/* This file is part of SBC Case Builder https://github.com/hominoids/SBC_Case_Builder Copyright 2022,2023,2024 Edward A. Kisiel hominoid@cablemi.com This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see Code released under GPLv3: http://www.gnu.org/licenses/gpl.html adafruit_2030_powerboost(mask) adafruit_4311_lcd(mask) adafruit_4755_solar_charger(mask) */ /* NAME: adafruit_2030_powerboost DESCRIPTION: adafruit 2030 Powerboost 1000 Basic TODO: none USAGE: adafruit_2030_powerboost(mask[]) mask[0] = true enables mask mask[1] = mask length mask[2] = mask setback mask[3] = mstyle "default" */ module adafruit_2030_powerboost(mask) { size_x = 29.21; size_y = 22.86; size_z = 1.6; lcd_size = [34.75,48,2]; corner_radius = 2; hole_size = 2.54; enablemask = mask[0]; mlen = mask[1]; back = mask[2]; mstyle = mask[3]; adj = .01; $fn = 90; if(enablemask == true && mstyle == "default") { jst("ph",0,8.5,0,"top",90,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); usb2("single_horizontal_a",23,4.5,0,"top",270,[0,13,0],[0], size_z, enablemask, [true,12,7,"default"]); } if(enablemask == false) { difference() { color("#252525") slab([size_x, size_y, size_z], corner_radius); color("#252525") translate([hole_size, size_y-hole_size, -adj]) cylinder(d=hole_size,h=6); color("#252525") translate([hole_size, hole_size, -adj]) cylinder(d=hole_size, h=4); for(i=[6:2.54:20]) { color("#fee5a6",1) translate([i, 21.5, -adj]) cylinder(d=.8, h=6); } } pcbpad("round", 6, 21.5, 0, "top", 0, [6, 1, 0], [.8, "#fee5a6", 1.2], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", hole_size, size_y-hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", hole_size, hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); ic("generic", 12.5, 11, 0, "top", 0, [9, 9, 2], ["dimgrey"], size_z, enablemask, [false, 20, 0, "default"]); ic("generic", 13.5, 5, 0, "top", 0, [4, 4, .8], ["dimgrey"], size_z, enablemask, [false, 20, 0, "default"]); jst("ph",0,8.5,0,"top",90,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); usb2("single_horizontal_a",23,4.5,0,"top",270,[0,13,0],[0], size_z, enablemask, [true,10,2,"default"]); } } /* NAME: adafruit_lcd DESCRIPTION: adafruit 4311 2in TFT IPS Display model TODO: none USAGE: adafruit_4311_lcd(mask[]) mask[0] = true enables mask mask[1] = mask length mask[2] = mask setback mask[3] = mstyle "default" */ module adafruit_4311_lcd(mask) { size_x = 35.5; size_y = 59; size_z = 1.6; size_xm = size_x+1; size_ym = size_y+1; lcd_size = [34.75,48,2]; corner_radius = 2; hole_size = 2.5; enablemask = mask[0]; mlen = mask[1]; back = mask[2]; mstyle = mask[3]; adj = .01; $fn = 90; if(enablemask == true && mstyle == "default") { translate([2.25, 11, size_z+2.5-back]) cube([lcd_size[0]-4, lcd_size[1]-7, mlen]); storage("microsdcard", 11, 44, 0, "bottom", 180, [size_x, size_z, size_y], [0], size_z, enablemask, [true, 20, 0, "default"]); fpc("fh19", .5, 22, 0, "bottom", 270, [18,0,0], ["smt","side","white","black"], size_z, enablemask, [true,10,2,"default"]); } if(enablemask == false) { difference() { union() { color("#252525") slab([size_x, size_y, size_z], corner_radius); color("black",1) translate([0.375, 5.75, size_z-adj]) cube([lcd_size[0], lcd_size[1], 2.5]); color("#353535",1) translate([.375, 9.25, size_z+2.5-adj]) cube([lcd_size[0], lcd_size[1]-4, .1]); color("dimgrey",1) translate([2.25, 