added support for a new keyboard model
This commit is contained in:
parent
dbc411f969
commit
5d7ab00387
@ -23,6 +23,7 @@ CC = avr-gcc
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# Options:
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DEFINES = -DMODELIBMMODELM
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#DEFINES = -DMODELMAYHEM
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#DEFINES = -DMODELSUNTYPE5
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CFLAGS = -Wall -Os -I. -mmcu=$(DEVICE) -DF_CPU=$(F_CPU) $(DEFINES)
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@ -147,6 +147,21 @@ static inline void bootLoaderInit(void) {
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PORTC = 0xff;
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}
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#endif
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#ifdef MODELMAYHEM
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static inline void bootLoaderInit(void) {
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// switch on leds
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DDRD |= (1 << PIND1) | (1 << PIND3) | (1 << PIND6) | (1 << PIND7);
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PORTD &= ~((1 << PIND1) | (1 << PIND3) | (1 << PIND6) | (1 << PIND7));
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// choose matrix position for hotkey. we use KEY_D, so we set row 4
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// and later look for column 5
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DDRA = (1 << DDA4);
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PORTA = ~(1 << PINA4);
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DDRB &= ~(1 << PB5);
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PORTB |= (1 << PB5);
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DDRC = 0x00;
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PORTC = 0xff;
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}
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#endif
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#ifdef MODELSUNTYPE5
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static inline void bootLoaderInit(void) {
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// configure ports
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@ -189,6 +204,12 @@ static inline void bootLoaderExit(void) {
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PORTD |= (1 << PIND4) | (1 << PIND5) | (1 << PIND6);
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}
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#endif
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#ifdef MODELMAYHEM
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static inline void bootLoaderExit(void) {
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// switch off leds
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PORTD |= (1 << PIND1) | (1 << PIND3) | (1 << PIND6) | (1 << PIND7);
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}
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#endif
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#ifdef MODELSUNTYPE5
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static inline void bootLoaderExit(void) {
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// switch off leds
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@ -230,6 +251,34 @@ static inline uint8_t bootLoaderCondition() {
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}
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}
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#endif
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#ifdef MODELMAYHEM
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static inline uint8_t bootLoaderCondition() {
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// look for pin 5
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if (!(PINB & (1 << PINB5))) {
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// boot loader active, fade leds
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ledcounter++;
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if (ledcounter < ledbrightness) {
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// switch on leds
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PORTD &= ~((1 << PIND1) | (1 << PIND3) | (1 << PIND6) | (1 << PIND7));
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} else {
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// switch off leds
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PORTD |= (1 << PIND1) | (1 << PIND3) | (1 << PIND6) | (1 << PIND7);
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}
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if (ledcounter == 255) {
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ledcounter = 0;
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ledbrightness += leddirection;
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if (ledbrightness == 255) {
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leddirection = -leddirection;
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ledbrightness += leddirection;
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}
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}
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return 1;
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} else {
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// no boot loader
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return 0;
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}
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}
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#endif
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#ifdef MODELSUNTYPE5
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static inline uint8_t bootLoaderCondition() {
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// look for pin 12, KEY_D
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8804
circuit_model_mayhem/dulcimer-Circuit.ps
Normal file
8804
circuit_model_mayhem/dulcimer-Circuit.ps
Normal file
File diff suppressed because it is too large
Load Diff
31
circuit_model_mayhem/dulcimer.cache.bck
Normal file
31
circuit_model_mayhem/dulcimer.cache.bck
Normal file
@ -0,0 +1,31 @@
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EESchema-DOCLIB Version 2.0 12/11/2008-07:33:03
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#
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$CMP C
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D Condensateur non polarise
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$ENDCMP
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#
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$CMP CONN_2
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D Symbole general de connecteur
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K CONN
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$ENDCMP
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#
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$CMP CP
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D Condensateur polarise
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$ENDCMP
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#
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$CMP R
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D Resistance
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K R DEV
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$ENDCMP
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#
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$CMP USB_CONN
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D USB CONNECTOR
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K USB
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$ENDCMP
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#
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$CMP ZENER
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D Diode zener
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K DEV DIODE
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$ENDCMP
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#
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#End Doc Library
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354
circuit_model_mayhem/dulcimer.cache.lib
Normal file
354
circuit_model_mayhem/dulcimer.cache.lib
Normal file
@ -0,0 +1,354 @@
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EESchema-LIBRARY Version 12/11/2008-07:33:03
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#
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#
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# C
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#
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DEF C C 0 10 N Y 1 F N
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F0 "C" 50 100 50 H V L C
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F1 "C" 50 -100 50 H V L C
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$FPLIST
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SM*
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C?
