration = OK <a href="https://reprap.org/wiki/G-code#D10:_Set_XYZ_calibration_.3D_OK">D10: Set XYZ calibration = OK</a>
*
*/
*/
void dcode_10()
{//Tell the printer that XYZ calibration went OK
LOG("D10 - XYZ calibration = OK\n");
@ -616,11 +625,10 @@ void dcode_10()
}
/*!
*
### D12 - Time <a href="https://reprap.org/wiki/G-code#D12:_Time">D12: Time</a>
*
*/
Writes the current time in the log file.
*/
void dcode_12()
{//Time
LOG("D12 - Time\n");
@ -632,38 +640,61 @@ void dcode_12()
#include "planner.h"
#include "tmc2130.h"
extern void st_synchronize();
/**
* @brief D2130 Trinamic stepper controller
* D2130<axis><command>[subcommand][value]
* * Axis
* * * 'X'
* * * 'Y'
* * * 'Z'
* * * 'E'
* * command
* * * '0' current off
* * * '1' current on
* * * '+' single step
* * * * value sereval steps
* * * '-' dtto oposite direction
* * * '?' read register
* * * * "mres"
* * * * "step"
* * * * "mscnt"
* * * * "mscuract"
* * * * "wave"
* * * '!' set register
* * * * "mres"
* * * * "step"
* * * * "wave"
* * * * *0, 180..250 meaning: off, 0.9..1.25, recommended value is 1.1
* * * '@' home calibrate axis
*
* Example:
* D2130E?wave //print extruder microstep linearity compensation curve
* D2130E!wave0 //disable extruder linearity compensation curve, (sine curve is used)
* D2130E!wave220 // (sin(x))^1.1 extruder microstep compensation curve used
*/
/*!
### D2130 - Trinamic stepper controller <a href="https://reprap.org/wiki/G-code#D2130:_Trinamic_stepper_controller">D2130: Trinamic stepper controller</a>
@todo Please review by owner of the code. RepRap Wiki Gcode needs to be updated after review of owner as well.
#### Usage
D2130 [ Axis | Command | Subcommand | Value ]
#### Parameters
- Axis
- `X` - X stepper driver
- `Y` - Y stepper driver
- `Z` - Z stepper driver
- `E` - Extruder stepper driver
- Commands
- `0` - Current off
- `1` - Current on
- `+` - Single step
- `-` - Single step oposite direction
- `NNN` - Value sereval steps
- `?` - Read register
- Subcommands for read register
- `mres` - Micro step resolution. More information in datasheet '5.5.2 CHOPCONF Chopper Configuration'
- `step` - Step
- `mscnt` - Microstep counter. More information in datasheet '5.5 Motor Driver Registers'
- `mscuract` - Actual microstep current for motor. More information in datasheet '5.5 Motor Driver Registers'
- `wave` - Microstep linearity compensation curve
- `!` - Set register
- Subcommands for set register
- `mres` - Micro step resolution
- `step` - Step
- `wave` - Microstep linearity compensation curve
- Values for set register
- `0, 180 --> 250` - Off
- `0.9 --> 1.25` - Valid values (recommended is 1.1)
- `@` - Home calibrate axis
Examples:
D2130E?wave
Print extruder microstep linearity compensation curve
D2130E!wave0
Disable extruder linearity compensation curve, (sine curve is used)
D2130E!wave220
(sin(x))^1.1 extruder microstep compensation curve used
Notes:
For more information see https://www.trinamic.com/fileadmin/assets/Products/ICs_Documents/TMC2130_datasheet.pdf
*
*/
void dcode_2130()
{
printf_P(PSTR("D2130 - TMC2130\n"));
@ -767,18 +798,18 @@ void dcode_2130()
#ifdef PAT9125
/*!
*
### D9125 - PAT9125 filament sensor <a href="https://reprap.org/wiki/G-code#D9:_Read.2FWrite_ADC">D9125: PAT9125 filament sensor</a>
D9125 [ ? | ! | R | X | Y | L ]
- `?` - Print values
- `!` - Print values
- `R` - Resolution. Not active in code
- `X` - X values
- `Y` - Y values
- `L` - Activate filament sensor log
*
#### Usage
D9125 [ ? | ! | R | X | Y | L ]
#### Parameters
- `?` - Print values
- `!` - Print values
- `R` - Resolution. Not active in code
- `X` - X values
- `Y` - Y values
- `L` - Activate filament sensor log
*/
void dcode_9125()
{

View file

@ -310,9 +310,9 @@ extern int8_t lcd_change_fil_state;
extern float default_retraction;
#ifdef TMC2130
void homeaxis(int axis, uint8_t cnt = 1, uint8_t* pstep = 0);
bool homeaxis(int axis, bool doError = true, uint8_t cnt = 1, uint8_t* pstep = 0);
#else
void homeaxis(int axis, uint8_t cnt = 1);
bool homeaxis(int axis, bool doError = true, uint8_t cnt = 1);
#endif //TMC2130

View file

@ -46,6 +46,7 @@
//-//
#include "Configuration.h"
#include "Marlin.h"
#include "config.h"
#ifdef ENABLE_AUTO_BED_LEVELING
#include "vector_3.h"
@ -640,6 +641,9 @@ void failstats_reset_print()
eeprom_update_byte((uint8_t *)EEPROM_POWER_COUNT, 0);
eeprom_update_byte((uint8_t *)EEPROM_MMU_FAIL, 0);
eeprom_update_byte((uint8_t *)EEPROM_MMU_LOAD_FAIL, 0);
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
fsensor_softfail = 0;
#endif
}
@ -1310,10 +1314,17 @@ void setup()
setup_photpin();
servo_init();
// Reset the machine correction matrix.
// It does not make sense to load the correction matrix until the machine is homed.
world2machine_reset();
// Initialize current_position accounting for software endstops to
// avoid unexpected initial shifts on the first move
clamp_to_software_endstops(current_position);
plan_set_position(current_position[X_AXIS], current_position[Y_AXIS],
current_position[Z_AXIS], current_position[E_AXIS]);
#ifdef FILAMENT_SENSOR
fsensor_init();
#endif //FILAMENT_SENSOR
@ -1881,10 +1892,6 @@ static void axis_is_at_home(int axis) {
max_pos[axis] = base_max_pos(axis) + cs.add_homing[axis];
}
inline void set_current_to_destination() { memcpy(current_position, destination, sizeof(current_position)); }
inline void set_destination_to_current() { memcpy(destination, current_position, sizeof(destination)); }
//! @return original feedmultiply
static int setup_for_endstop_move(bool enable_endstops_now = true) {
saved_feedrate = feedrate;
@ -2180,9 +2187,9 @@ bool calibrate_z_auto()
#endif //TMC2130
#ifdef TMC2130
void homeaxis(int axis, uint8_t cnt, uint8_t* pstep)
bool homeaxis(int axis, bool doError, uint8_t cnt, uint8_t* pstep)
#else
void homeaxis(int axis, uint8_t cnt)
bool homeaxis(int axis, bool doError, uint8_t cnt)
#endif //TMC2130
{
bool endstops_enabled = enable_endstops(true); //RP: endstops should be allways enabled durring homing
@ -2297,8 +2304,10 @@ void homeaxis(int axis, uint8_t cnt)
#ifdef TMC2130
if (READ(Z_TMC2130_DIAG) != 0) { //Z crash
FORCE_HIGH_POWER_END;
kill(_T(MSG_BED_LEVELING_FAILED_POINT_LOW));
return;
if (doError) kill(_T(MSG_BED_LEVELING_FAILED_POINT_LOW));
current_position[axis] = -5; //assume that nozzle crashed into bed
plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
return 0;
}
#endif //TMC2130
current_position[axis] = 0;
@ -2313,8 +2322,10 @@ void homeaxis(int axis, uint8_t cnt)
#ifdef TMC2130
if (READ(Z_TMC2130_DIAG) != 0) { //Z crash
FORCE_HIGH_POWER_END;
kill(_T(MSG_BED_LEVELING_FAILED_POINT_LOW));
return;
if (doError) kill(_T(MSG_BED_LEVELING_FAILED_POINT_LOW));
current_position[axis] = -5; //assume that nozzle crashed into bed
plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
return 0;
}
#endif //TMC2130
axis_is_at_home(axis);
@ -2327,6 +2338,7 @@ void homeaxis(int axis, uint8_t cnt)
#endif
}
enable_endstops(endstops_enabled);
return 1;
}
/**/
@ -4996,7 +5008,7 @@ if(eSoundMode!=e_SOUND_MODE_SILENT)
#ifdef SUPPORT_VERBOSITY
if (verbosity_level >= 1) {
clamped = world2machine_clamp(current_position[X_AXIS], current_position[Y_AXIS]);
bool clamped = world2machine_clamp(current_position[X_AXIS], current_position[Y_AXIS]);
SERIAL_PROTOCOL(mesh_point);
clamped ? SERIAL_PROTOCOLPGM(": xy clamped.\n") : SERIAL_PROTOCOLPGM(": no xy clamping\n");
}
@ -5576,10 +5588,15 @@ if(eSoundMode!=e_SOUND_MODE_SILENT)
lcd_resume_print();
else
{
failstats_reset_print();
if (!card.get_sdpos())
{
// A new print has started from scratch, reset stats
failstats_reset_print();
#ifndef LA_NOCOMPAT
la10c_reset();
la10c_reset();
#endif
}
card.startFileprint();
starttime=_millis();
}
@ -5689,12 +5706,19 @@ if(eSoundMode!=e_SOUND_MODE_SILENT)
if(code_seen('S'))
if(strchr_pointer<namestartpos) //only if "S" is occuring _before_ the filename
card.setIndex(code_value_long());
#ifndef LA_NOCOMPAT
la10c_reset();
#endif
card.startFileprint();
if(!call_procedure)
starttime=_millis(); //procedure calls count as normal print time.
{
if(!card.get_sdpos())
{
// A new print has started from scratch, reset stats
failstats_reset_print();
#ifndef LA_NOCOMPAT
la10c_reset();
#endif
}
starttime=_millis(); // procedure calls count as normal print time.
}
}
} break;
@ -6660,7 +6684,7 @@ Sigma_Exit:
{
if(code_seen(axis_codes[i]))
{
if(i == 3) { // E
if(i == E_AXIS) { // E
float value = code_value();
if(value < 20.0) {
float factor = cs.axis_steps_per_unit[i] / value; // increase e constants if M92 E14 is given for netfab.
@ -6669,6 +6693,9 @@ Sigma_Exit:
axis_steps_per_sqr_second[i] *= factor;
}
cs.axis_steps_per_unit[i] = value;
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
fsensor_set_axis_steps_per_unit(value);
#endif
}
else {
cs.axis_steps_per_unit[i] = code_value();
@ -7075,9 +7102,17 @@ Sigma_Exit:
if(code_seen('X')) cs.max_jerk[X_AXIS] = cs.max_jerk[Y_AXIS] = code_value();
if(code_seen('Y')) cs.max_jerk[Y_AXIS] = code_value();
if(code_seen('Z')) cs.max_jerk[Z_AXIS] = code_value();
if(code_seen('E')) cs.max_jerk[E_AXIS] = code_value();
if (cs.max_jerk[X_AXIS] > DEFAULT_XJERK) cs.max_jerk[X_AXIS] = DEFAULT_XJERK;
if (cs.max_jerk[Y_AXIS] > DEFAULT_YJERK) cs.max_jerk[Y_AXIS] = DEFAULT_YJERK;
if(code_seen('E'))
{
float e = code_value();
#ifndef LA_NOCOMPAT
e = la10c_jerk(e);
#endif
cs.max_jerk[E_AXIS] = e;
}
if (cs.max_jerk[X_AXIS] > DEFAULT_XJERK) cs.max_jerk[X_AXIS] = DEFAULT_XJERK;
if (cs.max_jerk[Y_AXIS] > DEFAULT_YJERK) cs.max_jerk[Y_AXIS] = DEFAULT_YJERK;
}
break;
@ -8408,7 +8443,6 @@ Sigma_Exit:
res_valid |= (i == E_AXIS) && ((res_new == 64) || (res_new == 128)); // resolutions valid for E only
if (res_valid)
{
st_synchronize();
uint16_t res = tmc2130_get_res(i);
tmc2130_set_res(i, res_new);
@ -8425,6 +8459,10 @@ Sigma_Exit:
cs.axis_steps_per_unit[i] /= fac;
position[i] /= fac;
}
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
if (i == E_AXIS)
fsensor_set_axis_steps_per_unit(cs.axis_steps_per_unit[i]);
#endif
}
}
}
@ -8773,12 +8811,18 @@ Sigma_Exit:
This command can be used without any additional parameters. It will read the entire RAM.
#### Usage
D3 [ A | C | X ]
D2 [ A | C | X ]
#### Parameters
- `A` - Address (0x0000-0x1fff)
- `C` - Count (0x0001-0x2000)
- `A` - Address (x0000-x1fff)
- `C` - Count (1-8192)
- `X` - Data
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
case 2:
dcode_2(); break;
@ -8793,9 +8837,15 @@ Sigma_Exit:
D3 [ A | C | X ]
#### Parameters
- `A` - Address (0x0000-0x0fff)
- `C` - Count (0x0001-0x1000)
- `X` - Data
- `A` - Address (x0000-x0fff)
- `C` - Count (1-4096)
- `X` - Data (hex)
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
case 3:
dcode_3(); break;
@ -8825,14 +8875,20 @@ Sigma_Exit:
This command can be used without any additional parameters. It will read the 1kb FLASH.
#### Usage
D3 [ A | C | X | E ]
D5 [ A | C | X | E ]
#### Parameters
- `A` - Address (0x00000-0x3ffff)
- `C` - Count (0x0001-0x2000)
- `A` - Address (x00000-x3ffff)
- `C` - Count (1-8192)
- `X` - Data
- `E` - Erase
*/
#### Notes
- The hex address needs to be lowercase without the 0 before the x
- Count is decimal
- The hex data needs to be lowercase
*/
case 5:
dcode_5(); break;
break;
@ -8896,7 +8952,7 @@ Sigma_Exit:
/*!
### D12 - Time <a href="https://reprap.org/wiki/G-code#D12:_Time">D12: Time</a>
Writes the actual time in the log file.
Writes the current time in the log file.
*/
#endif //DEBUG_DCODES
@ -9051,7 +9107,6 @@ Sigma_Exit:
For more information see https://www.trinamic.com/fileadmin/assets/Products/ICs_Documents/TMC2130_datasheet.pdf
*
*/
case 2130:
dcode_2130(); break;
#endif //TMC2130
@ -9095,8 +9150,8 @@ Sigma_Exit:
#### End of D-Codes
*/
/** @defgroup GCodes G-Code List
*/
/** @defgroup GCodes G-Code List
*/
// ---------------------------------------------------
@ -9431,10 +9486,15 @@ static void handleSafetyTimer()
}
#endif //SAFETYTIMER
#define FS_CHECK_COUNT 15
void manage_inactivity(bool ignore_stepper_queue/*=false*/) //default argument set in Marlin.h
{
bool bInhibitFlag;
#ifdef FILAMENT_SENSOR
bool bInhibitFlag;
#ifdef IR_SENSOR_ANALOG
static uint8_t nFSCheckCount=0;
#endif // IR_SENSOR_ANALOG
if (mmu_enabled == false)
{
//-// if (mcode_in_progress != 600) //M600 not in progress
@ -9443,11 +9503,35 @@ bool bInhibitFlag;
#endif // PAT9125
#ifdef IR_SENSOR
bInhibitFlag=(menu_menu==lcd_menu_show_sensors_state); // Support::SensorInfo menu active
#ifdef IR_SENSOR_ANALOG
bInhibitFlag=bInhibitFlag||bMenuFSDetect; // Settings::HWsetup::FSdetect menu active
#endif // IR_SENSOR_ANALOG
#endif // IR_SENSOR
if ((mcode_in_progress != 600) && (eFilamentAction != FilamentAction::AutoLoad) && (!bInhibitFlag)) //M600 not in progress, preHeat @ autoLoad menu not active, Support::ExtruderInfo/SensorInfo menu not active
{
if (!moves_planned() && !IS_SD_PRINTING && !is_usb_printing && (lcd_commands_type != LcdCommands::Layer1Cal) && ! eeprom_read_byte((uint8_t*)EEPROM_WIZARD_ACTIVE))
{
#ifdef IR_SENSOR_ANALOG
bool bTemp=current_voltage_raw_IR>IRsensor_Hmin_TRESHOLD;
bTemp=bTemp&&current_voltage_raw_IR<IRsensor_Hopen_TRESHOLD;
bTemp=bTemp&&(!CHECK_ALL_HEATERS);
bTemp=bTemp&&(menu_menu==lcd_status_screen);
bTemp=bTemp&&((oFsensorPCB==ClFsensorPCB::_Old)||(oFsensorPCB==ClFsensorPCB::_Undef));
bTemp=bTemp&&fsensor_enabled;
if(bTemp)
{
nFSCheckCount++;
if(nFSCheckCount>FS_CHECK_COUNT)
{
nFSCheckCount=0; // not necessary
oFsensorPCB=ClFsensorPCB::_Rev03b;
eeprom_update_byte((uint8_t*)EEPROM_FSENSOR_PCB,(uint8_t)oFsensorPCB);
printf_IRSensorAnalogBoardChange(true);
lcd_setstatuspgm(_i("FS rev. 03b or newer"));
}
}
else nFSCheckCount=0;
#endif // IR_SENSOR_ANALOG
if (fsensor_check_autoload())
{
#ifdef PAT9125

