-#!/usr/bin/python
-# Copyright 2011 by Bdale Garbee <bdale@gag.com>. GPLv2
+#!/usr/bin/python3
+# Copyright 2022 by Bdale Garbee <bdale@gag.com>. GPLv3
#
-# Program to emit PCB footprint for Amphenol micro SD connector
+# Program to emit PCB footprint for GCT MEM2067-02-180-00-A micro SD connector
#
-# dimensions in mm from 101-00303-xx.pdf
-PinWidth = 0.60
-PinHeight = 1.05
+# dimensions in mm from gct/mem2067.pdf
+PinWidth = 0.80
+PinHeight = 1.20
PinSpacing = 1.10
-PinY = 9.47
-PinXOffset = 4.53
+PinY = 9.85
+PinXOffset = 4.475
-MntWidth = 1.05
-MntHeight = 1.50
-MntY1 = 3.60
-MntY2 = 12.00
+MntWidth = 1.50
+MntHeight = 2.00
+MntY1 = 3.85
+MntY2 = 12.05
MntX = 13.60
BoxX = 13.60
-BoxY = 13.30
+BoxY = 14.45
+ArcOffset = 1.05
LineWidth = 1000
MaskAdd = 0.15
def mm2mils100( mm ):
return int( mm / 25.4 * 1000.0 * 100.0 + 0.5 )
-print '# author: Bdale Garbee'
-print '# email: bdale@gag.com'
-print '# dist-license: GPL 2'
-print '# use-license: unlimited'
+print('# author: Bdale Garbee')
+print('# email: bdale@gag.com')
+print('# dist-license: GPL 3')
+print('# use-license: unlimited')
-print 'Element[0x0 "microSD" "" "" 0 0 0 0 0 100 0x0]'
-print "("
+print('Element[0x0 "microSD" "" "" 0 0 0 0 0 100 0x0]')
+print("(")
# mounting pads
-print ' Pad[',\
+print(' Pad[',\
mm2mils100(-MntX/2), \
mm2mils100(MntY1-(MntHeight/2)+(MntWidth/2)), \
mm2mils100(-MntX/2), \
mm2mils100(MntWidth), \
mm2mils100(0), \
mm2mils100(MntWidth + MaskAdd), \
- '"9" "9" 0x0100]'
+ '"9" "9" 0x0100]')
-print ' Pad[',\
+print(' Pad[',\
mm2mils100(MntX/2), \
mm2mils100(MntY1-(MntHeight/2)+(MntWidth/2)), \
mm2mils100(MntX/2), \
mm2mils100(MntWidth), \
mm2mils100(0), \
mm2mils100(MntWidth + MaskAdd), \
- '"9" "9" 0x0100]'
+ '"9" "9" 0x0100]')
-print ' Pad[',\
+print(' Pad[',\
mm2mils100(-MntX/2), \
mm2mils100(MntY2-(MntHeight/2)+(MntWidth/2)), \
mm2mils100(-MntX/2), \
mm2mils100(MntWidth), \
mm2mils100(0), \
mm2mils100(MntWidth + MaskAdd), \
- '"9" "9" 0x0100]'
+ '"9" "9" 0x0100]')
-print ' Pad[',\
+print(' Pad[',\
mm2mils100(MntX/2), \
mm2mils100(MntY2-(MntHeight/2)+(MntWidth/2)), \
mm2mils100(MntX/2), \
mm2mils100(MntWidth), \
mm2mils100(0), \
mm2mils100(MntWidth + MaskAdd), \
- '"9" "9" 0x0100]'
+ '"9" "9" 0x0100]')
# signal pads
for pin in range (1,9):
- print ' Pad[',\
+ print(' Pad[',\
mm2mils100(-PinXOffset + (8-pin) * PinSpacing), \
mm2mils100(PinY-(PinHeight/2)+(PinWidth/2)), \
mm2mils100(-PinXOffset + (8-pin) * PinSpacing), \
mm2mils100(PinWidth), \
mm2mils100(0), \
mm2mils100(PinWidth + MaskAdd), \
- '"pin%i"' % (pin), '"%i"' % (pin), '0x0100]'
+ '"pin%i"' % (pin), '"%i"' % (pin), '0x0100]')
# silkscreen box
-print ' ElementLine[', \
+print(' ElementLine[', \
mm2mils100(BoxX/2), \
mm2mils100(0), \
mm2mils100(BoxX/2), \
mm2mils100(BoxY), \
- LineWidth, ']'
+ LineWidth, ']')
-print ' ElementLine[', \
+print(' ElementLine[', \
mm2mils100(-BoxX/2), \
mm2mils100(0), \
mm2mils100(-BoxX/2), \
mm2mils100(BoxY), \
- LineWidth, ']'
+ LineWidth, ']')
-print ' ElementLine[', \
+print(' ElementLine[', \
mm2mils100(-BoxX/2), \
mm2mils100(0), \
mm2mils100(+BoxX/2), \
mm2mils100(0), \
- LineWidth, ']'
+ LineWidth, ']')
-print ' ElementLine[', \
+print(' ElementLine[', \
mm2mils100(-BoxX/2), \
mm2mils100(BoxY), \
mm2mils100(+BoxX/2), \
mm2mils100(BoxY), \
- LineWidth, ']'
-
-
-print ")"
+ LineWidth, ']')
+
+print(' ElementArc[', \
+ 0, \
+ mm2mils100(BoxY+(BoxX/2)-ArcOffset), \
+ mm2mils100(BoxX/2), \
+ mm2mils100(BoxX/2), \
+ 238, \
+ 64, \
+ LineWidth, ']')
+
+print(")")