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C1-1
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$ENDFPLIST
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DRAW
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P 2 0 1 8 -100 30 100 30 N
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P 2 0 1 8 -100 -30 100 -30 N
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X ~ 1 0 200 170 D 40 40 1 1 P
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X ~ 2 0 -200 170 U 40 40 1 1 P
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ENDDRAW
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ENDDEF
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#
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# CONN_2
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#
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DEF CONN_2 P 0 40 Y N 1 F N
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F0 "P" -50 0 40 V V C C
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F1 "CONN_2" 50 0 40 V V C C
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DRAW
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S -100 150 100 -150 0 1 0 N
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X PM 2 -350 -100 250 R 60 60 1 1 P I
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X P1 1 -350 100 250 R 60 60 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# CP
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#
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DEF CP C 0 10 N N 1 F N
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F0 "C" 50 100 50 H V L C
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F1 "CP" 50 -100 50 H V L C
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ALIAS CAPAPOL
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$FPLIST
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CP*
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SM*
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$ENDFPLIST
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DRAW
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P 4 0 1 0 -50 50 -50 -20 50 -20 50 50 F
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P 4 0 1 8 -100 50 -100 -50 100 -50 100 50 N
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X ~ 1 0 200 150 D 40 40 1 1 P
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X ~ 2 0 -200 150 U 40 40 1 1 P
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ENDDRAW
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ENDDEF
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#
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# CRYSTAL
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#
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DEF CRYSTAL X 0 40 N N 0 F N
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F0 "X" 0 150 60 H V C C
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F1 "CRYSTAL" 0 -150 60 H V C C
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DRAW
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P 5 0 1 12 -50 50 50 50 50 -50 -50 -50 -50 50 f
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P 2 0 1 16 -100 100 -100 -100 N
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P 2 0 1 16 100 100 100 -100 N
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X 2 2 300 0 200 L 40 40 1 1 P
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X 1 1 -300 0 200 R 40 40 1 1 P
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ENDDRAW
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ENDDEF
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#
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# GND
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#
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DEF ~GND #PWR 0 0 Y Y 1 F P
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F0 "#PWR" 0 0 30 H I C C
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F1 "GND" 0 -70 30 H I C C
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DRAW
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P 4 0 1 4 -50 0 0 -50 50 0 -50 0 N
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X GND 1 0 0 0 U 30 30 1 1 W N
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ENDDRAW
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ENDDEF
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#
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# MEGA32-P
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#
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DEF MEGA32-P IC 0 40 Y Y 1 L N
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F0 "IC" -800 1830 50 H V L B
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F1 "MEGA32-P" 200 -2000 50 H V L B
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F2 "atmel-DIL40" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -800 1800 800 1800 N
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P 2 1 0 0 800 1800 800 -1800 N
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P 2 1 0 0 800 -1800 -800 -1800 N
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P 2 1 0 0 -800 -1800 -800 1800 N
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X VCC 10 -100 2000 200 D 40 40 1 1 W
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X AVCC 30 0 2000 200 D 40 40 1 1 W
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X (RXD)PD0 14 1000 -1700 200 L 40 40 1 1 B
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X (TXD)PD1 15 1000 -1600 200 L 40 40 1 1 B
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X (INT0)PD2 16 1000 -1500 200 L 40 40 1 1 B
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X (INT1)PD3 17 1000 -1400 200 L 40 40 1 1 B
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X (OC1B)PD4 18 1000 -1300 200 L 40 40 1 1 B
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X (OC1A)PD5 19 1000 -1200 200 L 40 40 1 1 B
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X (ICP)PD6 20 1000 -1100 200 L 40 40 1 1 B
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X (OC2)PD7 21 1000 -1000 200 L 40 40 1 1 B
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X (SCL)PC0 22 1000 -800 200 L 40 40 1 1 B
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X (SDA)PC1 23 1000 -700 200 L 40 40 1 1 B
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X (TCK)PC2 24 1000 -600 200 L 40 40 1 1 B
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X (TMS)PC3 25 1000 -500 200 L 40 40 1 1 B
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X (TDO)PC4 26 1000 -400 200 L 40 40 1 1 B
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X (TDI)PC5 27 1000 -300 200 L 40 40 1 1 B
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X (TOSC1)PC6 28 1000 -200 200 L 40 40 1 1 B
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X (TOSC2)PC7 29 1000 -100 200 L 40 40 1 1 B
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X (T0/XCK)PB0 1 1000 100 200 L 40 40 1 1 B
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X (T1)PB1 2 1000 200 200 L 40 40 1 1 B
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X (AIN0/INT2)PB2 3 1000 300 200 L 40 40 1 1 B
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X (AIN1/OC0)PB3 4 1000 400 200 L 40 40 1 1 B
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X (SS)PB4 5 1000 500 200 L 40 40 1 1 B
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X (MOSI)PB5 6 1000 600 200 L 40 40 1 1 B
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X (MISO)PB6 7 1000 700 200 L 40 40 1 1 B
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X (SCK)PB7 8 1000 800 200 L 40 40 1 1 B
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X (ADC0)PA0 40 1000 1000 200 L 40 40 1 1 B
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X (ADC1)PA1 39 1000 1100 200 L 40 40 1 1 B
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X (ADC2)PA2 38 1000 1200 200 L 40 40 1 1 B
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X (ADC3)PA3 37 1000 1300 200 L 40 40 1 1 B
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X (ADC4)PA4 36 1000 1400 200 L 40 40 1 1 B
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X (ADC5)PA5 35 1000 1500 200 L 40 40 1 1 B
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X (ADC6)PA6 34 1000 1600 200 L 40 40 1 1 B
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X (ADC7)PA7 33 1000 1700 200 L 40 40 1 1 B
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X AREF 32 -1000 500 200 R 40 40 1 1 W
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X XTAL1 13 -1000 900 200 R 40 40 1 1 B
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X XTAL2 12 -1000 1300 200 R 40 40 1 1 B
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X RESET 9 -1000 1700 200 R 40 40 1 1 I I
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X GND 11 -100 -2000 200 U 40 40 1 1 W
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X AGND 31 0 -2000 200 U 40 40 1 1 W
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X16M
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#
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DEF PINHD-1X16M JP 0 40 Y Y 1 L N
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F0 "JP" -250 825 50 H V L B
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F1 "PINHD-1X16M" -250 -1000 50 H V L B
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F2 "pinhead-1X16M" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 800 -250 -900 N
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P 2 1 0 0 50 800 -250 800 N
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P 2 1 0 0 50 -900 50 800 N