View file

@ -136,8 +136,17 @@ void CardReader::lsDive(const char *prepend, SdFile parent, const char * const m
SERIAL_ECHOPGM("Access date: ");
MYSERIAL.println(p.lastAccessDate);
SERIAL_ECHOLNPGM("");*/
modificationDate = p.lastWriteDate;
modificationTime = p.lastWriteTime;
crmodDate = p.lastWriteDate;
crmodTime = p.lastWriteTime;
// There are scenarios when simple modification time is not enough (on MS Windows)
// For example - extract an old g-code from an archive onto the SD card.
// In such case the creation time is current time (which is correct), but the modification time
// stays the same - i.e. old.
// Therefore let's pick the most recent timestamp from both creation and modification timestamps
if( crmodDate < p.creationDate || ( crmodDate == p.creationDate && crmodTime < p.creationTime ) ){
crmodDate = p.creationDate;
crmodTime = p.creationTime;
}
//writeDate = p.lastAccessDate;
if (match != NULL) {
if (strcasecmp(match, filename) == 0) return;
@ -773,8 +782,8 @@ void CardReader::presort() {
// retaining only two filenames at a time. This is very
// slow but is safest and uses minimal RAM.
char name1[LONG_FILENAME_LENGTH + 1];
uint16_t modification_time_bckp;
uint16_t modification_date_bckp;
uint16_t crmod_time_bckp;
uint16_t crmod_date_bckp;
#endif
position = 0;
@ -800,8 +809,8 @@ void CardReader::presort() {
#else
// Copy filenames into the static array
strcpy(sortnames[i], LONGEST_FILENAME);
modification_time[i] = modificationTime;
modification_date[i] = modificationDate;
modification_time[i] = crmodTime;
modification_date[i] = crmodDate;
#if SDSORT_CACHE_NAMES
strcpy(sortshort[i], filename);
#endif
@ -830,8 +839,8 @@ void CardReader::presort() {
(modification_date[o1] < modification_date [o2]))
#else
#define _SORT_CMP_NODIR() (strcasecmp(name1, name2) > 0) //true if lowercase(name1) > lowercase(name2)
#define _SORT_CMP_TIME_NODIR() (((modification_date_bckp == modificationDate) && (modification_time_bckp > modificationTime)) || \
(modification_date_bckp > modificationDate))
#define _SORT_CMP_TIME_NODIR() (((crmod_date_bckp == crmodDate) && (crmod_time_bckp > crmodTime)) || \
(crmod_date_bckp > crmodDate))
#endif
@ -882,8 +891,8 @@ void CardReader::presort() {
counter++;
getfilename_simple(positions[o1]);
strcpy(name1, LONGEST_FILENAME); // save (or getfilename below will trounce it)
modification_date_bckp = modificationDate;
modification_time_bckp = modificationTime;
crmod_date_bckp = crmodDate;
crmod_time_bckp = crmodTime;
#if HAS_FOLDER_SORTING
bool dir1 = filenameIsDir;
#endif

View file

@ -75,7 +75,9 @@ public:
bool sdprinting ;
bool cardOK ;
char filename[13];
uint16_t modificationTime, modificationDate;
// There are scenarios when simple modification time is not enough (on MS Windows)
// Therefore these timestamps hold the most recent one of creation/modification date/times
uint16_t crmodTime, crmodDate;
uint32_t cluster, position;
char longFilename[LONG_FILENAME_LENGTH];
bool filenameIsDir;

View file

@ -5,10 +5,12 @@
#include "Configuration_prusa.h"
#include "pins.h"
#define IR_SENSOR_ANALOG (defined(VOLT_IR_PIN) && defined(IR_SENSOR))
#if (defined(VOLT_IR_PIN) && defined(IR_SENSOR))
# define IR_SENSOR_ANALOG
#endif
//ADC configuration
#if !IR_SENSOR_ANALOG
#ifndef IR_SENSOR_ANALOG
#define ADC_CHAN_MSK 0b0000001001011111 //used AD channels bit mask (0,1,2,3,4,6,9)
#define ADC_DIDR_MSK 0b0000001001011111 //AD channels DIDR mask (1 ~ disabled digital input)
#define ADC_CHAN_CNT 7 //number of used channels)
@ -34,7 +36,8 @@
//#define PAT9125_I2C_ADDR 0x79 //ID=HI
//#define PAT9125_I2C_ADDR 0x73 //ID=NC
#define PAT9125_XRES 0
#define PAT9125_YRES 240
#define PAT9125_YRES 240 // maximum resolution (5*X cpi)
#define PAT9124_YRES_MM (5*PAT9125_YRES/25.4) // counts per mm
//SM4 configuration
#define SM4_DEFDELAY 500 //default step delay [us]
@ -55,7 +58,7 @@
#define W25X20CL_SPSR SPI_SPSR(W25X20CL_SPI_RATE)
//LANG - Multi-language support
//define LANG_MODE 0 // primary language only
//#define LANG_MODE 0 // primary language only
#define LANG_MODE 1 // sec. language support
#define LANG_SIZE_RESERVED 0x3000 // reserved space for secondary language (12288 bytes)

