/usr/share/pcb/m4/qfn.inc is in pcb-common 20110918-7.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 | # -*- m4 -*-
# $Id$
# COPYRIGHT
#
# PCB, interactive printed circuit board design
# Copyright (C) 2003 Dan McMahill
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
#
#
#
# QFN packages
#
# $1: canonical name
# $2: name on PCB
# $3: value
# $4: number of pins
# $5: body size (mm)
# $6: pad pitch (1/100 mm)
# $7: PCB pad width (1/100 mm)
# $8: Package pad length (1/100 mm)
# $9: Exposed paddle size, 0 for no exposed paddle (1/100 mm)
define(`PKG_GENERIC_QFN',
`
# number of pins on left/right sides (pin1 is upper pin on left side)
define(`LRPINS', `eval($4 / 4)')
# number of pins on top/bottom sides
define(`TBPINS', `eval(`$4' / 2 - LRPINS)')
# pin pitch (1/1000 mil)
define(`PITCH',`eval(`$6'*100000/254)')
# y-coordinate for upper pin on left/right sides (1/1000 mil)
define(`LRYMAX', `eval((LRPINS-1)*PITCH/2)')
# x-coordinate for right pin on top/bottom sides (1/1000 mil)
define(`TBXMAX', `eval((TBPINS-1)*PITCH/2)')
# total horizontal package width (1/1000 mil)
define(`LRWIDTHMM', `ifelse(0,`$5',`787',`eval($5)')')
define(`LRWIDTH', `ifelse(0,`$5',`787',`eval(`$5'*10000000/254)')')
# total vertical package width (1/1000 mil)
define(`TBWIDTH',`ifelse(0,`$5',`551',`eval(`$5'*10000000/254)')')
# how much pads extend beyond the package edge (1/1000 mil) (the 25 is 0.25 mm)
define(`EXTOUT', eval(25*100000/254))
# how much pads extend inward from the package pad edge (1/1000 mil)
define(`EXTIN', eval(5*100000/254))
# pad length/width (1/1000 mil)
define(`PADLENGTH', `eval(`$8'*100000/254)')
define(`PADWIDTH', `eval(`$7'*100000/254)')
# pad width (mil/100)
define(`PADWIDTHMIL100', `eval(PADWIDTH/10)')
# min/max x coordinates for the pads on the left/right sides of the package (mil/100)
define(`LRXMAX',`eval((LRWIDTH/2 + EXTOUT - PADWIDTH/2)/10)')
define(`LRXMIN',`eval((LRWIDTH/2 -PADLENGTH - EXTIN + PADWIDTH/2)/10)')
# min/max y coordinates for the pads on the top/bottom sides of the package (mil/100)
define(`TBYMAX',`eval((TBWIDTH/2 + EXTOUT - PADWIDTH/2)/10)')
define(`TBYMIN',`eval((TBWIDTH/2 -PADLENGTH - EXTIN + PADWIDTH/2)/10)')
# silkscreen width (mils/100)
define(`SILKW', 1000)
# how much the silk screen is moved away from the package (1/1000 mil)
define(`SILKEXT', `eval(EXTOUT + SILKW*10/2 + 5*1000)')
# upper right corner for silk screen (mil/100)
define(`SILKX', `eval((LRWIDTH/2 + SILKEXT )/10)')
define(`SILKY', `eval((TBWIDTH/2 + SILKEXT )/10)')
# refdes text size (mil/100)
define(`TEXTSIZE', 100)
# x,y coordinates for refdes label (mil/100)
define(`TEXTX', -SILKX)
define(`TEXTY', `eval(-SILKY - 1000 - TEXTSIZE/2)')
# square exposed paddle size (mil/100)
define(`EPSIZE', `eval(`$9'*10000/254)')
# pad clearance to polygons (1/100 mil)
define(`PADCLEAR', `2000')