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P 2 1 0 0 -250 -900 50 -900 N
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X 16 16 -100 -800 100 R 40 40 1 1 P I
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X 15 15 -100 -700 100 R 40 40 1 1 P I
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X 14 14 -100 -600 100 R 40 40 1 1 P I
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X 13 13 -100 -500 100 R 40 40 1 1 P I
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X 12 12 -100 -400 100 R 40 40 1 1 P I
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X 11 11 -100 -300 100 R 40 40 1 1 P I
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X 10 10 -100 -200 100 R 40 40 1 1 P I
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X 9 9 -100 -100 100 R 40 40 1 1 P I
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X 8 8 -100 0 100 R 40 40 1 1 P I
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X 7 7 -100 100 100 R 40 40 1 1 P I
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X 6 6 -100 200 100 R 40 40 1 1 P I
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X 5 5 -100 300 100 R 40 40 1 1 P I
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X 4 4 -100 400 100 R 40 40 1 1 P I
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X 3 3 -100 500 100 R 40 40 1 1 P I
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X 2 2 -100 600 100 R 40 40 1 1 P I
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X 1 1 -100 700 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X3
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#
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DEF PINHD-1X3 JP 0 40 Y Y 1 L N
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F0 "JP" -250 225 50 H V L B
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F1 "PINHD-1X3" -250 -300 50 H V L B
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F2 "pinhead-1X03" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 200 -250 -200 N
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P 2 1 0 0 50 200 -250 200 N
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P 2 1 0 0 50 -200 50 200 N
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P 2 1 0 0 -250 -200 50 -200 N
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X 3 3 -100 -100 100 R 40 40 1 1 P I
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X 2 2 -100 0 100 R 40 40 1 1 P I
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X 1 1 -100 100 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X3M
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#
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DEF PINHD-1X3M JP 0 40 Y Y 1 L N
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F0 "JP" -250 225 50 H V L B
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F1 "PINHD-1X3M" -250 -300 50 H V L B
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F2 "pinhead-1X03M" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 200 -250 -200 N
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P 2 1 0 0 50 200 -250 200 N
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P 2 1 0 0 50 -200 50 200 N
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P 2 1 0 0 -250 -200 50 -200 N
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X 3 3 -100 -100 100 R 40 40 1 1 P I
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X 2 2 -100 0 100 R 40 40 1 1 P I
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X 1 1 -100 100 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X4
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#
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DEF PINHD-1X4 JP 0 40 Y Y 1 L N
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F0 "JP" -250 325 50 H V L B
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F1 "PINHD-1X4" -250 -300 50 H V L B
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F2 "pinhead-1X04" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 300 -250 -200 N
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P 2 1 0 0 50 300 -250 300 N
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P 2 1 0 0 50 -200 50 300 N
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P 2 1 0 0 -250 -200 50 -200 N
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X 4 4 -100 -100 100 R 40 40 1 1 P I
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X 3 3 -100 0 100 R 40 40 1 1 P I
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X 2 2 -100 100 100 R 40 40 1 1 P I
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X 1 1 -100 200 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X5M
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#
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DEF PINHD-1X5M JP 0 40 Y Y 1 L N
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F0 "JP" -250 325 50 H V L B
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F1 "PINHD-1X5M" -250 -400 50 H V L B
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F2 "pinhead-1X05M" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 300 -250 -300 N
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P 2 1 0 0 50 300 -250 300 N
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P 2 1 0 0 50 -300 50 300 N
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P 2 1 0 0 -250 -300 50 -300 N
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X 5 5 -100 -200 100 R 40 40 1 1 P I
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X 4 4 -100 -100 100 R 40 40 1 1 P I
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X 3 3 -100 0 100 R 40 40 1 1 P I
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X 2 2 -100 100 100 R 40 40 1 1 P I
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X 1 1 -100 200 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-1X8M
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#
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DEF PINHD-1X8M JP 0 40 Y Y 1 L N
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F0 "JP" -250 525 50 H V L B
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F1 "PINHD-1X8M" -250 -500 50 H V L B
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F2 "pinhead-1X08M" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 500 -250 -400 N
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P 2 1 0 0 50 500 -250 500 N
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P 2 1 0 0 50 -400 50 500 N
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P 2 1 0 0 -250 -400 50 -400 N
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X 8 8 -100 -300 100 R 40 40 1 1 P I
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X 7 7 -100 -200 100 R 40 40 1 1 P I
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X 6 6 -100 -100 100 R 40 40 1 1 P I
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X 5 5 -100 0 100 R 40 40 1 1 P I
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X 4 4 -100 100 100 R 40 40 1 1 P I
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X 3 3 -100 200 100 R 40 40 1 1 P I
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X 2 2 -100 300 100 R 40 40 1 1 P I
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X 1 1 -100 400 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# PINHD-2X5M
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#
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DEF PINHD-2X5M JP 0 40 Y Y 1 L N
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F0 "JP" -250 325 50 H V L B
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F1 "PINHD-2X5M" -250 -400 50 H V L B
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F2 "pinhead-2X05M" 0 150 50 H I C C
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DRAW
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P 2 1 0 0 -250 300 -250 -300 N
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P 2 1 0 0 350 300 -250 300 N
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P 2 1 0 0 350 -300 350 300 N
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P 2 1 0 0 -250 -300 350 -300 N
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X 10 10 200 -200 100 L 40 40 1 1 P I
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X 8 8 200 -100 100 L 40 40 1 1 P I
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X 6 6 200 0 100 L 40 40 1 1 P I
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X 4 4 200 100 100 L 40 40 1 1 P I
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X 2 2 200 200 100 L 40 40 1 1 P I
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X 9 9 -100 -200 100 R 40 40 1 1 P I
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X 7 7 -100 -100 100 R 40 40 1 1 P I
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X 5 5 -100 0 100 R 40 40 1 1 P I
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X 3 3 -100 100 100 R 40 40 1 1 P I
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X 1 1 -100 200 100 R 40 40 1 1 P I
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ENDDRAW
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ENDDEF
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#
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# R
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#
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DEF R R 0 0 N Y 1 F N
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F0 "R" 80 0 50 V V C C
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F1 "R" 0 0 50 V V C C
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$FPLIST
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R?
