#!/usr/bin/python3 # Copyright 2009 by Bdale Garbee . GPLv2 # # Program to emit PCB footprint for # Tyco/AMP Micro-MaTch vertical through-hole female connectors # # Needs pin count on command line, in range of 4..20 even numbers only # # dimensions in mm from C_215079_v.pdf datasheet PinDiam = 0.8 PinSpacing = 1.27 RowSpacing = 2.54 MntX = 1.4 MntY = 1.8 MntDiam = 1.5 BoxY = 5.1 BoxXbase = 4.79 LineWidth = 600 # freedfm.com round-off error bites us if we make this 700... MinAnnular = 725 MinClearance = 600 MaskDelta = 300 import sys # we're going to use the 1/100 of a mil fundamental unit form def mm2mils100( mm ): return int( mm / 25.4 * 1000.0 * 100.0 + 0.5 ) pins = int(sys.argv[1]) if pins < 4: sys.stderr.write('Must be at least 4 pins\n') sys.exit(1) if pins == 22: sys.stderr.write('There is no 22 pin version!\n') sys.exit(1) if pins > 24: sys.stderr.write('Must be no more than 24 pins\n') sys.exit(1) if len(sys.argv) > 2: if sys.argv[2] == "latch": BoxXbase = 5.89 if pins == 24: sys.stderr.write('There is no 24 pin latching version!\n') sys.exit(1) print('# author: Bdale Garbee') print('# email: bdale@gag.com') print('# dist-license: GPL 2') print('# use-license: unlimited') print('Element[0x0 "MicroMatch%i"' % pins,'"" "" 0 0 0 0 0 100 0x0]') print("(") for col in range (int((pins+1)/2)): for row in range (2): if row == 1: spacing=0 else: spacing=RowSpacing pinnum = (col * 2) + row + 1 if pinnum == 1: Flags = '0x0101' else: Flags = '0x0001' print(' Pin[', \ mm2mils100((pinnum-1)*PinSpacing), \ mm2mils100(spacing), \ mm2mils100(PinDiam)+(MinAnnular*2), \ (MinClearance*2), \ mm2mils100(PinDiam)+(MinAnnular*2)+(MaskDelta*2), \ mm2mils100(PinDiam), \ '"pin%i"' % pinnum, '"%i"' % pinnum, Flags, ']') # add a hole for the index pin. plated to save non-plated-hole extra fab cost. print(' Pin[', \ mm2mils100(-MntX), \ mm2mils100(RowSpacing-MntY), \ mm2mils100(MntDiam)+(MinAnnular*2), \ (MinClearance*2), \ mm2mils100(MntDiam)+(MinAnnular*2)+(MaskDelta*2), \ mm2mils100(MntDiam), \ '"mnt" "0"', '0x0001', ']') BoxX = (pins - 1) * PinSpacing + BoxXbase BoxX1 = -(BoxXbase/2) BoxX2 = BoxX1 + BoxX BoxY1 = -(BoxY - RowSpacing)/2 BoxY2 = BoxY1 + BoxY print(' ElementLine[', \ mm2mils100(BoxX1), \ mm2mils100(BoxY1), \ mm2mils100(BoxX1), \ mm2mils100(BoxY2), \ LineWidth, ']') print(' ElementLine[', \ mm2mils100(BoxX1), \ mm2mils100(BoxY2), \ mm2mils100(BoxX2), \ mm2mils100(BoxY2), \ LineWidth, ']') print(' ElementLine[', \ mm2mils100(BoxX2), \ mm2mils100(BoxY2), \ mm2mils100(BoxX2), \ mm2mils100(BoxY1), \ LineWidth, ']') print(' ElementLine[', \ mm2mils100(BoxX2), \ mm2mils100(BoxY1), \ mm2mils100(BoxX1), \ mm2mils100(BoxY1), \ LineWidth, ']') print(")")