View file

@ -1,3 +1,13 @@
/**
* @file
* @author 3d-gussner
*/
/** \ingroup eeprom_table */
//! _This is a EEPROM table of currently implemented in Prusa firmware (dynamically generated from doxygen)._
#ifndef EEPROM_H
#define EEPROM_H
@ -26,6 +36,338 @@ typedef struct
#ifdef __cplusplus
static_assert(sizeof(Sheets) == EEPROM_SHEETS_SIZEOF, "Sizeof(Sheets) is not EEPROM_SHEETS_SIZEOF.");
#endif
/** @defgroup eeprom_table EEPROM Table
*
---------------------------------------------------------------------------------
EEPROM 8-bit Empty value = 0xFFh 255
EEPROM 16-bit Empty value = 0xFFFFh 65535
_Italic = unused or default_
__Bold = Status__
In Default/FactoryReset column the
- __L__ Language
- __S__ Statistics
- __P__ Shipping prep
- __S/P__ Statistics and Shipping prep
will overwrite existing values to 0 or default.
A FactoryReset All Data will overwrite the whole EEPROM with ffh and some values will be initialized automatically,
others need a reset / reboot.
---------------------------------------------------------------------------------
How can you use the debug codes?
- Serial terminal like Putty.
- Octoprint does support D-codes
- _Pronterface_ does __not__ support D-codes
### !!! D-codes are case sensitive so please don't use upper case A,C or X in the address you want to read !!!
#### Useful tools/links:
To convert hex to ascii https://www.rapidtables.com/convert/number/hex-to-ascii.html
To convert hex to dec https://www.rapidtables.com/convert/number/hex-to-decimal.html
Version: 1.0
---------------------------------------------------------------------------------
| Address begin | Bit/Type | Name | Valid values | Default/FactoryReset | Description | Gcode/Function| Debug code
| :-- | :-- | :-- | :--: | :--: | :-- | :--: | :--:
| 0x0FFFh 4095 | uchar | EEPROM_SILENT | 00h 0 | ffh 255 | TMC Stealth mode: __off__ / miniRambo Power mode | LCD menu | D3 Ax0fff C1
| ^ | ^ | ^ | 01h 1 | ^ | TMC Stealth mode: __on__ / miniRambo Silent mode | ^ | ^
| 0x0FFEh 4094 | uchar | EEPROM_LANG | 00h 0 | ffh 255 __L__ | English / LANG_ID_PRI | LCD menu | D3 Ax0ffe C1
| ^ | ^ | ^ | 01h 1 | ^ | Other language LANG_ID_SEC | ^ | ^
| 0x0FFCh 4092 | uint16 | EEPROM_BABYSTEP_X | ??? | ff ffh 65535 | Babystep for X axis _unsued_ | ??? | D3 Ax0ffc C2
| 0x0FFAh 4090 | uint16 | EEPROM_BABYSTEP_Y | ??? | ff ffh 65535 | Babystep for Y axis _unsued_ | ^ | D3 Ax0ffa C2
| 0x0FF8h 4088 | uint16 | EEPROM_BABYSTEP_Z | ??? | ff ffh 65535 | Babystep for Z axis _lagacy_ | ^ | D3 Ax0ff8 C2
| ^ | ^ | ^ | ^ | ^ | multiple values stored now in EEPROM_Sheets_base | ^ | ^
| 0x0FF7h 4087 | uint8 | EEPROM_CALIBRATION_STATUS | ffh 255 | ffh 255 | Assembled _default_ | ??? | D3 Ax0ff7 C1
| ^ | ^ | ^ | 01h 1 | ^ | Calibrated | ^ | ^
| ^ | ^ | ^ | e6h 230 | ^ | needs Live Z adjustment | ^ | ^
| ^ | ^ | ^ | f0h 240 | ^ __P__ | needs Z calibration | ^ | ^
| ^ | ^ | ^ | fah 250 | ^ | needs XYZ calibration | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | Unknown | ^ | ^
| 0x0FF5h 4085 | uint16 | EEPROM_BABYSTEP_Z0 | ??? | ff ffh 65535 | Babystep for Z ??? | ??? | D3 Ax0ff5 C2
| 0x0FF1h 4081 | uint32 | EEPROM_FILAMENTUSED | ??? | 00 00 00 00h 0 __S/P__| Filament used in meters | ??? | D3 Ax0ff1 C4
| 0x0FEDh 4077 | uint32 | EEPROM_TOTALTIME | ??? | 00 00 00 00h 0 __S/P__| Total print time | ??? | D3 Ax0fed C4
| 0x0FE5h 4069 | float | EEPROM_BED_CALIBRATION_CENTER | ??? | ff ff ff ffh | ??? | ??? | D3 Ax0fe5 C8
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0FDDh 4061 | float | EEPROM_BED_CALIBRATION_VEC_X | ??? | ff ff ff ffh | ??? | ??? | D3 Ax0fdd C8
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0FD5h 4053 | float | EEPROM_BED_CALIBRATION_VEC_Y | ??? | ff ff ff ffh | ??? | ??? | D3 Ax0fd5 C8
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0FC5h 4037 | int16 | EEPROM_BED_CALIBRATION_Z_JITTER | ??? | ff ffh 65535 | ??? | ??? | D3 Ax0fc5 C16
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0FC4h 4036 | bool | EEPROM_FARM_MODE | 00h 0 | ffh 255 __P__ | Prusa farm mode: __off__ | G99 | D3 Ax0fc4 C1
| ^ | ^ | ^ | 01h 1 | ^ | Prusa farm mode: __on__ | G98 | ^
| 0x0FC3h 4035 | free | _EEPROM_FREE_NR1_ | ??? | ffh 255 | _Free EEPROM space_ | _free space_ | D3 Ax0fc3 C1
| 0x0FC1h 4033 | ??? | EEPROM_FARM_NUMBER | 000-999 | ff ffh / 000 __P__ | Prusa farm number _only 0-9 are allowed: 000-999_ | LCD menu | D3 Ax0fc1 C2
| 0x0FC0h 4032 | bool | EEPROM_BED_CORRECTION_VALID | 00h 0 | 00h 0 | Bed correction invalid | ??? | D3 Ax0fc0 C1
| ^ | ^ | ^ | ffh 255 | | Bed correction valid | ??? | ^
| 0x0FBFh 4031 | char | EEPROM_BED_CORRECTION_LEFT | 00h ffh | 00h 0 | Bed manual correction left | LCD menu | D3 Ax0fbf C1
| ^ | ^ | ^ | ^ | ^ | At this moment limited to +-100um | G80 Lxxx | ^
| 0x0FBEh 4030 | char | EEPROM_BED_CORRECTION_RIGHT | 00h ffh | 00h 0 | Bed manual correction right | LCD menu | D3 Ax0fbe C1
| ^ | ^ | ^ | ^ | ^ | At this moment limited to +-100um | G80 Rxxx | ^
| 0x0FBDh 4029 | char | EEPROM_BED_CORRECTION_FRONT | 00h ffh | 00h 0 | Bed manual correction front | LCD menu | D3 Ax0fbd C1
| ^ | ^ | ^ | ^ | ^ | At this moment limited to +-100um | G80 Fxxx | ^
| 0x0FBCh 4028 | char | EEPROM_BED_CORRECTION_BACK | 00h ffh | 00h 0 | Bed manual correction back | LCD menu | D3 Ax0fbc C1
| ^ | ^ | ^ | ^ | ^ | At this moment limited to +-100um | G80 Bxxx | ^
| 0x0FBBh 4027 | bool | EEPROM_TOSHIBA_FLASH_AIR_COMPATIBLITY | 00h 0 | ffh 255 | Toshiba Air: __off__ | LCD menu | D3 Ax0fbb C1
| ^ | ^ | ^ | 01h 1 | ^ | Toshiba Air: __on__ | ^ | ^
| 0x0FBAh 4026 | uchar | EEPROM_PRINT_FLAG | ??? | ??? | _unsued_ | ??? | D3 Ax0fba C1
| 0x0FB0h 4016 | int16 | EEPROM_PROBE_TEMP_SHIFT | ??? | ??? | ??? | ??? | D3 Ax0fb0 C10
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0FAFh 4015 | bool | EEPROM_TEMP_CAL_ACTIVE | 00h 0 | 00h 0 | PINDA Temp cal.: __inactive__ | LCD menu | D3 Ax0faf C1
| ^ | ^ | ^ | ffh 255 | ^ | PINDA Temp cal.: __active__ | ^ | ^
| 0x0FA7h 4007 | uint32 | EEPROM_BOWDEN_LENGTH | ??? | ff 00 00 00h | Bowden length | ??? | D3 Ax0fae C8
| ^ | ^ | ^ | ^ | 00 00 00 00h | ^ | ^ | ^
| 0x0FA6h 4006 | uint8 | EEPROM_CALIBRATION_STATUS_PINDA | 00h 0 | ffh 255 | PINDA Temp: __not calibrated__ | ??? | D3 Ax0fa6 C1
| ^ | ^ | ^ | 01h 1 | ^ | PINDA Temp: __calibrated__ | ^ | ^
| 0x0FA5h 4005 | uint8 | EEPROM_UVLO | 00h 0 | ffh 255 | Power Panic flag: __inactive__ | ??? | D3 Ax0fa5 C1
| ^ | ^ | ^ | 01h 1 | ^ | Power Panic flag: __active__ | ^ | ^
| ^ | ^ | ^ | 02h 2 | ^ | Power Panic flag: __???__ | ^ | ^
| 0x0F9Dh 3997 | float | EEPROM_UVLO_CURRENT_POSITION | ??? | ffh 255 | Power Panic position | ??? | D3 Ax0f9d C8
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0F95h 3989 | char | EEPROM_FILENAME | ??? | ffh 255 | Power Panic Filename | ??? | D3 Ax0f95 C8
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0F91h 39851 | uint32 | EEPROM_FILE_POSITION | ??? | ff ff ff ffh | Power Panic File Position | ??? | D3 Ax0f91 C4
| 0x0F8Dh 3981 | float | EEPROM_UVLO_CURRENT_POSITION_Z | ??? | ff ff ff ffh | Power Panic Z Position | ^ | D3 Ax0f8d C4
| 0x0F8Ch 3980 | ??? | EEPROM_UVLO_UNUSED_001 | ??? | ffh 255 | Power Panic _unused_ | ^ | D3 Ax0f8c C1
| 0x0F8Bh 3979 | uint8 | EEPROM_UVLO_TARGET_BED | ??? | ffh 255 | Power Panic Bed temperature | ^ | D3 Ax0f8b C1
| 0x0F89h 3977 | uint16 | EEPROM_UVLO_FEEDRATE | ??? | ff ffh 65535 | Power Panic Feedrate | ^ | D3 Ax0f89 C2
| 0x0F88h 3976 | uint8 | EEPROM_UVLO_FAN_SPEED | ??? | ffh 255 | Power Panic Fan speed | ^ | D3 Ax0f88 C1
| 0x0F87h 3975 | uint8 | EEPROM_FAN_CHECK_ENABLED | 00h 0 | ??? | Fan Check __disabled__ | LCD menu | D3 Ax0f87 C1
| ^ | ^ | ^ | 01h 1 | ffh 255 | Fan Check __enabled__ | ^ | ^
| 0x0F75h 3957 | uint16 | EEPROM_UVLO_MESH_BED_LEVELING | ??? | ff ffh 65535 | Power Panic Mesh Bed Leveling | ??? | D3 Ax0f75 C18
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ^ | ^ | ^ | ^ | ^
| 0x0F73h 3955 | uint16 | EEPROM_UVLO_Z_MICROSTEPS | ??? | ff ffh 65535 | Power Panic Z microsteps | ??? | D3 Ax0f73 C2
| 0x0F72h 3954 | uint8 | EEPROM_UVLO_E_ABS | ??? | ffh 255 | Power Panic ??? position | ??? | D3 Ax0f72 C1
| 0x0F6Eh 3950 | foat | EEPROM_UVLO_CURRENT_POSITION_E | ??? | ff ff ff ffh | Power Panic E position | ??? | D3 Ax0f6e C4
| 0x0F6Dh 3949 | ??? | _EEPROM_FREE_NR2_ | ??? | ffh 255 | _Free EEPROM space_ | _free space_ | D3 Ax0f6d C1
| 0x0F6Ch 3948 | ??? | _EEPROM_FREE_NR3_ | ??? | ffh 255 | _Free EEPROM space_ | _free space_ | D3 Ax0f6c C1
| 0x0F6Bh 3947 | ??? | _EEPROM_FREE_NR4_ | ??? | ffh 255 | _Free EEPROM space_ | _free space_ | D3 Ax0f6b C1
| 0x0F6Ah 3946 | ??? | _EEPROM_FREE_NR5_ | ??? | ffh 255 | _Free EEPROM space_ | _free space_ | D3 Ax0f6a C1
| 0x0F69h 3945 | uint8 | EEPROM_CRASH_DET | ffh 255 | ffh 255 | Crash detection: __enabled__ | LCD menu | D3 Ax0f69 C1
| ^ | ^ | ^ | 00h 0 | ^ | Crash detection: __disabled__ | LCD menu | ^
| 0x0F68h 3944 | uint8 | EEPROM_CRASH_COUNT_Y | 00h-ffh 0-255 | ffh 255 __S/P__ | Crashes detected on y axis | ??? | D3 Ax0f68 C1
| 0x0F67h 3943 | uint8 | EEPROM_FSENSOR | 01h 1 | ffh 255 __P__ | Filament sensor: __enabled__ | LCD menu | D3 Ax0f67 C1
| ^ | ^ | ^ | 00h 0 | ^ | Filament sensor: __disabled__ | LCD menu | ^
| 0x0F65h 3942 | uint8 | EEPROM_CRASH_COUNT_X | 00h-ffh 0-255 | ffh 255 __S/P__ | Crashes detected on x axis | ??? | D3 Ax0f66 C1
| 0x0F65h 3941 | uint8 | EEPROM_FERROR_COUNT | 00h-ffh 0-255 | ffh 255 __S/P__ | Filament sensor error counter | ??? | D3 Ax0f65 C1
| 0x0F64h 3940 | uint8 | EEPROM_POWER_COUNT | 00h-ffh 0-255 | ffh 255 __S/P__ | Power failure counter | ??? | D3 Ax0f64 C1
| 0x0F60h 3936 | float | EEPROM_XYZ_CAL_SKEW | ??? | ff ff ff ffh | XYZ skew value | ??? | D3 Ax0f60 C4
| 0x0F5Fh 3935 | uint8 | EEPROM_WIZARD_ACTIVE | 01h 1 | 01h 1 __P__ | Wizard __active__ | ??? | D3 Ax0f5f C1
| ^ | ^ | ^ | 00h 0 | ^ | Wizard __inactive__ | ^ | ^
| 0x0F5Dh 3933 | uint16 | EEPROM_BELTSTATUS_X | ??? | ff ffh | X Beltstatus | ??? | D3 Ax0f5d C2
| 0x0F5Bh 3931 | uint16 | EEPROM_BELTSTATUS_Y | ??? | ff ffh | Y Beltstatus | ??? | D3 Ax0f5b C2
| 0x0F5Ah 3930 | uint8 | EEPROM_DIR_DEPTH | 00h-ffh 0-255 | ffh 255 | Directory depth | ??? | D3 Ax0f5a C1
| 0x0F0Ah 3850 | uint8 | EEPROM_DIRS | ??? | ffh 255 | Directories ??? | ??? | D3 Ax0f0a C80
| 0x0F09h 3849 | uint8 | EEPROM_SD_SORT | 00h 0 | ffh 255 | SD card sort by: __time__ | LCD menu | D3 Ax0f09 C1
| ^ | ^ | ^ | 01h 1 | ^ | SD card sort by: __alphabet__ | LCD menu | ^
| ^ | ^ | ^ | 02h 1 | ^ | SD card: __not sorted__ | LCD menu | ^
| 0x0F08h 3848 | uint8 | EEPROM_SECOND_SERIAL_ACTIVE | 00h 0 | ffh 255 | RPi Port: __disabled__ | LCD menu | D3 Ax0f08 C1
| ^ | ^ | ^ | 01h 1 | ^ | RPi Port: __enabled__ | LCD menu | ^
| 0x0F07h 3847 | uint8 | EEPROM_FSENS_AUTOLOAD_ENABLED | 01h 1 | ffh 255 __P__ | Filament autoload: __enabled__ | LCD menu | D3 Ax0f07 C1
| ^ | ^ | ^ | 00h 0 | ^ | Filament autoload: __disabled__ | LCD menu | ^
| 0x0F05h 3845 | uint16 | EEPROM_CRASH_COUNT_X_TOT | 0000-fffe | ff ffh __S/P__ | Total crashes on x axis | ??? | D3 Ax0f05 C2
| 0x0F03h 3843 | uint16 | EEPROM_CRASH_COUNT_Y_TOT | 0000-fffe | ff ffh __S/P__ | Total crashes on y axis | ??? | D3 Ax0f03 C2
| 0x0F01h 3841 | uint16 | EEPROM_FERROR_COUNT_TOT | 0000-fffe | ff ffh __S/P__ | Total filament sensor errors | ??? | D3 Ax0f01 C2
| 0x0EFFh 3839 | uint16 | EEPROM_POWER_COUNT_TOT | 0000-fffe | ff ffh __S/P__ | Total power failures | ??? | D3 Ax0eff C2
| 0x0EFEh 3838 | uint8 | EEPROM_TMC2130_HOME_X_ORIGIN | ??? | ffh 255 | ??? | ??? | D3 Ax0efe C1
| 0x0EFDh 3837 | uint8 | EEPROM MC2130_HOME_X_BSTEPS | ??? | ffh 255 | ??? | ??? | D3 Ax0efd C1
| 0x0EFCh 3836 | uint8 | EEPROM_TMC2130_HOME_X_FSTEPS | ??? | ffh 255 | ??? | ??? | D3 Ax0efc C1
| 0x0EFBh 3835 | uint8 | EEPROM_TMC2130_HOME_Y_ORIGIN | ??? | ffh 255 | ??? | ??? | D3 Ax0efb C1
| 0x0EFAh 3834 | uint8 | EEPROM_TMC2130_HOME_Y_BSTEPS | ??? | ffh 255 | ??? | ??? | D3 Ax0efa C1
| 0x0EF9h 3833 | uint8 | EEPROM_TMC2130_HOME_Y_FSTEPS | ??? | ffh 255 | ??? | ??? | D3 Ax0ef9 C1
| 0x0EF8h 3832 | uint8 | EEPROM_TMC2130_HOME_ENABLED | ??? | ffh 255 | ??? | ??? | D3 Ax0ef8 C1
| 0x0EF7h 3831 | uint8 | EEPROM_TMC2130_WAVE_X_FAC | ??? | ffh 255 | ??? | ??? | D3 Ax0ef7 C1
| 0x0EF6h 3830 | uint8 | EEPROM_TMC2130_WAVE_Y_FAC | ??? | ffh 255 | ??? | ??? | D3 Ax0ef6 C1
| 0x0EF5h 3829 | uint8 | EEPROM_TMC2130_WAVE_Z_FAC | ??? | ffh 255 | ??? | ??? | D3 Ax0ef5 C1
| 0x0EF4h 3828 | uint8 | EEPROM_TMC2130_WAVE_E_FAC | ??? | ffh 255 | ??? | ??? | D3 Ax0ef4 C1
| 0x0EF3h 3827 | uint8 | EEPROM_TMC2130_X_MRES | ??? | ffh 255 | ??? | ??? | D3 Ax0ef3 C1
| 0x0EF2h 3826 | uint8 | EEPROM_TMC2130_Y_MRES | ??? | ffh 255 | ??? | ??? | D3 Ax0ef2 C1
| 0x0EF1h 3825 | uint8 | EEPROM_TMC2130_Z_MRES | ??? | ffh 255 | ??? | ??? | D3 Ax0ef1 C1
| 0x0EF0h 3824 | uint8 | EEPROM_TMC2130_E_MRES | ??? | ffh 255 | ??? | ??? | D3 Ax0ef0 C1
| 0x0EEE 3822 | uint16 | EEPROM_PRINTER_TYPE | ??? | ff ffh 65535 | Printer Type | ??? | D3 Ax0eee C2
| ^ | ^ | ^ | 64 00h 100 | ^ | PRINTER_MK1 | ??? | ^
| ^ | ^ | ^ | c8 00h 200 | ^ | PRINTER_MK2 | ??? | ^
| ^ | ^ | ^ | c9 00h 201 | ^ | PRINTER_MK2 with MMU1 | ??? | ^
| ^ | ^ | ^ | ca 00h 202 | ^ | PRINTER_MK2S | ??? | ^
| ^ | ^ | ^ | cb 00h 203 | ^ | PRINTER_MK2S with MMU1 | ??? | ^
| ^ | ^ | ^ | fa 00h 250 | ^ | PRINTER_MK2.5 | ??? | ^
| ^ | ^ | ^ | 1a 4fh 20250 | ^ | PRINTER_MK2.5 with MMU2 | ??? | ^