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SM0603
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SM0805
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$ENDFPLIST
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DRAW
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S -40 150 40 -150 0 1 8 N
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X ~ 1 0 250 100 D 60 60 1 1 P
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X ~ 2 0 -250 100 U 60 60 1 1 P
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ENDDRAW
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ENDDEF
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#
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# USB_CONN
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#
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DEF USB_CONN J 0 0 Y Y 1 F N
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F0 "J" -50 400 60 H V C C
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F1 "USB_CONN" -250 150 60 V V C C
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ALIAS USB
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DRAW
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P 3 0 1 0 100 -50 200 -200 200 -200 N
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S 50 100 50 200 0 1 0 N
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P 4 0 1 0 -100 -450 -50 -400 -50 -50 -50 -50 N
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P 4 0 1 0 0 -50 0 -400 50 -450 50 -450 N
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P 9 0 1 0 -150 0 100 0 100 250 50 300 -100 300 -150 250 -150 0 -150 0 -150 0 N
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S -100 200 -100 100 0 1 0 N
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P 4 0 1 0 50 -50 50 -250 200 -350 200 -350 N
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S -100 200 -100 200 0 1 0 N
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P 3 0 1 0 -150 -50 -250 -200 -250 -200 N
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S 50 100 -100 100 0 1 0 N
|
||||
P 6 0 1 0 -200 -50 150 -50 150 350 -200 350 -200 -50 -200 -50 N
|
||||
S -100 200 50 200 0 1 0 N
|
||||
P 4 0 1 0 -100 -50 -100 -250 -250 -350 -250 -350 N
|
||||
X Shield_1 5 350 -450 300 L 40 30 1 1 P
|
||||
X D- 2 350 -350 150 L 40 30 1 1 B
|
||||
X D+ 3 350 -200 150 L 40 30 1 1 B
|
||||
X Shield_2 6 -400 -450 300 R 40 30 1 1 P
|
||||
X GND 4 -400 -350 150 R 40 30 1 1 w
|
||||
X Vbus 1 -400 -200 150 R 40 30 1 1 w
|
||||
ENDDRAW
|
||||
ENDDEF
|
||||
#
|
||||
# VCC
|
||||
#
|
||||
DEF VCC #PWR 0 0 Y Y 1 F P
|
||||
F0 "#PWR" 0 100 30 H I C C
|
||||
F1 "VCC" 0 100 30 H V C C
|
||||
DRAW
|
||||
C 0 50 20 0 1 4 N
|
||||
P 3 0 1 4 0 0 0 30 0 30 N
|
||||
X VCC 1 0 0 0 U 20 20 0 0 W N
|
||||
ENDDRAW
|
||||
ENDDEF
|
||||
#
|
||||
# ZENER
|
||||
#
|
||||
DEF ZENER D 0 40 N N 1 F N
|
||||
F0 "D" 0 100 50 H V C C
|
||||
F1 "ZENER" 0 -100 40 H V C C
|
||||
$FPLIST
|
||||
D?
