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User (36 B.SilkS user (37 F.SilkS user hide (35 F.Paste user (36 B.SilkS user (37 F.SilkS user (38 B.Mask user (39 F.Mask user (40 "Dwgs.User" user "User.Drawings" (41 "Cmts.User" user "User.Comments" (42 "Eco1.User" user "User.Eco1" 43 "Eco2.User" user "User.Eco2" (44 "Edge.Cuts" user (45 "Margin" user (46 "B.CrtYd" user "B.Courtyard" 47 "F.CrtYd" user "F.Courtyard" (48 "B.Fab" user (49 F.Fab user (aux_axis_origin 0 200 update=Sam 27 Jän 2018 23:01:05 CET EESchema Schematic File Version 4 Samba Reggae 1 is probably the most common samba reggae rhythm; it's a simple implementation. Can be done, but requires a lot of variations main MK_VCO/Panels/luther_triangle_vco.scad 274 lines HP = 5.08; //If you want a D-shaped shafthole cross-section. 0 to keep it round. [mm] // Number of faces on the bottom //another rib to balance the switches along the LEDs //outline of whole PCB? // cube([137.5, 97, 1], center=true); echo("Putting a hole with radius: ", hole_r , " at ", width_mm - h_margin; input_column = h_margin; bottom_row = v_margin + 12; row_2 = row_1 + vertical_space/7; row_7 = row_6 + vertical_space/7; row_4 = row_3 + vertical_space/7; cv_in_1a = [left_col, row_5, 0]; cv_in_2a = [left_col, row_6, 0]; cv_1b_atten = [right_col, row_7, 0]; audio_out_1 = [right_col, row_1, 0]; fm_pot = [input_column - h_margin/2, bottom_row, 0]; pwm_duty = [second_col, third_row, 0]; fm_lvl = [h_margin+working_width/8, row_3, 0]; cv_in_2b = [right_col, row_3, 0]; cv_in_2b = [right_col, row_5, 0]; audio_out_1 = [right_col, row_7, 0]; manual_1 = [left_col, row_5, 0]; audio_out_1 = [right_col, row_6, 0]; audio_in_1 = [left_col, row_1, 0]; fm_in = [first_col, fourth_row, 0]; pwm_in = [width_mm - h_margin - working_width/8, row_2, 0]; triangle_out = [third_col, third_row, 0]; saw_out = [third_col, fifth_row, 0]; square_out = [output_column, row_2, 0]; cv_2b_atten = [right_col, row_6, 0]; audio_in_1 = [left_col, row_2, 0]; audio_in_2 = [left_col, row_6, 0]; audio_in_1 = [left_col, row_2, 0]; triangle_out = [third_col, third_row, 0]; saw_out = [output_column, bottom_row, 0]; cv_in = [first_col, third_row, 0]; saw_out = [output_column, bottom_row, 0]; cv_in = [input_column, bottom_row, 0]; cv_in = [first_col, fifth_row, 0]; pwm_duty = [input_column, bottom_row, 0]; c_tune = [second_col, third_row, 0]; saw_out = [third_col, third_row, 0]; fm_lvl = [h_margin+working_width/8, row_2, 0]; audio_in_2 = [left_col, row_2, 0]; triangle_out = [third_col, third_row, 0]; saw_out = [third_col, fifth_row, 0]; pwm_duty = [input_column, row_2, 0]; audio_in_2 = [left_col, row_3, 0]; c_tune = [width_mm/2 - h_margin, top_row, 0]; left_rib_x = thickness * 2; right_rib_x = width_mm - h_margin; cv_in = [first_col, fourth_row, 0]; //Fifth row interface placement sync_in = [first_col, first_row, 0]; c_tune = [width_mm/2 + h_margin, top_row, 0]; left_rib_x = hole_dist_side + thickness; right_rib_x = width_mm - hole_dist_side .

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