| ^ | ^ | ^ | fc 00h 252 | ^ | PRINTER_MK2.5S | ??? | ^
| ^ | ^ | ^ | 1c 4fh 20250 | ^ | PRINTER_MK2.5S with MMU2S | ??? | ^
| ^ | ^ | ^ | 0c 12h 300 | ^ | PRINTER_MK3 | ??? | ^
| ^ | ^ | ^ | 4c 4fh 20300 | ^ | PRINTER_MK3 with MMU2 | ??? | ^
| ^ | ^ | ^ | 0e 12h 302 | ^ | PRINTER_MK3S | ??? | ^
| ^ | ^ | ^ | 4e 4fh 20302 | ^ | PRINTER_MK3S with MMU2S | ??? | ^
| 0x0EEC 3820 | uint16 | EEPROM_BOARD_TYPE | ??? | ff ffh 65535 | Board Type | ??? | D3 Ax0eec C2
| ^ | ^ | ^ | c8 00h 200 | ^ | BOARD_RAMBO_MINI_1_0 | ??? | ^
| ^ | ^ | ^ | cb 00h 203 | ^ | BOARD_RAMBO_MINI_1_3 | ??? | ^
| ^ | ^ | ^ | 36 01h 310 | ^ | BOARD_EINSY_1_0a | ??? | ^
| 0x0EE8 3816 | float | EEPROM_EXTRUDER_MULTIPLIER_0 | ??? | ff ff ff ffh | Power panic Extruder 0 multiplier | ??? | D3 Ax0ee8 C4
| 0x0EE4 3812 | float | EEPROM_EXTRUDER_MULTIPLIER_1 | ??? | ff ff ff ffh | Power panic Extruder 1 multiplier | ??? | D3 Ax0ee4 C4
| 0x0EE0 3808 | float | EEPROM_EXTRUDER_MULTIPLIER_2 | ??? | ff ff ff ffh | Power panic Extruder 2 multiplier | ??? | D3 Ax0ee0 C4
| 0x0EDE 3806 | uint16 | EEPROM_EXTRUDEMULTIPLY | ??? | ff ffh 65535 | Power panic Extruder multiplier | ??? | D3 Ax0ede C2
| 0x0EDA 3802 | float | EEPROM_UVLO_TINY_CURRENT_POSITION_Z | ??? | ff ff ff ffh | Power panic Z position | ??? | D3 Ax0eda C4
| 0x0ED8 3800 | uint16 | EEPROM_UVLO_TARGET_HOTEND | ??? | ff ffh 65535 | Power panic target Hotend temperature | ??? | D3 Ax0ed8 C2
| 0x0ED7 3799 | uint8 | EEPROM_SOUND_MODE | 00h 0 | ffh 255 | Sound mode: __loud__ | ??? | D3 Ax0ed7 C1
| ^ | ^ | ^ | 01h 1 | ^ | Sound mode: __once__ | ^ | ^
| ^ | ^ | ^ | 02h 1 | ^ | Sound mode: __silent__ | ^ | ^
| ^ | ^ | ^ | 03h 1 | ^ | Sound mode: __assist__ | ^ | ^
| 0x0ED6 3798 | bool | EEPROM_AUTO_DEPLETE | 01h 1 | ffh 255 | MMU2/s autodeplete: __on__ | ??? | D3 Ax0ed6 C1
| ^ | ^ | ^ | 00h 0 | ^ | MMU2/s autodeplete: __off__ | ^ | ^
| 0x0ED5 3797 | bool | EEPROM_FSENS_OQ_MEASS_ENABLED | ??? | ffh 255 | PAT1925 ??? | ??? | D3 Ax0ed5 C1
| ^ | ^ | ^ | ??? | ^ | PAT1925 ??? | ^ | ^
| 0x0ED3 3795 | uint16 | EEPROM_MMU_FAIL_TOT | ??? | ff ffh 65535 __S/P__ | MMU2/s total failures | ??? | D3 Ax0ed3 C2
| 0x0ED2 3794 | uint8 | EEPROM_MMU_FAIL | ??? | ffh 255 __S/P__ | MMU2/s fails during print | ??? | D3 Ax0ed2 C1
| 0x0ED0 3792 | uint16 | EEPROM_MMU_LOAD_FAIL_TOT | ??? | ff ffh 65535 __S/P__ | MMU2/s total load failures | ??? | D3 Ax0ed0 C2
| 0x0ECF 3791 | uint8 | EEPROM_MMU_LOAD_FAIL | ??? | ffh 255 __S/P__ | MMU2/s load failures during print | ??? | D3 Ax0ecf C1
| 0x0ECE 3790 | uint8 | EEPROM_MMU_CUTTER_ENABLED | 00h 0 | ffh 255 | MMU2/s cutter: __disabled__ | LCD menu | D3 Ax0ece C1
| ^ | ^ | ^ | 01h 1 | ^ | MMU2/s cutter: __enabled__ | ^ | ^
| ^ | ^ | ^ | 02h 2 | ^ | MMU2/s cutter: __always__ | ^ | ^
| 0x0DAE 3502 | uint16 | EEPROM_UVLO_MESH_BED_LEVELING_FULL | ??? | ff ffh 65535 | Power panic Mesh bed leveling points | ??? | D3 Ax0dae C288
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| ^ | ^ | ^ | ??? | ^ | ^ | ^ | ^
| 0x0DAD 3501 | uint8 | EEPROM_MBL_TYPE | ??? | ffh 255 | Mesh bed leveling precision _unused atm_ | ??? | D3 Ax0dad C1
| 0x0DAC 3500 | bool | EEPROM_MBL_MAGNET_ELIMINATION | 01h 1 | ffh 255 | Mesh bed leveling does: __ignores__ magnets | LCD menu | D3 Ax0dac C1
| ^ | ^ | ^ | 00h 0 | ^ | Mesh bed leveling does: __NOT ignores__ magnets | ^ | ^
| 0x0DAB 3499 | uint8 | EEPROM_MBL_POINTS_NR | 03h 3 | ffh 255 | Mesh bed leveling points: __3x3__ | LCD menu | D3 Ax0dab C1
| ^ | ^ | ^ | 07h 7 | ^ | Mesh bed leveling points: __7x7__ | ^ | ^
| 0x0DAA 3498 | uint8 | EEPROM_MBL_PROBE_NR | 03h 3 | ffh 255 | MBL times measurements for each point: __3__ | LCD menu | D3 Ax0daa C1
| ^ | ^ | ^ | 05h 5 | ^ | MBL times measurements for each point: __5__ | ^ | ^
| ^ | ^ | ^ | 01h 1 | ^ | MBL times measurements for each point: __1__ | ^ | ^
| 0x0DA9 3497 | uint8 | EEPROM_MMU_STEALTH | 01h 1 | ffh 255 | MMU2/s Silent mode: __on__ | ??? | D3 Ax0da9 C1
| ^ | ^ | ^ | 00h 0 | ^ | MMU2/s Silent mode: __off__ | ^ | ^
| 0x0DA8 3496 | uint8 | EEPROM_CHECK_MODE | 01h 1 | ffh 255 | Check mode for nozzle is: __warn__ | LCD menu | D3 Ax0da8 C1
| ^ | ^ | ^ | 02h 0 | ^ | Check mode for nozzle is: __strict__ | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | Check mode for nozzle is: __none__ | ^ | ^
| 0x0DA7 3495 | uint8 | EEPROM_NOZZLE_DIAMETER | 28h 40 | ffh 255 | Nozzle diameter is: __40 or 0.40mm__ | LCD menu | D3 Ax0da7 C1
| ^ | ^ | ^ | 3ch 60 | ^ | Nozzle diameter is: __60 or 0.60mm__ | ^ | ^
| ^ | ^ | ^ | 19h 25 | ^ | Nozzle diameter is: __25 or 0.25mm__ | ^ | ^
| 0x0DA5 3493 | uint16 | EEPROM_NOZZLE_DIAMETER_uM | 9001h | ff ffh 65535 | Nozzle diameter is: __400um__ | LCD menu | D3 Ax0da5 C2
| ^ | ^ | ^ | 5802h | ^ | Nozzle diameter is: __600um__ | ^ | ^
| ^ | ^ | ^ | fa00h | ^ | Nozzle diameter is: __250um__ | ^ | ^
| 0x0DA4 3492 | uint8 | EEPROM_CHECK_MODEL | 01h 1 | ffh 255 | Check mode for printer model is: __warn__ | LCD menu | D3 Ax0da4 C1
| ^ | ^ | ^ | 02h 0 | ^ | Check mode for printer model is: __strict__ | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | Check mode for printer model is: __none__ | ^ | ^
| 0x0DA3 3491 | uint8 | EEPROM_CHECK_VERSION | 01h 1 | ffh 255 | Check mode for firmware is: __warn__ | LCD menu | D3 Ax0da3 C1
| ^ | ^ | ^ | 02h 0 | ^ | Check mode for firmware is: __strict__ | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | Check mode for firmware is: __none__ | ^ | ^
| 0x0DA2 3490 | uint8 | EEPROM_CHECK_GCODE | 01h 1 | ffh 255 | Check mode for gcode is: __warn__ _unused atm_ | LCD menu | D3 Ax0da2 C1
| ^ | ^ | ^ | 02h 0 | ^ | Check mode for gcode is: __strict__ _unused atm_ | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | Check mode for gcode is: __none__ _unused atm_ | ^ | ^
| 0x0D49 3401 | uint16 | EEPROM_SHEETS_BASE | ??? | ffh 255 | ??? | LCD menu | D3 Ax0d49 C89
| 0x0D49 3401 | char | _1st Sheet block_ | 536d6f6f746831| ffffffffffffff | 1st sheet - Name: _Smooth1_ | ^ | D3 Ax0d49 C7
| 0x0D50 3408 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 1st sheet - Z offset | ^ | D3 Ax0d50 C2
| 0x0D52 3410 | uint8 | ^ | 00h 0 | ffh 255 | 1st sheet - bed temp | ^ | D3 Ax0d52 C1
| 0x0D53 3411 | uint8 | ^ | 00h 0 | ffh 255 | 1st sheet - PINDA temp | ^ | D3 Ax0d53 C1
| 0x0D54 3412 | char | _2nd Sheet block_ | 536d6f6f746832| ffffffffffffff | 2nd sheet - Name: _Smooth2_ | ^ | D3 Ax0d54 C7
| 0x0D5B 3419 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 2nd sheet - Z offset | ^ | D3 Ax0d5b C2
| 0x0D5D 3421 | uint8 | ^ | 00h 0 | ffh 255 | 2nd sheet - bed temp | ^ | D3 Ax0d5d C1
| 0x0D5E 3422 | uint8 | ^ | 00h 0 | ffh 255 | 2nd sheet - PINDA temp | ^ | D3 Ax0d5e C1
| 0x0D5F 3423 | char | _3rd Sheet block_ | 54657874757231| ffffffffffffff | 3rd sheet - Name: _Textur1_ | ^ | D3 Ax0d5f C7
| 0x0D66 3430 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 3rd sheet - Z offset | ^ | D3 Ax0d66 C2
| 0x0D68 3432 | uint8 | ^ | 00h 0 | ffh 255 | 3rd sheet - bed temp | ^ | D3 Ax0d68 C1
| 0x0D69 3433 | uint8 | ^ | 00h 0 | ffh 255 | 3rd sheet - PINDA temp | ^ | D3 Ax0d69 C1
| 0x0D6A 3434 | char | _4th Sheet block_ | 54657874757232| ffffffffffffff | 4th sheet - Name: _Textur2_ | ^ | D3 Ax0d6a C7
| 0x0D71 3441 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 4th sheet - Z offset | ^ | D3 Ax0d71 C2
| 0x0D73 3443 | uint8 | ^ | 00h 0 | ffh 255 | 4th sheet - bed temp | ^ | D3 Ax0d73 C1
| 0x0D74 3444 | uint8 | ^ | 00h 0 | ffh 255 | 4th sheet - PINDA temp | ^ | D3 Ax0d74 C1
| 0x0D75 3445 | char | _5th Sheet block_ | 437573746f6d31| ffffffffffffff | 5th sheet - Name: _Custom1_ | ^ | D3 Ax0d75 C7
| 0x0D7C 3452 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 5th sheet - Z offset | ^ | D3 Ax0d7c C2
| 0x0D7E 3454 | uint8 | ^ | 00h 0 | ffh 255 | 5th sheet - bed temp | ^ | D3 Ax0d7e C1
| 0x0D7F 3455 | uint8 | ^ | 00h 0 | ffh 255 | 5th sheet - PINDA temp | ^ | D3 Ax0d7f C1
| 0x0D80 3456 | char | _6th Sheet block_ | 437573746f6d32| ffffffffffffff | 6th sheet - Name: _Custom2_ | ^ | D3 Ax0d80 C7
| 0x0D87 3463 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 6th sheet - Z offset | ^ | D3 Ax0d87 C2
| 0x0D89 3465 | uint8 | ^ | 00h 0 | ffh 255 | 6th sheet - bed temp | ^ | D3 Ax0d89 C1
| 0x0D8A 3466 | uint8 | ^ | 00h 0 | ffh 255 | 6th sheet - PINDA temp | ^ | D3 Ax0d8a C1
| 0x0D8B 3467 | char | _7th Sheet block_ | 437573746f6d33| ffffffffffffff | 7th sheet - Name: _Custom3_ | ^ | D3 Ax0d8b C7
| 0x0D92 3474 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 7th sheet - Z offset | ^ | D3 Ax0d92 C2
| 0x0D94 3476 | uint8 | ^ | 00h 0 | ffh 255 | 7th sheet - bed temp | ^ | D3 Ax0d94 C1
| 0x0D95 3477 | uint8 | ^ | 00h 0 | ffh 255 | 7th sheet - PINDA temp | ^ | D3 Ax0d95 C1
| 0x0D96 3478 | char | _8th Sheet block_ | 437573746f6d34| ffffffffffffff | 8th sheet - Name: _Custom4_ | ^ | D3 Ax0d96 C7
| 0x0D9D 3485 | uint16 | ^ | 00 00h 0 | ff ffh 65535 | 8th sheet - Z offset | ^ | D3 Ax0d9d C2
| 0x0D9F 3487 | uint8 | ^ | 00h 0 | ffh 255 | 8th sheet - bed temp | ^ | D3 Ax0d9f C1
| 0x0DA0 3488 | uint8 | ^ | 00h 0 | ffh 255 | 8th sheet - PINDA temp | ^ | D3 Ax0da0 C1
| 0x0DA1 3489 | uint8 | ??? | 00h 0 | ffh 255 | ??? | ??? | D3 Ax0da1 C1
| 0x0D48 3400 | uint8 | EEPROM_FSENSOR_PCB | ??? | ffh 255 | Filament Sensor type old vs new | ??? | D3 Ax0d48 C1
| ^ | ^ | ^ | ??? | ^ | Filament Sensor type ??? | ^ | ^
| 0x0D47 3399 | uint8 | EEPROM_FSENSOR_ACTION_NA | 00h 0 | ffh 255 | Filament Sensor action: __Continue__ | LCD menu | D3 Ax0d47 C1
| ^ | ^ | ^ | 01h 1 | ^ | Filament Sensor action: __Pause__ | ^ | ^
| 0x0D37 3383 | float | EEPROM_UVLO_SAVED_TARGET | ??? | ff ff ff ffh | Power panic saved target all-axis | ??? | D3 Ax0d37 C16
| ^ | ^ | ^ | ??? | ^ | Power panic saved target e-axis | ^ | D3 Ax0d43 C4
| ^ | ^ | ^ | ??? | ^ | Power panic saved target z-axis | ^ | D3 Ax0d3f C4
| ^ | ^ | ^ | ??? | ^ | Power panic saved target y-axis | ^ | D3 Ax0d3b C4
| ^ | ^ | ^ | ??? | ^ | Power panic saved target x-axis | ^ | D3 Ax0d37 C4
| 0x0D35 3381 | uint16 | EEPROM_UVLO_FEEDMULTIPLY | ??? | ff ffh 65355 | Power panic saved feed multiplier | ??? | D3 Ax0d35 C2
| 0x0D34 3380 | uint8 | EEPROM_BACKLIGHT_LEVEL_HIGH | 00h - ffh | 82h 130 | LCD backlight bright: __128__ Dim value to 255 | LCD menu | D3 Ax0d34 C1
| 0x0D33 3379 | uint8 | EEPROM_BACKLIGHT_LEVEL_LOW | 00h - ffh | 32h 50 | LCD backlight dim: __50__ 0 to Bright value | LCD menu | D3 Ax0d33 C1
| 0x0D32 3378 | uint8 | EEPROM_BACKLIGHT_MODE | 02h 2 | ffh 255 | LCD backlight mode: __Auto__ | LCD menu | D3 Ax0d32 C1
| ^ | ^ | ^ | 01h 1 | ^ | LCD backlight mode: __Bright__ | ^ | ^
| ^ | ^ | ^ | 00h 0 | ^ | LCD backlight mode: __Dim__ | ^ | ^
| 0x0D30 3376 | uint16 | EEPROM_BACKLIGHT_TIMEOUT | 01 00 - ff ff | ff ffh 65535 | LCD backlight timeout: __10__ seconds | LCD menu | D3 Ax0d30 C2
| 0x0D2C 3372 | float | EEPROM_UVLO_LA_K | ??? | ff ff ff ffh | Power panic saved Linear Advanced K value | ??? | D3 Ax0d2c C4
| Address begin | Bit/Type | Name | Valid values | Default/FactoryReset | Description | Gcode/Function| Debug code
| :--: | :--: | :--: | :--: | :--: | :--: | :--: | :--:
| 0x0012 18 | uint16 | EEPROM_FIRMWARE_VERSION_END | ??? | ff ffh 65535 | ??? | ??? | D3 Ax0012 C2
| 0x0010 16 | uint16 | EEPROM_FIRMWARE_VERSION_FLAVOR | ??? | ff ffh 65535 | ??? | ??? | D3 Ax0010 C2
| 0x000E 14 | uint16 | EEPROM_FIRMWARE_VERSION_REVISION | ??? | ff ffh 65535 | Firmware version revision number DEV/ALPHA/BETA/RC| ??? | D3 Ax000e C2
| 0x000C 12 | uint16 | EEPROM_FIRMWARE_VERSION_MINOR | ??? | ff ffh 65535 | Firmware version minor number | ??? | D3 Ax000c C2
| 0x000A 10 | uint16 | EEPROM_FIRMWARE_VERSION_MAJOR | ??? | ff ffh 65535 | Firmware version major number | ??? | D3 Ax000a C2
| 0x0000 0 | char | FW_PRUSA3D_MAGIC | ??? | ffffffffffffffffffff | __`PRUSA3DFW`__ | ??? | D3 Ax0000 C10
*/
#define EEPROM_EMPTY_VALUE 0xFF
#define EEPROM_EMPTY_VALUE16 0xFFFF
@ -51,7 +393,8 @@ static_assert(sizeof(Sheets) == EEPROM_SHEETS_SIZEOF, "Sizeof(Sheets) is not EEP
// The offsets are saved as 16bit signed int, scaled to tenths of microns.
#define EEPROM_BED_CALIBRATION_Z_JITTER (EEPROM_BED_CALIBRATION_VEC_Y-2*8)
#define EEPROM_FARM_MODE (EEPROM_BED_CALIBRATION_Z_JITTER-1)
#define EEPROM_FARM_NUMBER (EEPROM_FARM_MODE-3)
#define EEPROM_FREE_NR1 (EEPROM_FARM_MODE-1)
#define EEPROM_FARM_NUMBER (EEPROM_FREE_NR1-2)
// Correction of the bed leveling, in micrometers.
// Maximum 50 micrometers allowed.
@ -83,8 +426,12 @@ static_assert(sizeof(Sheets) == EEPROM_SHEETS_SIZEOF, "Sizeof(Sheets) is not EEP
#define EEPROM_UVLO_E_ABS (EEPROM_UVLO_Z_MICROSTEPS - 1)
#define EEPROM_UVLO_CURRENT_POSITION_E (EEPROM_UVLO_E_ABS - 4) //float for current position in E
#define EEPROM_FREE_NR2 (EEPROM_UVLO_CURRENT_POSITION_E - 1) // FREE EEPROM SPACE
#define EEPROM_FREE_NR3 (EEPROM_FREE_NR2 - 1) // FREE EEPROM SPACE
#define EEPROM_FREE_NR4 (EEPROM_FREE_NR3 - 1) // FREE EEPROM SPACE
#define EEPROM_FREE_NR5 (EEPROM_FREE_NR4 - 1) // FREE EEPROM SPACE
// Crash detection mode EEPROM setting
#define EEPROM_CRASH_DET (EEPROM_UVLO_CURRENT_POSITION_E - 5) // float (orig EEPROM_UVLO_MESH_BED_LEVELING-12)
#define EEPROM_CRASH_DET (EEPROM_FREE_NR5 - 1) // uint8 (orig EEPROM_UVLO_MESH_BED_LEVELING-12)
// Crash detection counter Y (last print)
#define EEPROM_CRASH_COUNT_Y (EEPROM_CRASH_DET - 1) // uint8 (orig EEPROM_UVLO_MESH_BED_LEVELING-15)
// Filament sensor on/off EEPROM setting

