Commit 03a6fa29 authored by Rafael Peretti Pezzi's avatar Rafael Peretti Pezzi

Adicionando esquemático PDF e projeto KiCAD

parent 1b99c844
Shield de Instrumentação
========================
Shield Amplificador de Instrumentação
=====================================
Este é o projeto do Shield Amplificador de Instrumentação desenhado para aquisição de dados de sinais de baixa intensidade com um Arduino em um sistema de alto desempenho e baixo custo. Permite a amplificação de sinais negativos, que, através de um bit de sinal e um retificador ideal, duplica a resolução da conversão analógica digital.
O Shield Amplificador de Instrumentação foi desenhado para aquisição de dados de sinais de baixa intensidade com um Arduino em um sistema de alto desempenho e baixo custo. Permite a amplificação de sinais negativos, que, através de um bit de sinal e um retificador ideal, duplica a resolução da conversão analógica digital.
As entradas do amplificador, além do terra e as alimentações +5V e -5V estão dispostas de forma a facilitar a criação de circuitos condicionadores de sinais para aplicações específicas.
Este projeto foi desenvolvido pelo Setor de Eletrônica do Instituto de Física e do Centro de Tecnologia Acadêmica da UFRGS para apoiar as atividades do curso de Instrumentação Física oferecido para alunos de Bacharelado em Engenharia Física.
Este repositório dispões dos arquivos fonte do esquemático e placa de circuito impresso em projeto [KiCAD](doc/hardware/KiCAD/). Para conveniência o diagrama está disponível em [formato PDF](doc/hardware/KiCAD/esquema_shield_AI.pdf).
![Legenda Placa](doc/hardware/placa_legenda_tela.png)
Repositório e site oficial do projeto em https://git.cta.if.ufrgs.br/CTA/shield-AI
......@@ -20,7 +22,6 @@ Equipe/Autores
* Bruno Nabinger
* Germano Postal
Características
---------------
......@@ -43,27 +44,23 @@ Características
Próximos passos
---------------
* Incluir projeto KiCAD
* Imagens do esquemático e PCB neste README
* Exemplos de código
* Ensaios/testes de desempenho
* Cada saída (A0 e A1)
* Listagem completa dos componentes
* Definir caminho do repositório
* Incluir fórmula de ganho
Documentação
------------
### Desenvolvimento
Esquemático e leioute das placas em [Hardware](doc/hardware). Ver também as [orientações de design](/doc/hardware/guias_design.md) da placa.
Esquemático do amplificador em [doc/hardware/KiCAD/esquema_shield_AI.pdf](doc/hardware/KiCAD/esquema_shield_AI.pdf). Ver também as [orientações de design](/doc/hardware/guias_design.md) da placa.
#### Lista de componentes
* 1 un TL341 - Regulador de tensão
* 4 un LM358 (dip 8 pinos) - Amplificador operacional duplo
* 1 un ICL7660 -
* 1 un ICL7660
* Resistores, diodos e capacitores
#### Caracterização
......@@ -76,7 +73,7 @@ Detalhes dos conectores dos sinais de entrada, alimentações e resistor de ganh
![Legenda Placa](doc/hardware/legenda_detalhe_entradas.png)
Ver [Exemplos de código](exemplos/) no diretório exemplos
Ver [Exemplos de código](exemplos/) no diretório exemplos.
Licença
-------
......
EESchema-LIBRARY Version 2.3
#encoding utf-8
#
# +5V
#
DEF +5V #PWR 0 40 Y Y 1 F P
F0 "#PWR" 0 90 20 H I C CNN
F1 "+5V" 0 90 30 H V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
X +5V 1 0 0 0 U 20 20 0 0 W N
C 0 50 20 0 1 0 N
P 4 0 1 0 0 0 0 30 0 30 0 30 N
ENDDRAW
ENDDEF
#
# -5V
#
DEF -5V #PWR 0 0 Y Y 1 F P
F0 "#PWR" 0 140 20 H I C CNN
F1 "-5V" 0 110 30 H V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
X -5V 1 0 0 0 U 20 20 0 0 W N
P 3 0 1 0 0 0 0 50 0 50 N
P 7 0 1 0 0 80 30 50 -20 50 -30 50 0 80 0 80 0 80 F
ENDDRAW
ENDDEF
#
# C
#
DEF C C 0 10 N Y 1 F N
F0 "C" 0 100 40 H V L CNN
F1 "C" 6 -85 40 H V L CNN
F2 "" 38 -150 30 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
SM*
C?