|
||||
SO*
|
||||
SM*
|
||||
$ENDFPLIST
|
||||
DRAW
|
||||
P 5 0 1 0 50 0 -50 50 -50 -50 50 0 50 0 F
|
||||
P 5 0 1 8 70 50 50 30 50 -30 30 -50 30 -50 N
|
||||
X K 2 200 0 150 L 40 40 1 1 P
|
||||
X A 1 -200 0 150 R 40 40 1 1 P
|
||||
ENDDRAW
|
||||
ENDDEF
|
||||
#
|
||||
#EndLibrary
|
146
circuit_model_mayhem/dulcimer.pro
Normal file
146
circuit_model_mayhem/dulcimer.pro
Normal file
@ -0,0 +1,146 @@
|
||||
update=16/4/2008-14:31:58
|
||||
last_client=pcbnew
|
||||
[general]
|
||||
version=1
|
||||
RootSch=dulcimer.sch
|
||||
[common]
|
||||
NetDir=
|
||||
[eeschema]
|
||||
version=1
|
||||
LibDir=
|
||||
NetFmt=1
|
||||
HPGLSpd=20
|
||||
HPGLDm=15
|
||||
HPGLNum=1
|
||||
offX_A4=0
|
||||
offY_A4=0
|
||||
offX_A3=0
|
||||
offY_A3=0
|
||||
offX_A2=0
|
||||
offY_A2=0
|
||||
offX_A1=0
|
||||
offY_A1=0
|
||||
offX_A0=0
|
||||
offY_A0=0
|
||||
offX_A=0
|
||||
offY_A=0
|
||||
offX_B=0
|
||||
offY_B=0
|
||||
offX_C=0
|
||||
offY_C=0
|
||||
offX_D=0
|
||||
offY_D=0
|
||||
offX_E=0
|
||||
offY_E=0
|
||||
RptD_X=0
|
||||
RptD_Y=100
|
||||
RptLab=1
|
||||
SimCmd=
|
||||
UseNetN=0
|
||||
LabSize=60
|
||||
[eeschema/libraries]
|
||||
LibName1=power
|
||||
LibName2=pinhead
|
||||
LibName3=device
|
||||
LibName4=conn
|
||||
LibName5=linear
|
||||
LibName6=regul
|
||||
LibName7=74xx
|
||||
LibName8=cmos4000
|
||||
LibName9=adc-dac
|
||||
LibName10=memory
|
||||
LibName11=xilinx
|
||||
LibName12=special
|
||||
LibName13=microcontrollers
|
||||
LibName14=dsp
|
||||
LibName15=microchip
|
||||
LibName16=analog_switches
|
||||
LibName17=motorola
|
||||
LibName18=texas
|
||||
LibName19=intel
|
||||
LibName20=audio
|
||||
LibName21=interface
|
||||
LibName22=digital-audio
|
||||
LibName23=philips
|
||||
LibName24=display
|
||||
LibName25=cypress
|
||||
LibName26=siliconi
|
||||
LibName27=contrib
|
||||
LibName28=valves
|
||||
[cvpcb]
|
||||
version=1
|
||||
NetITyp=0
|
||||
NetIExt=.net
|
||||
PkgIExt=.pkg
|
||||
NetType=0
|
||||
[cvpcb/libraries]
|
||||
EquName1=devcms
|
||||
[pcbnew]
|
||||
version=1
|
||||
PadDrlX=320
|
||||
PadDimH=600
|
||||
PadDimV=600
|
||||
PadForm=1
|
||||
PadMask=14745599
|
||||
ViaDiam=450
|
||||
ViaDril=250
|
||||
MViaDia=200
|
||||
MViaDrl=80
|
||||
Isol=60
|
||||
Countlayer=2
|
||||
Lpiste=170
|
||||
RouteTo=15
|
||||
RouteBo=0
|
||||
TypeVia=3
|
||||
Segm45=1
|
||||
Racc45=1
|
||||
Unite=0
|
||||
SegFill=1
|
||||
SegAffG=0
|
||||
NewAffG=1
|
||||
PadFill=1
|
||||
PadAffG=1
|
||||
PadSNum=1
|
||||
ModAffC=0
|
||||
ModAffT=0
|
||||
PcbAffT=0
|
||||
SgPcb45=1
|
||||
TxtPcbV=800
|
||||
TxtPcbH=600
|
||||
TxtModV=600
|
||||
TxtModH=600
|
||||
TxtModW=120
|
||||
HPGLnum=1
|
||||
HPGdiam=15
|
||||
HPGLSpd=20
|
||||
HPGLrec=2
|
||||
HPGLorg=0
|
||||
GERBmin=15
|
||||
VEgarde=100
|
||||
DrawLar=150
|
||||
EdgeLar=150
|
||||
TxtLar=120
|
||||
MSegLar=150
|
||||
ForPlot=1
|
||||
WpenSer=10
|
||||
UserGrX=1
|
||||
UserGrY=1
|
||||
UserGrU=1
|
||||
DivGrPc=1
|
||||
TimeOut=600
|
||||
MaxLnkS=3
|
||||
ShowRat=0
|
||||
ShowMRa=1
|
||||
[pcbnew/libraries]
|
||||
LibDir=
|
||||
LibName1=supports
|
||||
LibName2=pl_empreinte
|
||||
LibName3=pinhead
|
||||
LibName4=atmel
|
||||
LibName5=connect
|
||||
LibName6=discret
|
||||
LibName7=pin_array
|
||||
LibName8=divers
|
||||
LibName9=libcms
|
||||
LibName10=display
|
||||
LibName11=valves
|
1073
circuit_model_mayhem/dulcimer.sch
Normal file
1073
circuit_model_mayhem/dulcimer.sch
Normal file
File diff suppressed because it is too large
Load Diff
@ -11,6 +11,7 @@ AVRDUDE = avrdude -p atmega32 -c usbasp
|
||||
|
||||
# Options:
|
||||
HWOBJECTS = modelibmmodelm.o
|
||||
#HWOBJECTS = modelmayhem.o
|
||||
#HWOBJECTS = modelsuntype5.o
|
||||
|
||||
COMPILE = avr-gcc -Wall -Os -Iusbdrv -I. -mmcu=atmega32 -DF_CPU=12000000L $(DEFINES)
|
||||
|
311
firmware/modelmayhem.c
Normal file
311
firmware/modelmayhem.c
Normal file
@ -0,0 +1,311 @@
|
||||
/**
|
||||
* \file firmware/modelmayhem.c
|
||||
* \brief Hardware specific part for IBM Model M keyboard, modified to be the
|
||||
* ultimate geek keyboard. :-)
|
||||
* \author Ronald Schaten <ronald@schatenseite.de>
|
||||
* \version $Id$
|
||||
*
|
||||
* License: GNU GPL v2 (see License.txt)
|
||||
*/
|
||||
|
||||
#include <avr/io.h>
|
||||
#include <avr/pgmspace.h>
|
||||
#include <util/delay.h>
|
||||
#include <string.h>
|
||||
#include <stdio.h>
|
||||
|
||||
#include "keycodes.h"
|
||||
#include "tools.h"
|
||||
#include "modelinterface.h"
|
||||
|
||||
/* ----------------------- hardware I/O abstraction ------------------------ */
|
||||
|
||||
#define PORTCOLUMNS PORTB ///< port on which we read the state of the columns