View file

@ -18,19 +18,19 @@
//! @name Basic parameters
//! @{
#define FSENSOR_CHUNK_LEN 0.64F //!< filament sensor chunk length 0.64mm
#define FSENSOR_ERR_MAX 17 //!< filament sensor maximum error count for runout detection
#define FSENSOR_CHUNK_LEN 1.25 //!< filament sensor chunk length (mm)
#define FSENSOR_ERR_MAX 4 //!< filament sensor maximum error/chunk count for runout detection
#define FSENSOR_SOFTERR_CMAX 3 //!< number of contiguous soft failures before a triggering a runout
#define FSENSOR_SOFTERR_DELTA 30000 //!< maximum interval (ms) to consider soft failures contiguous
//! @}
//! @name Optical quality measurement parameters
//! @{
#define FSENSOR_OQ_MAX_ES 6 //!< maximum error sum while loading (length ~64mm = 100chunks)
#define FSENSOR_OQ_MAX_EM 2 //!< maximum error counter value while loading
#define FSENSOR_OQ_MIN_YD 2 //!< minimum yd per chunk (applied to avg value)
#define FSENSOR_OQ_MAX_YD 200 //!< maximum yd per chunk (applied to avg value)
#define FSENSOR_OQ_MAX_PD 4 //!< maximum positive deviation (= yd_max/yd_avg)
#define FSENSOR_OQ_MAX_ND 5 //!< maximum negative deviation (= yd_avg/yd_min)
#define FSENSOR_OQ_MAX_SH 13 //!< maximum shutter value
#define FSENSOR_OQ_MAX_ES 2 //!< maximum sum of error blocks during filament recheck
#define FSENSOR_OQ_MIN_YD 2 //!< minimum yd sum during filament check (counts per inch)
#define FSENSOR_OQ_MIN_BR 80 //!< minimum brightness value
#define FSENSOR_OQ_MAX_SH 10 //!< maximum shutter value
//! @}
const char ERRMSG_PAT9125_NOT_RESP[] PROGMEM = "PAT9125 not responding (%d)!\n";
@ -44,25 +44,30 @@ const char ERRMSG_PAT9125_NOT_RESP[] PROGMEM = "PAT9125 not responding (%d)!\n";
#define FSENSOR_INT_PIN_PCMSK_BIT PCINT13 // PinChange Interrupt / PinChange Enable Mask @ PJ4
#define FSENSOR_INT_PIN_PCICR_BIT PCIE1 // PinChange Interrupt Enable / Flag @ PJ4
//uint8_t fsensor_int_pin = FSENSOR_INT_PIN;
uint8_t fsensor_int_pin_old = 0;
int16_t fsensor_chunk_len = 0;
//! enabled = initialized and sampled every chunk event
bool fsensor_enabled = true;
//! runout watching is done in fsensor_update (called from main loop)
bool fsensor_watch_runout = true;
//! not responding - is set if any communication error occurred during initialization or readout
bool fsensor_not_responding = false;
#ifdef PAT9125
uint8_t fsensor_int_pin_old = 0;
//! optical checking "chunk lenght" (already in steps)
int16_t fsensor_chunk_len = 0;
//! enable/disable quality meassurement
bool fsensor_oq_meassure_enabled = false;
//! number of errors, updated in ISR
uint8_t fsensor_err_cnt = 0;
//! variable for accumulating step count (updated callbacks from stepper and ISR)
int16_t fsensor_st_cnt = 0;
//! last dy value from pat9125 sensor (used in ISR)
int16_t fsensor_dy_old = 0;
//! count of total sensor "soft" failures (filament status checks)
uint8_t fsensor_softfail = 0;
//! timestamp of last soft failure
unsigned long fsensor_softfail_last = 0;
//! count of soft failures within the configured time
uint8_t fsensor_softfail_ccnt = 0;
#endif
//! log flag: 0=log disabled, 1=log enabled
uint8_t fsensor_log = 1;
@ -75,6 +80,8 @@ uint8_t fsensor_log = 1;
bool fsensor_autoload_enabled = true;
//! autoload watching enable/disable flag
bool fsensor_watch_autoload = false;
#ifdef PAT9125
//
uint16_t fsensor_autoload_y;
//
@ -84,6 +91,7 @@ uint32_t fsensor_autoload_last_millis;
//
uint8_t fsensor_autoload_sum;
//! @}
#endif
//! @name filament optical quality measurement variables
@ -111,7 +119,7 @@ int16_t fsensor_oq_yd_max;
uint16_t fsensor_oq_sh_sum;
//! @}
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
ClFsensorPCB oFsensorPCB;
ClFsensorActionNA oFsensorActionNA;
bool bIRsensorStateFlag=false;
@ -125,11 +133,29 @@ void fsensor_stop_and_save_print(void)
fsensor_watch_runout = false;
}
#ifdef PAT9125
// Reset all internal counters to zero, including stepper callbacks
void fsensor_reset_err_cnt()
{
fsensor_err_cnt = 0;
pat9125_y = 0;
st_reset_fsensor();
}
void fsensor_set_axis_steps_per_unit(float u)
{
fsensor_chunk_len = (int16_t)(FSENSOR_CHUNK_LEN * u);
}
#endif
void fsensor_restore_print_and_continue(void)
{
printf_P(PSTR("fsensor_restore_print_and_continue\n"));
fsensor_watch_runout = true;
fsensor_err_cnt = 0;
#ifdef PAT9125
fsensor_reset_err_cnt();
#endif
restore_print_from_ram_and_continue(0);
}
@ -154,7 +180,7 @@ void fsensor_init(void)
#ifdef PAT9125
uint8_t oq_meassure_enabled = eeprom_read_byte((uint8_t*)EEPROM_FSENS_OQ_MEASS_ENABLED);
fsensor_oq_meassure_enabled = (oq_meassure_enabled == 1)?true:false;
fsensor_chunk_len = (int16_t)(FSENSOR_CHUNK_LEN * cs.axis_steps_per_unit[E_AXIS]);
fsensor_set_axis_steps_per_unit(cs.axis_steps_per_unit[E_AXIS]);
if (!pat9125)
{
@ -162,7 +188,7 @@ void fsensor_init(void)
fsensor_not_responding = true;
}
#endif //PAT9125
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
bIRsensorStateFlag=false;
oFsensorPCB=(ClFsensorPCB)eeprom_read_byte((uint8_t*)EEPROM_FSENSOR_PCB);
oFsensorActionNA=(ClFsensorActionNA)eeprom_read_byte((uint8_t*)EEPROM_FSENSOR_ACTION_NA);
@ -172,7 +198,7 @@ void fsensor_init(void)
else
fsensor_disable(false); // (in this case) EEPROM update is not necessary
printf_P(PSTR("FSensor %S"), (fsensor_enabled?PSTR("ENABLED"):PSTR("DISABLED")));
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
printf_P(PSTR(" (sensor board revision: %S)\n"),(oFsensorPCB==ClFsensorPCB::_Rev03b)?PSTR("03b or newer"):PSTR("03 or older"));
#else //IR_SENSOR_ANALOG
printf_P(PSTR("\n"));
@ -194,8 +220,7 @@ bool fsensor_enable(bool bUpdateEEPROM)
fsensor_enabled = pat9125 ? true : false;
fsensor_watch_runout = true;
fsensor_oq_meassure = false;
fsensor_err_cnt = 0;
fsensor_dy_old = 0;
fsensor_reset_err_cnt();
eeprom_update_byte((uint8_t*)EEPROM_FSENSOR, fsensor_enabled ? 0x01 : 0x00);
FSensorStateMenu = fsensor_enabled ? 1 : 0;
}
@ -206,7 +231,7 @@ bool fsensor_enable(bool bUpdateEEPROM)
FSensorStateMenu = 1;
}
#else // PAT9125
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
if(!fsensor_IR_check())
{
bUpdateEEPROM=true;
@ -219,7 +244,7 @@ bool fsensor_enable(bool bUpdateEEPROM)
fsensor_enabled=true;
fsensor_not_responding=false;
FSensorStateMenu=1;
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
}
#endif //IR_SENSOR_ANALOG
if(bUpdateEEPROM)
@ -275,12 +300,11 @@ void fsensor_autoload_check_start(void)
fsensor_autoload_last_millis = _millis();
fsensor_watch_runout = false;
fsensor_watch_autoload = true;
fsensor_err_cnt = 0;
}
void fsensor_autoload_check_stop(void)
{
// puts_P(_N("fsensor_autoload_check_stop\n"));
if (!fsensor_enabled) return;
// puts_P(_N("fsensor_autoload_check_stop 1\n"));
@ -291,7 +315,7 @@ void fsensor_autoload_check_stop(void)
fsensor_autoload_sum = 0;
fsensor_watch_autoload = false;
fsensor_watch_runout = true;
fsensor_err_cnt = 0;
fsensor_reset_err_cnt();
}
#endif //PAT9125
@ -356,6 +380,7 @@ bool fsensor_check_autoload(void)
return false;
}
#ifdef PAT9125
void fsensor_oq_meassure_set(bool State)
{
fsensor_oq_meassure_enabled = State;
@ -373,7 +398,7 @@ void fsensor_oq_meassure_start(uint8_t skip)
fsensor_oq_yd_sum = 0;
fsensor_oq_er_sum = 0;
fsensor_oq_er_max = 0;
fsensor_oq_yd_min = FSENSOR_OQ_MAX_YD;
fsensor_oq_yd_min = INT16_MAX;
fsensor_oq_yd_max = 0;
fsensor_oq_sh_sum = 0;
pat9125_update();
@ -389,9 +414,9 @@ void fsensor_oq_meassure_stop(void)
printf_P(_N(" st_sum=%u yd_sum=%u er_sum=%u er_max=%hhu\n"), fsensor_oq_st_sum, fsensor_oq_yd_sum, fsensor_oq_er_sum, fsensor_oq_er_max);
printf_P(_N(" yd_min=%u yd_max=%u yd_avg=%u sh_avg=%u\n"), fsensor_oq_yd_min, fsensor_oq_yd_max, (uint16_t)((uint32_t)fsensor_oq_yd_sum * fsensor_chunk_len / fsensor_oq_st_sum), (uint16_t)(fsensor_oq_sh_sum / fsensor_oq_samples));
fsensor_oq_meassure = false;
fsensor_err_cnt = 0;
}
#ifdef FSENSOR_QUALITY
const char _OK[] PROGMEM = "OK";
const char _NG[] PROGMEM = "NG!";
@ -427,18 +452,24 @@ bool fsensor_oq_result(void)
printf_P(_N("fsensor_oq_result %S\n"), (res?_OK:_NG));
return res;
}
#ifdef PAT9125
#endif //FSENSOR_QUALITY
ISR(FSENSOR_INT_PIN_VECT)
{
if (mmu_enabled || ir_sensor_detected) return;
if (!((fsensor_int_pin_old ^ FSENSOR_INT_PIN_PIN_REG) & FSENSOR_INT_PIN_MASK)) return;
fsensor_int_pin_old = FSENSOR_INT_PIN_PIN_REG;
// prevent isr re-entry
static bool _lock = false;
if (_lock) return;
_lock = true;
// fetch fsensor_st_cnt atomically
int st_cnt = fsensor_st_cnt;
fsensor_st_cnt = 0;
sei();
uint8_t old_err_cnt = fsensor_err_cnt;
uint8_t pat9125_res = fsensor_oq_meassure?pat9125_update():pat9125_update_y();
if (!pat9125_res)
@ -447,56 +478,71 @@ ISR(FSENSOR_INT_PIN_VECT)
fsensor_not_responding = true;
printf_P(ERRMSG_PAT9125_NOT_RESP, 1);
}
if (st_cnt != 0)
{ //movement
if (st_cnt > 0) //positive movement
{
if (pat9125_y < 0)
{
if (fsensor_err_cnt)
fsensor_err_cnt += 2;
else
fsensor_err_cnt++;
}
else if (pat9125_y > 0)
{
if (fsensor_err_cnt)
fsensor_err_cnt--;
}
else //(pat9125_y == 0)
if (((fsensor_dy_old <= 0) || (fsensor_err_cnt)) && (st_cnt > (fsensor_chunk_len >> 1)))
fsensor_err_cnt++;
if (fsensor_oq_meassure)
{
if (fsensor_oq_skipchunk)
{
fsensor_oq_skipchunk--;
fsensor_err_cnt = 0;
}
else
{
if (st_cnt == fsensor_chunk_len)
{
if (pat9125_y > 0) if (fsensor_oq_yd_min > pat9125_y) fsensor_oq_yd_min = (fsensor_oq_yd_min + pat9125_y) / 2;
if (pat9125_y >= 0) if (fsensor_oq_yd_max < pat9125_y) fsensor_oq_yd_max = (fsensor_oq_yd_max + pat9125_y) / 2;
}
fsensor_oq_samples++;
fsensor_oq_st_sum += st_cnt;
if (pat9125_y > 0) fsensor_oq_yd_sum += pat9125_y;
if (fsensor_err_cnt > old_err_cnt)
fsensor_oq_er_sum += (fsensor_err_cnt - old_err_cnt);
if (fsensor_oq_er_max < fsensor_err_cnt)
fsensor_oq_er_max = fsensor_err_cnt;
fsensor_oq_sh_sum += pat9125_s;
}
}
}
else //negative movement
{
}
}
else
{ //no movement
{
// movement was planned, check for sensor movement
int8_t st_dir = st_cnt >= 0;
int8_t pat9125_dir = pat9125_y >= 0;
if (pat9125_y == 0)
{
if (st_dir)
{
// no movement detected: we might be within a blind sensor range,
// update the frame and shutter parameters we didn't earlier
if (!fsensor_oq_meassure)
pat9125_update_bs();
// increment the error count only if underexposed: filament likely missing
if ((pat9125_b < FSENSOR_OQ_MIN_BR) && (pat9125_s > FSENSOR_OQ_MAX_SH))
{
// check for a dark frame (<30% avg brightness) with long exposure
++fsensor_err_cnt;
}
else
{
// good frame, filament likely present
if(fsensor_err_cnt) --fsensor_err_cnt;
}
}
}
else if (pat9125_dir != st_dir)
{
// detected direction opposite of motor movement
if (st_dir) ++fsensor_err_cnt;
}
else if (pat9125_dir == st_dir)
{
// direction agreeing with planned movement
if (fsensor_err_cnt) --fsensor_err_cnt;
}
if (st_dir && fsensor_oq_meassure)
{
// extruding with quality assessment
if (fsensor_oq_skipchunk)
{
fsensor_oq_skipchunk--;
fsensor_err_cnt = 0;
}
else
{
if (st_cnt == fsensor_chunk_len)
{
if (pat9125_y > 0) if (fsensor_oq_yd_min > pat9125_y) fsensor_oq_yd_min = (fsensor_oq_yd_min + pat9125_y) / 2;
if (pat9125_y >= 0) if (fsensor_oq_yd_max < pat9125_y) fsensor_oq_yd_max = (fsensor_oq_yd_max + pat9125_y) / 2;
}
fsensor_oq_samples++;
fsensor_oq_st_sum += st_cnt;
if (pat9125_y > 0) fsensor_oq_yd_sum += pat9125_y;
if (fsensor_err_cnt > old_err_cnt)
fsensor_oq_er_sum += (fsensor_err_cnt - old_err_cnt);
if (fsensor_oq_er_max < fsensor_err_cnt)
fsensor_oq_er_max = fsensor_err_cnt;
fsensor_oq_sh_sum += pat9125_s;
}
}
}
#ifdef DEBUG_FSENSOR_LOG
@ -507,9 +553,7 @@ ISR(FSENSOR_INT_PIN_VECT)
}
#endif //DEBUG_FSENSOR_LOG
fsensor_dy_old = pat9125_y;
pat9125_y = 0;
_lock = false;
return;
}
@ -529,19 +573,16 @@ void fsensor_setup_interrupt(void)
PCICR |= bit(FSENSOR_INT_PIN_PCICR_BIT); // enable corresponding PinChangeInterrupt (set of pins)
}
#endif //PAT9125
void fsensor_st_block_chunk(int cnt)
{
if (!fsensor_enabled) return;
fsensor_st_cnt += cnt;
if (abs(fsensor_st_cnt) >= fsensor_chunk_len)
{
// !!! bit toggling (PINxn <- 1) (for PinChangeInterrupt) does not work for some MCU pins
if (PIN_GET(FSENSOR_INT_PIN)) {PIN_VAL(FSENSOR_INT_PIN, LOW);}
else {PIN_VAL(FSENSOR_INT_PIN, HIGH);}
}
// !!! bit toggling (PINxn <- 1) (for PinChangeInterrupt) does not work for some MCU pins
if (PIN_GET(FSENSOR_INT_PIN)) {PIN_VAL(FSENSOR_INT_PIN, LOW);}
else {PIN_VAL(FSENSOR_INT_PIN, HIGH);}
}
#endif //PAT9125
//! Common code for enqueing M600 and supplemental codes into the command queue.
@ -578,39 +619,48 @@ void fsensor_update(void)
st_synchronize();
// check the filament in isolation
fsensor_err_cnt = 0;
fsensor_reset_err_cnt();
fsensor_oq_meassure_start(0);
float e_tmp = current_position[E_AXIS];
current_position[E_AXIS] -= 3;
plan_buffer_line_curposXYZE(200/60, active_extruder);
plan_buffer_line_curposXYZE(250/60, active_extruder);
current_position[E_AXIS] = e_tmp;
plan_buffer_line_curposXYZE(200/60, active_extruder);
st_synchronize();
uint8_t err_cnt = fsensor_err_cnt;
fsensor_oq_meassure_stop();
bool err = false;
err |= (err_cnt > 1);
err |= (fsensor_oq_er_sum > 2);
err |= (fsensor_oq_yd_sum < (4 * FSENSOR_OQ_MIN_YD));
err |= (fsensor_err_cnt > 0); // final error count is non-zero
err |= (fsensor_oq_er_sum > FSENSOR_OQ_MAX_ES); // total error count is above limit
err |= (fsensor_oq_yd_sum < FSENSOR_OQ_MIN_YD); // total measured distance is below limit
fsensor_restore_print_and_continue();
fsensor_autoload_enabled = autoload_enabled_tmp;
fsensor_oq_meassure_enabled = oq_meassure_enabled_tmp;
fsensor_autoload_enabled = autoload_enabled_tmp;
fsensor_oq_meassure_enabled = oq_meassure_enabled_tmp;
if (!err)
printf_P(PSTR("fsensor_err_cnt = 0\n"));
else
fsensor_enque_M600();
unsigned long now = _millis();
if (!err && (now - fsensor_softfail_last) > FSENSOR_SOFTERR_DELTA)
fsensor_softfail_ccnt = 0;
if (!err && fsensor_softfail_ccnt <= FSENSOR_SOFTERR_CMAX)
{
printf_P(PSTR("fsensor_err_cnt = 0\n"));
++fsensor_softfail;
++fsensor_softfail_ccnt;
fsensor_softfail_last = now;
}
else
{
fsensor_softfail_ccnt = 0;
fsensor_softfail_last = 0;
fsensor_enque_M600();
}
}
#else //PAT9125
if (CHECK_FSENSOR && ir_sensor_detected)
{
if(digitalRead(IR_SENSOR_PIN))
{ // IR_SENSOR_PIN ~ H
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
if(!bIRsensorStateFlag)
{
bIRsensorStateFlag=true;
@ -653,7 +703,7 @@ void fsensor_update(void)
#endif //IR_SENSOR_ANALOG
fsensor_checkpoint_print();
fsensor_enque_M600();
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
}
}
}
@ -667,7 +717,7 @@ void fsensor_update(void)
#endif //PAT9125
}
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
bool fsensor_IR_check()
{
uint16_t volt_IR_int;

