Merge pull request #563 from njprossi/Marlin_v1
Improvment for delta, Honeywell thermistor table and move from panel
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commit
07f029c2d5
@ -107,6 +107,9 @@
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#define DELTA_TOWER3_X 0.0 // back middle tower
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#define DELTA_TOWER3_Y DELTA_RADIUS
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// Diagonal rod squared
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#define DELTA_DIAGONAL_ROD_2 pow(DELTA_DIAGONAL_ROD,2)
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//===========================================================================
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//=============================Thermal Settings ============================
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//===========================================================================
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@ -124,6 +127,7 @@
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// 5 is 100K thermistor - ATC Semitec 104GT-2 (Used in ParCan) (4.7k pullup)
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// 6 is 100k EPCOS - Not as accurate as table 1 (created using a fluke thermocouple) (4.7k pullup)
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// 7 is 100k Honeywell thermistor 135-104LAG-J01 (4.7k pullup)
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// 71 is 100k Honeywell thermistor 135-104LAF-J01 (4.7k pullup)
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// 8 is 100k 0603 SMD Vishay NTCS0603E3104FXT (4.7k pullup)
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// 9 is 100k GE Sensing AL03006-58.2K-97-G1 (4.7k pullup)
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// 10 is 100k RS thermistor 198-961 (4.7k pullup)
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@ -193,6 +193,11 @@
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#define DEFAULT_MINIMUMFEEDRATE 0.0 // minimum feedrate
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#define DEFAULT_MINTRAVELFEEDRATE 0.0
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// Feedrates for manual moves along X, Y, Z, E from panel
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#ifdef ULTIPANEL
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#define MANUAL_FEEDRATE {50*60, 50*60, 4*60, 60} // set the speeds for manual moves (mm/min)
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#endif
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// minimum time in microseconds that a movement needs to take if the buffer is emptied.
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#define DEFAULT_MINSEGMENTTIME 20000
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@ -2254,15 +2254,15 @@ void clamp_to_software_endstops(float target[3])
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#ifdef DELTA
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void calculate_delta(float cartesian[3])
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{
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delta[X_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD)
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delta[X_AXIS] = sqrt(DELTA_DIAGONAL_ROD_2
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- sq(DELTA_TOWER1_X-cartesian[X_AXIS])
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- sq(DELTA_TOWER1_Y-cartesian[Y_AXIS])
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) + cartesian[Z_AXIS];
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delta[Y_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD)
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delta[Y_AXIS] = sqrt(DELTA_DIAGONAL_ROD_2
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- sq(DELTA_TOWER2_X-cartesian[X_AXIS])
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- sq(DELTA_TOWER2_Y-cartesian[Y_AXIS])
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) + cartesian[Z_AXIS];
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delta[Z_AXIS] = sqrt(sq(DELTA_DIAGONAL_ROD)
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delta[Z_AXIS] = sqrt(DELTA_DIAGONAL_ROD_2
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- sq(DELTA_TOWER3_X-cartesian[X_AXIS])
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- sq(DELTA_TOWER3_Y-cartesian[Y_AXIS])
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) + cartesian[Z_AXIS];
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@ -195,6 +195,11 @@
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#define DEFAULT_MINIMUMFEEDRATE 0.0 // minimum feedrate
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#define DEFAULT_MINTRAVELFEEDRATE 0.0
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// Feedrates for manual moves along X, Y, Z, E from panel
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#ifdef ULTIPANEL
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#define MANUAL_FEEDRATE {50*60, 50*60, 4*60, 60} // set the speeds for manual moves (mm/min)
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#endif
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// minimum time in microseconds that a movement needs to take if the buffer is emptied.
