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1 61 guanucolui
%$Id $
2
\documentclass[11pt,a4paper,oneside]{article}
3
\usepackage[utf8]{inputenc}
4
\usepackage[spanish]{babel}
5
\usepackage{graphicx}
6 62 guanucolui
\usepackage{multicol}
7
\usepackage{balance}
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%\usepackage{subfig}
9
%\usepackage[cm]{fullpage}
10
\usepackage[a4paper]{geometry}
11
%\usepackage{subfigure}
12
\usepackage{float}
13
\usepackage{fancyhdr}
14
\usepackage{caption}
15
\usepackage{subcaption}
16 120 guanucolui
\title{Plataforma de hardware reconfigurable \\ \small{Armado - Testeo y Documentación de las placas de prototipaje}}
17 61 guanucolui
\author{Luis A. Guanuco}
18
\date{Agosto 2012}
19
\pagestyle{fancy}
20
\addtolength{\textheight}{2cm}
21
%\addtolength{\voffset}{-1cm}
22
%\addtolength{\textwidth}{1cm}
23
 
24
\begin{document}
25
 
26
\maketitle{}
27
 
28 125 guanucolui
%\chead{\includegraphics[width=0.1\textwidth]{images/logov2_ES}}
29
\begin{figure}[h]
30
  \centering
31
  \includegraphics[width=0.3\textwidth]{images/logov2_ES}
32
\end{figure}
33 61 guanucolui
 
34
\section{Introducción}
35
\label{sec:intro}
36
 
37
La documentación que se presenta en éste reporte describe los pasos a seguir para el \emph{armado, testéo y depuración} de las distintas placas que conformarán la \emph{Plataforma de Hardware Reconfigurable -- PHR}.
38
Se presenta un esquema general de tres etapas, sin embargo, cada una de ellas presenta una complejidad diferente.
39
 
40
\begin{figure}[h]
41
  \centering
42
  \includegraphics[width=0.6\textwidth]{images/esquema1}
43
  \caption{Esquema de trabajo a seguir.}
44
\end{figure}
45
 
46
\section{Armado}
47
\label{sec:armado}
48
 
49
\subsection{Placas}
50
\label{sec:placas}
51
 
52
Actualmente se dispone de cuatro placas PCB, ellas son:
53
\begin{itemize}
54
\item OT-CPLD
55
\item OOCD Links (USB/JTAG)
56
\item S3Power (INTI)
57
\item FPGA (PHR version BETA)
58
\end{itemize}
59
Cada una de éstas placas se encuentra en una versión de \emph{Prototipaje}, lo que implica que su finalidad es únicamente de \emph{testéo} y generar \emph{documentación} que permitan el desarrollo de sus versiones finales, con las correcciones pertinentes.
60
 
61
\subsection{Recursos}
62
\label{sec:recursos}
63
 
64
Se adjunta a la presente documentación la lista de componentes a utilizar.
65
 
66
\subsection{Placas}
67
\label{sec:process}
68
Los esquemáticos se adjuntan al final del documento pero aquí se hace presente a modo de ilustración y que se pueda relacionar con sus correspondientes esquemas PCB.
69
 
70
Se recomienda tener cuidado en el proceso de ensamblado/soldado de los componentes. La mayoría de los mismos son SMD, por lo que puede prestarse a confusiones la polarización de capacitores y diodos, como así también la magnitud de cada uno.
71
 
72
Se presentan las figuras de cada placa, haciendo énfasis en diferentes vistas con la finalidad de facilitar el armado de las mismas.
73
 
74
\subsubsection{OT-CPLD}
75
La placa \textsl{OT-CPLD} tan solo realiza la adaptación de los pines de un CPLD (XC9572XL) a un formato DIP-40 (40 pines) a fines de ser utilizado en cualquier protoboard. Junto a las dos hileras de pines, la placa contiene un reguladore de tensión para el dispositivo lógico; y un puerto de conexión al interface JTAG del CPLD.
76
\begin{figure}[H]
77
  \centering
78
  \includegraphics[width=\textwidth]{images/ot-cpld_sch}
79
  \caption{Esquemático}
80
\end{figure}
81
\begin{figure}[H]
82
  \begin{subfigure}[b]{\textwidth}
83
    \centering
84
    \includegraphics[width=\textwidth]{images/ot-cpld_brd_top}
85
    \caption{Top}
86
  \end{subfigure}
87
  \begin{subfigure}[b]{\textwidth}
88
    \centering
89
    \includegraphics[width=\textwidth]{images/ot-cpld_brd_botton}
90
    \caption{Botton}
91
  \end{subfigure}
92
  \begin{subfigure}[b]{\textwidth}
93
    \centering
94
    \includegraphics[width=\textwidth]{images/ot-cpld_brd_top_and_botton}
95
    \caption{Top \& Botton}
96
  \end{subfigure}
97
  \caption{PCB}
98
\end{figure}
99
\newpage{}
100
\subsubsection{OOCD Links}
101
 