View file

@ -6,15 +6,16 @@
#include "config.h"
//! minimum meassured chunk length in steps
extern int16_t fsensor_chunk_len;
// enable/disable flag
extern bool fsensor_enabled;
// not responding flag
extern bool fsensor_not_responding;
//enable/disable quality meassurement
extern bool fsensor_oq_meassure_enabled;
#ifdef PAT9125
// optical checking "chunk lenght" (already in steps)
extern int16_t fsensor_chunk_len;
// count of soft failures
extern uint8_t fsensor_softfail;
#endif
//! @name save restore printing
//! @{
@ -28,6 +29,11 @@ extern void fsensor_checkpoint_print(void);
//! initialize
extern void fsensor_init(void);
#ifdef PAT9125
//! update axis resolution
extern void fsensor_set_axis_steps_per_unit(float u);
#endif
//! @name enable/disable
//! @{
extern bool fsensor_enable(bool bUpdateEEPROM=true);
@ -52,8 +58,10 @@ extern void fsensor_autoload_check_stop(void);
extern bool fsensor_check_autoload(void);
//! @}
#ifdef PAT9125
//! @name optical quality measurement support
//! @{
extern bool fsensor_oq_meassure_enabled;
extern void fsensor_oq_meassure_set(bool State);
extern void fsensor_oq_meassure_start(uint8_t skip);
extern void fsensor_oq_meassure_stop(void);
@ -70,9 +78,10 @@ extern void fsensor_st_block_chunk(int cnt);
// to drain fsensor_st_cnt anyway at the beginning of the new block.
#define fsensor_st_block_begin(rev) fsensor_st_block_chunk(0)
//! @}
#endif //PAT9125
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
#define IR_SENSOR_STEADY 10 // [ms]
enum class ClFsensorPCB:uint_least8_t

View file

@ -2,13 +2,24 @@
#include "Marlin.h"
static LA10C_MODE la10c_mode = LA10C_UNKNOWN;
static LA10C_MODE la10c_mode = LA10C_UNKNOWN; // Current LA compatibility mode
static float la10c_orig_jerk = 0; // Unadjusted/saved e-jerk
LA10C_MODE la10c_mode_get()
{
return la10c_mode;
}
void la10c_mode_change(LA10C_MODE mode)
{
if(mode == la10c_mode) return;
// always restore to the last unadjusted E-jerk value
if(la10c_orig_jerk)
cs.max_jerk[E_AXIS] = la10c_orig_jerk;
SERIAL_ECHOPGM("LA10C: Linear Advance mode: ");
switch(mode)
{
@ -17,6 +28,9 @@ void la10c_mode_change(LA10C_MODE mode)
case LA10C_LA10: SERIAL_ECHOLNPGM("1.0"); break;
}
la10c_mode = mode;
// adjust the E-jerk if needed
cs.max_jerk[E_AXIS] = la10c_jerk(cs.max_jerk[E_AXIS]);
}
@ -46,3 +60,29 @@ float la10c_value(float k)
else
return (k >= 0? la10c_convert(k): -1);
}
float la10c_jerk(float j)
{
la10c_orig_jerk = j;
if(la10c_mode != LA10C_LA10)
return j;
// check for a compatible range of values prior to convert (be sure that
// a higher E-jerk would still be compatible wrt the E accell range)
if(j < 4.5 && cs.max_acceleration_units_per_sq_second_normal[E_AXIS] < 2000)
return j;
// bring low E-jerk values into equivalent LA 1.5 values by
// flattening the response in the (1-4.5) range using a piecewise
// function. Is it truly worth to preserve the difference between
// 1.5/2.5 E-jerk for LA1.0? Probably not, but we try nonetheless.
j = j < 1.0? j * 3.625:
j < 4.5? j * 0.25 + 3.375:
j;
SERIAL_ECHOPGM("LA10C: Adjusted E-Jerk: ");
SERIAL_ECHOLN(j);
return j;
}

View file

@ -5,6 +5,9 @@
// compatbility mode is active the K factor is converted to a LA15
// equivalent (that is, the return value is always a LA15 value).
//
// E-jerk<2 is also bumped in LA10 mode to restore the the printing speed
// to values comparable to existing settings.
//
// Once the interpretation mode has been set it is kept until the mode
// is explicitly reset. This is done to handle transparent fallback for
// old firmware revisions in combination with the following gcode
@ -31,9 +34,13 @@ enum __attribute__((packed)) LA10C_MODE
LA10C_LA10 = 2
};
// Explicitly set/reset the interpretation mode for la10c_value()
// Explicitly set/get/reset the interpretation mode for la10c_value()
void la10c_mode_change(LA10C_MODE mode);
LA10C_MODE la10c_mode_get();
static inline void la10c_reset() { la10c_mode_change(LA10C_UNKNOWN); }
// Return a LA15 K value according to the supplied value and mode
float la10c_value(float k);
// Return an updated LA15 E-jerk value according to the current mode
float la10c_jerk(float j);

View file

@ -6,7 +6,9 @@
#include "config.h"
#include <inttypes.h>
//#include <stdio.h>
#ifdef DEBUG_SEC_LANG
#include <stdio.h>
#endif //DEBUG_SEC_LANG
#define PROTOCOL_VERSION "1.0"

View file

@ -168,7 +168,5 @@ const char MSG_OCTOPRINT_CANCEL[] PROGMEM_N1 = "// action:cancel"; ////
const char MSG_FANCHECK_EXTRUDER[] PROGMEM_N1 = "Err: EXTR. FAN ERROR"; ////c=20
const char MSG_FANCHECK_PRINT[] PROGMEM_N1 = "Err: PRINT FAN ERROR"; ////c=20
const char MSG_M112_KILL[] PROGMEM_N1 = "M112 called. Emergency Stop."; ////c=20
#ifdef LA_LIVE_K
const char MSG_ADVANCE_K[] PROGMEM_N1 = "Advance K:"; ////c=13
#endif
const char MSG_POWERPANIC_DETECTED[] PROGMEM_N1 = "POWER PANIC DETECTED"; ////c=20

View file

@ -383,8 +383,9 @@ void mmu_loop(void)
//printf_P(PSTR("Eact: %d\n"), int(e_active()));
if (!mmu_finda && CHECK_FSENSOR && fsensor_enabled) {
fsensor_checkpoint_print();
ad_markDepleted(mmu_extruder);
if (lcd_autoDepleteEnabled() && !ad_allDepleted())
if (mmu_extruder != MMU_FILAMENT_UNKNOWN) // Can't deplete unknown extruder.
ad_markDepleted(mmu_extruder);
if (lcd_autoDepleteEnabled() && !ad_allDepleted() && mmu_extruder != MMU_FILAMENT_UNKNOWN) // Can't auto if F=?
{
enquecommand_front_P(PSTR("M600 AUTO")); //save print and run M600 command
}

View file

@ -183,9 +183,9 @@ uint8_t pat9125_update(void)
if (pat9125_PID1 == 0xff) return 0;
if (ucMotion & 0x80)
{
uint8_t ucXL = pat9125_rd_reg(PAT9125_DELTA_XL);
uint8_t ucYL = pat9125_rd_reg(PAT9125_DELTA_YL);
uint8_t ucXYH = pat9125_rd_reg(PAT9125_DELTA_XYH);
uint16_t ucXL = pat9125_rd_reg(PAT9125_DELTA_XL);
uint16_t ucYL = pat9125_rd_reg(PAT9125_DELTA_YL);
uint16_t ucXYH = pat9125_rd_reg(PAT9125_DELTA_XYH);
if (pat9125_PID1 == 0xff) return 0;
int16_t iDX = ucXL | ((ucXYH << 4) & 0xf00);
int16_t iDY = ucYL | ((ucXYH << 8) & 0xf00);
@ -207,8 +207,8 @@ uint8_t pat9125_update_y(void)
if (pat9125_PID1 == 0xff) return 0;
if (ucMotion & 0x80)
{
uint8_t ucYL = pat9125_rd_reg(PAT9125_DELTA_YL);
uint8_t ucXYH = pat9125_rd_reg(PAT9125_DELTA_XYH);
uint16_t ucYL = pat9125_rd_reg(PAT9125_DELTA_YL);
uint16_t ucXYH = pat9125_rd_reg(PAT9125_DELTA_XYH);
if (pat9125_PID1 == 0xff) return 0;
int16_t iDY = ucYL | ((ucXYH << 8) & 0xf00);
if (iDY & 0x800) iDY -= 4096;
@ -219,18 +219,13 @@ uint8_t pat9125_update_y(void)
return 0;
}
uint8_t pat9125_update_y2(void)
uint8_t pat9125_update_bs(void)
{
if ((pat9125_PID1 == 0x31) && (pat9125_PID2 == 0x91))
{
uint8_t ucMotion = pat9125_rd_reg(PAT9125_MOTION);
if (pat9125_PID1 == 0xff) return 0; //NOACK error
if (ucMotion & 0x80)
{
int8_t dy = pat9125_rd_reg(PAT9125_DELTA_YL);
if (pat9125_PID1 == 0xff) return 0; //NOACK error
pat9125_y -= dy; //negative number, because direction switching does not work
}
pat9125_b = pat9125_rd_reg(PAT9125_FRAME);
pat9125_s = pat9125_rd_reg(PAT9125_SHUTTER);
if (pat9125_PID1 == 0xff) return 0;
return 1;
}
return 0;

View file

@ -19,9 +19,9 @@ extern uint8_t pat9125_b;
extern uint8_t pat9125_s;
extern uint8_t pat9125_init(void);
extern uint8_t pat9125_update(void);
extern uint8_t pat9125_update_y(void);
extern uint8_t pat9125_update_y2(void);
extern uint8_t pat9125_update(void); // update all sensor data
extern uint8_t pat9125_update_y(void); // update _y only
extern uint8_t pat9125_update_bs(void); // update _b/_s only
#if defined(__cplusplus)

View file

@ -1137,17 +1137,24 @@ Having the real displacement of the head, we can calculate the total movement le
// still need to replicate the *exact* same step grouping policy (see below)
float advance_speed = (extruder_advance_K * e_D_ratio * block->acceleration * cs.axis_steps_per_unit[E_AXIS]);
if (advance_speed > MAX_STEP_FREQUENCY) advance_speed = MAX_STEP_FREQUENCY;
block->advance_rate = (F_CPU / 8.0) / advance_speed;
if (block->advance_rate > 20000) {
block->advance_rate = (block->advance_rate >> 2)&0x3fff;
float advance_rate = (F_CPU / 8.0) / advance_speed;
if (advance_speed > 20000) {
block->advance_rate = advance_rate * 4;
block->advance_step_loops = 4;
}
else if (block->advance_rate > 10000) {
block->advance_rate = (block->advance_rate >> 1)&0x7fff;
else if (advance_speed > 10000) {
block->advance_rate = advance_rate * 2;
block->advance_step_loops = 2;
}
else
{
// never overflow the internal accumulator with very low rates
if (advance_rate < UINT16_MAX)
block->advance_rate = advance_rate;
else
block->advance_rate = UINT16_MAX;
block->advance_step_loops = 1;
}
#ifdef LA_DEBUG
if (block->advance_step_loops > 2)

View file

@ -173,6 +173,9 @@ void plan_set_e_position(const float &e);
// Reset the E position to zero at the start of the next segment
void plan_reset_next_e();
inline void set_current_to_destination() { memcpy(current_position, destination, sizeof(current_position)); }
inline void set_destination_to_current() { memcpy(destination, current_position, sizeof(destination)); }
extern bool e_active();
void check_axes_activity();

View file

@ -36,9 +36,9 @@
#include "tmc2130.h"
#endif //TMC2130
#ifdef FILAMENT_SENSOR
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
#include "fsensor.h"
int fsensor_counter = 0; //counter for e-steps
int fsensor_counter; //counter for e-steps
#endif //FILAMENT_SENSOR
#include "mmu.h"
@ -421,9 +421,8 @@ FORCE_INLINE void stepper_next_block()
#endif /* LIN_ADVANCE */
count_direction[E_AXIS] = 1;
}
#ifdef FILAMENT_SENSOR
fsensor_counter = 0;
fsensor_st_block_begin(count_direction[E_AXIS] < 0);
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
fsensor_st_block_begin(count_direction[E_AXIS] < 0);
#endif //FILAMENT_SENSOR
}
else {
@ -973,13 +972,13 @@ FORCE_INLINE void advance_isr_scheduler() {
WRITE_NC(E0_STEP_PIN, !INVERT_E_STEP_PIN);
e_steps += (rev? 1: -1);
WRITE_NC(E0_STEP_PIN, INVERT_E_STEP_PIN);
#ifdef FILAMENT_SENSOR
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
fsensor_counter += (rev? -1: 1);
#endif
}
while(--max_ticks);
#ifdef FILAMENT_SENSOR
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
if (abs(fsensor_counter) >= fsensor_chunk_len)
{
fsensor_st_block_chunk(fsensor_counter);
@ -1357,8 +1356,6 @@ void quickStop()
}
#ifdef BABYSTEPPING
void babystep(const uint8_t axis,const bool direction)
{
//MUST ONLY BE CALLED BY A ISR, it depends on that no other ISR interrupts this
@ -1594,3 +1591,13 @@ void microstep_readings()
#endif
}
#endif //TMC2130
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
void st_reset_fsensor()
{
CRITICAL_SECTION_START;
fsensor_counter = 0;
CRITICAL_SECTION_END;
}
#endif //FILAMENT_SENSOR

View file

@ -92,7 +92,10 @@ void microstep_readings();
#ifdef BABYSTEPPING
void babystep(const uint8_t axis,const bool direction); // perform a short step with a single stepper motor, outside of any convention
#endif
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
// reset the internal filament sensor state
void st_reset_fsensor();
#endif
#endif

View file

@ -11,8 +11,8 @@
#define _millis millis2
#define _micros micros2
#define _delay delay2
#define _tone tone2
#define _noTone noTone2
#define _tone tone
#define _noTone noTone
#define timer02_set_pwm0(pwm0)
@ -20,8 +20,8 @@
#define _millis millis
#define _micros micros
#define _delay delay
#define _tone(x, y) /*tone*/
#define _noTone(x) /*noTone*/
#define _tone tone
#define _noTone noTone
#define timer02_set_pwm0(pwm0)
#endif //SYSTEM_TIMER_2

View file

@ -73,7 +73,7 @@ int current_voltage_raw_pwr = 0;
int current_voltage_raw_bed = 0;
#endif
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
int current_voltage_raw_IR = 0;
#endif //IR_SENSOR_ANALOG
@ -210,6 +210,14 @@ static void temp_runaway_check(int _heater_id, float _target_temperature, float
static void temp_runaway_stop(bool isPreheat, bool isBed);
#endif
// return "false", if all extruder-heaters are 'off' (ie. "true", if any heater is 'on')
bool checkAllHotends(void)
{
bool result=false;
for(int i=0;i<EXTRUDERS;i++) result=(result||(target_temperature[i]!=0));
return(result);
}
void PID_autotune(float temp, int extruder, int ncycles)
{
pid_number_of_cycles = ncycles;
@ -1588,7 +1596,7 @@ void adc_ready(void) //callback from adc when sampling finished
#ifdef VOLT_BED_PIN
current_voltage_raw_bed = adc_values[ADC_PIN_IDX(VOLT_BED_PIN)]; // 6->9
#endif
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
current_voltage_raw_IR = adc_values[ADC_PIN_IDX(VOLT_IR_PIN)];
#endif //IR_SENSOR_ANALOG
temp_meas_ready = true;
@ -2051,7 +2059,7 @@ public:
}
}
};
static const char m2hotend[] PROGMEM = "MINTEMP HEATER fixed";
static const char m2hotend[] PROGMEM = "MINTEMP HOTEND fixed";
static const char m2bed[] PROGMEM = "MINTEMP BED fixed";
static alert_automaton_mintemp alert_automaton_hotend(m2hotend), alert_automaton_bed(m2bed);

View file

@ -47,6 +47,8 @@
void tp_init(); //initialize the heating
void manage_heater(); //it is critical that this is called periodically.
extern bool checkAllHotends(void);
// low level conversion routines
// do not use these routines and variables outside of temperature.cpp
extern int target_temperature[EXTRUDERS];
@ -76,7 +78,7 @@ extern int current_voltage_raw_pwr;
extern int current_voltage_raw_bed;
#endif
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
extern int current_voltage_raw_IR;
#endif //IR_SENSOR_ANALOG
@ -222,6 +224,9 @@ FORCE_INLINE bool isCoolingBed() {
#error Invalid number of extruders
#endif
// return "false", if all heaters are 'off' (ie. "true", if any heater is 'on')
#define CHECK_ALL_HEATERS (checkAllHotends()||(target_temperature_bed!=0))
int getHeaterPower(int heater);
void disable_heater();
void updatePID();

View file

@ -136,14 +136,4 @@ void delay2(unsigned long ms)
}
}
void tone2(__attribute__((unused)) uint8_t _pin, __attribute__((unused)) unsigned int frequency/*, unsigned long duration*/)
{
PIN_SET(BEEPER);
}
void noTone2(__attribute__((unused)) uint8_t _pin)
{
PIN_CLR(BEEPER);
}
#endif //SYSTEM_TIMER_2

View file

@ -23,13 +23,6 @@ extern unsigned long micros2(void);
///! Reimplemented original delay() using timer2
extern void delay2(unsigned long ms);
///! Reimplemented original tone() using timer2
///! Does not perform any PWM tone generation, it just sets the beeper pin to 1
extern void tone2(uint8_t _pin, unsigned int frequency/*, unsigned long duration*/);
///! Turn off beeping - set beeper pin to 0
extern void noTone2(uint8_t _pin);
#if defined(__cplusplus)
}
#endif //defined(__cplusplus)