# width of the pad solder mask relief (1/100 mil).
# grow by 1.5 mils on each side
define(`PADMASK', `eval(2*150 + PADWIDTHMIL100)')
# width of the paddle soldermask relief (1/100 mil)
# grow by 200 mils on each side
define(`EPMASK', `eval(2*200 + EPSIZE)')
# element_flags, description, pcb-name, value, mark_x, mark_y,
# text_x, text_y, text_direction, text_scale, text_flags
Element[0x00000000 "$1" "`$2'" "$3" 0 0 TEXTX TEXTY 0 TEXTSIZE 0x00000000]
(
# Pad[X1, Y1, X2, Y3, width, clearance,
# soldermask, "pin name", "pin number", flags]
# left row
define(`CURPIN', 1)
define(`idx',0)
forloop(`i', 1, LRPINS,
`define(`Y', `eval((-LRYMAX + PITCH*idx)/10)')'
`Pad[-LRXMAX Y -LRXMIN Y PADWIDTHMIL100 PADCLEAR PADMASK "CURPIN" "CURPIN" 0x00000100]'
`define(`CURPIN', incr(CURPIN))'
`define(`idx',incr(idx))'
)
# bottom row
define(`idx',0)
forloop(`i', 1, TBPINS,
`define(`X', `eval((-TBXMAX + PITCH*idx)/10)')'
`Pad[X TBYMAX X TBYMIN PADWIDTHMIL100 PADCLEAR PADMASK "CURPIN" "CURPIN" 0x00000900]'
`define(`CURPIN', incr(CURPIN))'
`define(`idx',incr(idx))'
)
# right row
define(`idx',0)
forloop(`i', 1, LRPINS,
`define(`Y', `eval(( LRYMAX - PITCH*idx)/10)')'
`Pad[LRXMAX Y LRXMIN Y PADWIDTHMIL100 PADCLEAR PADMASK "CURPIN" "CURPIN" 0x00000100]'
`define(`CURPIN', incr(CURPIN))'
`define(`idx',incr(idx))'
)
# top row
define(`idx',0)
forloop(`i', 1, TBPINS,
`define(`X', `eval((TBXMAX - PITCH*idx)/10)')'
`Pad[X -TBYMAX X -TBYMIN PADWIDTHMIL100 PADCLEAR PADMASK "CURPIN" "CURPIN" 0x00000900]'
`define(`CURPIN', incr(CURPIN))'
`define(`idx',incr(idx))'
)
# Exposed paddle (if this is an exposed paddle part)
ifelse(1, eval(EPSIZE>0),
# Pad(X1, Y1, X2, Y3, width, clearance,
# soldermask, "pin name", "pin number", flags)
Pad[0 0 0 0 EPSIZE 0 EPMASK "CURPIN" "CURPIN" 0x00000100]
define(`CURPIN', incr(CURPIN))
)
# Silk screen around package
ElementLine[ SILKX SILKY SILKX -SILKY SILKW]
ElementLine[ SILKX -SILKY -SILKX -SILKY SILKW]
ElementLine[-SILKX -SILKY -SILKX SILKY SILKW]
ElementLine[-SILKX SILKY SILKX SILKY SILKW]
# Pin 1 indicator
ElementLine[-SILKX -SILKY eval(-SILKX - 1500) eval(-SILKY - 1500) SILKW]
)')
# -------------------------------------------------------------------
# The following macros take:
# $1: canonical name
# $2: name on PCB
# $3: value
# $4: number of pins
# $5: body size (mm)
# $6: exposed paddle size (1/100 mm). 0 for no exposed paddle
# For an exposed paddle package, the paddle for an 'n' pin package is pin 'n+1'
# 0.8 mm pitch
define(`PKG_QFN_80', `PKG_GENERIC_QFN(`$1',`$2',`$3',`$4',`$5', `80',`42',`60', `$6')')
# 0.65 mm pitch
define(`PKG_QFN_65', `PKG_GENERIC_QFN(`$1',`$2',`$3',`$4',`$5', `65',`37',`60', `$6')')
# 0.50 mm pitch, 0.6 mm pad length
define(`PKG_QFN_50', `PKG_GENERIC_QFN(`$1',`$2',`$3',`$4',`$5', `50',`28',`60', `$6')')
# 0.50 mm pitch, 0.4 mm pad length
define(`PKG_QFN_50S',`PKG_GENERIC_QFN(`$1',`$2',`$3',`$4',`$5', `50',`28',`40', `$6')')
# 0.40 mm pitch
define(`PKG_QFN_40', `PKG_GENERIC_QFN(`$1',`$2',`$3',`$4',`$5', `40',`25',`60', `$6')')
# PKG_GENERIC_QFN
# $1: canonical name
# $2: name on PCB
# $3: value
# $4: number of pins
# $5: body size (mm)
# $6: pad pitch (1/100 mm)
# $7: PCB pad width (1/100 mm)
# $8: Package pad length (1/100 mm)
# $9: Exposed paddle size, 0 for no exposed paddle (1/100 mm)
# -------------------------------------------------------------------
|