C1-1
$ENDFPLIST
DRAW
P 2 0 1 20 -80 -30 80 -30 N
P 2 0 1 20 -80 30 80 30 N
X ~ 1 0 200 170 D 40 40 1 1 P
X ~ 2 0 -200 170 U 40 40 1 1 P
ENDDRAW
ENDDEF
#
# CONN_01X01
#
DEF CONN_01X01 P 0 40 Y N 1 F N
F0 "P" 0 100 50 H V C CNN
F1 "CONN_01X01" 100 0 50 V V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
Pin_Header_Straight_1X01
Pin_Header_Angled_1X01
Socket_Strip_Straight_1X01
Socket_Strip_Angled_1X01
$ENDFPLIST
DRAW
S -50 5 10 -5 0 1 0 N
S -50 50 50 -50 0 1 0 N
X P1 1 -200 0 150 R 50 50 1 1 P
ENDDRAW
ENDDEF
#
# CONN_01X06
#
DEF CONN_01X06 P 0 40 Y N 1 F N
F0 "P" 0 350 50 H V C CNN
F1 "CONN_01X06" 100 0 50 V V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
Pin_Header_Straight_1X06
Pin_Header_Angled_1X06
Socket_Strip_Straight_1X06
Socket_Strip_Angled_1X06
$ENDFPLIST
DRAW
S -50 -245 10 -255 0 1 0 N
S -50 -145 10 -155 0 1 0 N
S -50 -45 10 -55 0 1 0 N
S -50 55 10 45 0 1 0 N
S -50 155 10 145 0 1 0 N
S -50 255 10 245 0 1 0 N
S -50 300 50 -300 0 1 0 N
X P1 1 -200 250 150 R 50 50 1 1 P
X P2 2 -200 150 150 R 50 50 1 1 P
X P3 3 -200 50 150 R 50 50 1 1 P
X P4 4 -200 -50 150 R 50 50 1 1 P
X P5 5 -200 -150 150 R 50 50 1 1 P
X P6 6 -200 -250 150 R 50 50 1 1 P
ENDDRAW
ENDDEF
#
# CONN_01X07
#
DEF CONN_01X07 P 0 40 Y N 1 F N
F0 "P" 0 400 50 H V C CNN
F1 "CONN_01X07" 100 0 50 V V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
Pin_Header_Straight_1X07
Pin_Header_Angled_1X07
Socket_Strip_Straight_1X07
Socket_Strip_Angled_1X07
$ENDFPLIST
DRAW
S -50 -350 50 350 0 1 0 N
S -50 -295 10 -305 0 1 0 N
S -50 -195 10 -205 0 1 0 N
S -50 -95 10 -105 0 1 0 N
S -50 5 10 -5 0 1 0 N
S -50 105 10 95 0 1 0 N
S -50 205 10 195 0 1 0 N
S -50 305 10 295 0 1 0 N
X P1 1 -200 300 150 R 50 50 1 1 P
X P2 2 -200 200 150 R 50 50 1 1 P
X P3 3 -200 100 150 R 50 50 1 1 P
X P4 4 -200 0 150 R 50 50 1 1 P
X P5 5 -200 -100 150 R 50 50 1 1 P
X P6 6 -200 -200 150 R 50 50 1 1 P
X P7 7 -200 -300 150 R 50 50 1 1 P
ENDDRAW
ENDDEF
#
# CONN_01X08
#
DEF CONN_01X08 P 0 40 Y N 1 F N
F0 "P" 0 450 50 H V C CNN
F1 "CONN_01X08" 100 0 50 V V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
Pin_Header_Straight_1X08
Pin_Header_Angled_1X08
Socket_Strip_Straight_1X08
Socket_Strip_Angled_1X08
$ENDFPLIST
DRAW
S -50 -400 50 400 0 1 0 N
S -50 -345 10 -355 0 1 0 N
S -50 -245 10 -255 0 1 0 N
S -50 -145 10 -155 0 1 0 N
S -50 -45 10 -55 0 1 0 N
S -50 55 10 45 0 1 0 N
S -50 155 10 145 0 1 0 N
S -50 255 10 245 0 1 0 N
S -50 355 10 345 0 1 0 N
X P1 1 -200 350 150 R 50 50 1 1 P
X P2 2 -200 250 150 R 50 50 1 1 P
X P3 3 -200 150 150 R 50 50 1 1 P
X P4 4 -200 50 150 R 50 50 1 1 P
X P5 5 -200 -50 150 R 50 50 1 1 P
X P6 6 -200 -150 150 R 50 50 1 1 P