|
||||
#define PINCOLUMNS PINB ///< port on which we read the state of the columns
|
||||
#define DDRCOLUMNS DDRB ///< port on which we read the state of the columns
|
||||
#define PORTROWS1 PORTA ///< first port connected to the matrix rows
|
||||
#define PINROWS1 PINA ///< first port connected to the matrix rows
|
||||
#define DDRROWS1 DDRA ///< first port connected to the matrix rows
|
||||
#define PORTROWS2 PORTC ///< second port connected to the matrix rows
|
||||
#define PINROWS2 PINC ///< second port connected to the matrix rows
|
||||
#define DDRROWS2 DDRC ///< second port connected to the matrix rows
|
||||
|
||||
#define PORTLEDS PORTD ///< port on which the LEDs are connected
|
||||
#define PINLEDS PIND ///< port on which the LEDs are connected
|
||||
#define DDRLEDS DDRD ///< port on which the LEDs are connected
|
||||
#define LEDCOMP PIND1 ///< address of the compose LED
|
||||
#define LEDNUM PIND3 ///< address of the num-lock LED
|
||||
#define LEDCAPS PIND6 ///< address of the caps-lock LED
|
||||
#define LEDSCROLL PIND7 ///< address of the scroll-lock LED
|
||||
#define LEDBACK1 PIND4 ///< address of the first backlight LED
|
||||
#define LEDBACK2 PIND5 ///< address of the second backlight LED
|
||||
|
||||
uint8_t curmatrix[16]; ///< contains current state of the keyboard
|
||||
uint8_t oldmatrix[16]; ///< contains old state of the keyboard
|
||||
uint8_t ghostmatrix[16]; ///< contains pressed keys that belong to a ghost-key situation
|
||||
|
||||
void hardwareInit(void) {
|
||||
// column-port is input
|
||||
PORTCOLUMNS = 0xff;
|
||||
DDRCOLUMNS = 0x00;
|
||||
|
||||
// row-ports are output
|
||||
PORTROWS1 = 0xff;
|
||||
DDRROWS1 = 0x00;
|
||||
PORTROWS2 = 0xff;
|
||||
DDRROWS2 = 0x00;
|
||||
|
||||
// port D contains USB (D0, D2),
|
||||
// LEDs (D4, D5, D6)
|
||||
// and Jumpers (D1, D3, D7),
|
||||
// so we call it PORTD instead of PORTJUMPERS or PORTLEDS
|
||||
PORTD = 0xfa; // 1111 1010: no pull-ups on USB- and LED-lines
|
||||
DDRD = 0xff; // 1111 1111: USB reset condition, LED-lines off
|
||||
// USB Reset by device only required on Watchdog Reset
|
||||
_delay_us(11); // delay >10ms for USB reset
|
||||
DDRD = 0xfa; // 1111 1010: remove USB reset condition
|
||||
|
||||
// configure timer 0 for a rate of 12M/(1024 * 256) = 45.78Hz (~22ms)
|
||||
TCCR0 = 5; // timer 0 prescaler: 1024
|
||||
|
||||
// blink, to indicate power-on
|
||||
PORTLEDS &= ~((1 << LEDNUM) | (1 << LEDCAPS) | (1 << LEDSCROLL) | (1 << LEDCOMP));
|
||||
_delay_ms(50);
|
||||
PORTLEDS |= ((1 << LEDNUM) | (1 << LEDCAPS) | (1 << LEDSCROLL) | (1 << LEDCOMP));
|
||||
}
|
||||
|
||||
/**
|
||||
* Print the current state of the keyboard in a readable form. This function
|
||||
* is used for debug-purposes only.
|
||||
*/
|
||||
void printMatrix(void) {
|
||||
for (uint8_t i = 0; i <= 15; i++) {
|
||||
char buffer[10];
|
||||
/*
|
||||
sprintf(buffer, "%d%d%d%d%d%d%d%d.",
|
||||
(curmatrix[i] & (1 << 0) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 1) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 2) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 3) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 4) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 5) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 6) ? 1 : 0),
|
||||
(curmatrix[i] & (1 << 7) ? 1 : 0));
|
||||
*/
|
||||
sprintf(buffer, "%2x", curmatrix[i]);
|
||||
sendString(buffer);
|
||||
if (i == 7) {
|
||||
sendString(":");
|
||||
} else {
|
||||
sendString(".");
|
||||
}
|
||||
}
|
||||
sendString("---");
|
||||
}
|
||||
|
||||
void setLeds(uint8_t LEDstate) {
|
||||
if (LEDstate & LED_NUM) { // light up num lock
|
||||
PORTLEDS &= ~(1 << LEDNUM);
|
||||
} else {
|
||||
PORTLEDS |= (1 << LEDNUM);
|
||||
}
|
||||
if (LEDstate & LED_CAPS) { // light up caps lock
|
||||
PORTLEDS &= ~(1 << LEDCAPS);
|
||||
} else {
|
||||
PORTLEDS |= (1 << LEDCAPS);
|
||||
}
|
||||
if (LEDstate & LED_SCROLL) { // light up scroll lock
|
||||
PORTLEDS &= ~(1 << LEDSCROLL);
|
||||
} else {
|
||||
PORTLEDS |= (1 << LEDSCROLL);
|
||||
}
|
||||
if (LEDstate & LED_COMPOSE) { // light up compose
|
||||
PORTLEDS &= ~(1 << LEDCOMP);
|
||||
} else {
|
||||
PORTLEDS |= (1 << LEDCOMP);
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* The keymatrix-array contains positions of keys in the matrix. Here you can
|
||||
* see which row is connected to which column when a key is pressed. This array
|
||||
* probably has to be modified if this firmware is ported to a different
|
||||
* keyboard.