View file

@ -994,7 +994,7 @@ bool tmc2130_home_calibrate(uint8_t axis)
uint8_t step[16];
uint8_t cnt[16];
uint8_t val[16];
homeaxis(axis, 16, step);
homeaxis(axis, true, 16, step);
bubblesort_uint8(step, 16, 0);
printf_P(PSTR("sorted samples:\n"));
for (uint8_t i = 0; i < 16; i++)

View file

@ -68,6 +68,10 @@ uint8_t SilentModeMenu_MMU = 1; //activate mmu unit stealth mode
int8_t FSensorStateMenu = 1;
#ifdef IR_SENSOR_ANALOG
bool bMenuFSDetect=false;
#endif //IR_SENSOR_ANALOG
#ifdef SDCARD_SORT_ALPHA
bool presort_flag = false;
@ -114,7 +118,7 @@ static const char* lcd_display_message_fullscreen_nonBlocking_P(const char *msg,
// void copy_and_scalePID_d();
/* Different menus */
static void lcd_status_screen();
//static void lcd_status_screen(); // NOT static due to using inside "Marlin_main" module ("manage_inactivity()")
#if (LANG_MODE != 0)
static void lcd_language_menu();
#endif
@ -235,8 +239,9 @@ static FanCheck lcd_selftest_fan_auto(int _fan);
static bool lcd_selftest_fsensor();
#endif //PAT9125
static bool selftest_irsensor();
#if IR_SENSOR_ANALOG
static bool lcd_selftest_IRsensor();
#ifdef IR_SENSOR_ANALOG
static bool lcd_selftest_IRsensor(bool bStandalone=false);
static void lcd_detect_IRsensor();
#endif //IR_SENSOR_ANALOG
static void lcd_selftest_error(TestError error, const char *_error_1, const char *_error_2);
static void lcd_colorprint_change();
@ -975,7 +980,7 @@ void lcdui_print_status_screen(void)
}
// Main status screen. It's up to the implementation specific part to show what is needed. As this is very display dependent
static void lcd_status_screen()
void lcd_status_screen() // NOT static due to using inside "Marlin_main" module ("manage_inactivity()")
{
if (firstrun == 1)
{
@ -1796,11 +1801,23 @@ static void lcd_menu_fails_stats_print()
uint8_t crashX = eeprom_read_byte((uint8_t*)EEPROM_CRASH_COUNT_X);
uint8_t crashY = eeprom_read_byte((uint8_t*)EEPROM_CRASH_COUNT_Y);
lcd_home();
#ifndef PAT9125
lcd_printf_P(failStatsFmt,
_i("Last print failures"), ////c=20 r=1
_i("Power failures"), power, ////c=14 r=1
_i("Filam. runouts"), filam, ////c=14 r=1
_i("Crash"), crashX, crashY); ////c=7 r=1
#else
// On the MK3 include detailed PAT9125 statistics about soft failures
lcd_printf_P(PSTR("%S\n"
" %-16.16S%-3d\n"
" %-7.7S H %-3d S %-3d\n"
" %-7.7S X %-3d Y %-3d"),
_i("Last print failures"), ////c=20 r=1
_i("Power failures"), power, ////c=14 r=1
_i("Runouts"), filam, fsensor_softfail, //c=7 r=1
_i("Crash"), crashX, crashY); ////c=7 r=1
#endif
menu_back_if_clicked_fb();
}
@ -1940,7 +1957,7 @@ static void lcd_menu_temperatures()
menu_back_if_clicked();
}
#if defined (VOLT_BED_PIN) || defined (VOLT_PWR_PIN) || IR_SENSOR_ANALOG
#if defined (VOLT_BED_PIN) || defined (VOLT_PWR_PIN) || defined(IR_SENSOR_ANALOG)
#define VOLT_DIV_R1 10000
#define VOLT_DIV_R2 2370
#define VOLT_DIV_FAC ((float)VOLT_DIV_R2 / (VOLT_DIV_R2 + VOLT_DIV_R1))
@ -1952,27 +1969,24 @@ static void lcd_menu_temperatures()
//! | |
//! | PWR: 00.0V | c=12 r=1
//! | Bed: 00.0V | c=12 r=1
//! | |
//! | IR : 00.0V | c=12 r=1 optional
//! ----------------------
//! @endcode
//! @todo Positioning of the messages and values on LCD aren't fixed to their exact place. This causes issues with translations.
static void lcd_menu_voltages()
{
lcd_timeoutToStatus.stop(); //infinite timeout
float volt_pwr = VOLT_DIV_REF * ((float)current_voltage_raw_pwr / (1023 * OVERSAMPLENR)) / VOLT_DIV_FAC;
float volt_bed = VOLT_DIV_REF * ((float)current_voltage_raw_bed / (1023 * OVERSAMPLENR)) / VOLT_DIV_FAC;
lcd_home();
#if !IR_SENSOR_ANALOG
lcd_printf_P(PSTR("\n"));
#endif //!IR_SENSOR_ANALOG
lcd_printf_P(PSTR(" PWR: %4.1fV\n" " BED: %4.1fV"), volt_pwr, volt_bed);
#if IR_SENSOR_ANALOG
float volt_IR = VOLT_DIV_REF * ((float)current_voltage_raw_IR / (1023 * OVERSAMPLENR));
lcd_printf_P(PSTR("\n IR : %3.1fV"),volt_IR);
lcd_timeoutToStatus.stop(); //infinite timeout
float volt_pwr = VOLT_DIV_REF * ((float)current_voltage_raw_pwr / (1023 * OVERSAMPLENR)) / VOLT_DIV_FAC;
float volt_bed = VOLT_DIV_REF * ((float)current_voltage_raw_bed / (1023 * OVERSAMPLENR)) / VOLT_DIV_FAC;
lcd_home();
lcd_printf_P(PSTR(" PWR: %4.1fV\n" " BED: %4.1fV"), volt_pwr, volt_bed);
#ifdef IR_SENSOR_ANALOG
float volt_IR = VOLT_DIV_REF * ((float)current_voltage_raw_IR / (1023 * OVERSAMPLENR));
lcd_printf_P(PSTR("\n IR : %3.1fV"),volt_IR);
#endif //IR_SENSOR_ANALOG
menu_back_if_clicked();
menu_back_if_clicked();
}
#endif //defined (VOLT_BED_PIN) || defined (VOLT_PWR_PIN) || IR_SENSOR_ANALOG
#endif //defined (VOLT_BED_PIN) || defined (VOLT_PWR_PIN) || defined(IR_SENSOR_ANALOG)
#ifdef TMC2130
//! @brief Show Belt Status
@ -2146,6 +2160,23 @@ static void lcd_support_menu()
MENU_ITEM_BACK_P(_i("Date:"));////MSG_DATE c=17 r=1
MENU_ITEM_BACK_P(PSTR(__DATE__));
#ifdef IR_SENSOR_ANALOG
MENU_ITEM_BACK_P(STR_SEPARATOR);
MENU_ITEM_BACK_P(PSTR("Fil. sensor v.:"));
switch(oFsensorPCB)
{
case ClFsensorPCB::_Old:
MENU_ITEM_BACK_P(PSTR(" 03 or older"));
break;
case ClFsensorPCB::_Rev03b:
MENU_ITEM_BACK_P(PSTR(" 03b or newer"));
break;
case ClFsensorPCB::_Undef:
default:
MENU_ITEM_BACK_P(PSTR(" state unknown"));
}
#endif // IR_SENSOR_ANALOG
MENU_ITEM_BACK_P(STR_SEPARATOR);
if (mmu_enabled)
{
@ -2231,10 +2262,12 @@ void lcd_set_filament_autoload() {
fsensor_autoload_set(!fsensor_autoload_enabled);
}
#if defined(FILAMENT_SENSOR) && defined(PAT9125)
void lcd_set_filament_oq_meass()
{
fsensor_oq_meassure_set(!fsensor_oq_meassure_enabled);
}
#endif
FilamentAction eFilamentAction=FilamentAction::None; // must be initialized as 'non-autoLoad'
@ -2794,9 +2827,9 @@ static void lcd_LoadFilament()
//!
//! @code{.unparsed}
//! |01234567890123456789|
//! |Filament used: | c=18 r=1
//! | 00.00m |
//! |Print time: | c=18 r=1
//! |Filament used: | c=19 r=1
//! | 0000.00m |
//! |Print time: | c=19 r=1
//! | 00h 00m 00s |
//! ----------------------
//! @endcode
@ -2805,32 +2838,33 @@ static void lcd_LoadFilament()
//!
//! @code{.unparsed}
//! |01234567890123456789|
//! |Total filament : | c=18 r=1
//! | 000.00 m |
//! |Total print time : | c=18 r=1
//! | 00d :00h :00 m |
//! |Total filament: | c=19 r=1
//! | 0000.00m |
//! |Total print time: | c=19 r=1
//! | 00d 00h 00m |
//! ----------------------
//! @endcode
//! @todo Positioning of the messages and values on LCD aren't fixed to their exact place. This causes issues with translations. Translations missing for "d"days, "h"ours, "m"inutes", "s"seconds".
void lcd_menu_statistics()
{
lcd_timeoutToStatus.stop(); //infinite timeout
if (IS_SD_PRINTING)
{
const float _met = ((float)total_filament_used) / (100000.f);
const uint32_t _t = (_millis() - starttime) / 1000ul;
const int _h = _t / 3600;
const int _m = (_t - (_h * 3600ul)) / 60ul;
const int _s = _t - ((_h * 3600ul) + (_m * 60ul));
const uint32_t _h = _t / 3600;
const uint8_t _m = (_t - (_h * 3600ul)) / 60ul;
const uint8_t _s = _t - ((_h * 3600ul) + (_m * 60ul));
lcd_clear();
lcd_home();
lcd_printf_P(_N(
"%S:\n"
"%17.2fm \n"
"%18.2fm \n"
"%S:\n"
"%2dh %02dm %02ds"
"%10ldh %02hhdm %02hhds"
),
_i("Filament used"), _met, ////c=18 r=1
_i("Print time"), _h, _m, _s); ////c=18 r=1
_i("Filament used"), _met, ////c=19 r=1
_i("Print time"), _h, _m, _s); ////c=19 r=1
menu_back_if_clicked_fb();
}
else
@ -2840,29 +2874,20 @@ void lcd_menu_statistics()
uint8_t _hours, _minutes;
uint32_t _days;
float _filament_m = (float)_filament/100;
// int _filament_km = (_filament >= 100000) ? _filament / 100000 : 0;
// if (_filament_km > 0) _filament_m = _filament - (_filament_km * 100000);
_days = _time / 1440;
_hours = (_time - (_days * 1440)) / 60;
_minutes = _time - ((_days * 1440) + (_hours * 60));
lcd_clear();
lcd_home();
lcd_printf_P(_N(
"%S:\n"
"%17.2fm \n"
"%18.2fm \n"
"%S:\n"
"%7ldd :%2hhdh :%02hhdm"
), _i("Total filament"), _filament_m, _i("Total print time"), _days, _hours, _minutes);
KEEPALIVE_STATE(PAUSED_FOR_USER);
while (!lcd_clicked())
{
manage_heater();
manage_inactivity(true);
_delay(100);
}
KEEPALIVE_STATE(NOT_BUSY);
lcd_quick_feedback();
menu_back();
"%10ldd %02hhdh %02hhdm"
),
_i("Total filament"), _filament_m, ////c=19 r=1
_i("Total print time"), _days, _hours, _minutes); ////c=19 r=1
menu_back_if_clicked_fb();
}
}
@ -5629,7 +5654,7 @@ SETTINGS_VERSION;
MENU_END();
}
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
static void lcd_fsensor_actionNA_set(void)
{
switch(oFsensorActionNA)
@ -5695,8 +5720,9 @@ void lcd_hw_setup_menu(void) // can not be "static"
SETTINGS_NOZZLE;
MENU_ITEM_SUBMENU_P(_i("Checks"), lcd_checking_menu);
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
FSENSOR_ACTION_NA;
MENU_ITEM_FUNCTION_P(PSTR("Fsensor Detection"), lcd_detect_IRsensor);
#endif //IR_SENSOR_ANALOG
MENU_END();
}
@ -7115,7 +7141,7 @@ static void lcd_tune_menu()
else {
MENU_ITEM_TOGGLE_P(_T(MSG_FSENSOR), _T(MSG_ON), lcd_fsensor_state_set);
}
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
FSENSOR_ACTION_NA;
#endif //IR_SENSOR_ANALOG
#endif //FILAMENT_SENSOR
@ -7495,39 +7521,60 @@ void lcd_belttest()
}
#endif //TMC2130
#if IR_SENSOR_ANALOG
static bool lcd_selftest_IRsensor()
{
bool bAction;
bool bPCBrev03b;
uint16_t volt_IR_int;
float volt_IR;
#ifdef IR_SENSOR_ANALOG
// called also from marlin_main.cpp
void printf_IRSensorAnalogBoardChange(bool bPCBrev03b){
printf_P(PSTR("Filament sensor board change detected: revision %S\n"), bPCBrev03b ? PSTR("03b or newer") : PSTR("03 or older"));
}
volt_IR_int=current_voltage_raw_IR;
bPCBrev03b=(volt_IR_int<((int)IRsensor_Hopen_TRESHOLD));
volt_IR=VOLT_DIV_REF*((float)volt_IR_int/(1023*OVERSAMPLENR));
printf_P(PSTR("Measured filament sensor high level: %4.2fV\n"),volt_IR);
if(volt_IR_int<((int)IRsensor_Hmin_TRESHOLD))
{
lcd_selftest_error(TestError::FsensorLevel,"HIGH","");
return(false);
}
lcd_show_fullscreen_message_and_wait_P(_i("Please insert filament (but not load them!) into extruder and then press the knob."));
volt_IR_int=current_voltage_raw_IR;
volt_IR=VOLT_DIV_REF*((float)volt_IR_int/(1023*OVERSAMPLENR));
printf_P(PSTR("Measured filament sensor low level: %4.2fV\n"),volt_IR);
if(volt_IR_int>((int)IRsensor_Lmax_TRESHOLD))
{
lcd_selftest_error(TestError::FsensorLevel,"LOW","");
return(false);
}
if((bPCBrev03b?1:0)!=(uint8_t)oFsensorPCB) // safer then "(uint8_t)bPCBrev03b"
{
printf_P(PSTR("Filament sensor board change detected: revision %S\n"),bPCBrev03b?PSTR("03b or newer"):PSTR("03 or older"));
oFsensorPCB=bPCBrev03b?ClFsensorPCB::_Rev03b:ClFsensorPCB::_Old;
eeprom_update_byte((uint8_t*)EEPROM_FSENSOR_PCB,(uint8_t)oFsensorPCB);
}
return(true);
static bool lcd_selftest_IRsensor(bool bStandalone)
{
bool bAction;
bool bPCBrev03b;
uint16_t volt_IR_int;
float volt_IR;
volt_IR_int=current_voltage_raw_IR;
bPCBrev03b=(volt_IR_int<((int)IRsensor_Hopen_TRESHOLD));
volt_IR=VOLT_DIV_REF*((float)volt_IR_int/(1023*OVERSAMPLENR));
printf_P(PSTR("Measured filament sensor high level: %4.2fV\n"),volt_IR);
if(volt_IR_int < ((int)IRsensor_Hmin_TRESHOLD)){
if(!bStandalone)
lcd_selftest_error(TestError::FsensorLevel,"HIGH","");
return(false);
}
lcd_show_fullscreen_message_and_wait_P(_i("Please insert filament (but not load them!) into extruder and then press the knob."));
volt_IR_int=current_voltage_raw_IR;
volt_IR=VOLT_DIV_REF*((float)volt_IR_int/(1023*OVERSAMPLENR));
printf_P(PSTR("Measured filament sensor low level: %4.2fV\n"),volt_IR);
if(volt_IR_int > ((int)IRsensor_Lmax_TRESHOLD)){
if(!bStandalone)
lcd_selftest_error(TestError::FsensorLevel,"LOW","");
return(false);
}
if((bPCBrev03b?1:0)!=(uint8_t)oFsensorPCB){ // safer then "(uint8_t)bPCBrev03b"
printf_IRSensorAnalogBoardChange(bPCBrev03b);
oFsensorPCB=bPCBrev03b?ClFsensorPCB::_Rev03b:ClFsensorPCB::_Old;
eeprom_update_byte((uint8_t*)EEPROM_FSENSOR_PCB,(uint8_t)oFsensorPCB);
}
return(true);
}
static void lcd_detect_IRsensor(){
bool bAction;
bMenuFSDetect = true; // inhibits some code inside "manage_inactivity()"
bAction = lcd_show_fullscreen_message_yes_no_and_wait_P(_i("Is the filament loaded?"), false, false);
if(!bAction){
lcd_show_fullscreen_message_and_wait_P(_i("Please unload the filament first, then repeat this action."));
return;
}
bAction = lcd_selftest_IRsensor(true);
if(bAction)
lcd_show_fullscreen_message_and_wait_P(_i("Sensor verified, remove the filament now."));
else
lcd_show_fullscreen_message_and_wait_P(_i("Verification failed, remove the filament and try again."));
bMenuFSDetect=false; // de-inhibits some code inside "manage_inactivity()"
}
#endif //IR_SENSOR_ANALOG
@ -7541,7 +7588,8 @@ bool lcd_selftest()
int _progress = 0;
bool _result = true;
bool _swapped_fan = false;
#if IR_SENSOR_ANALOG
//#ifdef IR_SENSOR_ANALOG
#if (0)
bool bAction;
bAction=lcd_show_fullscreen_message_yes_no_and_wait_P(_i("Is the filament unloaded?"),false,true);
if(!bAction)
@ -7676,21 +7724,31 @@ bool lcd_selftest()
#ifdef TMC2130
tmc2130_home_exit();
enable_endstops(false);
current_position[X_AXIS] = current_position[X_AXIS] + 14;
current_position[Y_AXIS] = current_position[Y_AXIS] + 12;
#endif
//homeaxis(X_AXIS);
//homeaxis(Y_AXIS);
current_position[X_AXIS] += pgm_read_float(bed_ref_points_4);
current_position[Y_AXIS] += pgm_read_float(bed_ref_points_4+1);
#ifdef TMC2130
//current_position[X_AXIS] += 0;
current_position[Y_AXIS] += 4;
#endif //TMC2130
current_position[Z_AXIS] = current_position[Z_AXIS] + 10;
plan_buffer_line_curposXYZE(manual_feedrate[0] / 60, active_extruder);
st_synchronize();
set_destination_to_current();
_progress = lcd_selftest_screen(TestScreen::AxisZ, _progress, 3, true, 1500);
_result = lcd_selfcheck_axis(2, Z_MAX_POS);
if (eeprom_read_byte((uint8_t*)EEPROM_WIZARD_ACTIVE) != 1) {
enquecommand_P(PSTR("G28 W"));
enquecommand_P(PSTR("G1 Z15 F1000"));
}
#ifdef TMC2130
_result = homeaxis(Z_AXIS, false);
#else
_result = lcd_selfcheck_axis(Z_AXIS, Z_MAX_POS);
#endif //TMC2130
//raise Z to not damage the bed during and hotend testing
current_position[Z_AXIS] += 20;
plan_buffer_line_curposXYZE(manual_feedrate[0] / 60, active_extruder);
st_synchronize();
}
#ifdef TMC2130
@ -7747,7 +7805,8 @@ bool lcd_selftest()
_progress = lcd_selftest_screen(TestScreen::FsensorOk, _progress, 3, true, 2000); //fil sensor OK
}
#endif //PAT9125
#if IR_SENSOR_ANALOG
//#ifdef IR_SENSOR_ANALOG
#if (0)
_progress = lcd_selftest_screen(TestScreen::Fsensor, _progress, 3, true, 2000); //check filament sensor
_result = lcd_selftest_IRsensor();
if (_result)
@ -7913,7 +7972,7 @@ static bool lcd_selfcheck_axis_sg(unsigned char axis) {
}
#endif //TMC2130
//#ifndef TMC2130
#ifndef TMC2130
static bool lcd_selfcheck_axis(int _axis, int _travel)
{
@ -8012,12 +8071,13 @@ static bool lcd_selfcheck_axis(int _axis, int _travel)
{
lcd_selftest_error(TestError::Motor, _error_1, _error_2);
}
}
}
current_position[_axis] = 0; //simulate axis home to avoid negative numbers for axis position, especially Z.
plan_set_position(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
return _stepresult;
}
#ifndef TMC2130
static bool lcd_selfcheck_pulleys(int axis)
{
float tmp_motor_loud[3] = DEFAULT_PWM_MOTOR_CURRENT_LOUD;
@ -8062,9 +8122,6 @@ static bool lcd_selfcheck_pulleys(int axis)
((READ(Y_MIN_PIN) ^ Y_MIN_ENDSTOP_INVERTING) == 1)) {
endstop_triggered = true;
if (current_position_init - 1 <= current_position[axis] && current_position_init + 1 >= current_position[axis]) {
current_position[axis] += (axis == X_AXIS) ? 13 : 9;
plan_buffer_line_curposXYZE(manual_feedrate[0] / 60, active_extruder);
st_synchronize();
return(true);
}
else {