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#define DEFAULT_MINSEGMENTTIME 20000
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@ -314,6 +314,158 @@ const short temptable_7[][2] PROGMEM = {
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{1023*OVERSAMPLENR, 0} //to allow internal 0 degrees C
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};
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#endif
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#if (THERMISTORHEATER_0 == 71) || (THERMISTORHEATER_1 == 71) || (THERMISTORHEATER_2 == 71) || (THERMISTORBED == 71) // 100k Honeywell 135-104LAF-J01
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// R0 = 100000 Ohm
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// T0 = 25 °C
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// Beta = 3974
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// R1 = 0 Ohm
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// R2 = 4700 Ohm
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const short temptable_71[][2] PROGMEM = {
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{35*OVERSAMPLENR, 300},
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{51*OVERSAMPLENR, 270},
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{54*OVERSAMPLENR, 265},
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{58*OVERSAMPLENR, 260},
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{59*OVERSAMPLENR, 258},
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{61*OVERSAMPLENR, 256},
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{63*OVERSAMPLENR, 254},
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{64*OVERSAMPLENR, 252},
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{66*OVERSAMPLENR, 250},
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{67*OVERSAMPLENR, 249},
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{68*OVERSAMPLENR, 248},
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{69*OVERSAMPLENR, 247},
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{70*OVERSAMPLENR, 246},
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{71*OVERSAMPLENR, 245},
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{72*OVERSAMPLENR, 244},
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{73*OVERSAMPLENR, 243},
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{74*OVERSAMPLENR, 242},
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{75*OVERSAMPLENR, 241},
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{76*OVERSAMPLENR, 240},
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{77*OVERSAMPLENR, 239},
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{78*OVERSAMPLENR, 238},
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{79*OVERSAMPLENR, 237},
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{80*OVERSAMPLENR, 236},
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{81*OVERSAMPLENR, 235},
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{82*OVERSAMPLENR, 234},
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{84*OVERSAMPLENR, 233},
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{85*OVERSAMPLENR, 232},
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{86*OVERSAMPLENR, 231},
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{87*OVERSAMPLENR, 230},
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{89*OVERSAMPLENR, 229},
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{90*OVERSAMPLENR, 228},
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{91*OVERSAMPLENR, 227},
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{92*OVERSAMPLENR, 226},
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{94*OVERSAMPLENR, 225},
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{95*OVERSAMPLENR, 224},
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{97*OVERSAMPLENR, 223},
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{98*OVERSAMPLENR, 222},
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{99*OVERSAMPLENR, 221},
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{101*OVERSAMPLENR, 220},
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{102*OVERSAMPLENR, 219},
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{104*OVERSAMPLENR, 218},
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{106*OVERSAMPLENR, 217},
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{107*OVERSAMPLENR, 216},
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{109*OVERSAMPLENR, 215},
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{110*OVERSAMPLENR, 214},
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{112*OVERSAMPLENR, 213},
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{114*OVERSAMPLENR, 212},
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{115*OVERSAMPLENR, 211},
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{117*OVERSAMPLENR, 210},
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{119*OVERSAMPLENR, 209},
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{121*OVERSAMPLENR, 208},
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{123*OVERSAMPLENR, 207},
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{125*OVERSAMPLENR, 206},
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{126*OVERSAMPLENR, 205},
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{128*OVERSAMPLENR, 204},
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{130*OVERSAMPLENR, 203},
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{132*OVERSAMPLENR, 202},
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{134*OVERSAMPLENR, 201},
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{136*OVERSAMPLENR, 200},
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{139*OVERSAMPLENR, 199},
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{141*OVERSAMPLENR, 198},
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{143*OVERSAMPLENR, 197},
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{145*OVERSAMPLENR, 196},
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{147*OVERSAMPLENR, 195},
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{150*OVERSAMPLENR, 194},
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{152*OVERSAMPLENR, 193},
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{154*OVERSAMPLENR, 192},
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{157*OVERSAMPLENR, 191},
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{159*OVERSAMPLENR, 190},
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{162*OVERSAMPLENR, 189},
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{164*OVERSAMPLENR, 188},
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{167*OVERSAMPLENR, 187},
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{170*OVERSAMPLENR, 186},
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{172*OVERSAMPLENR, 185},
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{175*OVERSAMPLENR, 184},
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{178*OVERSAMPLENR, 183},
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{181*OVERSAMPLENR, 182},
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{184*OVERSAMPLENR, 181},
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{187*OVERSAMPLENR, 180},
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{190*OVERSAMPLENR, 179},
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{193*OVERSAMPLENR, 178},
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{196*OVERSAMPLENR, 177},
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{199*OVERSAMPLENR, 176},
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{202*OVERSAMPLENR, 175},
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{205*OVERSAMPLENR, 174},
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{208*OVERSAMPLENR, 173},
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{212*OVERSAMPLENR, 172},
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{215*OVERSAMPLENR, 171},
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{219*OVERSAMPLENR, 170},
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{237*OVERSAMPLENR, 165},
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{256*OVERSAMPLENR, 160},
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{300*OVERSAMPLENR, 150},
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{351*OVERSAMPLENR, 140},
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{470*OVERSAMPLENR, 120},
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{504*OVERSAMPLENR, 115},
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{538*OVERSAMPLENR, 110},