|
||||
* \sa modmatrix
|
||||
*/
|
||||
const uint8_t PROGMEM keymatrix[16][8] = {
|
||||
// 0 1 2 3 4 5 6 7
|
||||
{KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved }, // 0
|
||||
{KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_Reserved }, // 1
|
||||
{KEY_ESCAPE, KEY_Tab, KEY_grave, KEY_1, KEY_Q, KEY_A, KEY_Z, KEY_Reserved }, // 2
|
||||
{KEY_Euro, KEY_capslock, KEY_F1, KEY_2, KEY_W, KEY_S, KEY_X, KEY_Reserved }, // 3
|
||||
{KEY_F4, KEY_F3, KEY_F2, KEY_3, KEY_E, KEY_D, KEY_C, KEY_Reserved }, // 4
|
||||
{KEY_G, KEY_T, KEY_5, KEY_4, KEY_R, KEY_F, KEY_V, KEY_B }, // 5
|
||||
{KEY_F5, KEY_DELETE, KEY_F9, KEY_F10, KEY_Reserved, KEY_Reserved, KEY_Return, KEY_Spacebar }, // 6
|
||||
{KEY_H, KEY_Y, KEY_6, KEY_7, KEY_U, KEY_J, KEY_M, KEY_N }, // 7
|
||||
{KEY_F6, KEY_rbracket, KEY_equals, KEY_8, KEY_I, KEY_K, KEY_comma, KEY_Reserved }, // 8
|
||||
{KEY_Reserved, KEY_F7, KEY_F8, KEY_9, KEY_O, KEY_L, KEY_dot, KEY_Reserved }, // 9
|
||||
{KEY_apostroph, KEY_lbracket, KEY_minus, KEY_0, KEY_P, KEY_semicolon, KEY_hash, KEY_slash }, // 10
|
||||
{KEY_Reserved, KEY_KP4, KEY_DeleteForward, KEY_F11, KEY_KP7, KEY_KP1, KEY_NumLock, KEY_DownArrow }, // 11
|
||||
{KEY_KP0, KEY_KP5, KEY_Insert, KEY_F12, KEY_KP8, KEY_KP2, KEY_KPslash, KEY_RightArrow }, // 12
|
||||
{KEY_KPcomma, KEY_KP6, KEY_PageUp, KEY_PageDown, KEY_KP9, KEY_KP3, KEY_KPasterisk, KEY_KPminus }, // 13
|
||||
{KEY_UpArrow, KEY_Reserved, KEY_Home, KEY_End, KEY_KPplus, KEY_KPenter, KEY_Pause, KEY_LeftArrow }, // 14
|
||||
{KEY_Reserved, KEY_Reserved, KEY_Reserved, KEY_PrintScreen, KEY_ScrollLock, KEY_Reserved, KEY_Reserved, KEY_Reserved }, // 15
|
||||
};
|
||||
|
||||
/**
|
||||
* The modmatrix-array contains positions of the modifier-keys in the matrix.
|
||||
* It is built in the same way as the keymatrix-array.
|
||||
* \sa keymatrix
|
||||
*/
|
||||
const uint8_t PROGMEM modmatrix[16][8] = { // contains positions of modifiers in the matrix
|
||||
// 0 1 2 3 4 5 6 7
|
||||
{MOD_NONE, MOD_NONE, MOD_CONTROL_LEFT, MOD_NONE, MOD_NONE, MOD_NONE, MOD_CONTROL_RIGHT, MOD_NONE }, // 0
|
||||
{MOD_NONE, MOD_SHIFT_LEFT, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_SHIFT_RIGHT, MOD_NONE }, // 1
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 2
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 3
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 4
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 5
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 6
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 7
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 8
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 9
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 10
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 11
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 12
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 13
|
||||
{MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE }, // 14
|
||||
{MOD_ALT_LEFT, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_NONE, MOD_ALT_RIGHT}, // 15
|
||||
};
|
||||
|
||||
/**
|
||||
* Checks if more than one bit in data is set.
