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0.3mm round THT pads Laser Gaming Sensor ADNS-9800 Fiberoptic Transmitter TX, HFBR series (https://docs.broadcom.com/docs/AV02-3283EN Fiberoptic Receiver RX, HFBR series (https://docs.broadcom.com/docs/AV02-3283EN Fiberoptic Receiver RX, HFBR series (https://docs.broadcom.com/docs/AV02-3283EN TSL2550 ambient light sensor, https://www.kingbright.com/attachments/file/psearch/000/00/00/KPS-3227SP1C(Ver.16).pdf KPS-3227 Ambient Light Photo Sensor KPS-5130 photodiode RGB sensor Subminiature Reflective Optical Sensor, http://www.kingbright.com/attachments/file/psearch/000/00/00/KRC011(Ver.15).pdf Subminiature Reflective Optical Sensor, http://www.kingbright.com/attachments/file/psearch/000/00/00/KRC011(Ver.15).pdf Subminiature Reflective Optical Sensor Photointerrupter infrared LED with right dot One digit 7 segment green LED, http://www.kingbrightusa.com/images/catalog/SPEC/CA56-12SRWA.pdf 4 digit 7 segment high efficiency red One digit 7 segment green LED with right dot One digit 7 segment LCD 3 1/5 digit reflective arrow bat + 7 + 8); // pot + led + switch? Col_right = width_mm - 10 - center_adjust; center_col = width_mm/2; //mm third_col = 60.7-center_adjust; //mm cv_in = [first_col, third_row, 0]; //Fourth row interface placement f_tune = [h_margin+working_width/8, row_2, 0]; pwm_in = [width_mm - h_margin - working_width/8, row_3, 0]; pwm_duty = [width_mm - h_margin - working_width/8, row_3, 0]; pwm_duty = [width_mm - h_margin - working_width/8, row_2, 0]; triangle_out = [third_col, fifth_row, 0]; pwm_duty = [second_col, fifth_row, 0]; square_out = [third_col, third_row, 0]; fm_in = [input_column + h_margin/2, bottom_row, 0]; pwm_pot = [input_column - h_margin/2, row_1, 0]; fm_in = [first_col, first_row, 0]; c_tune = [width_mm/2 + h_margin, top_row, 0]; f_tune = [width_mm/2 + h_margin, top_row, 0]; left_rib_x = thickness * 2; right_rib_x = width_mm - right_rib_thickness; Schematics/Dual_VCA.diy Normal file Unescape working_height = height - v_margin*2 - title_font_size; Experimenting with more panel layout ideas out_row_1 = v_margin+12; out_row_2 = working_increment*1 + row_1; row_5 = row_4 + vertical_space/7; cv_in_1a = [left_col, row_5, 0]; audio_out_1 = [right_col, row_5, 0]; cv_in_2a = [left_col, row_7, 0]; cv_in_1b = [right_col, row_5, 0]; cv_in_2a = [left_col, row_5, 0]; cv_in_2a = [left_col, row_2, 0]; pwm_in = [width_mm - h_margin - working_width/8, row_2, 0]; fm_in = [input_column + h_margin/2, bottom_row, 0]; pwm_duty = [width_mm - h_margin - working_width/8, row_4, 0]; pwm_cv_lvl = [width_mm - h_margin - working_width/8, row_2, 0]; audio_in_2 = [left_col, row_2, 0]; audio_in_2 = [left_col, row_5, 0]; cv_in_2a = [left_col, row_1, 0]; square_out = [third_col, fifth_row, 0]; //left_rib_x = thickness * 1.2; right_rib_x = width_mm - hole_dist_side, height - rail_clearance - thickness*2 - 16.5/2; // 16.5 is the diameter of.

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