X P7 7 -200 -250 150 R 50 50 1 1 P
X P8 8 -200 -350 150 R 50 50 1 1 P
ENDDRAW
ENDDEF
#
# CP
#
DEF CP C 0 10 N N 1 F N
F0 "C" 50 100 40 H V L CNN
F1 "CP" 50 -100 40 H V L CNN
F2 "" 100 -150 30 H V C CNN
F3 "" 0 0 300 H V C CNN
ALIAS CAPAPOL
$FPLIST
CP*
SM*
$ENDFPLIST
DRAW
P 4 0 1 8 -80 50 -80 -50 80 -50 80 50 N
P 4 0 1 0 -50 50 -50 -20 50 -20 50 50 F
X ~ 1 0 200 150 D 40 40 1 1 P
X ~ 2 0 -200 150 U 40 40 1 1 P
ENDDRAW
ENDDEF
#
# D
#
DEF D D 0 40 N N 1 F N
F0 "D" 0 100 50 H V C CNN
F1 "D" 0 -100 50 H V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
$FPLIST
Diode_*
D-Pak_TO252AA
*SingleDiode
*_Diode_*
*SingleDiode*
$ENDFPLIST
DRAW
P 2 0 1 6 50 50 50 -50 N
P 3 0 1 0 -50 50 50 0 -50 -50 F
X A 1 -150 0 100 R 40 40 1 1 P
X K 2 150 0 100 L 40 40 1 1 P
ENDDRAW
ENDDEF
#
# GND
#
DEF ~GND #PWR 0 0 Y Y 1 F P
F0 "#PWR" 0 0 30 H I C CNN
F1 "GND" 0 -70 30 H I C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
P 4 0 1 0 -50 0 0 -50 50 0 -50 0 N
X GND 1 0 0 0 U 30 30 1 1 W N
ENDDRAW
ENDDEF
#
# ICL7660
#
DEF ICL7660 U 0 40 Y Y 1 F N
F0 "U" 200 400 70 H V L CNN
F1 "ICL7660" 50 -450 70 H V L CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
S -550 -350 550 350 0 1 0 N
X CAP+ 2 -850 250 300 R 60 60 1 1 I
X GND 3 -50 -650 300 U 60 60 1 1 W
X CAP- 4 -850 50 300 R 60 60 1 1 I
X VOUT 5 850 150 300 L 60 60 1 1 w
X LV 6 850 -150 300 L 60 60 1 1 I
X OSC 7 -850 -150 300 R 60 60 1 1 I
X V+ 8 -50 650 300 D 60 60 1 1 W
ENDDRAW
ENDDEF
#
# JUMPER
#
DEF JUMPER JP 0 30 Y N 1 F N
F0 "JP" 0 150 60 H V C CNN
F1 "JUMPER" 0 -80 40 H V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
A 0 -26 125 1426 373 0 1 0 N -98 50 99 50
C -100 0 35 0 1 0 N
C 100 0 35 0 1 0 N
X 1 1 -300 0 165 R 60 60 0 1 P
X 2 2 300 0 165 L 60 60 0 1 P
ENDDRAW
ENDDEF
#
# LM358
#
DEF LM358 U 0 20 Y Y 2 F N
F0 "U" -50 200 60 H V L CNN
F1 "LM358" -50 -250 60 H V L CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
ALIAS LMC6062 LMC6082 LM358N TL072 TL082
DRAW
P 4 0 1 6 -200 200 200 0 -200 -200 -200 200 f
X V- 4 -100 -400 250 U 40 40 0 1 W
X V+ 8 -100 400 250 D 40 40 0 1 W
X ~ 1 500 0 300 L 40 40 1 1 O
X - 2 -500 -100 300 R 40 40 1 1 I
X + 3 -500 100 300 R 40 40 1 1 I
X + 5 -500 100 300 R 40 40 2 1 I
X - 6 -500 -100 300 R 40 40 2 1 I
X ~ 7 500 0 300 L 40 40 2 1 O
ENDDRAW
ENDDEF
#
# PWR_FLAG
#
DEF PWR_FLAG #FLG 0 0 N N 1 F P
F0 "#FLG" 0 95 30 H I C CNN
F1 "PWR_FLAG" 0 180 30 H V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
X pwr 1 0 0 0 U 20 20 0 0 w
P 6 0 1 0 0 0 0 50 -75 100 0 150 75 100 0 50 N
ENDDRAW
ENDDEF
#
# R
#
DEF R R 0 0 N Y 1 F N
F0 "R" 80 0 40 V V C CNN
F1 "R" 7 1 40 V V C CNN
F2 "" -70 0 30 V V C CNN
F3 "" 0 0 30 H V C CNN
$FPLIST
R?