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{552*OVERSAMPLENR, 108},
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{566*OVERSAMPLENR, 106},
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{580*OVERSAMPLENR, 104},
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{594*OVERSAMPLENR, 102},
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{608*OVERSAMPLENR, 100},
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{622*OVERSAMPLENR, 98},
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{636*OVERSAMPLENR, 96},
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{650*OVERSAMPLENR, 94},
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{664*OVERSAMPLENR, 92},
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{678*OVERSAMPLENR, 90},
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{712*OVERSAMPLENR, 85},
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{745*OVERSAMPLENR, 80},
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{758*OVERSAMPLENR, 78},
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{770*OVERSAMPLENR, 76},
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{783*OVERSAMPLENR, 74},
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{795*OVERSAMPLENR, 72},
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{806*OVERSAMPLENR, 70},
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{818*OVERSAMPLENR, 68},
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{829*OVERSAMPLENR, 66},
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{840*OVERSAMPLENR, 64},
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{850*OVERSAMPLENR, 62},
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{860*OVERSAMPLENR, 60},
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{870*OVERSAMPLENR, 58},
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{879*OVERSAMPLENR, 56},
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{888*OVERSAMPLENR, 54},
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{897*OVERSAMPLENR, 52},
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{905*OVERSAMPLENR, 50},
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{924*OVERSAMPLENR, 45},
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{940*OVERSAMPLENR, 40},
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{955*OVERSAMPLENR, 35},
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{967*OVERSAMPLENR, 30},
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{970*OVERSAMPLENR, 29},
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{972*OVERSAMPLENR, 28},
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{974*OVERSAMPLENR, 27},
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{976*OVERSAMPLENR, 26},
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{978*OVERSAMPLENR, 25},
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{980*OVERSAMPLENR, 24},
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{982*OVERSAMPLENR, 23},
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{984*OVERSAMPLENR, 22},
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{985*OVERSAMPLENR, 21},
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{987*OVERSAMPLENR, 20},
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{995*OVERSAMPLENR, 15},
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{1001*OVERSAMPLENR, 10},
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{1006*OVERSAMPLENR, 5},
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{1010*OVERSAMPLENR, 0},
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};
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#endif
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#if (THERMISTORHEATER_0 == 8) || (THERMISTORHEATER_1 == 8) || (THERMISTORHEATER_2 == 8) || (THERMISTORBED == 8)
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// 100k 0603 SMD Vishay NTCS0603E3104FXT (4.7k pullup)
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const short temptable_8[][2] PROGMEM = {
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@ -18,6 +18,8 @@ int plaPreheatFanSpeed;
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int absPreheatHotendTemp;
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int absPreheatHPBTemp;
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int absPreheatFanSpeed;
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static float manual_feedrate[] = MANUAL_FEEDRATE;
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/* !Configuration settings */
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//Function pointer to menu functions.
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@ -377,9 +379,9 @@ static void lcd_move_x()
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encoderPosition = 0;
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#ifdef DELTA
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calculate_delta(current_position);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], 600, active_extruder);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], manual_feedrate[X_AXIS]/60, active_extruder);
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#else
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], 600, active_extruder);
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], manual_feedrate[X_AXIS]/60, active_extruder);
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#endif
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lcdDrawUpdate = 1;
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}
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@ -406,9 +408,9 @@ static void lcd_move_y()
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encoderPosition = 0;
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#ifdef DELTA
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calculate_delta(current_position);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], 600, active_extruder);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], manual_feedrate[Y_AXIS]/60, active_extruder);
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#else
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], 600, active_extruder);
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], manual_feedrate[Y_AXIS]/60, active_extruder);
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#endif
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lcdDrawUpdate = 1;
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}
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@ -435,9 +437,9 @@ static void lcd_move_z()
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encoderPosition = 0;
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#ifdef DELTA
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calculate_delta(current_position);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], homing_feedrate[Z_AXIS]/60, active_extruder);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], manual_feedrate[Z_AXIS]/60, active_extruder);
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#else
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], homing_feedrate[Z_AXIS]/60, active_extruder);
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], manual_feedrate[Z_AXIS]/60, active_extruder);
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#endif
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lcdDrawUpdate = 1;
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}
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@ -460,9 +462,9 @@ static void lcd_move_e()
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encoderPosition = 0;
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#ifdef DELTA
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calculate_delta(current_position);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], 20, active_extruder);
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plan_buffer_line(delta[X_AXIS], delta[Y_AXIS], delta[Z_AXIS], current_position[E_AXIS], manual_feedrate[E_AXIS]/60, active_extruder);
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#else
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], 20, active_extruder);
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plan_buffer_line(current_position[X_AXIS], current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS], manual_feedrate[E_AXIS]/60, active_extruder);
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#endif
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lcdDrawUpdate = 1;
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}
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