# # hello.LCD.44.cad # # 16x2 LCD hello-world # # Neil Gershenfeld # 11/11/10 # # (c) Massachusetts Institute of Technology 2010 # Permission granted for experimental and personal use; # license for commercial sale available from MIT. # # # uncomment for desired output: # output = "traces, labels, and exterior" #output = "traces and exterior" #output = "interior" #output = "exterior" #output = "traces" #output = "holes" #output = "solder mask" # # define shapes and transformations # # color(color,part) # circle(x0, y0, r) # cylinder(x0, y0, z0, z1, r) # cone(x0, y0, z0, z1, r0) # sphere(x0, y0, z0, r) # torus(x0, y0, z0, r0, r1) # rectangle(x0, x1, y0, y1) # cube(x0, x1, y0, y1, z0, z1) # right_triangle(x0, y0, h) # triangle(x0, y0, x1, y1, x2, y2) (points in clockwise order) # pyramid(x0, x1, y0, y1, z0, z1) # function(Z_of_XY) # functions(upper_Z_of_XY,lower_Z_of_XY) # add(part1, part2) # subtract(part1, part2) # intersect(part1, part2) # move(part,dx,dy) # translate(part,dx,dy,dz) # rotate(part, angle) # rotate_x(part, angle) # rotate_y(part, angle) # rotate_z(part, angle) # rotate_90(part) # rotate_180(part) # rotate_270(part) # reflect_x(part,x0) # reflect_y(part,y0) # reflect_z(part,z0) # reflect_xy(part) # reflect_xz(part) # reflect_yz(part) # scale_x(part, x0, sx) # scale_y(part, y0, sy) # scale_z(part, z0, sz) # scale_xy(part, x0, y0, sxy) # scale_xyz(part, x0, y0, z0, sxyz) # coscale_x_y(part, x0, y0, y1, angle0, angle1, amplitude, offset) # coscale_x_z(part, x0, z0, z1, angle0, angle1, amplitude, offset) # coscale_xy_z(part, x0, y0, z0, z1, angle0, angle1, amplitude, offset) # taper_x_y(part, x0, y0, y1, s0, s1) # taper_x_z(part, x0, z0, z1, s0, s1) # taper_xy_z(part, x0, y0, z0, z1, s0, s1) # shear_x_y(part, y0, y1, dx0, dx1) # shear_x_z(part, z0, z1, dx0, dx1) True = "1" False = "0" def color(color, part): part = '('+str(color)+'*(('+part+')!=0))' return part Red = (225 << 0) Green = (225 << 8) Blue = (225 << 16) Gray = (128 << 16) + (128 << 8) + (128 << 0) White = (255 << 16) + (255 << 8) + (255 << 0) Teal = (255 << 16) + (255 << 8) Pink = (255 << 16) + (255 << 0) Yellow = (255 << 8) + (255 << 0) Brown = (45 << 16) + (82 << 8) + (145 << 0) Navy = (128 << 16) + (0 << 8) + (0 << 0) Tan = (60 << 16) + (90 << 8) + (125 << 0) def circle(x0, y0, r): part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))) <= (r*r))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'r',str(r)) return part def cylinder(x0, y0, z0, z1, r): part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0)) <= (r*r)) & (Z >= (z0)) & (Z <= (z1)))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'r',str(r)) return part def cone(x0, y0, z0, z1, r0): part = cylinder(x0, y0, z0, z1, r0) part = taper_xy_z(part, x0, y0, z0, z1, 1.0, 0.0) return part def sphere(x0, y0, z0, r): part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0)) + (Z-(z0))*(Z-(z0))) <= (r*r))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'r',str(r)) return part def torus(x0, y0, z0, r0, r1): part = "(((r0 - sqrt((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))))*(r0 - sqrt((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))) + (Z-(z0))*(Z-(z0))) <= (r1*r1))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'r0',str(r0)) part = replace(part,'r1',str(r1)) return part def rectangle(x0, x1, y0, y1): part = "((X >= (x0)) & (X <= (x1)) & (Y >= (y0)) & (Y <= (y1)))" part = replace(part,'x0',str(x0)) part = replace(part,'x1',str(x1)) part = replace(part,'y0',str(y0)) part = replace(part,'y1',str(y1)) return part def cube(x0, x1, y0, y1, z0, z1): part = "((X >= (x0)) & (X <= (x1)) & (Y >= (y0)) & (Y <= (y1)) & (Z >= (z0)) & (Z <= (z1)))" part = replace(part,'x0',str(x0)) part = replace(part,'x1',str(x1)) part = replace(part,'y0',str(y0)) part = replace(part,'y1',str(y1)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) return part def right_triangle(x0, y0, l): part = "((X > x0) & (X < x0 + l - (Y-y0)) & (Y > y0))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'l',str(l)) return part def triangle(x0, y0, x1, y1, x2, y2): # points in clockwise order part = "(((((y1)-(y0))*(X-(x0))-((x1)-(x0))*(Y-(y0))) >= 0) & ((((y2)-(y1))*(X-(x1))-((x2)-(x1))*(Y-(y1))) >= 0) & ((((y0)-(y2))*(X-(x2))-((x0)-(x2))*(Y-(y2))) >= 0))" part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'x1',str(x1)) part = replace(part,'y1',str(y1)) part = replace(part,'x2',str(x2)) part = replace(part,'y2',str(y2)) return part def pyramid(x0, x1, y0, y1, z0, z1): part = cube(x0, x1, y0, y1, z0, z1) part = taper_xy_z(part, (x0+x1)/2., (y0+y1)/2., z0, z1, 1.0, 0.0) return part def function(Z_of_XY): part = '(Z <= '+Z_of_XY+')' return part def functions(upper_Z_of_XY,lower_Z_of_XY): part = '(Z <= '+upper_Z_of_XY+') & (Z >= '+lower_Z_of_XY+')' return part def add(part1, part2): part = "part1 | part2" part = replace(part,'part1',part1) part = replace(part,'part2',part2) return part def subtract(part1, part2): part = "(part1) & ~(part2)" part = replace(part,'part1',part1) part = replace(part,'part2',part2) return part def intersect(part1, part2): part = "(part1) & (part2)" part = replace(part,'part1',part1) part = replace(part,'part2',part2) return part def move(part,dx,dy): part = replace(part,'X','(X-('+str(dx)+'))') part = replace(part,'Y','(Y-('+str(dy)+'))') return part def translate(part,dx,dy,dz): part = replace(part,'X','(X-('+str(dx)+'))') part = replace(part,'Y','(Y-('+str(dy)+'))') part = replace(part,'Z','(Z-('+str(dz)+'))') return part def rotate(part, angle): angle = angle*pi/180 part = replace(part,'X','(cos(angle)*X+sin(angle)*y)') part = replace(part,'Y','(-sin(angle)*X+cos(angle)*y)') part = replace(part,'y','Y') part = replace(part,'angle',str(angle)) return part def rotate_x(part, angle): angle = angle*pi/180 part = replace(part,'Y','(cos(angle)*Y+sin(angle)*z)') part = replace(part,'Z','(-sin(angle)*Y+cos(angle)*z)') part = replace(part,'z','Z') part = replace(part,'angle',str(angle)) return part def rotate_y(part, angle): angle = angle*pi/180 part = replace(part,'X','(cos(angle)*X+sin(angle)*z)') part = replace(part,'Z','(-sin(angle)*X+cos(angle)*z)') part = replace(part,'z','Z') part = replace(part,'angle',str(angle)) return part def rotate_z(part, angle): angle = angle*pi/180 part = replace(part,'X','(cos(angle)*X+sin(angle)*y)') part = replace(part,'Y','(-sin(angle)*X+cos(angle)*y)') part = replace(part,'y','Y') part = replace(part,'angle',str(angle)) return part def rotate_90(part): part = reflect_y(part,0) part = reflect_xy(part) return part def rotate_180(part): part = rotate_90(part) part = rotate_90(part) return part def rotate_270(part): part = rotate_90(part) part = rotate_90(part) part = rotate_90(part) return part def reflect_x(part,x0): part = replace(part,'X','(x0-X)') part = replace(part,'x0',str(x0)) return part def reflect_y(part,y0): part = replace(part,'Y','(y0-Y)') part = replace(part,'y0',str(y0)) return part def reflect_z(part,z0): part = replace(part,'Z','(z0-Z)') part = replace(part,'z0',str(z0)) return part def reflect_xy(part): part = replace(part,'X','temp') part = replace(part,'Y','X') part = replace(part,'temp','Y') return part def reflect_xz(part): part = replace(part,'X','temp') part = replace(part,'Z','X') part = replace(part,'temp','Z') return part def reflect_yz(part): part = replace(part,'Y','temp') part = replace(part,'Z','Y') part = replace(part,'temp','Z') return part def scale_x(part, x0, sx): part = replace(part,'X','((x0) + (X-(x0))/(sx))') part = replace(part,'x0',str(x0)) part = replace(part,'sx',str(sx)) return part def scale_y(part, y0, sy): part = replace(part,'Y','((y0) + (Y-(y0))/(sy))') part = replace(part,'y0',str(y0)) part = replace(part,'sy',str(sy)) return part def scale_z(part, z0, sz): part = replace(part,'Z','((z0) + (Z-(z0))/(sz))') part = replace(part,'z0',str(z0)) part = replace(part,'sz',str(sz)) return part def scale_xy(part, x0, y0, sxy): part = replace(part,'X','((x0) + (X-(x0))/(sxy))') part = replace(part,'Y','((y0) + (Y-(y0))/(sxy))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'sxy',str(sxy)) return part def scale_xyz(part, x0, y0, z0, sxyz): part = replace(part,'X','((x0) + (X-(x0))/(sxyz))') part = replace(part,'Y','((y0) + (Y-(y0))/(sxyz))') part = replace(part,'Z','((z0) + (Z-(z0))/(sxyz))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'sxyz',str(sxyz)) return part def coscale_x_y(part, x0, y0, y1, angle0, angle1, amplitude, offset): phase0 = pi*angle0/180. phase1 = pi*angle1/180. part = replace(part,'X','((x0) + (X-(x0))/((offset) + (amplitude)*cos((phase0) + ((phase1)-(phase0))*(Y-(y0))/((y1)-(y0)))))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'y1',str(y1)) part = replace(part,'phase0',str(phase0)) part = replace(part,'phase1',str(phase1)) part = replace(part,'amplitude',str(amplitude)) part = replace(part,'offset',str(offset)) return part def coscale_x_z(part, x0, z0, z1, angle0, angle1, amplitude, offset): phase0 = pi*angle0/180. phase1 = pi*angle1/180. part = replace(part,'X','((x0) + (X-(x0))/((offset) + (amplitude)*cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))') part = replace(part,'x0',str(x0)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'phase0',str(phase0)) part = replace(part,'phase1',str(phase1)) part = replace(part,'amplitude',str(amplitude)) part = replace(part,'offset',str(offset)) return part def coscale_xy_z(part, x0, y0, z0, z1, angle0, angle1, amplitude, offset): phase0 = pi*angle0/180. phase1 = pi*angle1/180. part = replace(part,'X','((x0) + (X-(x0))/((offset) + (amplitude)*cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))') part = replace(part,'Y','((y0) + (Y-(y0))/((offset) + (amplitude)*cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'phase0',str(phase0)) part = replace(part,'phase1',str(phase1)) part = replace(part,'amplitude',str(amplitude)) part = replace(part,'offset',str(offset)) return part def taper_x_y(part, x0, y0, y1, s0, s1): part = replace(part,'X','((x0) + (X-(x0))*((y1)-(y0))/((s1)*(Y-(y0)) + (s0)*((y1)-Y)))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'y1',str(y1)) part = replace(part,'s0',str(s0)) part = replace(part,'s1',str(s1)) return part def taper_x_z(part, x0, z0, z1, s0, s1): part = replace(part,'X','((x0) + (X-(x0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))') part = replace(part,'x0',str(x0)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'s0',str(s0)) part = replace(part,'s1',str(s1)) return part def taper_xy_z(part, x0, y0, z0, z1, s0, s1): part = replace(part,'X','((x0) + (X-(x0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))') part = replace(part,'Y','((y0) + (Y-(y0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))') part = replace(part,'x0',str(x0)) part = replace(part,'y0',str(y0)) part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'s0',str(s0)) part = replace(part,'s1',str(s1)) return part def shear_x_y(part, y0, y1, dx0, dx1): part = replace(part,'X','(X - (dx0) - ((dx1)-(dx0))*(Y-(y0))/((y1)-(y0)))') part = replace(part,'y0',str(y0)) part = replace(part,'y1',str(y1)) part = replace(part,'dx0',str(dx0)) part = replace(part,'dx1',str(dx1)) return part def shear_x_z(part, z0, z1, dx0, dx1): part = replace(part,'X','(X - (dx0) - ((dx1)-(dx0))*(Z-(z0))/((z1)-(z0)))') part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'dx0',str(dx0)) part = replace(part,'dx1',str(dx1)) return part def coshear_x_z(part, z0, z1, angle0, angle1, amplitude, offset): phase0 = pi*angle0/180. phase1 = pi*angle1/180. part = replace(part,'X','(X - (offset) - (amplitude)*cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0))))') part = replace(part,'z0',str(z0)) part = replace(part,'z1',str(z1)) part = replace(part,'phase0',str(phase0)) part = replace(part,'phase1',str(phase1)) part = replace(part,'amplitude',str(amplitude)) part = replace(part,'offset',str(offset)) return part # # text classes and definitions # class text: # # text class # def __init__(self,text,x,y,z,line='',height='',width='',space='',align='CC',color=White,angle=0): # # parameters # if (line == ''): line = 1 if (height == ''): height = 6*line if (width == ''): width = 4*line if (space == ''): space = line/2.0 self.width = 0 self.height = 0 self.text = text # # construct shape dictionary # shapes = {} shape = triangle(0,0,width/2.0,height,width,0) cutout = triangle(0,-2.5*line,width/2.0,height-2.5*line,width,-2.5*line) cutout = subtract(cutout,rectangle(0,width,height/4-line/2,height/4+line/2)) shape = subtract(shape,cutout) shapes['A'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/4)) shape = add(shape,rectangle(width-line,width,0,height/3)) shapes['a'] = shape shape = rectangle(0,width-height/4,0,height) shape = add(shape,circle(width-height/4,height/4,height/4)) shape = add(shape,circle(width-height/4,3*height/4,height/4)) w = height/2-1.5*line shape = subtract(shape,rectangle(line,line+w/1.5,height/2+line/2,height-line)) shape = subtract(shape,circle(line+w/1.5,height/2+line/2+w/2,w/2)) shape = subtract(shape,rectangle(line,line+w/1.5,line,height/2-line/2)) shape = subtract(shape,circle(line+w/1.5,height/2-line/2-w/2,w/2)) shapes['B'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/4)) shape = add(shape,rectangle(0,line,0,height)) shapes['b'] = shape shape = circle(width/2,width/2,width/2) shape = add(shape,circle(width/2,height-width/2,width/2)) shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2)) w = width-2*line shape = subtract(shape,circle(width/2,line+w/2,w/2)) shape = subtract(shape,circle(width/2,height-line-w/2,w/2)) shape = subtract(shape,rectangle(line,width,line+w/2,height-line-w/2)) shapes['C'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/4)) shape = subtract(shape,rectangle(width/2,width,width/2-line/1.5,width/2+line/1.5)) shapes['c'] = shape shape = circle(line,width-line,width-line) shape = subtract(shape,circle(line,width-line,width-2*line)) shape = subtract(shape,rectangle(-width,line,0,height)) shape = scale_y(shape,0,height/(2*(width-line))) shape = add(shape,rectangle(0,line,0,height)) shapes['D'] = shape shape = rectangle(width-line,width,0,height) shape = add(shape,circle(width/2,width/2,width/2)) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shapes['d'] = shape shape = rectangle(0,line,0,height) shape = add(shape,rectangle(0,width,height-line,height)) shape = add(shape,rectangle(0,2*width/3,height/2-line/2,height/2+line/2)) shape = add(shape,rectangle(0,width,0,line)) shapes['E'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,triangle(width,0,width/2,width/2-line/2,width,width/2-line/2)) shape = add(shape,rectangle(0,width,width/2-line/2,width/2+line/2)) shapes['e'] = shape shape = rectangle(0,line,0,height) shape = add(shape,rectangle(0,width,height-line,height)) shape = add(shape,rectangle(0,2*width/3,height/2-line/2,height/2+line/2)) shapes['F'] = shape shape = circle(width-line/2,height-width/2,width/2) shape = subtract(shape,circle(width-line/2,height-width/2,width/2-line)) shape = subtract(shape,rectangle(0,width-line/2,0,height-width/2)) shape = subtract(shape,rectangle(width-line/2,2*width,0,height)) shape = add(shape,rectangle(width/2-line/2,width/2+line/2,0,height-width/2)) shape = add(shape,rectangle(width/5,4*width/5,height/2-line/2,height/2+line/2)) shapes['f'] = shape shape = circle(width/2,width/2,width/2) shape = add(shape,circle(width/2,height-width/2,width/2)) shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2)) w = width-2*line shape = subtract(shape,circle(width/2,line+w/2,w/2)) shape = subtract(shape,circle(width/2,height-line-w/2,w/2)) shape = subtract(shape,rectangle(line,width,line+w/2,height-line-w/2)) shape = add(shape,rectangle(width/2,width,line+w/2,2*line+w/2)) shapes['G'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) w = height/3-width/2 shape = add(shape,rectangle(width-line,width,w,width)) shape = add(shape,subtract(subtract(circle(width/2,w,width/2),circle(width/2,w,width/2-line)),rectangle(0,width,w,height))) shapes['g'] = shape shape = rectangle(0,line,0,height) shape = add(shape,rectangle(width-line,width,0,height)) shape = add(shape,rectangle(0,width,height/2-line/2,height/2+line/2)) shapes['H'] = shape w = width/2 shape = circle(width/2,w,width/2) shape = subtract(shape,circle(width/2,w,width/2-line)) shape = subtract(shape,rectangle(0,width,0,w)) shape = add(shape,rectangle(0,line,0,height)) shape = add(shape,rectangle(width-line,width,0,w)) shapes['h'] = shape shape = rectangle(width/2-line/2,width/2+line/2,0,height) shape = add(shape,rectangle(width/5,4*width/5,0,line)) shape = add(shape,rectangle(width/5,4*width/5,height-line,height)) shapes['I'] = shape shape = rectangle(width/2-line/2,width/2+line/2,0,height/2) shape = add(shape,circle(width/2,3*height/4,.6*line)) shapes['i'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width,width/2,height)) shape = add(shape,rectangle(width-line,width,width/2,height)) shapes['J'] = shape w = height/3-width/2 shape = rectangle(width/2-line/2,width/2+line/2,w,height/2) shape = add(shape,subtract(subtract(subtract(circle(width/4-line/2,w,width/2),circle(width/4-line/2,w,width/2-line)),rectangle(0,width,w,height)),rectangle(-width,width/4-line/2,-height/3,height))) shape = add(shape,circle(width/2,3*height/4,.6*line)) shapes['j'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(line,height,width-1.1*line,height,line,height/2+.5*line)) shape = subtract(shape,triangle(width,0,line+0.8*line,height/2,width,height)) shape = subtract(shape,triangle(line,0,line,height/2-.5*line,width-1.1*line,0)) shapes['K'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,rectangle(line,width,2*height/3,height)) shape = subtract(shape,triangle(line,2*height/3,width-1.3*line,2*height/3,line,height/3+.5*line)) shape = subtract(shape,triangle(width,0,line+0.8*line,height/3,width,2*height/3)) shape = subtract(shape,triangle(line,0,line,height/3-0.5*line,width-1.3*line,0)) shapes['k'] = shape shape = rectangle(0,line,0,height) shape = add(shape,rectangle(0,width,0,line)) shapes['L'] = shape shape = rectangle(width/2-line/2,width/2+line/2,0,height) shapes['l'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(line,0,line,height-3*line,width/2-line/3,0)) shape = subtract(shape,triangle(line,height,width-line,height,width/2,1.5*line)) shape = subtract(shape,triangle(width/2+line/3,0,width-line,height-3*line,width-line,0)) shapes['M'] = shape w = width/2 l = 1.3*line shape = circle(width/2,w,width/2) shape = subtract(shape,circle(width/2,w,width/2-l)) shape = subtract(shape,rectangle(0,width,0,w)) shape = add(shape,rectangle(width-l,width,0,w)) shape = add(shape,move(shape,width-l,0)) shape = add(shape,rectangle(0,l,0,width)) shape = scale_x(shape,0,width/(2*width-l)) shapes['m'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(line,height+1.5*line,width-line,height+1.5*line,width-line,1.5*line)) shape = subtract(shape,triangle(line,-1.5*line,line,height-1.5*line,width-line,-1.5*line)) shapes['N'] = shape w = width/2 shape = circle(width/2,w,width/2) shape = subtract(shape,circle(width/2,w,width/2-line)) shape = subtract(shape,rectangle(0,width,0,w)) shape = add(shape,rectangle(0,line,0,width)) shape = add(shape,rectangle(width-line,width,0,w)) shapes['n'] = shape shape = circle(width/2,width/2,width/2) shape = add(shape,circle(width/2,height-width/2,width/2)) shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2)) w = width-2*line shape = subtract(shape,circle(width/2,line+w/2,w/2)) shape = subtract(shape,circle(width/2,height-line-w/2,w/2)) shape = subtract(shape,rectangle(line,width-line,line+w/2,height-line-w/2)) shapes['O'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shapes['o'] = shape shape = rectangle(0,line,0,height) w = 2*height/3 shape = add(shape,circle(width-w/2,height-w/2,w/2)) shape = add(shape,rectangle(0,width-w/2,height-w,height)) shape = subtract(shape,circle(width-w/2,height-w/2,w/2-line)) shape = subtract(shape,rectangle(line,width-w/2,height-w+line,height-line)) shapes['P'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/4)) shape = add(shape,rectangle(0,line,-height/3,width)) shapes['p'] = shape shape = subtract(circle(width/2,width/2,width/2),circle(width/2,width/2,width/2-.9*line)) shape = scale_y(shape,0,height/width) shape = add(shape,move(rotate(rectangle(-line/2,line/2,-width/4,width/4),30),3*width/4,width/4)) shapes['Q'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = add(shape,rectangle(width-line,width,-height/3,width)) shapes['q'] = shape shape = rectangle(0,line,0,height) w = 2*height/3 shape = add(shape,circle(width-w/2,height-w/2,w/2)) shape = add(shape,rectangle(0,width-w/2,height-w,height)) shape = subtract(shape,circle(width-w/2,height-w/2,w/2-line)) shape = subtract(shape,rectangle(line,width-w/2,height-w+line,height-line)) leg = triangle(line,0,line,height,width,0) leg = subtract(leg,triangle(line,-2.0*line,line,height-2.0*line,width,-2.0*line)) leg = subtract(leg,rectangle(0,width,height/3,height)) shape = add(shape,leg) shapes['R'] = shape shape = circle(width,0,width) shape = subtract(shape,circle(width,0,width-line)) shape = subtract(shape,rectangle(.8*width,2*width,-height,height)) shape = subtract(shape,rectangle(0,2*width,-height,0)) shape = add(shape,rectangle(0,line,0,width)) shapes['r'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width/2,width/2,width)) shape = add(shape,move(reflect_y(reflect_x(shape,width),width),0,width-line)) shape = scale_y(shape,0,height/(2*width-line)) shapes['S'] = shape w = width/3 shape = circle(w,w,w) shape = subtract(shape,circle(w,w,w-.9*line)) shape = subtract(shape,rectangle(0,w,w,2*w)) shape = add(shape,move(reflect_y(reflect_x(shape,2*w),2*w),0,2*w-.9*line)) shape = scale_y(shape,0,(2*height/3)/(4*w-.9*line)) shape = move(shape,(width/2)-w,0) shapes['s'] = shape shape = rectangle(width/2-line/2,width/2+line/2,0,height) shape = add(shape,rectangle(0,width,height-line,height)) shapes['T'] = shape shape = circle(0,3*width/8,3*width/8) shape = subtract(shape,circle(0,3*width/8,3*width/8-line)) shape = subtract(shape,rectangle(-width,width,3*width/8,height)) shape = subtract(shape,rectangle(0,width,-height,height)) shape = move(shape,width/2-line/2+3*width/8,0) shape = add(shape,rectangle(width/2-line/2,width/2+line/2,width/4,3*height/4)) shape = add(shape,rectangle(width/5,4*width/5,height/2-line/2,height/2+line/2)) shapes['t'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width,width/2,height)) shape = add(shape,rectangle(0,line,width/2,height)) shape = add(shape,rectangle(width-line,width,width/2,height)) shapes['U'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width,width/2,height)) shape = add(shape,rectangle(0,line,width/2,2*height/3)) shape = add(shape,rectangle(width-line,width,0,2*height/3)) shapes['u'] = shape shape = triangle(0,height,width,height,width/2,0) shape = subtract(shape,triangle(0,height+3*line,width,height+3*line,width/2,3*line)) shapes['V'] = shape w = 2*height/3.0 shape = triangle(0,w,width,w,width/2,0) shape = subtract(shape,triangle(0,w+2*line,width,w+2*line,width/2,2*line)) shapes['v'] = shape shape = triangle(0,height,width,height,width/2,0) shape = add(shape,move(shape,.6*width,0)) cutout = triangle(0,height+4*line,width,height+4*line,width/2,4*line) cutout = add(cutout,move(cutout,.6*width,0)) shape = subtract(shape,cutout) shape = scale_x(shape,0,1/1.6) shapes['W'] = shape shape = scale_y(shapes['W'],0,width/height) shapes['w'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(0,0,0,height,width/2-.7*line,height/2)) shape = subtract(shape,triangle(width,0,width/2+.7*line,height/2,width,height)) shape = subtract(shape,triangle(1.1*line,height,width-1.1*line,height,width/2,height/2+line)) shape = subtract(shape,triangle(1.1*line,0,width/2,height/2-line,width-1.1*line,0)) shapes['X'] = shape w = 2*height/3.0 shape = rectangle(0,width,0,w) shape = subtract(shape,triangle(0,0,0,w,width/2-.75*line,w/2)) shape = subtract(shape,triangle(width,0,width/2+.75*line,w/2,width,w)) shape = subtract(shape,triangle(1.25*line,0,width/2,w/2-.75*line,width-1.25*line,0)) shape = subtract(shape,triangle(1.25*line,w,width-1.25*line,w,width/2,w/2+.75*line)) shapes['x'] = shape w = height/2 shape = rectangle(0,width,w,height) shape = subtract(shape,triangle(0,w,0,height,width/2-line/2,w)) shape = subtract(shape,triangle(width/2+line/2,w,width,height,width,w)) shape = subtract(shape,triangle(1.1*line,height,width-1.1*line,height,width/2,w+1.1*line)) shape = add(shape,rectangle(width/2-line/2,width/2+line/2,0,w)) shapes['Y'] = shape shape = rectangle(0,width,-height/3,width) shape = subtract(shape,triangle(0,-height/3,0,width,width/2-.9*line,0)) shape = subtract(shape,triangle(1.1*line,width,width-1.1*line,width,width/2-.2*line,1.6*line)) shape = subtract(shape,triangle(1.2*line,-height/3,width,width,width,-height/3)) shapes['y'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(0,line,0,height-line,width-1.4*line,height-line)) shape = subtract(shape,triangle(1.4*line,line,width,height-line,width,line)) shapes['Z'] = shape w = 2*height/3 shape = rectangle(0,width,0,w) shape = subtract(shape,triangle(0,line,0,w-line,width-1.6*line,w-line)) shape = subtract(shape,triangle(width,line,1.6*line,line,width,w-line)) shapes['z'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-.9*line)) shape = scale_y(shape,0,height/width) shapes['0'] = shape shape = rectangle(width/2-line/2,width/2+line/2,0,height) w = width/2-line/2 cutout = circle(0,height,w) shape = add(shape,rectangle(0,width/2,height-w-line,height)) shape = subtract(shape,cutout) shape = move(shape,(width/2+line/2)/4,0) shapes['1'] = shape shape = circle(width/2,height-width/2,width/2) shape = subtract(shape,circle(width/2,height-width/2,width/2-line)) shape = subtract(shape,rectangle(0,width/2,0,height-width/2)) shape = add(shape,rectangle(0,width,0,height-width/2)) shape = subtract(shape,triangle(0,line,0,height-width/2,width-line,height-width/2)) shape = subtract(shape,triangle(1.5*line,line,width,height-width/2-.5*line,width,line)) shapes['2'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = scale_y(shape,0,(height/2+line/2)/width) shape = add(shape,move(shape,0,height/2-line/2)) shape = subtract(shape,rectangle(0,width/2,height/4,3*height/4)) shapes['3'] = shape shape = rectangle(width-line,width,0,height) shape = add(shape,triangle(0,height/3,width-line,height,width-line,height/3)) shape = subtract(shape,triangle(1.75*line,height/3+line,width-line,height-1.5*line,width-line,height/3+line)) shapes['4'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width/2,width/2,width)) shape = add(shape,rectangle(0,width/2,width-line,width)) shape = add(shape,rectangle(0,line,width-line,height)) shape = add(shape,rectangle(0,width,height-line,height)) shapes['5'] = shape shape = circle(width/2,height-width/2,width/2) shape = subtract(shape,circle(width/2,height-width/2,width/2-line)) shape = subtract(shape,rectangle(0,width,0,height-width/2)) shape = subtract(shape,triangle(width,height,width,height/2,width/2,height/2)) shape = add(shape,circle(width/2,width/2,width/2)) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = add(shape,rectangle(0,line,width/2,height-width/2)) shapes['6'] = shape shape = rectangle(0,width,0,height) shape = subtract(shape,triangle(0,0,0,height-line,width-line,height-line)) shape = subtract(shape,triangle(line,0,width,height-line,width,0)) shapes['7'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = scale_y(shape,0,(height/2+line/2)/width) shape = add(shape,move(shape,0,height/2-line/2)) shapes['8'] = shape shape = circle(width/2,width/2,width/2) shape = subtract(shape,circle(width/2,width/2,width/2-line)) shape = subtract(shape,rectangle(0,width,width/2,height)) shape = subtract(shape,triangle(0,0,0,height/2,width/2,height/2)) shape = add(shape,circle(width/2,height-width/2,width/2)) shape = subtract(shape,circle(width/2,height-width/2,width/2-line)) shape = add(shape,rectangle(width-line,width,width/2,height-width/2)) shapes['9'] = shape w = width/2 shape = circle(w,w,w) shape = subtract(shape,circle(w,w,w-line)) shape = subtract(shape,rectangle(w,width,0,height)) shape = scale_y(shape,0,height/width) shape = move(shape,w/2,0) shapes['('] = shape shape = reflect_x(shape,width) shapes[')'] = shape shapes[' '] = False shape = rectangle(width/2-width/3,width/2+width/3,height/2-line/2,height/2+line/2) shape = add(shape,rectangle(width/2-line/2,width/2+line/2,height/2-width/3,height/2+width/3)) shapes['+'] = shape shape = rectangle(width/2-width/3,width/2+width/3,height/2-line/2,height/2+line/2) shapes['-'] = shape shape = circle(width/2,line,.75*line) shapes['.'] = shape shape = rectangle(0,width,0,height) d = .8*line shape = subtract(shape,triangle(d,0,width,height-d,width,0)) shape = subtract(shape,triangle(0,d,0,height,width-d,height)) shapes['/'] = shape # # to be done # shapes['~'] = shape shapes['!'] = shape shapes['@'] = shape shapes['#'] = shape shapes['\$'] = shape shapes['%'] = shape shapes['^'] = shape shapes['&'] = shape shapes['&'] = shape shapes['_'] = shape shapes['='] = shape shapes['['] = shape shapes['{'] = shape shapes[']'] = shape shapes['}'] = shape shapes[';'] = shape shapes[':'] = shape shapes["'"] = shape shapes['"'] = shape shapes[','] = shape shapes['<'] = shape shapes['>'] = shape shapes['?'] = shape # # add a line to text shape # def addline(lineshape): # # LR align # if (align[0] == 'C'): lineshape = move(lineshape,-self.width/2.0,0) elif (align[0] == 'R'): lineshape = move(lineshape,-self.width,0) # # add # self.shape = add(self.shape,lineshape) # # loop over chars # dx = 0 dy = -height self.width = -space self.height = height lineshape = False self.shape = False for chr in text: if (chr == '\n'): addline(lineshape) dx = 0 dy -= 1.5*self.height self.width = -space self.height += 1.5*self.height lineshape = False else: lineshape = add(lineshape,move(shapes[chr],dx,dy)) self.width += space + width dx += width + space addline(lineshape) # # UD align # if (align[1] == 'C'): self.shape = move(self.shape,0,self.height/2.0) elif (align[1] == 'B'): self.shape = move(self.shape,0,self.height) # # rotate # if (angle == 90): self.shape = rotate_90(self.shape) elif (angle == 180): self.shape = rotate_180(self.shape) elif ((angle == 270) | (angle == -90)): self.shape = rotate_270(self.shape) elif (angle != 0): self.shape = rotate(self.shape,angle) # # translate # self.shape = move(self.shape,x,y) # # color # self.shape = '('+str(color)+'*(('+self.shape+')!=0))' # # PCB classes and definitions # class PCB: def __init__(self,x0,y0,width,height,mask): self.board = False self.labels = False self.interior = rectangle(x0,x0+width,y0,y0+height) self.exterior = subtract(True,rectangle(x0,x0+width,y0,y0+height)) self.mask = False def add(self,part): self.board = add(self.board,part) self.mask = add(self.mask,move(part,-mask,mask)) self.mask = add(self.mask,move(part,-mask,-mask)) self.mask = add(self.mask,move(part,mask,mask)) self.mask = add(self.mask,move(part,mask,-mask)) return self class point: def __init__(self,x,y,z=0): self.x = x self.y = y self.z = z class part: class text: def __init__(self,x,y,z=0,text='',line=0.006,angle=0): self.x = x self.y = y self.z = z self.text = text self.line = line self.angle = angle def add(self,pcb,x,y,z=0,angle=0,line=0.007): self.x = x self.y = y self.z = z self.angle = angle if (angle == 90): self.shape = rotate_90(self.shape) elif (angle == 180): self.shape = rotate_180(self.shape) elif ((angle == 270) | (angle == -90)): self.shape = rotate_270(self.shape) elif (angle != 0): self.shape = rotate(self.shape,angle) deg_angle = angle angle = pi*angle/180 self.shape = translate(self.shape,x,y,z) for i in range(len(self.pad)): xnew = cos(angle)*self.pad[i].x - sin(angle)*self.pad[i].y ynew = sin(angle)*self.pad[i].x + cos(angle)*self.pad[i].y self.pad[i].x = x + xnew self.pad[i].y = y + ynew self.pad[i].z += z pcb.labels = add(pcb.labels,text(self.value,x,y,z,line=line,color=Green).shape) for i in range(len(self.labels)): xnew = cos(angle)*self.labels[i].x - sin(angle)*self.labels[i].y ynew = sin(angle)*self.labels[i].x + cos(angle)*self.labels[i].y self.labels[i].x = x + xnew self.labels[i].y = y + ynew self.labels[i].z += z if ((-90 < deg_angle) & (deg_angle <= 90)): pcb.labels = add(pcb.labels,text(self.labels[i].text,self.labels[i].x,self.labels[i].y,self.labels[i].z,self.labels[i].line,color=Red,angle=deg_angle-self.labels[i].angle).shape) else: pcb.labels = add(pcb.labels,text(self.labels[i].text,self.labels[i].x,self.labels[i].y,self.labels[i].z,self.labels[i].line,color=Red,angle=(deg_angle-self.labels[i].angle-180)).shape) pcb = pcb.add(self.shape) return pcb def layer(self,pcb,z): pcb = pcb.add(translate(self.shape,0,0,z)) return pcb def wire(pcb,width,*points): for i in range(1,len(points)): x0 = points[i-1].x y0 = points[i-1].y z0 = points[i-1].z x1 = points[i].x y1 = points[i].y z1 = points[i].z if (x0 < x1): pcb.board = add(pcb.board,cube(x0-width/2,x1+width/2,y0-width/2,y0+width/2,z0,z0)) elif (x1 < x0): pcb.board = add(pcb.board,cube(x1-width/2,x0+width/2,y0-width/2,y0+width/2,z0,z0)) if (y0 < y1): pcb.board = add(pcb.board,cube(x1-width/2,x1+width/2,y0-width/2,y1+width/2,z0,z0)) elif (y1 < y0): pcb.board = add(pcb.board,cube(x1-width/2,x1+width/2,y1-width/2,y0+width/2,z0,z0)) return pcb # # PCB library # # # discretes # pad_0402 = cube(-.0175,.0175,-.014,.014,0,0) class R_0402(part): # # 0402 resistor # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_0402,-.0265,0,0) self.pad.append(point(-.0265,0,0)) self.shape = add(self.shape,translate(pad_0402,.0265,0,0)) self.pad.append(point(.0265,0,0)) pad_SJ = cube(-.02,.02,-.03,.03,0,0) class SJ(part): # # solder jumper # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_SJ,-.029,0,0) self.pad.append(point(-.029,0,0)) self.shape = add(self.shape,translate(pad_SJ,.029,0,0)) self.pad.append(point(.029,0,0)) pad_1206 = cube(-.032,.032,-.034,.034,0,0) class R_1206(part): # # 1206 resistor # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_1206,-.06,0,0) self.pad.append(point(-.06,0,0)) self.shape = add(self.shape,translate(pad_1206,.06,0,0)) self.pad.append(point(.06,0,0)) class C_1206(part): # # 1206 capacitor # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_1206,-.06,0,0) self.pad.append(point(-.06,0,0)) self.shape = add(self.shape,translate(pad_1206,.06,0,0)) self.pad.append(point(.06,0,0)) pad_1210 = cube(-.032,.032,-.048,.048,0,0) class L_1210(part): # # 1210 inductor # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_1210,-.06,0,0) self.pad.append(point(-.06,0,0)) self.shape = add(self.shape,translate(pad_1210,.06,0,0)) self.pad.append(point(.06,0,0)) pad_choke = cube(-.06,.06,-.06,.06,0,0) class choke(part): # # Panasonic ELLCTV # def __init__(self,value=''): self.value = value self.labels = [] self.pad = [point(0,0,0)] self.shape = translate(pad_choke,-.177,-.177,0) self.pad.append(point(-.177,-.177,0)) self.shape = add(self.shape,translate(pad_choke,.177,.177,0)) self.pad.append(point(.177,.177,0)) # # connectors # pad_USB_trace = cube(-.0075,.0075,-.04,.04,0,0) pad_USB_feet = cube(-.049,.049,-.043,.043,0,0) class USB_mini_B(part): # # USB mini B # Hirose UX60-MB-5ST # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_USB_trace,.063,.36,0) self.pad.append(point(.063,.36,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 2 # self.shape = add(self.shape,translate(pad_USB_trace,.0315,.36,0)) self.pad.append(point(.0315,.36,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 3 # self.shape = add(self.shape,translate(pad_USB_trace,0,.36,0)) self.pad.append(point(0,.36,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'+')) # # pin 4 # self.shape = add(self.shape,translate(pad_USB_trace,-.0315,.36,0)) self.pad.append(point(-.0315,.36,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'-')) # # pin 5 # self.shape = add(self.shape,translate(pad_USB_trace,-.063,.36,0)) self.pad.append(point(-.063,.36,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # feet # self.shape = add(self.shape,translate(pad_USB_feet,.165,.33,0)) self.shape = add(self.shape,translate(pad_USB_feet,-.165,.33,0)) self.shape = add(self.shape,translate(pad_USB_feet,.165,.12,0)) self.shape = add(self.shape,translate(pad_USB_feet,-.165,.12,0)) pad_header = cube(-.05,.05,-.025,.025,0,0) class header_4(part): # # 4-pin header # fci 95278-101a04lf bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_header,-.107,.05,0) self.shape = add(self.shape,cylinder(-.157,.05,0,0,.025)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2 # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # pin 3 # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3')) # # pin 4 # self.shape = add(self.shape,translate(pad_header,.107,-.05,0)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'4')) class header_signal(part): # # signal header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.107,-.05,0) self.shape = add(self.shape,cylinder(.157,-.05,0,0,.025)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2 # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 3: signal # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'signal')) # # pin 4: # self.shape = add(self.shape,translate(pad_header,-.107,.05,0)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) class header_power(part): # # power header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.107,-.05,0) self.shape = add(self.shape,cylinder(.157,-.05,0,0,.025)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2 # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 3: V # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 4: # self.shape = add(self.shape,translate(pad_header,-.107,.05,0)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) class header_i0(part): # # i0 header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.05,.107,0) self.shape = add(self.shape,cylinder(.05,.157,0,0,.025)) self.pad.append(point(.05,.107,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2: data # self.shape = add(self.shape,translate(pad_header,.05,-.107,0)) self.pad.append(point(.05,-.107,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'data')) # # pin 3: V # self.shape = add(self.shape,translate(pad_header,-.05,.107,0)) self.pad.append(point(-.05,.107,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 4: # self.shape = add(self.shape,translate(pad_header,-.05,-.107,0)) self.pad.append(point(-.05,-.107,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) class header_serial(part): # # serial comm header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.107,-.05,0) self.shape = add(self.shape,cylinder(.157,-.05,0,0,.025)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2:DTR # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DTR')) # # pin 3: Tx # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx')) # # pin 4: Rx # self.shape = add(self.shape,translate(pad_header,-.107,.05,0)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx')) class header_APA(part): # # APA header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.107,-.05,0) self.shape = add(self.shape,cylinder(.157,-.05,0,0,.025)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2: in # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'in')) # # pin 3: V # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 4: out # self.shape = add(self.shape,translate(pad_header,-.107,.05,0)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'out')) class header_6(part): # # 6-pin header # FCI 95278-101A06LF Bergstik 2x3x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_header,.107,-.1,0) self.shape = add(self.shape,cylinder(.157,-.1,0,0,.025)) self.pad.append(point(.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 2 # self.shape = add(self.shape,translate(pad_header,-.107,-.1,0)) self.pad.append(point(-.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 3 # self.shape = add(self.shape,translate(pad_header,.107,0,0)) self.pad.append(point(.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 4 # self.shape = add(self.shape,translate(pad_header,-.107,0,0)) self.pad.append(point(-.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 5 # self.shape = add(self.shape,translate(pad_header,.107,.1,0)) self.pad.append(point(.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) # # pin 6 # self.shape = add(self.shape,translate(pad_header,-.107,.1,0)) self.pad.append(point(-.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'')) class header_ISP(part): # # in-circuit programming header # FCI 95278-101A06LF Bergstik 2x3x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: MISO # self.shape = translate(pad_header,.107,-.1,0) self.shape = add(self.shape,cylinder(.157,-.1,0,0,.025)) self.pad.append(point(.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MISO')) # # pin 2: V # self.shape = add(self.shape,translate(pad_header,-.107,-.1,0)) self.pad.append(point(-.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 3: SCK # self.shape = add(self.shape,translate(pad_header,.107,0,0)) self.pad.append(point(.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK')) # # pin 4: MOSI # self.shape = add(self.shape,translate(pad_header,-.107,0,0)) self.pad.append(point(-.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MOSI')) # # pin 5: RST # self.shape = add(self.shape,translate(pad_header,.107,.1,0)) self.pad.append(point(.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST')) # # pin 6: GND # self.shape = add(self.shape,translate(pad_header,-.107,.1,0)) self.pad.append(point(-.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) class header_unipolar_stepper(part): # # unipolar stepper header # FCI 95278-101A06LF Bergstik 2x3x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_header,.107,-.1,0) self.shape = add(self.shape,cylinder(.157,-.1,0,0,.025)) self.pad.append(point(.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'red')) # # pin 2 # self.shape = add(self.shape,translate(pad_header,-.107,-.1,0)) self.pad.append(point(-.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'green')) # # pin 3 # self.shape = add(self.shape,translate(pad_header,.107,0,0)) self.pad.append(point(.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'black')) # # pin 4 # self.shape = add(self.shape,translate(pad_header,-.107,0,0)) self.pad.append(point(-.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'brown')) # # pin 5 # self.shape = add(self.shape,translate(pad_header,.107,.1,0)) self.pad.append(point(.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'orange')) # # pin 6 # self.shape = add(self.shape,translate(pad_header,-.107,.1,0)) self.pad.append(point(-.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'yellow')) class header_LCD(part): # # LCD interface header # FCI 95278-101A10LF Bergstik 2x3x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: # self.shape = translate(pad_header,.107,-.2,0) self.shape = add(self.shape,cylinder(.157,-.2,0,0,.025)) self.pad.append(point(.107,-.2,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DB7\n14')) # # pin 2: # self.shape = add(self.shape,translate(pad_header,-.107,-.2,0)) self.pad.append(point(-.107,-.2,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DB6\n13')) # # pin 3: # self.shape = add(self.shape,translate(pad_header,.107,-.1,0)) self.pad.append(point(.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DB5\n12')) # # pin 4: # self.shape = add(self.shape,translate(pad_header,-.107,-.1,0)) self.pad.append(point(-.107,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DB4\n11')) # # pin 5: # self.shape = add(self.shape,translate(pad_header,.107,0,0)) self.pad.append(point(.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'E\n6')) # # pin 6: # self.shape = add(self.shape,translate(pad_header,-.107,0,0)) self.pad.append(point(-.107,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'R/W\n5')) # # pin 7: # self.shape = add(self.shape,translate(pad_header,.107,.1,0)) self.pad.append(point(.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RS\n4')) # # pin 8: # self.shape = add(self.shape,translate(pad_header,-.107,.1,0)) self.pad.append(point(-.107,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Vee\n3')) # # pin 9: # self.shape = add(self.shape,translate(pad_header,.107,.2,0)) self.pad.append(point(.107,.2,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Vcc\n2')) # # pin 10: # self.shape = add(self.shape,translate(pad_header,-.107,.2,0)) self.pad.append(point(-.107,.2,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND\n1')) class header_FTDI(part): # # FTDI cable header # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: GND (black) # self.shape = translate(pad_header,0,.25,0) self.shape = add(self.shape,cylinder(-.05,.25,0,0,.025)) self.pad.append(point(0,.25,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G (blk)')) # # pin 2: CTS (brown) # self.shape = add(self.shape,translate(pad_header,0,.15,0)) self.pad.append(point(0,.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CTS')) # # pin 3: VCC (red) # self.shape = add(self.shape,translate(pad_header,0,.05,0)) self.pad.append(point(0,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) # # pin 4: Tx (orange) # self.shape = add(self.shape,translate(pad_header,0,-0.05,0)) self.pad.append(point(0,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx')) # # pin 5: Rx (yellow) # self.shape = add(self.shape,translate(pad_header,0,-.15,0)) self.pad.append(point(0,-.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx')) # # pin 6: RTS (green) # self.shape = add(self.shape,translate(pad_header,0,-.25,0)) self.pad.append(point(0,-.25,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RTS')) pad_MTA = cube(-.021,.021,-.041,.041,0,0) pad_MTA_solder = cube(-.071,.071,-.041,.041,0,0) class MTA_2(part): # # AMP 1445121-2 # MTA .050 SMT 2-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_MTA,-.025,-.1,0) self.pad.append(point(-.025,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2 # self.shape = add(self.shape,translate(pad_MTA,.025,.1,0)) self.pad.append(point(.025,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.187,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.187,0,0)) class MTA_power(part): # # AMP 1445121-2 # MTA .050 SMT 2-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_MTA,-.025,-.1,0) self.pad.append(point(-.025,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1\nGND')) # # pin 2: Vcc # self.shape = add(self.shape,translate(pad_MTA,.025,.1,0)) self.pad.append(point(.025,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Vcc')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.187,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.187,0,0)) class MTA_3(part): # # AMP 1445121-3 # MTA .050 SMT 3-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: GND # self.shape = translate(pad_MTA,.05,.1,0) self.pad.append(point(.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2: power # self.shape = add(self.shape,translate(pad_MTA,-.05,.1,0)) self.pad.append(point(-.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # pin 3: data # self.shape = add(self.shape,translate(pad_MTA,0,-.1,0)) self.pad.append(point(0,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.212,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.212,0,0)) class MTA_i0(part): # # AMP 1445121-3 # MTA .050 SMT 3-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: GND # self.shape = translate(pad_MTA,.05,.1,0) self.pad.append(point(.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1\nGND')) # # pin 2: power # self.shape = add(self.shape,translate(pad_MTA,-.05,.1,0)) self.pad.append(point(-.