SM0603
SM0805
R?-*
SM1206
$ENDFPLIST
DRAW
S -40 150 40 -150 0 1 12 N
X ~ 1 0 250 100 D 60 60 1 1 P
X ~ 2 0 -250 100 U 60 60 1 1 P
ENDDRAW
ENDDEF
#
# TL431_TO92
#
DEF TL431_TO92 U 0 40 Y Y 1 F N
F0 "U" 150 300 70 H V C CNN
F1 "TL431_TO92" -200 50 70 V V C CNN
F2 "" 0 0 60 H V C CNN
F3 "" 0 0 60 H V C CNN
DRAW
S -100 -200 100 200 0 1 0 N
X R 1 400 0 300 L 60 60 1 1 I
X A 2 0 -500 300 U 60 60 1 1 I
X K 3 0 500 300 D 60 60 1 1 I
ENDDRAW
ENDDEF
#
#End Library
This diff is collapsed.
Cmp-Mod V01 Created by Cvpcb (after 2015-mar-04 BZR unknown)-product date = 18/05/2015 14:57:16
BeginCmp
TimeStamp = /5533A572;
Reference = Alim1;
ValeurCmp = CONN_01X07;
IdModule = Pin_Headers:Pin_Header_Straight_1x07;
EndCmp
BeginCmp
TimeStamp = /554033FD;
Reference = Alim2;
ValeurCmp = CONN_01X07;
IdModule = Pin_Headers:Pin_Header_Straight_1x07;
EndCmp
BeginCmp
TimeStamp = /5533A5F8;
Reference = BAREF1;
ValeurCmp = CONN_01X08;
IdModule = Pin_Headers:Pin_Header_Straight_1x08;
EndCmp
BeginCmp
TimeStamp = /55403549;
Reference = BAREF2;
ValeurCmp = CONN_01X08;
IdModule = Pin_Headers:Pin_Header_Straight_1x08;
EndCmp
BeginCmp
TimeStamp = /554035F9;
Reference = BP1;
ValeurCmp = CONN_01X08;
IdModule = Pin_Headers:Pin_Header_Straight_1x08;
EndCmp
BeginCmp
TimeStamp = /5533AB6E;
Reference = BP2;
ValeurCmp = CONN_01X08;
IdModule = Pin_Headers:Pin_Header_Straight_1x08;
EndCmp
BeginCmp
TimeStamp = /55267E98;
Reference = C1;
ValeurCmp = CP;
IdModule = Capacitors_Elko_ThroughHole:Elko_vert_11.2x6.3mm_RM2.5;
EndCmp
BeginCmp
TimeStamp = /55273ADE;
Reference = C2;
ValeurCmp = CP;
IdModule = Capacitors_Elko_ThroughHole:Elko_vert_11.2x6.3mm_RM2.5;
EndCmp
BeginCmp
TimeStamp = /5525DA80;
Reference = C5;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525DBE4;
Reference = C6;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /55268212;
Reference = C7;
ValeurCmp = CP;
IdModule = Capacitors_Elko_ThroughHole:Elko_vert_11.2x6.3mm_RM2.5;
EndCmp
BeginCmp
TimeStamp = /5526545D;
Reference = C8;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /552653FB;
Reference = C9;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525E502;
Reference = C10;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /55259CFA;
Reference = C11;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525D9A7;
Reference = C12;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525A036;
Reference = C13;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /55262BAA;
Reference = C14;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525F9F9;
Reference = C15;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /5525F9AF;
Reference = C16;
ValeurCmp = C;
IdModule = Capacitors_ThroughHole:C_Disc_D6_P5;
EndCmp
BeginCmp
TimeStamp = /552605C6;
Reference = D1;
ValeurCmp = D;
IdModule = Pin_Headers:Pin_Header_Straight_1x02;
EndCmp
BeginCmp
TimeStamp = /552634F1;
Reference = D2;
ValeurCmp = D;
IdModule = Diodes_ThroughHole:Diode_DO-41_SOD81_Vertical_AnodeUp;
EndCmp
BeginCmp
TimeStamp = /55260664;
Reference = D3;
ValeurCmp = D;
IdModule = Diodes_ThroughHole:Diode_DO-35_SOD27_Horizontal_RM10;
EndCmp
BeginCmp
TimeStamp = /553EAD8F;
Reference = IN1;
ValeurCmp = CONN_01X01;
IdModule = Measurement_Points:Measurement_Point_Square-TH_Small;
EndCmp
BeginCmp
TimeStamp = /553EC1F9;
Reference = IN2;
ValeurCmp = CONN_01X01;