102
La placa \textsl{OOCD Links} permite acceder a un interface JTAG mediante un puerto USB (hardware \& software). Nacido como un interface para el testéo de hardware mediante software, JTAG se ha convertido en un core clave en la programación de muchos dispisitivos actuales como son FPGAs, CPLDs, $\mu$Cs, $\mu$Ps, etc.
103
La placa contiene un dispositivo central (FT2232), quién realiza la conversión de los protocolos en forma bidireccional. Los demás bloque simplemente hacen al funcionamiento del FT2232.
104
\begin{figure}[H]
105
  \begin{subfigure}{\textwidth}
106
    \centering
107
    \includegraphics[width=\textwidth]{images/oocd-links_sch_1}
108
    \caption{FT2232, IC dispositivo interface USB/JTAG}
109
  \end{subfigure}
110
  \caption{Esquemático}
111
\end{figure}
112
\begin{figure}[H]
113
  \addtocounter{figure}{-1}
114
  \setcounter{subfigure}{1}
115
  \begin{subfigure}{\textwidth}
116
    \centering
117
    \includegraphics[width=\textwidth]{images/oocd-links_sch_2}
118
    \caption{Periféricos}
119
  \end{subfigure}
120
  \caption{Esquemático (Continuación)}
121
\end{figure}
122
 
123
\begin{figure}[H]
124
\begin{subfigure}[b]{0.5\textwidth}
125
    \centering
126
    \includegraphics[width=\textwidth]{images/oocd-links_brd_top}
127
    \caption{Top}
128
  \end{subfigure}
129
  \begin{subfigure}[b]{0.5\textwidth}
130
    \centering
131
    \includegraphics[width=\textwidth]{images/oocd-links_brd_botton}
132
    \caption{Botton}
133
  \end{subfigure}
134
  \caption{PCB}
135
\end{figure}
136
 
137
\begin{figure}[H]
138
  \addtocounter{figure}{-1}
139
  \setcounter{subfigure}{2}
140
  \begin{subfigure}[b]{\textwidth}
141
    \centering
142
    \includegraphics[width=0.5\textwidth]{images/oocd-links_brd_top_and_botton}
143
    \caption{Top \& Botton}
144
  \end{subfigure}
145
  \caption{PCB (Continuación)}
146
\end{figure}
147
 
148
\subsubsection{S3Power}
149
 
150
La placa \textsl{S3Power} fue diseñada por un los miembros del \textbf{INTI}, originalmente destinada a la placa \textbf{S3Proto}, y liberada con licencia \textsl{GPL (General Public License)} en la web \texttt{fpgalibre.sourceforce.net}.
151
Las características eléctricas, en particular, de potencia son muy importantes debido a los distintos niveles de tensión que manejan las FPGAs que se utilizarán. Texas Instruments ha desarrollado un IC (TPS75003) específico para la familia de las FPGA de Xilinx (Spantan 3 - Xilinx Inc). Aquí se resuelven los tiempos de encendido como la regulación en el consumo de potencia de la FPGA.
152
\begin{figure}[H]
153
  \centering
154
  \includegraphics[width=\textwidth]{images/s3power_sch}
155
  \caption{Esquemático}
156
\end{figure}
157
 
158
\begin{figure}[H]
159
  \begin{subfigure}[b]{0.5\textwidth}
160
    \centering
161
    \includegraphics[width=\textwidth]{images/s3power_brd_top}
162
    \caption{Top}
163
  \end{subfigure}
164
  \begin{subfigure}[b]{0.5\textwidth}
165
    \centering
166
    \includegraphics[width=\textwidth]{images/s3power_brd_botton}
167
    \caption{Botton}
168
  \end{subfigure}
169
%  \caption{PCB}
170
%\end{figure}
171
%
172
%\begin{figure}[H]
173
%  \addtocounter{figure}{-1}
174
%  \setcounter{subfigure}{2}
175
  \begin{subfigure}[b]{\textwidth}
176
    \centering
177
    \includegraphics[width=0.5\textwidth]{images/s3power_brd_top_and_botton}
178
    \caption{Top \& Botton}
179
  \end{subfigure}
180
  \caption{PCB}%(Continuación)}
181
\end{figure}
182
 
