/* * Copyright © 2012 Keith Packard * * 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; version 2 of the License. * * This program is distributed in the hope that it will be useful, 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, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. */ load "footprint.5c" import Footprint; Footprint::process_soldermask = 0.05; real package_pad_width = 0.30; real pad_outside = 0.4; real pad_width = package_pad_width + pad_outside; real corner_pad_width = pad_width; real pad_height = 0.20; /* Required clearance between corner pads on the diagonal */ real corner_diag_clearance = 0.21; /* horizontal/vertical size of corner cut out */ #real corner_pad_notch = corner_diag_clearance / sqrt(2); real corner_pad_notch = 0.05; real corner_pad_minimum_height = pad_height - corner_pad_notch; real corner_pad_minimum_width = corner_pad_width - corner_pad_notch; real pad_spacing = 0.40; real package_width = 3; real package_height = 3; /* outer location of pad */ real pad_x_off = (package_width/2 + pad_outside); real pad_y_off = (package_height/2 + pad_outside); real num_pad = 6; /* per side */ element_start("ufqfpn-24"); real pad_off(int n) { return pad_spacing * (n - (num_pad - 1) / 2); } real corner(int dx, int dy) { real x = dx * package_width / 2; real y = dy * package_height / 2; real len = 0.4; line(x, y, x - dx * len, y); line(x, y, x, y - dy * len); } /* corner(-1, -1); corner(1, -1); corner(-1, 1); corner(1, 1); */ real dot_off = .3; line(-package_width/2 - dot_off, -package_height/2 - dot_off, -package_width/2 - dot_off, -package_height/2 - dot_off); /* rect(-package_width/2, -package_width/2, package_width, package_width); */ for (int pad = 0; pad < num_pad; pad++) { real pw = pad_width; real ph = pad_height; real pwa = 0; real pha = 0; int nstep = 0; if (pad == 0 || pad == num_pad-1) nstep = 3; for (int s = 0; s <= nstep; s++) { real pad_x, pad_y, pad_w, pad_h; if (nstep != 0) { real ratio_a = s / nstep; real ratio_b = 1 - ratio_a; pad_x = 0; if (pad == 0) { pad_y = -pad_height / 2 * ratio_b + ((-pad_height / 2) + corner_pad_notch) * ratio_a; } else { pad_y = -pad_height / 2; } pad_w = corner_pad_minimum_width * ratio_b + corner_pad_width * ratio_a; pad_h = pad_height * ratio_b + corner_pad_minimum_height * ratio_a; /* Make sure we don't violate the process minimums */ if (pad_h < process_trace) pad_h = process_trace; } else { pad_x = 0; pad_y = -pad_height / 2; pad_w = pad_width; pad_h = pad_height; } /* left (1-6) */ pad_mm(-pad_x_off + pad_x + pad_w / 2, pad_off(pad) + pad_y + pad_h / 2, pad_w, pad_h, sprintf("%d", pad + 1), sprintf("%d", pad + 1)); /* bottom (7-12) */ pad_mm(pad_off(pad) + pad_y + pad_h / 2, pad_y_off + pad_x - pad_w / 2, pad_h, pad_w, sprintf("%d", pad + num_pad + 1), sprintf("%d", pad + num_pad + 1)); /* right side (13-18) */ pad_mm(pad_x_off - pad_x - pad_w / 2, -pad_off(pad) - pad_y - pad_h / 2, pad_w, pad_h, sprintf("%d", pad + num_pad * 2 + 1), sprintf("%d", pad + num_pad * 2 + 1)); /* top (19-24) */ pad_mm(-pad_off(pad) - pad_y - pad_h / 2, -pad_y_off - pad_x + pad_w / 2, pad_h, pad_w, sprintf("%d", pad + num_pad * 3 + 1), sprintf("%d", pad + num_pad * 3 + 1)); } } element_end();