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@@ -360,20 +360,36 @@ int8_t xyzcal_meassure_pinda_hysterezis(int16_t min_z, int16_t max_z, uint16_t d
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}
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#endif //XYZCAL_MEASSURE_PINDA_HYSTEREZIS
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+uint8_t slow_down_z(uint16_t delay_us){
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us / 3 * 4);
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 2);
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 4);
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+ return 3;
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+}
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+
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+uint8_t speed_up_z(int16_t &z, uint8_t direction, uint16_t delay_us){
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 4);
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 2);
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us / 3 * 4);
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+ return 3;
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+}
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+
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void xyzcal_scan_pixels_32x32_Zhop(int16_t cx, int16_t cy, int16_t min_z, int16_t max_z, uint16_t delay_us, uint8_t* pixels){
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if(!pixels)
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return;
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int16_t z = _Z;
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+ int16_t z_trig;
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uint16_t line_buffer[32];
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- xyzcal_lineXYZ_to(cx, cy, z, delay_us, 0);
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+ xyzcal_lineXYZ_to(cx - 1024, cy - 1024, min_z, delay_us, 0);
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for (uint8_t r = 0; r < 32; r++){ ///< Y axis
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xyzcal_lineXYZ_to(_X, cy - 1024 + r * 64, z, delay_us, 0);
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- for (int8_t d = 0; d < 2; ++d){ ///< direction
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-
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- // xyzcal_lineXYZ_to((d & 1) ? (cx + 1024) : (cx - 1024), _Y, z, 2 * delay_us, 0);
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- // xyzcal_lineXYZ_to(_X, _Y, min_z, delay_us, 1);
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- // xyzcal_lineXYZ_to(_X, _Y, max_z, delay_us, -1);
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-
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+ for (int8_t d = 0; d < 2; ++d){ ///< direction
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xyzcal_lineXYZ_to((d & 1) ? (cx + 1024) : (cx - 1024), _Y, min_z, delay_us, 0);
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z = _Z;
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@@ -382,29 +398,47 @@ void xyzcal_scan_pixels_32x32_Zhop(int16_t cx, int16_t cy, int16_t min_z, int16_
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/// move up to un-trigger (surpress hysteresis)
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sm4_set_dir(Z_AXIS, Z_PLUS);
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+ z += speed_up_z(delay_us);
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while (z < max_z && _PINDA){
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sm4_do_step(Z_AXIS_MASK);
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delayMicroseconds(delay_us);
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z++;
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}
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int16_t last_top_z = z;
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+ z += slow_down_z(delay_us);
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/// move down to trigger
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sm4_set_dir(Z_AXIS, Z_MINUS);
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+
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+ /// speed up
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+ do (){
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+ if (z <= min_z || _PINDA) break;
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 4);
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+ if (z <= min_z || _PINDA) break;
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us * 2);
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+ if (z <= min_z || _PINDA) break;
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+ sm4_do_step(Z_AXIS_MASK);
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+ delayMicroseconds(delay_us / 3 * 4);
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+ } while (0);
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+
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while (z > min_z && !_PINDA){
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sm4_do_step(Z_AXIS_MASK);
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delayMicroseconds(delay_us);
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z--;
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}
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-
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+ z_trig = z;
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+ z -= slow_down_z(delay_us);
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+
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count_position[2] = z;
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if (d == 0){
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- line_buffer[c] = (uint16_t)(z - min_z);
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+ line_buffer[c] = (uint16_t)(z_trig - min_z);
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} else {
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/// data reversed in X
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// DBG(_n("%04x"), (line_buffer[31 - c] + (z - min_z)) / 2);
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/// save average of both directions
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- pixels[(uint16_t)r * 32 + (31 - c)] = (uint8_t)MIN((uint32_t)255, ((uint32_t)line_buffer[31 - c] + (z - min_z)) / 2);
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+ pixels[(uint16_t)r * 32 + (31 - c)] = (uint8_t)MIN((uint32_t)255, ((uint32_t)line_buffer[31 - c] + (z_trig - min_z)) / 2);
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}
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/// move to the next point
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espr14