183
\newpage{}
184
\subsubsection{FPGA (PHR \small{version BETA})}
185
 
186
La placa \textsl{FPGA} que se presenta a continuación, es una versión prototipo que de la placa \textbf{PHR} final. La versión BETA pretende realizar un testeo de las características de potencia y el interface al puerto JTAG que dispone el dispositivo programable. Para la alimentación del mismo, se utiliza la placa \textbf{S3power} que se ha descrito en puntos anteriores.
187
 
188
\begin{figure}[H]
189
  \begin{subfigure}{\textwidth}
190
    \centering
191
    \includegraphics[width=\textwidth]{images/fpga_sch_1}
192
    \caption{FPGA (XC3S50A) \& Memoria de programación (XCF01S)}
193
  \end{subfigure}
194
  \caption{Esquemático}
195
\end{figure}
196
\begin{figure}[H]
197
  \addtocounter{figure}{-1}
198
  \setcounter{subfigure}{1}
199
  \begin{subfigure}{\textwidth}
200
    \centering
201
    \includegraphics[width=0.6\textwidth]{images/fpga_sch_2}
202
    \caption{Circuito de potencia (Placa S3power)}
203
  \end{subfigure}
204
  \caption{Esquemático (Continuación)}
205
\end{figure}
206
 
207
\begin{figure}[H]
208
\begin{subfigure}[b]{0.5\textwidth}
209
    \centering
210
    \includegraphics[width=\textwidth]{images/fpga_brd_top}
211
    \caption{Top}
212
  \end{subfigure}
213
  \begin{subfigure}[b]{0.5\textwidth}
214
    \centering
215
    \includegraphics[width=\textwidth]{images/fpga_brd_botton}
216
    \caption{Botton}
217
  \end{subfigure}
218
  \caption{PCB}
219
\end{figure}
220
 
221
\begin{figure}[H]
222
  \addtocounter{figure}{-1}
223
  \setcounter{subfigure}{2}
224
  \begin{subfigure}[b]{\textwidth}
225
    \centering
226
    \includegraphics[width=0.5\textwidth]{images/fpga_brd_top_and_botton}
227
    \caption{Top \& Botton}
228
  \end{subfigure}
229
  \caption{PCB (Continuación)}
230
\end{figure}
231
 
232
\section{Documentación}
233
 
234
La documentación resulta fundamental en ésta etapa del desarrollo. Si bien se quiere lograr el correcto funcionamiento de las placas, la documentación sirve para realizar correciones a las versiones futuras de cada placa. Otro objetivo es documentar el funcionamiento de cada dispositivo que sirvan al reporte final como así también a los usuarios de la \emph{Plataforma de Hardware Reconfigurable}.
235
\newpage{}
236
\appendix{}
237
\section{Repositorio de proyecto}
238
 
239
El proyecto se encuentra alojado en los servidores de \emph{OpenCores}. Por lo que se puede acceder a los repositorios mediante el siguiente link, \texttt{http://opencores.org/project,phr}
240
De todas formas se pueden comunicar por correo, \texttt{guanucoluis@gmail.com}.
241
 
242
\section{Archivos a conciderar}
243
Se dispone de varios archivos relacionados con esta etapa de ensamblado y testeo.
244
 
245
\begin{verbatim}
246
luis@luis-laptop:to_print$ ls -lX
247
total 2872
248
-rw-r--r-- 1 luis luis    1421 jul 10 16:38 cpld.cmp
249
-rw-r--r-- 1 luis luis    4599 jul 10 17:09 fpga.cmp
250
-rw-r--r-- 1 luis luis    6126 ago 28 21:34 OOCD_placa.cmp
251
-rw-r--r-- 1 luis luis    4159 jul 10 16:40 S3Proto_Power.cmp
252
-rw-r--r-- 1 luis luis  234181 ago 28 21:29 fpga_brd.pdf
253
-rw-r--r-- 1 luis luis  137037 ago 28 21:55 fpga_sch.pdf
254
-rw-r--r-- 1 luis luis  177723 ago 28 21:23 OOCD-Links_brd.pdf
255
-rw-r--r-- 1 luis luis   88397 ago 28 21:55 OOCD-Links_sch.pdf
256
-rw-r--r-- 1 luis luis  145699 ago 28 21:04 ot-cpld_brd.pdf
257
-rw-r--r-- 1 luis luis   55105 ago 28 21:55 ot-cpld_sch.pdf
258
-rw-r--r-- 1 luis luis  121516 ago 28 21:17 S3Proto_Power_brd.pdf
259
-rw-r--r-- 1 luis luis   63912 ago 28 00:40 S3Proto_Power_sch.pdf
260
-rw-r--r-- 1 luis luis 1520722 ago 28 20:39 schedule.pdf
261
-rw-r--r-- 1 luis luis   57478 ago 28 21:35 cpld.png
262
-rw-r--r-- 1 luis luis   86035 ago 28 21:37 fpga.png
263
-rw-r--r-- 1 luis luis   66724 ago 28 21:33 OOCD_placa.png
264
-rw-r--r-- 1 luis luis   70647 ago 28 21:36 S3Proto_Power.png
265
\end{verbatim}
266
 