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 3: data # self.shape = add(self.shape,translate(pad_MTA,0,-.1,0)) self.pad.append(point(0,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'data')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.212,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.212,0,0)) class MTA_4(part): # # AMP 1445121-4 # MTA .050 SMT 4-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_MTA,-.075,-.1,0) self.pad.append(point(-.075,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2 # self.shape = add(self.shape,translate(pad_MTA,.025,-.1,0)) self.pad.append(point(.025,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # pin 3 # self.shape = add(self.shape,translate(pad_MTA,.075,.1,0)) self.pad.append(point(.075,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3')) # # pin 4 # self.shape = add(self.shape,translate(pad_MTA,-.025,.1,0)) self.pad.append(point(-.025,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'4')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.237,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.237,0,0)) class MTA_serial(part): # # AMP 1445121-4 # MTA .050 SMT 4-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_MTA,-.075,-.1,0) self.pad.append(point(-.075,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2: Tx # self.shape = add(self.shape,translate(pad_MTA,.025,-.1,0)) self.pad.append(point(.025,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx')) # # pin 3: Rx # self.shape = add(self.shape,translate(pad_MTA,.075,.1,0)) self.pad.append(point(.075,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx')) # # pin 4: DTR # self.shape = add(self.shape,translate(pad_MTA,-.025,.1,0)) self.pad.append(point(-.025,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DTR')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.237,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.237,0,0)) class MTA_PS2(part): # # AMP 1445121-4 # MTA .050 SMT 4-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: GND # self.shape = translate(pad_MTA,-.075,-.1,0) self.pad.append(point(-.075,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1\nGND')) # # pin 2: data # self.shape = add(self.shape,translate(pad_MTA,.025,-.1,0)) self.pad.append(point(.025,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'data')) # # pin 3: clock # self.shape = add(self.shape,translate(pad_MTA,.075,.1,0)) self.pad.append(point(.075,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'clock')) # # pin 4: 5V # self.shape = add(self.shape,translate(pad_MTA,-.025,.1,0)) self.pad.append(point(-.025,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5V')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.237,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.237,0,0)) class MTA_5(part): # # AMP 1445121-5 # MTA .050 SMT 5-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_MTA,-.1,-.1,0) self.pad.append(point(-.1,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2 # self.shape = add(self.shape,translate(pad_MTA,0,-.1,0)) self.pad.append(point(0,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # pin 3 # self.shape = add(self.shape,translate(pad_MTA,.1,-.1,0)) self.pad.append(point(.1,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3')) # # pin 4 # self.shape = add(self.shape,translate(pad_MTA,.05,.1,0)) self.pad.append(point(.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'4')) # # pin 5 # self.shape = add(self.shape,translate(pad_MTA,-.05,.1,0)) self.pad.append(point(-.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.262,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.262,0,0)) class MTA_ICP(part): # # AMP 1445121-5 # MTA .050 SMT 5-pin vertical # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: MISO # self.shape = translate(pad_MTA,-.1,-.1,0) self.pad.append(point(-.1,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MISO')) # # pin 2: GND # self.shape = add(self.shape,translate(pad_MTA,0,-.1,0)) self.pad.append(point(0,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 3: MOSI # self.shape = add(self.shape,translate(pad_MTA,.1,-.1,0)) self.pad.append(point(.1,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MOSI')) # # pin 4: -RESET # self.shape = add(self.shape,translate(pad_MTA,.05,.1,0)) self.pad.append(point(.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'-RESET')) # # pin 5: SCK # self.shape = add(self.shape,translate(pad_MTA,-.05,.1,0)) self.pad.append(point(-.05,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK')) # # solder pads # self.shape = add(self.shape,translate(pad_MTA_solder,-.262,0,0)) self.shape = add(self.shape,translate(pad_MTA_solder,.262,0,0)) pad_screw_terminal = cylinder(0,0,0,0,.047) hole_screw_terminal = circle(0,0,.025) class screw_terminal_2(part): # # On Shore ED555/2DS # two position screw terminal # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_screw_terminal,-.069,0,0) self.pad.append(point(-.069,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1')) # # pin 2 # self.shape = add(self.shape,translate(pad_screw_terminal,.069,0,0)) self.pad.append(point(.069,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2')) # # holes # self.shape = add(self.shape,translate(hole_screw_terminal,-.069,0,0)) self.shape = add(self.shape,translate(hole_screw_terminal,.069,0,0)) class screw_terminal_power(part): # # On Shore ED555/2DS # power screw terminal # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1 # self.shape = translate(pad_screw_terminal,-.069,0,0) self.pad.append(point(-.069,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 2 # self.shape = add(self.shape,translate(pad_screw_terminal,.069,0,0)) self.pad.append(point(.069,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # holes # self.shape = add(self.shape,translate(hole_screw_terminal,-.069,0,0)) self.shape = add(self.shape,translate(hole_screw_terminal,.069,0,0)) class screw_terminal_i0(part): # # On Shore ED555/3DS # i0 screw terminal # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_screw_terminal,-.138,0,0) self.pad.append(point(-.138,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Gnd\n1')) # # pin 2: data # self.shape = add(self.shape,pad_screw_terminal) self.pad.append(point(0,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'data')) # # pin 3: V # self.shape = add(self.shape,translate(pad_screw_terminal,.138,0,0)) self.pad.append(point(.138,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # holes # self.shape = add(self.shape,translate(hole_screw_terminal,-.138,0,0)) self.shape = add(self.shape,hole_screw_terminal) self.shape = add(self.shape,translate(hole_screw_terminal,.138,0,0)) class power_65mm(part): # # CUI PJ1-023-SMT # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: power # self.shape = cube(.433,.512,-.047,.047,0,0) self.pad.append(point(.467,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'P')) # # pin 2: ground # self.shape = add(self.shape,cube(.285,.423,-.189,-.098,0,0)) self.pad.append(point(.354,-.144,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 3: contact # self.shape = add(self.shape,cube(.325,.463,.098,.189,0,0)) self.pad.append(point(.394,.144,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) # # solder pads # self.shape = add(self.shape,cube(.108,.246,-.169,-.110,0,0)) self.shape = add(self.shape,cube(.069,.207,.110,.169,0,0)) pad_stereo_2_5mm = cube(-.03,.03,-.05,.05,0,0) class stereo_2_5mm(part): # # CUI SJ1-2533-SMT # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: base # self.shape = translate(pad_stereo_2_5mm,-.130,-.16,0) self.pad.append(point(-.130,-.149,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'base')) # # pin 2: tip # self.shape = add(self.shape,translate(pad_stereo_2_5mm,.197,.15,0)) self.pad.append(point(.197,.141,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'tip')) # # pin 3: middle # self.shape = add(self.shape,translate(pad_stereo_2_5mm,-.012,-.16,0)) self.pad.append(point(-.012,-.149,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'middle')) pad_Molex = cube(-.0155,.0155,-.0265,.0265,0,0) pad_Molex_solder = cube(-.055,.055,-.065,.065,0,0) class Molex_serial(part): # # Molex 53261-0471 # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Rx # self.shape = translate(pad_Molex,-.075,.064,0) self.pad.append(point(-.075,.064,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx')) # # pin 2: Tx # self.shape = add(self.shape,translate(pad_Molex,-.025,.064,0)) self.pad.append(point(-.025,.064,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx')) # # pin 3: DTR # self.shape = add(self.shape,translate(pad_Molex,.025,.064,0)) self.pad.append(point(.025,.064,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DTR')) # # pin 4: GND # self.shape = add(self.shape,translate(pad_Molex,.075,.064,0)) self.pad.append(point(.075,.064,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # solder pads # self.shape = add(self.shape,translate(pad_Molex_solder,-.16,-.065,0)) self.shape = add(self.shape,translate(pad_Molex_solder,.16,-.065,0)) # # switches # pad_button_6mm = cube(-.04,.04,-.03,.03,0,0) class button_6mm(part): # # Omron 6mm pushbutton # B3SN-3112P # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # left 1 # self.shape = translate(pad_button_6mm,-.125,.08,0) self.pad.append(point(-.125,.08,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'L1')) # # right 1 # self.shape = add(self.shape,translate(pad_button_6mm,-.125,-.08,0)) self.pad.append(point(-.125,-.08,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'R1')) # # right 2 # self.shape = add(self.shape,translate(pad_button_6mm,.125,-.08,0)) self.pad.append(point(.125,-.08,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'R2')) # # left 2 # self.shape = add(self.shape,translate(pad_button_6mm,.125,.08,0)) self.pad.append(point(.125,.08,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'L2')) # # crystals and resonators # pad_XTAL_EFOBM = cube(-.016,.016,-.085,.085,0,0) class XTAL_EFOBM(part): # # Panasonic EFOBM series # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # left # self.shape = translate(pad_XTAL_EFOBM,-.053,0,0) self.pad.append(point(-.053,0,0)) # # ground # self.shape = add(self.shape,translate(pad_XTAL_EFOBM,0,0,0)) self.pad.append(point(0,0,0)) # # right # self.shape = add(self.shape,translate(pad_XTAL_EFOBM,.053,0,0)) self.pad.append(point(.053,0,0)) pad_XTAL_NX5032GA = cube(-.039,.039,-.047,.047,0,0) .079 class XTAL_NX5032GA(part): # # NDK NX5032GA # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # left # self.shape = translate(pad_XTAL_NX5032GA,-.079,0,0) self.pad.append(point(-.079,0,0)) # # right # self.shape = add(self.shape,translate(pad_XTAL_NX5032GA,.079,0,0)) self.pad.append(point(.079,0,0)) pad_XTAL_CSM_7 = cube(-.108,.108,-.039,.039,0,0) class XTAL_CSM_7(part): # # ECS CSM-7 series # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # left # self.shape = translate(pad_XTAL_CSM_7,-.187,0,0) self.pad.append(point(-.187,0,0)) # # right # self.shape = add(self.shape,translate(pad_XTAL_CSM_7,.187,0,0)) self.pad.append(point(.187,0,0)) # # diodes, transistors, regulators # class D_1206(part): # # 1206 diode # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # anode # self.shape = translate(pad_1206,-.06,0,0) self.pad.append(point(-.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A')) # # cathode # self.shape = add(self.shape,translate(pad_1206,.06,0,0)) self.pad.append(point(.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) class LED_1206(part): # # 1206 LED # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # anode # self.shape = translate(pad_1206,-.06,0,0) self.pad.append(point(-.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A')) # # cathode # self.shape = add(self.shape,translate(pad_1206,.06,0,0)) self.pad.append(point(.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) pad_RGB = cube(-.02,.02,-.029,.029,0,0) class LED_RGB(part): # # CREE CLV1A-FKB # def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] dx = .029 dy = .059 # # pin 1: red # self.shape = translate(pad_RGB,-dx,-dy,0) self.shape = add(self.shape,cylinder(-dx,-dy-.029,0,0,.02)) self.pad.append(point(-dx,-dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'R')) # # pin 2: anode # self.shape = add(self.shape,translate(pad_RGB,dx,-dy,0)) self.pad.append(point(dx,-dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A')) # # pin 3: blue # self.shape = add(self.shape,translate(pad_RGB,dx,dy,0)) self.pad.append(point(dx,dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'B')) # # pin 4: green # self.shape = add(self.shape,translate(pad_RGB,-dx,dy,0)) self.pad.append(point(-dx,dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) class phototransistor_1206(part): # # 1206 phototransistor # OPTEK 520,521 # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # collector # self.shape = translate(pad_1206,-.06,0,0) self.pad.append(point(-.