IdModule = Measurement_Points:Measurement_Point_Square-TH_Small;
EndCmp
BeginCmp
TimeStamp = /55259C46;
Reference = JP3;
ValeurCmp = JUMPER;
IdModule = Pin_Headers:Pin_Header_Straight_1x02;
EndCmp
BeginCmp
TimeStamp = /5527772A;
Reference = P1;
ValeurCmp = CONN_01X01;
IdModule = Pin_Headers:Pin_Header_Straight_1x01;
EndCmp
BeginCmp
TimeStamp = /5533A4F5;
Reference = PA1;
ValeurCmp = CONN_01X06;
IdModule = Pin_Headers:Pin_Header_Straight_1x06;
EndCmp
BeginCmp
TimeStamp = /5540349F;
Reference = PA2;
ValeurCmp = CONN_01X06;
IdModule = Pin_Headers:Pin_Header_Straight_1x06;
EndCmp
BeginCmp
TimeStamp = /553ED5C6;
Reference = PAD+5;
ValeurCmp = CONN_01X01;
IdModule = Measurement_Points:Measurement_Point_Square-TH_Small;
EndCmp
BeginCmp
TimeStamp = /5547CA03;
Reference = PAD_-5;
ValeurCmp = CONN_01X01;
IdModule = Measurement_Points:Measurement_Point_Square-TH_Small;
EndCmp
BeginCmp
TimeStamp = /553ED674;
Reference = PAD_GND1;
ValeurCmp = CONN_01X01;
IdModule = Measurement_Points:Measurement_Point_Square-TH_Small;
EndCmp
BeginCmp
TimeStamp = /553F378E;
Reference = R1;
ValeurCmp = 1k;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /553F39ED;
Reference = R2;
ValeurCmp = 4k7;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /553F3B1B;
Reference = R3;
ValeurCmp = 12k;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55256C78;
Reference = R6;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM15mm;
EndCmp
BeginCmp
TimeStamp = /5525757C;
Reference = R7;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55256DDF;
Reference = R8;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Vertical_RM5mm;
EndCmp
BeginCmp
TimeStamp = /5525714C;
Reference = R9;
ValeurCmp = R;
IdModule = Pin_Headers:Pin_Header_Straight_1x02;
EndCmp
BeginCmp
TimeStamp = /552571AA;
Reference = R10;
ValeurCmp = R;
IdModule = Pin_Headers:Pin_Header_Straight_1x02;
EndCmp
BeginCmp
TimeStamp = /55264EFA;
Reference = R11;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55264F82;
Reference = R12;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /552574A3;
Reference = R13;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM15mm;
EndCmp
BeginCmp
TimeStamp = /55257A38;
Reference = R14;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55256B8C;
Reference = R15;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Vertical_RM5mm;
EndCmp
BeginCmp
TimeStamp = /552579BB;
Reference = R16;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /5525E702;
Reference = R17;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /5525E669;
Reference = R18;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55262900;
Reference = R19;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /5525EAC0;
Reference = R20;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /5525FFB5;
Reference = R21;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /55262B4B;
Reference = R22;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Vertical_RM5mm;
EndCmp
BeginCmp
TimeStamp = /5525EA39;
Reference = R23;
ValeurCmp = R;
IdModule = Pin_Headers:Pin_Header_Straight_1x02;
EndCmp
BeginCmp
TimeStamp = /55260D9D;
Reference = R24;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;
EndCmp
BeginCmp
TimeStamp = /552604D3;
Reference = R25;
ValeurCmp = R;
IdModule = Resistors_ThroughHole:Resistor_Horizontal_RM10mm;