View file

@ -55,8 +55,10 @@ extern bool lcd_selftest();
void lcd_menu_statistics();
void lcd_status_screen(); // NOT static due to using inside "Marlin_main" module ("manage_inactivity()")
void lcd_menu_extruder_info(); // NOT static due to using inside "Marlin_main" module ("manage_inactivity()")
void lcd_menu_show_sensors_state(); // NOT static due to using inside "Marlin_main" module ("manage_inactivity()")
#ifdef TMC2130
bool lcd_crash_detect_enabled();
void lcd_crash_detect_enable();
@ -138,6 +140,11 @@ extern uint8_t farm_status;
#define SILENT_MODE_OFF SILENT_MODE_POWER
#endif
#ifdef IR_SENSOR_ANALOG
extern bool bMenuFSDetect;
void printf_IRSensorAnalogBoardChange(bool bPCBrev03b);
#endif //IR_SENSOR_ANALOG
extern int8_t SilentModeMenu;
extern uint8_t SilentModeMenu_MMU;
@ -251,7 +258,7 @@ enum class WizState : uint8_t
void lcd_wizard(WizState state);
#define VOLT_DIV_REF 5
#if IR_SENSOR_ANALOG
#ifdef IR_SENSOR_ANALOG
#define IRsensor_Hmin_TRESHOLD (3.0*1023*OVERSAMPLENR/VOLT_DIV_REF) // ~3.0V (0.6*Vcc)
#define IRsensor_Lmax_TRESHOLD (1.5*1023*OVERSAMPLENR/VOLT_DIV_REF) // ~1.5V (0.3*Vcc)
#define IRsensor_Hopen_TRESHOLD (4.6*1023*OVERSAMPLENR/VOLT_DIV_REF) // ~4.6V (N.C. @ Ru~20-50k, Rd'=56k, Ru'=10k)

View file

@ -151,8 +151,8 @@
// this value is litlebit higher that real limit, because ambient termistor is on the board and is temperated from it,
// temperature inside the case is around 31C for ambient temperature 25C, when the printer is powered on long time and idle
// the real limit is 15C (same as MINTEMP limit), this is because 15C is end of scale for both used thermistors (bed, heater)
#define MINTEMP_MINAMBIENT 25
#define MINTEMP_MINAMBIENT_RAW 978
#define MINTEMP_MINAMBIENT 10
#define MINTEMP_MINAMBIENT_RAW 1002
#define DEBUG_DCODE3
@ -282,14 +282,14 @@
*------------------------------------*/
// Mintemps
#define HEATER_0_MINTEMP 15
#define HEATER_0_MINTEMP 10
#define HEATER_1_MINTEMP 5
#define HEATER_2_MINTEMP 5
#define HEATER_MINTEMP_DELAY 15000 // [ms] ! if changed, check maximal allowed value @ ShortTimer
#if HEATER_MINTEMP_DELAY>USHRT_MAX
#error "Check maximal allowed value @ ShortTimer (see HEATER_MINTEMP_DELAY definition)"
#endif
#define BED_MINTEMP 15
#define BED_MINTEMP 10
#define BED_MINTEMP_DELAY 50000 // [ms] ! if changed, check maximal allowed value @ ShortTimer
#if BED_MINTEMP_DELAY>USHRT_MAX
#error "Check maximal allowed value @ ShortTimer (see BED_MINTEMP_DELAY definition)"

View file

@ -153,8 +153,8 @@
// this value is litlebit higher that real limit, because ambient termistor is on the board and is temperated from it,
// temperature inside the case is around 31C for ambient temperature 25C, when the printer is powered on long time and idle
// the real limit is 15C (same as MINTEMP limit), this is because 15C is end of scale for both used thermistors (bed, heater)
#define MINTEMP_MINAMBIENT 25
#define MINTEMP_MINAMBIENT_RAW 978
#define MINTEMP_MINAMBIENT 10
#define MINTEMP_MINAMBIENT_RAW 1002
#define DEBUG_DCODE3
@ -284,14 +284,14 @@
*------------------------------------*/
// Mintemps
#define HEATER_0_MINTEMP 15
#define HEATER_0_MINTEMP 10
#define HEATER_1_MINTEMP 5
#define HEATER_2_MINTEMP 5
#define HEATER_MINTEMP_DELAY 15000 // [ms] ! if changed, check maximal allowed value @ ShortTimer
#if HEATER_MINTEMP_DELAY>USHRT_MAX
#error "Check maximal allowed value @ ShortTimer (see HEATER_MINTEMP_DELAY definition)"
#endif
#define BED_MINTEMP 15
#define BED_MINTEMP 10
#define BED_MINTEMP_DELAY 50000 // [ms] ! if changed, check maximal allowed value @ ShortTimer
#if BED_MINTEMP_DELAY>USHRT_MAX
#error "Check maximal allowed value @ ShortTimer (see BED_MINTEMP_DELAY definition)"

View file

@ -56,7 +56,7 @@
# Some may argue that this is only used by a script, BUT as soon someone accidentally or on purpose starts Arduino IDE
# it will use the default Arduino IDE folders and so can corrupt the build environment.
#
# Version: 1.0.6-Build_10
# Version: 1.0.6-Build_13
# Change log:
# 12 Jan 2019, 3d-gussner, Fixed "compiler.c.elf.flags=-w -Os -Wl,-u,vfprintf -lprintf_flt -lm -Wl,--gc-sections" in 'platform.txt'
# 16 Jan 2019, 3d-gussner, Build_2, Added development check to modify 'Configuration.h' to prevent unwanted LCD messages that Firmware is unknown
@ -114,7 +114,10 @@
# 26 Jul 2019, 3d-gussner, Change JSON repository to prusa3d after PR https://github.com/prusa3d/Arduino_Boards/pull/1 was merged
# 23 Sep 2019, 3d-gussner, Prepare PF-build.sh for comming Prusa3d/Arduino_Boards version 1.0.2 Pull Request
# 17 Oct 2019, 3d-gussner, Changed folder and check file names to have seperated build enviroments depening on Arduino IDE version and
# board-versions.
# board-versions.
# 15 Dec 2019, 3d-gussner, Prepare for switch to Prusa3d/PF-build-env repository
# 15 Dec 2019, 3d-gussner, Fix Audrino user preferences for the chosen board.
# 17 Dec 2019, 3d-gussner, Fix "timer0_fract = 0" warning by using Arduino_boards v1.0.3
#### Start check if OSTYPE is supported
OS_FOUND=$( command -v uname)
@ -207,19 +210,22 @@ if ! type python > /dev/null; then
fi
fi
#### End prepare bash environment
#### End prepare bash / Linux environment
#### Set build environment
ARDUINO_ENV="1.8.5"
BUILD_ENV="1.0.6"
BOARD="rambo"
BOARD_PACKAGE_NAME="PrusaResearchRambo"
BOARD_VERSION="1.0.1"
BOARD="prusa_einsy_rambo"
BOARD_PACKAGE_NAME="PrusaResearch"
BOARD_VERSION="1.0.3"
#BOARD_URL="https://raw.githubusercontent.com/3d-gussner/Arduino_Boards/Prusa_Merge_v1.0.3/IDE_Board_Manager/package_prusa3d_index.json"
BOARD_URL="https://raw.githubusercontent.com/prusa3d/Arduino_Boards/master/IDE_Board_Manager/package_prusa3d_index.json"
BOARD_FILENAME="prusa3drambo"
BOARD_FILE_URL="https://raw.githubusercontent.com/prusa3d/Arduino_Boards/master/IDE_Board_Manager/prusa3drambo-1.0.1.tar.bz2"
PF_BUILD_FILE_URL="https://github.com/3d-gussner/PF-build-env/releases/download/$BUILD_ENV/PF-build-env-$BUILD_ENV.zip"
BOARD_FILENAME="prusa3dboards"
#BOARD_FILE_URL="https://raw.githubusercontent.com/3d-gussner/Arduino_Boards/Prusa_Merge_v1.0.3/IDE_Board_Manager/prusa3dboards-1.0.3.tar.bz2"
BOARD_FILE_URL="https://raw.githubusercontent.com/prusa3d/Arduino_Boards/master/IDE_Board_Manager/prusa3dboards-1.0.3.tar.bz2"
#PF_BUILD_FILE_URL="https://github.com/3d-gussner/PF-build-env-1/releases/download/$BUILD_ENV-WinLin/PF-build-env-WinLin-$BUILD_ENV.zip"
PF_BUILD_FILE_URL="https://github.com/prusa3d/PF-build-env/releases/download/$BUILD_ENV-WinLin/PF-build-env-WinLin-$BUILD_ENV.zip"
LIB="PrusaLibrary"
SCRIPT_PATH="$( cd "$(dirname "$0")" ; pwd -P )"
@ -233,6 +239,7 @@ echo "Ardunio IDE :" $ARDUINO_ENV
echo "Build env :" $BUILD_ENV
echo "Board :" $BOARD
echo "Package name:" $BOARD_PACKAGE_NAME
echo "Board v. :" $BOARD_VERSION
echo "Specific Lib:" $LIB
echo ""
@ -321,7 +328,7 @@ if [ ! -e ../PF-build-env-$BUILD_ENV/Preferences-$ARDUINO_ENV-$BOARD_VERSION-$TA
echo "update.check"
sed -i 's/update.check = true/update.check = false/g' ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor/lib/preferences.txt
echo "board"
sed -i 's/board = uno/board = $BOARD/g' ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor/lib/preferences.txt
sed -i "s/board = uno/board = $BOARD/g" ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor/lib/preferences.txt
echo "editor.linenumbers"
sed -i 's/editor.linenumbers = false/editor.linenumbers = true/g' ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor/lib/preferences.txt
echo "boardsmanager.additional.urls"
@ -364,7 +371,7 @@ if [[ ! -d "../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$P
fi
# Download and extract Prusa Firmware specific library files
if [ ! -f "PF-build-env-$BUILD_ENV.zip" ]; then
if [ ! -f "PF-build-env-WinLin-$BUILD_ENV.zip" ]; then
echo "$(tput setaf 6)Downloading Prusa Firmware build environment...$(tput setaf 2)"
sleep 2
wget $PF_BUILD_FILE_URL || exit 11
@ -373,7 +380,7 @@ fi
if [ ! -e "../PF-build-env-$BUILD_ENV/PF-build-env-$BUILD_ENV-$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor.txt" ]; then
echo "$(tput setaf 6)Unzipping Prusa Firmware build environment...$(tput setaf 2)"
sleep 2
unzip -o PF-build-env-$BUILD_ENV.zip -d ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor || exit 12
unzip -o PF-build-env-WinLin-$BUILD_ENV.zip -d ../PF-build-env-$BUILD_ENV/$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor || exit 12
echo "# PF-build-env-$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor-$BUILD_ENV" >> ../PF-build-env-$BUILD_ENV/PF-build-env-$BUILD_ENV-$ARDUINO_ENV-$BOARD_VERSION-$TARGET_OS-$Processor.txt
echo "$(tput sgr0)"
fi

View file

@ -46,7 +46,7 @@ _Note: Multi language build is not supported._
* Open Arduino and navigate to File -> Preferences -> Settings
* To the text field `"Additional Boards Manager URLSs"` add `https://raw.githubusercontent.com/prusa3d/Arduino_Boards/master/IDE_Board_Manager/package_prusa3d_index.json`
* Open Board manager (`Tools->Board->Board manager`), and install `Prusa Research AVR MK3 RAMBo EINSy board`
* Open Board manager (`Tools->Board->Board manager`), and install `Prusa Research AVR Boards by Prusa Research`
**c.** Modify compiler flags in `platform.txt` file

View file

@ -1,5 +1,5 @@
#!/bin/bash
BUILD_ENV="1.0.6"
BUILD_ENV="1.0.6.1"
SCRIPT_PATH="$( cd "$(dirname "$0")" ; pwd -P )"
if [ ! -d "build-env" ]; then
@ -8,7 +8,8 @@ fi
cd build-env || exit 2
if [ ! -f "PF-build-env-Linux64-$BUILD_ENV.zip" ]; then
wget https://github.com/mkbel/PF-build-env/releases/download/$BUILD_ENV/PF-build-env-Linux64-$BUILD_ENV.zip || exit 3
#wget https://github.com/3d-gussner/PF-build-env-1/releases/download/$BUILD_ENV-Linux64/PF-build-env-Linux64-$BUILD_ENV.zip || exit 3
wget https://github.com/prusa3d/PF-build-env/releases/download/$BUILD_ENV-Linux64/PF-build-env-Linux64-$BUILD_ENV.zip || exit 3
fi
if [ ! -d "../../PF-build-env-$BUILD_ENV" ]; then