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) # # emitter # self.shape = add(self.shape,translate(pad_1206,.06,0,0)) self.pad.append(point(.055,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'E')) pad_PLCC2 = cube(-.029,.029,-.059,.059,0,0) class phototransistor_PLCC2(part): # # PLCC2 phototransistor # Optek OP580 # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # collector # self.shape = translate(pad_PLCC2,-.065,0,0) self.pad.append(point(-.065,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) # # emitter # self.shape = add(self.shape,translate(pad_PLCC2,.065,0,0)) self.pad.append(point(.065,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'E')) pad_SOD_123 = cube(-.02,.02,-.024,.024,0,0) class D_SOD_123(part): # # SOD-123 diode # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # anode # self.shape = translate(pad_SOD_123,-.07,0,0) self.pad.append(point(-.07,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A')) # # cathode # self.shape = add(self.shape,translate(pad_SOD_123,.07,0,0)) self.pad.append(point(.07,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'C')) pad_SOT23 = cube(-.02,.02,-.012,.012,0,0) class NMOSFET_SOT23(part): # # Fairchild NDS355AN # def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: gate # self.shape = translate(pad_SOT23,.045,-.0375,0) self.pad.append(point(.045,-.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 2: source # self.shape = add(self.shape,translate(pad_SOT23,.045,.0375,0)) self.pad.append(point(.045,.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'S')) # # pin 3: drain # self.shape = add(self.shape,translate(pad_SOT23,-.045,0,0)) self.pad.append(point(-.045,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'D')) class PMOSFET_SOT23(part): # # Fairchild NDS356AP # def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: gate # self.shape = translate(pad_SOT23,-.045,-.0375,0) self.pad.append(point(-.045,-.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 2: source # self.shape = add(self.shape,translate(pad_SOT23,-.045,.0375,0)) self.pad.append(point(-.045,.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'S')) # # pin 3: drain # self.shape = add(self.shape,translate(pad_SOT23,.045,0,0)) self.pad.append(point(.045,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'D')) class NMOSFET_TO252AA(part): # # Fairchild RFD16N05LSM # def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: gate # self.shape = translate(cube(-.031,.031,-.059,.059,0,0),-.090,0,0) self.pad.append(point(-.090,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G 1')) # # pin 2: source # self.shape = add(self.shape,translate(cube(-.031,.031,-.059,.059,0,0),.090,0,0)) self.pad.append(point(.090,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'S')) # # pin 3: drain # self.shape = add(self.shape,translate(cube(-.132,.132,-.132,.132,0,0),0,.261,0)) self.pad.append(point(0,.261,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'D')) class regulator_SOT23(part): def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: output # self.shape = translate(pad_SOT23,-.045,.0375,0) self.pad.append(point(-.045,.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'out')) # # pin 2: input # self.shape = add(self.shape,translate(pad_SOT23,-.045,-.0375,0)) self.pad.append(point(-.045,-.0375,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'in')) # # pin 3: ground # self.shape = add(self.shape,translate(pad_SOT23,.045,0,0)) self.pad.append(point(.045,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'gnd')) pad_SOT223 = cube(-.02,.02,-.03,.03,0,0) pad_SOT223_ground = cube(-.065,.065,-.03,.03,0,0) class regulator_SOT223(part): def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: input # self.shape = translate(pad_SOT223,-.09,-.12,0) self.pad.append(point(-.09,-.12,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1I')) # # pin 2: ground # self.shape = add(self.shape,translate(pad_SOT223,0,-.12,0)) self.pad.append(point(0,-.12,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) # # pin 3: output # self.shape = add(self.shape,translate(pad_SOT223,.09,-.12,0)) self.pad.append(point(.09,-.12,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'O')) # # pin 4: ground # self.shape = add(self.shape,translate(pad_SOT223_ground,0,.12,0)) self.pad.append(point(0,.12,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G')) pad_SM8 = cube(-.035,.035,-.016,.016,0,0) class H_bridge_SM8(part): # # Zetex ZXMHC3A01T8 # def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] d = .13 # # pin 1: G3 (right N gate) # self.shape = translate(pad_SM8,-d,.09,0) self.shape = add(self.shape,cylinder(-d-.035,.09,0,0,.016)) self.pad.append(point(-d,.09,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GRN')) # # pin 2: S2 S3 (N source) # self.shape = add(self.shape,translate(pad_SM8,-d,.03,0)) self.pad.append(point(-d,.03,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SN')) # # pin 3: G2 (left N gate) # self.shape = add(self.shape,translate(pad_SM8,-d,-.03,0)) self.pad.append(point(-d,-.03,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GLN')) # # pin 4: G1 (left P gate) # self.shape = add(self.shape,translate(pad_SM8,-d,-.09,0)) self.pad.append(point(-d,-.09,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GLP')) # # pin 5: D1 D2 (left drain) # self.shape = add(self.shape,translate(pad_SM8,d,-.09,0)) self.pad.append(point(d,-.09,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DL')) # # pin 6: S1 S4 (P source) # self.shape = add(self.shape,translate(pad_SM8,d,-.03,0)) self.pad.append(point(d,-.03,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SP')) # # pin 7: D3 D4 (right drain) # self.shape = add(self.shape,translate(pad_SM8,d,.03,0)) self.pad.append(point(d,.03,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DR')) # # pin 8: G4 (right N gate) # self.shape = add(self.shape,translate(pad_SM8,d,.09,0)) self.pad.append(point(d,.09,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GRP')) # # ICs # pad_SOT23_5 = cube(-.01,.01,-.02,.02,0,0) class op_amp_SOT23_5(part): def __init__(self,value=''): self.value = value self.x = 0 self.y = 0 self.z = 0 self.pad = [point(0,0,0)] self.labels = [] # # pin 1: output # self.shape = translate(pad_SOT23_5,-.0375,-.045,0) self.pad.append(point(-.0375,-.045,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'O')) # # pin 2: V- # self.shape = add(self.shape,translate(pad_SOT23_5,0,-.045,0)) self.pad.append(point(0,-.045,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V-')) # # pin 3: I+ # self.shape = add(self.shape,translate(pad_SOT23_5,.0375,-.045,0)) self.pad.append(point(.0375,-.045,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'I+')) # # pin 4: I- # self.shape = add(self.shape,translate(pad_SOT23_5,.0375,.045,0)) self.pad.append(point(.0375,.045,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'I-')) # # pin 5: V+ # self.shape = add(self.shape,translate(pad_SOT23_5,-.0375,.045,0)) self.pad.append(point(-.0375,.045,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V+')) pad_SOICN = cube(-.035,.035,-.015,.015,0,0) class op_amp_SOICN(part): def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: A out # self.shape = translate(pad_SOICN,-.12,.075,0) self.pad.append(point(-.12,.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1 Ao')) # # pin 2: A- # self.shape = add(self.shape,translate(pad_SOICN,-.12,.025,0)) self.pad.append(point(-.12,.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A-')) # # pin 3: A+ # self.shape = add(self.shape,translate(pad_SOICN,-.12,-.025,0)) self.pad.append(point(-.12,-.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'A+')) # # pin 4: V- # self.shape = add(self.shape,translate(pad_SOICN,-.12,-.075,0)) self.pad.append(point(-.12,-.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V-')) # # pin 5: B+ # self.shape = add(self.shape,translate(pad_SOICN,.12,-.075,0)) self.pad.append(point(.12,-.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'B+')) # # pin 6: B- # self.shape = add(self.shape,translate(pad_SOICN,.12,-.025,0)) self.pad.append(point(.12,-.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'B-')) # # pin 7: B out # self.shape = add(self.shape,translate(pad_SOICN,.12,.025,0)) self.pad.append(point(.12,.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Bo')) # # pin 8: V+ # self.shape = add(self.shape,translate(pad_SOICN,.12,.075,0)) self.pad.append(point(.12,.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V+')) TSSOP_pad_width = 0.040 TSSOP_pad_height = 0.011 TSSOP_pad_dy = 0.026 TSSOP_pad_dx = 0.120 pad_TSSOP = cube(-TSSOP_pad_width/2.0,TSSOP_pad_width/2.0,-TSSOP_pad_height/2.0,TSSOP_pad_height/2.0,0,0) class TRC102(part): # # RFM TRC102 ISM transceiver # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: SDI # self.shape = translate(pad_TSSOP,-TSSOP_pad_dx,3.5*TSSOP_pad_dy,0) self.pad.append(point(-TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1 SDI')) # # pin 2: SCK # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK')) # # pin 3: nCS # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'nCS')) # # pin 4: SDO # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDO')) # # pin 5: IRQ # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IRQ')) # # pin 6: DATA/nFSEL # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DATA')) # # pin 7: CR # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CR')) # # pin 8: CLKOUT # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CLKOUT')) # # pin 9: Xtal/Ref # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Xtal')) # # pin 10: RESET # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RESET')) # # pin 11: GND # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 12: RF_P # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RF_P')) # # pin 13: RF_N # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RF_N')) # # pin 14: VDD # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VDD')) # # pin 15: RSSIA # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RSSIA')) # # pin 16: nINT/DDET # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'nINT')) pad_SOIC = cube(-.041,.041,-.015,.015,0,0) class ATtiny45_SOIC(part): def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: PB5/dW/ADC0/-RESET/PCINT5 # self.shape = translate(pad_SOIC,-.14,.075,0) self.shape = add(self.shape,cylinder(-.183,.075,0,0,.015)) self.pad.append(point(-.14,.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST')) # # pin 2: PB3/ADC3/-OC1B/CLKI/XTAL1/PCINT3 # self.shape = add(self.shape,translate(pad_SOIC,-.14,.025,0)) self.pad.append(point(-.14,.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB3')) # # pin 3: PB4/ADC2/OC1B/CLKO/XTAL2/PCINT4 # self.shape = add(self.shape,translate(pad_SOIC,-.14,-.025,0)) self.pad.append(point(-.14,-.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB4')) # # pin 4: GND # self.shape = add(self.shape,translate(pad_SOIC,-.14,-.075,0)) self.pad.append(point(-.14,-.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 5: PB0/MOSI/DI/SDA/AIN0/OC0A/-OC1A/AREF/PCINT0 # self.shape = add(self.shape,translate(pad_SOIC,.14,-.075,0)) self.pad.append(point(.14,-.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB0')) # # pin 6: PB1/MISO/DO/AIN1/OC0B/OC1A/PCINT1 # self.shape = add(self.shape,translate(pad_SOIC,.14,-.025,0)) self.pad.append(point(.14,-.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB1')) # # pin 7: PB2/SCK/USCK/SCL/ADC1/T0/INT0/PCINT2 # self.shape = add(self.shape,translate(pad_SOIC,.14,.025,0)) self.pad.append(point(.14,.025,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB2')) # # pin 8: VCC # self.shape = add(self.shape,translate(pad_SOIC,.14,.075,0)) self.pad.append(point(.14,.075,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) class ATtiny44_SOICN(part): def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: VCC # self.shape = translate(pad_SOICN,-.12,.15,0) self.shape = add(self.shape,cylinder(-.155,.15,0,0,.015)) self.pad.append(point(-.12,.