11, size_z+2.5-adj]) cube([lcd_size[0]-4, lcd_size[1]-7, .2]); } color("#252525") translate([hole_size, size_y-hole_size, -adj]) cylinder(d=hole_size,h=6); color("#252525") translate([size_x-hole_size, size_y-hole_size, -adj]) cylinder(d=hole_size, h=4); for(i=[5:2.54:31]) { color("#fee5a6",1) translate([i, 2.5, -adj]) cylinder(d=.8, h=6); } } storage("microsdcard", 11, 44, 0, "bottom", 180, [size_x, size_z, size_y], [0], size_z, enablemask, [true, 20, 0, "default"]); ic("generic", 13.25, 9, 0, "bottom", 0, [4, 10, 1.75], ["dimgrey"], size_z, enablemask, [false, 20, 0, "default"]); fpc("fh19", .5, 22, 0, "bottom", 270, [18,0,0], ["smt","side","white","black"], size_z, enablemask, [true,10,2,"default"]); for(i=[5:2.54:31]) { pcbpad("round", i, 2.5, 0, "top", 0, [1, 1, 0], [.8, "#fee5a6", 1.2], size_z, enablemask, [false, 20, 0, "default"]); } pcbpad("round", hole_size, size_y-hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", size_x-hole_size, size_y-hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); } } /* NAME: adafruit_4755_solar_charger DESCRIPTION: adafruit 4755 Universal USB/DC/Solar Lithium Ion/Polymer charger - bq24074 TODO: none USAGE: adafruit_4755_solar_charger(mask[]) mask[0] = true enables mask mask[1] = mask length mask[2] = mask setback mask[3] = mstyle "default" */ module adafruit_4755_solar_charger(mask) { size_x = 38.1; size_y = 33.02; size_z = 1.6; lcd_size = [34.75,48,2]; corner_radius = 2; hole_size = 2.54; enablemask = mask[0]; mlen = mask[1]; back = mask[2]; mstyle = mask[3]; adj = .01; $fn = 90; if(enablemask == true && mstyle == "default") { jst("ph",33.5,8,0,"top",270,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); jst("ph",33.5,19,0,"top",270,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); usbc("single_horizontal",-1,5.5,0,"top",90,[0,13,0],[0], size_z, enablemask, [true,10,2,"default"]); power("pj-202ah",-2,17.5,0,"top",90,[0,13,0],[0], size_z, enablemask, [true,10,2,"default"]); } if(enablemask == false) { difference() { color("#252525") slab([size_x, size_y, size_z], corner_radius); color("#252525") translate([hole_size, size_y-hole_size, -adj]) cylinder(d=hole_size,h=6); color("#252525") translate([hole_size, hole_size, -adj]) cylinder(d=hole_size, h=4); color("#252525") translate([size_x-hole_size, size_y-hole_size, -adj]) cylinder(d=hole_size,h=6); color("#252525") translate([size_x-hole_size, hole_size, -adj]) cylinder(d=hole_size, h=4); for(i=[6.5:2.54:25]) { color("#fee5a6",1) translate([i, 2.5, -adj]) cylinder(d=.8, h=6); } } pcbpad("round", 6.5, 2.5, 0, "top", 0, [11, 1, 0], [.8, "#fee5a6", 1.2], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", hole_size, size_y-hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", hole_size, hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", size_x-hole_size, size_y-hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); pcbpad("round", size_x-hole_size, hole_size, 0, "top", 0, [1, 1, 0], [hole_size, "#fee5a6", hole_size+1], size_z, enablemask, [false, 20, 0, "default"]); ic("generic", 17.5, 15, 0, "top", 0, [4, 4, .8], ["dimgrey"], size_z, enablemask, [false, 20, 0, "default"]); jst("ph",33.5,8,0,"top",270,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); jst("ph",33.5,19,0,"top",270,[2,0,0],["thruhole","side","white"], size_z, enablemask, [true,10,2,"default"]); usbc("single_horizontal",-1,5.5,0,"top",90,[0,13,0],[0], size_z, enablemask, [true,10,2,"default"]); power("pj-202ah",-2,17.5,0,"top",90,[0,13,0],[0], size_z, enablemask, [true,10,2,"default"]); } }