|
||||
* \param data value to check
|
||||
* \return true if more than one bit is set
|
||||
*/
|
||||
static uint8_t bitcount2(uint16_t data) {
|
||||
data &= (data - 1);
|
||||
return data != 0;
|
||||
}
|
||||
|
||||
/**
|
||||
* check if reportBuffer contains the key
|
||||
* \param buffer buffer to check
|
||||
* \param key key to search
|
||||
* \return 1 if buffer contains key, 0 otherwise
|
||||
*/
|
||||
static uint8_t bufferContains(uint8_t* buffer, uint8_t key) {
|
||||
for (uint8_t i = 2; i < sizeof(buffer); i++) {
|
||||
if (buffer[i] == key) {
|
||||
return 1;
|
||||
}
|
||||
}
|
||||
return 0;
|
||||
}
|
||||
|
||||
/**
|
||||
* Scan and debounce keypresses. This is the main worker function for normal
|
||||
* keyboard operation, the code contains lot of comments. Basically, it first
|
||||
* scans the keyboard state. If a change is detected, it initializes a counter
|
||||
* that is decreased each time this function is called. If the counter reaches
|
||||
* 1, that means that the same scan result has been scanned ten times in a row,
|
||||
* so we can be pretty sure that the keys are in a certain state (as in: not
|
||||
* bouncing). Then, the codes for keys and modifiers are searched from the two
|
||||
* arrays, the USB-message to send the state is prepared. The return value of
|
||||
* this function indicates if the message has to be sent.
|
||||
* \return flag to indicate whether something has changed
|
||||
*/
|
||||
uint8_t scankeys(uint8_t* reportBuffer, uint8_t* oldReportBuffer, uint8_t sizeOfReportBuffer) {
|
||||
static uint8_t debounce = 5;
|
||||
uint8_t retval = 0;
|
||||
for (uint8_t row = 0; row <= 15; row++) {
|
||||
if (row <= 7) {
|
||||
DDRROWS1 = (1 << row);
|
||||
PORTROWS1 = ~(1 << row);
|
||||
DDRROWS2 = 0x00;
|
||||
PORTROWS2 = 0xff;
|
||||
} else {
|
||||
DDRROWS1 = 0x00;
|
||||
PORTROWS1 = 0xff;
|
||||
// (15 - row) looks a bit weird, you would expect (row - 8) here.
|
||||
// This is because pins on PORTC are ordered in the other direction
|
||||
// than on PORTA. With (15 - row), we have the bytes in the
|
||||
// resulting matrix matching the pins of the keyboard connector.
|
||||
DDRROWS2 = (1 << (15 - row));
|
||||
PORTROWS2 = ~(1 << (15 - row));
|
||||
}
|
||||
_delay_us(30);
|
||||
uint8_t data = ~PINCOLUMNS;
|
||||
// check if we have to prevent ghost-keys
|
||||
uint16_t rows= (PINROWS1 << 8) | PINROWS2;
|
||||
if (bitcount2(~rows) && bitcount2(data)) {
|
||||
// ghost-key situation detected
|
||||
ghostmatrix[row] = data;
|
||||
} else {
|
||||
ghostmatrix[row] = 0x00;
|
||||
}
|
||||
if (data != curmatrix[row]) {
|
||||
// if a change was detected
|
||||
debounce = 10; // activate debounce counter
|
||||
curmatrix[row] = data; // and store the result
|
||||
}
|
||||
}
|
||||
if (debounce) {
|
||||
// Count down, but avoid underflow
|
||||
debounce--;
|
||||
}
|
||||
if (debounce == 1) {
|
||||
/*
|
||||
if (memcmp(oldmatrix, curmatrix, sizeof(curmatrix)) != 0) {
|
||||
printMatrix();
|
||||
memcpy(oldmatrix, curmatrix, sizeof(curmatrix));
|
||||
}
|
||||
*/
|
||||
// debounce counter expired, create report
|
||||
uint8_t reportIndex = 2; // reportBuffer[0] contains modifiers
|
||||
memset(reportBuffer, 0, sizeOfReportBuffer); // clear report buffer
|
||||
for (uint8_t row = 0; row <= 15; row++) { // process all rows for key-codes
|
||||
uint8_t data = curmatrix[row]; // restore buffer
|
||||
if (data != 0xff) { // anything on this row? - optimization
|
||||
for (uint8_t col = 0; col <= 7; col++) { // check every bit on this row
|
||||
uint8_t key, modifier, isghostkey;
|
||||
if (data & (1 << col)) {
|
||||
key = pgm_read_byte(&keymatrix[row][col]);
|
||||
modifier = pgm_read_byte(&modmatrix[row][col]);
|
||||
isghostkey = ghostmatrix[row] & (1 << col);
|
||||
} else {
|
||||
key = KEY_Reserved;
|
||||
modifier = MOD_NONE;
|
||||
isghostkey = 0x00;
|
||||
}
|
||||
if (key != KEY_Reserved) { // keycode should be added to report
|
||||
if (reportIndex >= sizeOfReportBuffer) { // too many keycodes
|
||||
if (!retval & 0x02) { // Only fill buffer once
|
||||
memset(reportBuffer+2, KEY_ErrorRollOver, sizeOfReportBuffer-2);
|
||||
retval |= 0x02; // continue decoding to get modifiers
|
||||
}
|
||||
} else {
|
||||
if (isghostkey) {
|
||||
// we're in a ghost-key situation
|
||||
if (bufferContains(oldReportBuffer, key)) {
|
||||
// this key has been pressed before, so we still send it
|
||||
reportBuffer[reportIndex] = key; // set next available entry
|
||||
reportIndex++;
|
||||
}
|
||||
} else {
|
||||
reportBuffer[reportIndex] = key; // set next available entry
|
||||
reportIndex++;
|
||||
}
|
||||
}
|
||||
}
|
||||
if (modifier != MOD_NONE) { // modifier should be added to report
|
||||
reportBuffer[0] |= modifier;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
retval |= 0x01; // must have been a change at some point, since debounce is done
|
||||
}
|
||||
return retval;
|
||||
}
|
||||
|
Loading…
Reference in New Issue
Block a user