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) # # pin 2: PB0/XTAL1/PCINT8 # self.shape = add(self.shape,translate(pad_SOICN,-.12,.1,0)) self.pad.append(point(-.12,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB0')) # # pin 3: PB1/XTAL2/PCINT9 # self.shape = add(self.shape,translate(pad_SOICN,-.12,.050,0)) self.pad.append(point(-.12,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB1')) # # pin 4: PB3/dW/-RESET/PCINT11 # self.shape = add(self.shape,translate(pad_SOICN,-.12,0,0)) self.pad.append(point(-.12,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB3')) # # pin 5: PB2/CKOUT/OC0A/INT0/PCINT10 # self.shape = add(self.shape,translate(pad_SOICN,-.12,-.05,0)) self.pad.append(point(-.12,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB2')) # # pin 6: PA7/ADC7/OC0B/ICP/PCINT7 # self.shape = add(self.shape,translate(pad_SOICN,-.12,-.1,0)) self.pad.append(point(-.12,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA7')) # # pin 7: PA6/ADC6/MOSI/SDA/OC1A/PCINT6 # self.shape = add(self.shape,translate(pad_SOICN,-.12,-.15,0)) self.pad.append(point(-.12,-.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA6')) # # pin 8: PA5/ADC5/DO/MISO/OC1B/PCINT5 # self.shape = add(self.shape,translate(pad_SOICN,.12,-.15,0)) self.pad.append(point(.12,-.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA5')) # # pin 9: PA4/ADC4/USCK/SCL/T1/PCINT4 # self.shape = add(self.shape,translate(pad_SOICN,.12,-.1,0)) self.pad.append(point(.12,-.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA4')) # # pin 10: PA3/ADC3/T0/PCINT3 # self.shape = add(self.shape,translate(pad_SOICN,.12,-.05,0)) self.pad.append(point(.12,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA3')) # # pin 11: PA2/ADC2/AIN1/PCINT2 # self.shape = add(self.shape,translate(pad_SOICN,.12,0,0)) self.pad.append(point(.12,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA2')) # # pin 12: PA1/ADC1/AIN0/PCINT1 # self.shape = add(self.shape,translate(pad_SOICN,.12,.050,0)) self.pad.append(point(.12,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA1')) # # pin 13: PA0/ADC0/AREF/PCINT0 # self.shape = add(self.shape,translate(pad_SOICN,.12,.1,0)) self.pad.append(point(.12,.1,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA0')) # # pin 14: GND # self.shape = add(self.shape,translate(pad_SOICN,.12,.15,0)) self.pad.append(point(.12,.15,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) pad_TQFP_h = cube(-.025,.025,-.008,.008,0,0) pad_TQFP_v = cube(-.008,.008,-.025,.025,0,0) class ATmega88_TQFP(part): def __init__(self,value=''): c = .18 d = .031 s = 0.004 self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: PD3/PCINT19/OC2B/INT1 # self.shape = translate(pad_TQFP_h,-c,3.5*d,0) self.pad.append(point(-c,3.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1 PD3',line=s)) # # pin 2: PD4/PCINT20/XCK/T0 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,2.5*d,0)) self.pad.append(point(-c,2.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD4',line=s)) # # pin 3: GND # self.shape = add(self.shape,translate(pad_TQFP_h,-c,1.5*d,0)) self.pad.append(point(-c,1.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND',line=s)) # # pin 4: VCC # self.shape = add(self.shape,translate(pad_TQFP_h,-c,.5*d,0)) self.pad.append(point(-c,.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC',line=s)) # # pin 5: GND # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-.5*d,0)) self.pad.append(point(-c,-.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND',line=s)) # # pin 6: VCC # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-1.5*d,0)) self.pad.append(point(-c,-1.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC',line=s)) # # pin 7: PB6/PCINT6/XTAL1/TOSC1 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-2.5*d,0)) self.pad.append(point(-c,-2.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB6',line=s)) # # pin 8: PB7/PCINT7/XTAL2/TOSC2 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-3.5*d,0)) self.pad.append(point(-c,-3.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB7',line=s)) # # pin 9: PD5/PCINT21/OC0B/T1 # self.shape = add(self.shape,translate(pad_TQFP_v,-3.5*d,-c,0)) self.pad.append(point(-3.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD5',angle=90,line=s)) # # pin 10: PD6/PCINT22/OC0A/AIN0 # self.shape = add(self.shape,translate(pad_TQFP_v,-2.5*d,-c,0)) self.pad.append(point(-2.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD6',angle=90,line=s)) # # pin 11: PD7/PCINT23/AIN1 # self.shape = add(self.shape,translate(pad_TQFP_v,-1.5*d,-c,0)) self.pad.append(point(-1.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD7',angle=90,line=s)) # # pin 12: PB0/PCINT0/CLKO/ICP1 # self.shape = add(self.shape,translate(pad_TQFP_v,-.5*d,-c,0)) self.pad.append(point(-.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB0',angle=90,line=s)) # # pin 13: PB1/PCINT1/OC1A # self.shape = add(self.shape,translate(pad_TQFP_v,.5*d,-c,0)) self.pad.append(point(.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB1',angle=90,line=s)) # # pin 14: PB2/PCINT2/-SS/OC1B # self.shape = add(self.shape,translate(pad_TQFP_v,1.5*d,-c,0)) self.pad.append(point(1.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB2',angle=90,line=s)) # # pin 15: PB3/PCINT3/OC2A/MOSI # self.shape = add(self.shape,translate(pad_TQFP_v,2.5*d,-c,0)) self.pad.append(point(2.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB3',angle=90,line=s)) # # pin 16: PB4/PCINT4/MISO # self.shape = add(self.shape,translate(pad_TQFP_v,3.5*d,-c,0)) self.pad.append(point(3.5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB4',angle=90,line=s)) # # pin 17: PB5/SCK/PCINT5 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-3.5*d,0)) self.pad.append(point(c,-3.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB5',line=s)) # # pin 18: AVCC # self.shape = add(self.shape,translate(pad_TQFP_h,c,-2.5*d,0)) self.pad.append(point(c,-2.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'AVCC',line=s)) # # pin 19: ADC6 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-1.5*d,0)) self.pad.append(point(c,-1.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'ADC6',line=s)) # # pin 20: AREF # self.shape = add(self.shape,translate(pad_TQFP_h,c,-.5*d,0)) self.pad.append(point(c,-.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'AREF',line=s)) # # pin 21: GND # self.shape = add(self.shape,translate(pad_TQFP_h,c,.5*d,0)) self.pad.append(point(c,.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND',line=s)) # # pin 22: ADC7 # self.shape = add(self.shape,translate(pad_TQFP_h,c,1.5*d,0)) self.pad.append(point(c,1.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'ADC7',line=s)) # # pin 23: PC0/ADC0/PCINT8 # self.shape = add(self.shape,translate(pad_TQFP_h,c,2.5*d,0)) self.pad.append(point(c,2.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC0',line=s)) # # pin 24: PC1/ADC1/PCINT9 # self.shape = add(self.shape,translate(pad_TQFP_h,c,3.5*d,0)) self.pad.append(point(c,3.5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC1',line=s)) # # pin 25: PC2/ADC2/PCINT10 # self.shape = add(self.shape,translate(pad_TQFP_v,3.5*d,c,0)) self.pad.append(point(3.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC2',angle=90,line=s)) # # pin 26: PC3/ADC3/PCINT11 # self.shape = add(self.shape,translate(pad_TQFP_v,2.5*d,c,0)) self.pad.append(point(2.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC3',angle=90,line=s)) # # pin 27: PC4/ADC4/SDA/PCINT12 # self.shape = add(self.shape,translate(pad_TQFP_v,1.5*d,c,0)) self.pad.append(point(1.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC4',angle=90,line=s)) # # pin 28: PC5/ADC5/SCL/PCINT13 # self.shape = add(self.shape,translate(pad_TQFP_v,.5*d,c,0)) self.pad.append(point(.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC5',angle=90,line=s)) # # pin 29: PC6/-RESET/PCINT14 # self.shape = add(self.shape,translate(pad_TQFP_v,-.5*d,c,0)) self.pad.append(point(-.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC6',angle=90,line=s)) # # pin 30: PD0/RXD/PCINT16 # self.shape = add(self.shape,translate(pad_TQFP_v,-1.5*d,c,0)) self.pad.append(point(-1.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD0',angle=90,line=s)) # # pin 31: PD1/TXD/PCINT17 # self.shape = add(self.shape,translate(pad_TQFP_v,-2.5*d,c,0)) self.pad.append(point(-2.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD1',angle=90,line=s)) # # pin 32: PD2/INT0/PCINT18 # self.shape = add(self.shape,translate(pad_TQFP_v,-3.5*d,c,0)) self.pad.append(point(-3.5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD2',angle=90,line=s)) class ATmega644_TQFP(part): def __init__(self,value=''): c = .235 d = .031 self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: PB5/PCINT13/MOSI # self.shape = translate(pad_TQFP_h,-c,5*d,0) self.pad.append(point(-c,5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'*MOSI (1)')) # # pin 2: PB6/PCINT14/MISO # self.shape = add(self.shape,translate(pad_TQFP_h,-c,4*d,0)) self.pad.append(point(-c,4*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MISO')) # # pin 3: PB7/PCINT15/SCK # self.shape = add(self.shape,translate(pad_TQFP_h,-c,3*d,0)) self.pad.append(point(-c,3*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK')) # # pin 4: -RESET # self.shape = add(self.shape,translate(pad_TQFP_h,-c,2*d,0)) self.pad.append(point(-c,2*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'-RESET')) # # pin 5: VCC # self.shape = add(self.shape,translate(pad_TQFP_h,-c,d,0)) self.pad.append(point(-c,d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) # # pin 6: GND # self.shape = add(self.shape,translate(pad_TQFP_h,-c,0,0)) self.pad.append(point(-c,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 7: XTAL2 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-d,0)) self.pad.append(point(-c,-d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'XTAL2')) # # pin 8: XTAL1 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-2*d,0)) self.pad.append(point(-c,-2*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'XTAL1')) # # pin 9: PD0/PCINT24/RXD0 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-3*d,0)) self.pad.append(point(-c,-3*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RXD0')) # # pin 10: PD1/PCINT25/TXD0 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-4*d,0)) self.pad.append(point(-c,-4*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'TXD0')) # # pin 11: PD2/PCINT26/INT0 # self.shape = add(self.shape,translate(pad_TQFP_h,-c,-5*d,0)) self.pad.append(point(-c,-5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD2')) # # pin 12: PD3/PCINT27/INT1 # self.shape = add(self.shape,translate(pad_TQFP_v,-5*d,-c,0)) self.pad.append(point(-5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD3')) # # pin 13: PD4/PCINT28/OC1B # self.shape = add(self.shape,translate(pad_TQFP_v,-4*d,-c,0)) self.pad.append(point(-4*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD4')) # # pin 14: PD5/PCINT28/OC1A # self.shape = add(self.shape,translate(pad_TQFP_v,-3*d,-c,0)) self.pad.append(point(-3*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD5')) # # pin 15: PD6/PCINT30/OC2B/ICP # self.shape = add(self.shape,translate(pad_TQFP_v,-2*d,-c,0)) self.pad.append(point(-2*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD6')) # # pin 16: PD7/PCINT31/OC2A # self.shape = add(self.shape,translate(pad_TQFP_v,-d,-c,0)) self.pad.append(point(-d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PD7')) # # pin 17: VCC # self.shape = add(self.shape,translate(pad_TQFP_v,0,-c,0)) self.pad.append(point(0,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) # # pin 18: GND # self.shape = add(self.shape,translate(pad_TQFP_v,d,-c,0)) self.pad.append(point(d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 19: PC0/PCINT16/SCL # self.shape = add(self.shape,translate(pad_TQFP_v,2*d,-c,0)) self.pad.append(point(2*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC0')) # # pin 20: PC1/PCINT17/SDA # self.shape = add(self.shape,translate(pad_TQFP_v,3*d,-c,0)) self.pad.append(point(3*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC1')) # # pin 21: PC2/PCINT18/TCK # self.shape = add(self.shape,translate(pad_TQFP_v,4*d,-c,0)) self.pad.append(point(4*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC2')) # # pin 22: PC3/PCINT19/TMS # self.shape = add(self.shape,translate(pad_TQFP_v,5*d,-c,0)) self.pad.append(point(5*d,-c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC3')) # # pin 23: PC4/TDO/PCINT20 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-5*d,0)) self.pad.append(point(c,-5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC4')) # # pin 24: PC5/TDI/PCINT21 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-4*d,0)) self.pad.append(point(c,-4*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC5')) # # pin 25: PC6/TOSC1/PCINT22 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-3*d,0)) self.pad.append(point(c,-3*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC6')) # # pin 26: PC7/TOSC2/PCINT23 # self.shape = add(self.shape,translate(pad_TQFP_h,c,-2*d,0)) self.pad.append(point(c,-2*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PC7')) # # pin 27: AVCC # self.shape = add(self.shape,translate(pad_TQFP_h,c,-d,0)) self.pad.append(point(c,-d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'AVCC')) # # pin 28: GND # self.shape = add(self.shape,translate(pad_TQFP_h,c,0,0)) self.pad.append(point(c,0,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 29: AREF # self.shape = add(self.shape,translate(pad_TQFP_h,c,d,0)) self.pad.append(point(c,d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'AREF')) # # pin 30: PA7/ADC7/PCINT7 # self.shape = add(self.shape,translate(pad_TQFP_h,c,2*d,0)) self.pad.append(point(c,2*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA7')) # # pin 31: PA6/ADC6/PCINT6 # self.shape = add(self.shape,translate(pad_TQFP_h,c,3*d,0)) self.pad.append(point(c,3*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA6')) # # pin 32: PA5/ADC5/PCINT5 # self.shape = add(self.shape,translate(pad_TQFP_h,c,4*d,0)) self.pad.append(point(c,4*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA5')) # # pin 33: PA4/ADC4/PCINT4 # self.shape = add(self.shape,translate(pad_TQFP_h,c,5*d,0)) self.pad.append(point(c,5*d,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA4')) # # pin 34: PA3/ADC3/PCINT3 # self.shape = add(self.shape,translate(pad_TQFP_v,5*d,c,0)) self.pad.append(point(5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA3')) # # pin 35: PA2/ADC2/PCINT2 # self.shape = add(self.shape,translate(pad_TQFP_v,4*d,c,0)) self.pad.append(point(4*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA2')) # # pin 36: PA1/ADC1/PCINT1 # self.shape = add(self.shape,translate(pad_TQFP_v,3*d,c,0)) self.pad.append(point(3*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA1')) # # pin 37: PA0/ADC0/PCINT0 # self.shape = add(self.shape,translate(pad_TQFP_v,2*d,c,0)) self.pad.append(point(2*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PA0')) # # pin 38: VCC # self.shape = add(self.shape,translate(pad_TQFP_v,d,c,0)) self.pad.append(point(d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC')) # # pin 39: GND # self.shape = add(self.shape,translate(pad_TQFP_v,0,c,0)) self.pad.append(point(0,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 40: PB0/XCK0/T0/PCINT8 # self.shape = add(self.shape,translate(pad_TQFP_v,-d,c,0)) self.pad.append(point(-d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB0')) # # pin 41: PB1/T1/CLKO/PCINT9 # self.shape = add(self.shape,translate(pad_TQFP_v,-2*d,c,0)) self.pad.append(point(-2*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB1')) # # pin 42: PB2/AIN0/INT2/PCINT10 # self.shape = add(self.shape,translate(pad_TQFP_v,-3*d,c,0)) self.pad.append(point(-3*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB2')) # # pin 43: PB3/AIN1/OC0A/PCINT11 # self.shape = add(self.shape,translate(pad_TQFP_v,-4*d,c,0)) self.pad.append(point(-4*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB2')) # # pin 44: PB4/-SS/OC0B/PCINT12 # self.shape = add(self.shape,translate(pad_TQFP_v,-5*d,c,0)) self.pad.append(point(-5*d,c,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PB4')) TSSOP_pad_width = 0.040 TSSOP_pad_height = 0.011 TSSOP_pad_dy = 0.026 TSSOP_pad_dx = 0.120 pad_TSSOP = cube(-TSSOP_pad_width/2.0,TSSOP_pad_width/2.0,-TSSOP_pad_height/2.0,TSSOP_pad_height/2.0,0,0) class TRC102(part): # # RFM TRC102 ISM transceiver # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: SDI # self.shape = translate(pad_TSSOP,-TSSOP_pad_dx,3.5*TSSOP_pad_dy,0) self.pad.append(point(-TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1 SDI')) # # pin 2: SCK # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK')) # # pin 3: nCS # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'nCS')) # # pin 4: SDO # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDO')) # # pin 5: IRQ # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IRQ')) # # pin 6: DATA/nFSEL # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DATA')) # # pin 7: CR # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CR')) # # pin 8: CLKOUT # self.shape = add(self.shape,translate(pad_TSSOP,-TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.pad.append(point(-TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CLKOUT')) # # pin 9: Xtal/Ref # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Xtal')) # # pin 10: RESET # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RESET')) # # pin 11: GND # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 12: RF_P # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,-0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RF_P')) # # pin 13: RF_N # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,0.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RF_N')) # # pin 14: VDD # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,1.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VDD')) # # pin 15: RSSIA # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,2.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RSSIA')) # # pin 16: nINT/DDET # self.shape = add(self.shape,translate(pad_TSSOP,TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.pad.append(point(TSSOP_pad_dx,3.5*TSSOP_pad_dy,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'nINT')) class header_bus(part): # # bus header # FCI 95278-101A04LF Bergstik 2x2x0.1" # def __init__(self,value=''): self.value = value self.pad = [point(0,0,0)] self.labels = [] # # pin 1: Gnd # self.shape = translate(pad_header,.107,-.05,0) self.shape = add(self.shape,cylinder(.157,-.05,0,0,.025)) self.pad.append(point(.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND')) # # pin 2: Tx # self.shape = add(self.shape,translate(pad_header,-.107,-.05,0)) self.pad.append(point(-.107,-.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx')) # # pin 3: V # self.shape = add(self.shape,translate(pad_header,.107,.05,0)) self.pad.append(point(.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V')) # # pin 4: Rx # self.shape = add(self.shape,translate(pad_header,-.107,.05,0)) self.pad.append(point(-.107,.05,0)) self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx')) # # graphics # class CBA(part): # # CBA logo # def __init__(self,r=.02): self.value = '' self.pad = [point(0,0,0)] self.labels = [] d = 3*r self.shape = cylinder(0,0,0,0,r) self.shape = add(self.shape,translate(cylinder(0,0,0,0,r),-d,d,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),-d,0,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),-d,-d,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),0,-d,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),d,-d,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),d,0,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),d,d,0)) self.shape = add(self.shape,translate(cube(-r,r,-r,r,0,0),0,d,0)) class fab(part): def __init__(self,r=.05): self.value = '' self.pad = [point(0,0,0)] self.labels = [] d = 1.8*r l = 3.5*r h = r/2. self.shape = rectangle(-d,d,-d,d) self.shape = subtract(self.shape,circle(0,0,r)) self.shape = subtract(self.shape,rectangle(-l,0,-h,h)) self.shape = add(self.shape,rectangle(d,l,-h,h)) self.shape = add(self.shape,circle(l,0,r)) self.shape = add(self.shape,circle(-l,0,r)) # # define board # width = 1.19 height = 1.02 x = 1 y = 1 z = -.005 w = .016 mask = .004 pcb = PCB(x,y,width,height,mask) IC1 = ATtiny44_SOICN('IC1\nt44') pcb = IC1.add(pcb,x+.54,y+.6,z) J1 = header_ISP('J1\nISP') pcb = J1.add(pcb,IC1.x+.05,IC1.pad[7].y-.24,z,angle=90) pcb = wire(pcb,w, IC1.pad[8], J1.pad[1]) pcb = wire(pcb,w, IC1.pad[1], point(J1.x-.05,J1.y+.02,z), J1.pad[2]) pcb = wire(pcb,w, IC1.pad[9], J1.pad[3]) pcb = wire(pcb,w, IC1.pad[7], point(IC1.pad[7].x,J1.y-.02,z), J1.pad[4]) pcb = wire(pcb,w, IC1.pad[4], J1.pad[5]) XTAL1 = XTAL_EFOBM('XTAL1\n20 MHz') pcb = XTAL1.add(pcb,IC1.pad[2].x-.19,IC1.pad[2].y,z,angle=-90) pcb = wire(pcb,w, IC1.pad[2], point(XTAL1.x+.11,XTAL1.pad[1].y,z), XTAL1.pad[1]) pcb = wire(pcb,w, XTAL1.pad[3], IC1.pad[3]) R1 = R_1206('R1\n10k') pcb = R1.add(pcb,XTAL1.x-.14,XTAL1.y,z,angle=-90) pcb = wire(pcb,w, R1.pad[1], point(R1.pad[1].x,R1.pad[1].y+.04,z), IC1.pad[1]) pcb = wire(pcb,w, IC1.pad[4], R1.pad[2]) J2 = header_power('J2\npower') pcb = J2.add(pcb,x+.18,y+height-.1,z) pcb = wire(pcb,w, XTAL1.pad[2], point(R1.x-.065,J2.pad[1].y,z), J2.pad[1]) IC2 = regulator_SOT23('IC2\n5V') pcb = IC2.add(pcb,J2.x+.29,J2.y,z,angle=180) pcb = wire(pcb,w, IC1.pad[1], IC2.pad[1]) pcb = wire(pcb,w, J2.pad[3], IC2.pad[2]) pcb = wire(pcb,w, J2.pad[1], IC2.pad[3]) C1 = C_1206('C1\n1uF') pcb = C1.add(pcb,IC2.x+.14,IC2.y-.02,z,angle=-90) pcb = wire(pcb,w, C1.pad[1], point(IC1.pad[14].x+.02,IC1.pad[14].y,z)) pcb = wire(pcb,w, IC2.pad[3], C1.pad[1]) pcb = wire(pcb,w, C1.pad[2], IC2.pad[1]) pcb = wire(pcb,w, C1.pad[2], IC2.pad[1]) J3 = header_LCD('J3\nLCD') pcb = J3.add(pcb,IC1.x+.41,IC1.y-.1,z,angle=180) J4 = header_power('J4\nLCD') pcb = J4.add(pcb,IC1.x+.41,IC2.y,z,angle=180) pcb = wire(pcb,w, IC1.pad[13], point(IC1.pad[13].x + 3.5*w, J4.pad[1].y, z), J4.pad[1]) pcb = wire(pcb,w, IC1.pad[12], point(IC1.pad[11].x + 5.3*w,J4.y,z), J4.pad[2]) pcb = wire(pcb,w, IC1.pad[11], J4.pad[3]) pcb = wire(pcb,w, IC1.pad[10], point(J3.x,J4.pad[4].y,z), J4.pad[4]) pcb = wire(pcb,w, IC1.pad[9], J3.pad[5]) pcb = wire(pcb,w, J3.pad[6], point(J3.pad[10].x+.1,J3.pad[10].y,z), J3.pad[10]) pcb = wire(pcb,w, IC1.pad[8], point(J3.pad[7].x,J3.pad[7].y,z), J3.pad[7]) pcb = wire(pcb,w, J1.pad[2], J3.pad[9]) pcb = wire(pcb,w, J1.pad[6], point(J1.pad[6].x,J1.pad[6].y-.08,z), J3.pad[10]) R2 = R_1206('R2\n100k') pcb = R2.add(pcb,J3.pad[9].x,J3.pad[9].y-.1,z,angle=0) pcb = wire(pcb,w, R2.pad[1], J3.pad[9]) R3 = R_1206('R3\n1k') pcb = R3.add(pcb,J3.pad[10].x,J1.pad[2].y,z,angle=0) pcb = wire(pcb,w, R2.pad[2], R3.pad[1]) pcb = wire(pcb,w, J3.pad[8], point(J3.x+.01,R2.y,z)) pcb = wire(pcb,w, R3.pad[2], J3.pad[10]) pcb = wire(pcb,w, J1.pad[6], point(J1.pad[6].x,J1.pad[6].y-.08,z), point(R1.x-.065,J2.pad[1].y,z)) J5 = header_FTDI('J5\nFTDI') pcb = J5.add(pcb, R1.x+3*w, XTAL1.y-.4, z, angle = 180) pcb = wire(pcb,w, J5.pad[5], point(J5.pad[5].x+5*w,IC1.pad[5].y,z), IC1.pad[5]) pcb = wire(pcb,w, J5.pad[4], point(J5.pad[4].x+8*w,IC1.pad[6].y,z), IC1.pad[6]) J6 = header_bus('J6\nBus') pcb = J6.add(pcb, XTAL1.x+.08, J1.y+1.3*w, z, angle = -90) pcb = wire(pcb,w, J5.pad[5], point(J5.x-5*w, J5.pad[3].y-3*w,z), J6, J6.pad[4]) #pcb = wire(pcb,w, # IC1.pad[6], # J6, # J6.pad[2]) # # select output # if (output == "traces, labels, and exterior"): cad.function = add(add(color(Tan,pcb.board),pcb.labels),color(White,pcb.exterior)) elif (output == "traces and exterior"): cad.function = color(White,add(pcb.board,pcb.exterior)) elif (output == "interior"): cad.function = color(White,pcb.interior) elif (output == "exterior"): cad.function = color(White,pcb.exterior) elif(output == "traces"): cad.function = color(White,pcb.board) elif (output == "holes"): z = z-z cad.function = color(White,add(pcb.exterior,subtract(pcb.interior,pcb.board))) elif (output == "solder mask"): cad.function = color(White,pcb.mask) else: print "oops -- don't recognize output" # # set limits and parameters # d = 0.05 cad.xmin = x-d # min x to render cad.xmax = x+width+d # max x to render cad.ymin = y-d # min y to render cad.ymax = y+height+d # max y to render cad.zmin = cad.zmax = z # z to zender cad.mm_per_unit = 25.4 # use inch units cad.type = "RGB" # use RGB color