267
En estos archivos se tiene las figuras presentadas en las anteriores secciones pero con mejor resolución, estos terminan en \texttt{\_sch} o \texttt{\_brd} correspondientes a si se trata del esquemático o el PCB, respectivamente. También se tiene los archivos \texttt{.cmp}, los que contienen la lista de componentes a utilizar y su referencia en el esquemático como así también el encapsulado. Los archivos \texttt{.png} son las distintas placas vista en 3D para tener una idea de como debería quedar al finalizar el desarrollo.
268 62 guanucolui
\newpage
269
\section{Lista de componentes}
270
 
271
\subsection{OT-CPLD}
272
 
273
\begin{multicols}{2}
274
\begin{verbatim}
275
BeginCmp
276
TimeStamp = /4EA65376;
277
Reference = C1;
278
ValeurCmp = 1uF;
279
IdModule  = SM0603;
280
EndCmp
281
 
282
BeginCmp
283
TimeStamp = /4EA6543A;
284
Reference = C2;
285
ValeurCmp = 1uF;
286
IdModule  = SM0603;
287
EndCmp
288
 
289
BeginCmp
290
TimeStamp = /4EA882B4;
291
Reference = C3;
292
ValeurCmp = .1uF;
293
IdModule  = SM0603;
294
EndCmp
295
 
296
BeginCmp
297
TimeStamp = /4EA882BB;
298
Reference = C4;
299
ValeurCmp = .01uF;
300
IdModule  = SM0603;
301
EndCmp
302
 
303
BeginCmp
304
TimeStamp = /4EA882C2;
305
Reference = C5;
306
ValeurCmp = .1uF;
307
IdModule  = SM0603;
308
EndCmp
309
 
310
BeginCmp
311
TimeStamp = /4EA882CF;
312
Reference = C6;
313
ValeurCmp = 100uF;
314
IdModule  = SM0805;
315
EndCmp
316
 
317
BeginCmp
318
TimeStamp = /4EA654D2;
319
Reference = D1;
320
ValeurCmp = power;
321
IdModule  = LED-0805;
322
EndCmp
323
 
324
BeginCmp
325
TimeStamp = /4EA74DB8;
326
Reference = P1;
327
ValeurCmp = CON_1;
328
IdModule  = 1X20;
329
EndCmp
330
 
331
BeginCmp
332
TimeStamp = /4EA74DAC;
333
Reference = P2;
334
ValeurCmp = CON_2;
335
IdModule  = 1X20;
336
EndCmp
337
 
338
BeginCmp
339
TimeStamp = /4EA1F196;
340
Reference = P3;
341
ValeurCmp = JTAG-POWER;
342
IdModule  = 1X06;
343
EndCmp
344
 
345
BeginCmp
346
TimeStamp = /4EA653DA;
347
Reference = R1;
348
ValeurCmp = 470K;
349
IdModule  = SM0603;
350
EndCmp
351
 
352
BeginCmp
353
TimeStamp = /4EA654AE;
354
Reference = R2;
355
ValeurCmp = 470;
356
IdModule  = SM0603;
357
EndCmp
358
 
359
BeginCmp
360
TimeStamp = /4EA652AE;
361
Reference = U1;
362
ValeurCmp = SP6200;
363
IdModule  = SOT23-5;
364
EndCmp
365
 
366
BeginCmp
367
TimeStamp = /4EA62E7A;
368
Reference = U2;
369
ValeurCmp = XC9572XL;
370
IdModule  = TQFP44;
371
EndCmp
372
 
373
EndListe
374
\end{verbatim}
375
\end{multicols}
376
\newpage
377
\subsection{OOCD Links}
378
 
379
\begin{multicols}{2}
380
\begin{verbatim}
381
 BeginCmp
382
TimeStamp = 4EB85B2D
383
Path = /4EAE3B06
384
Reference = X1;
385
ValeurCmp = USB-MB-H;
386
IdModule  = con-usb-USB-MB-H;
387
EndCmp
388
 
389
BeginCmp
390
TimeStamp = 4EAEBF60
391
Path = /4EAB3FF2
392
Reference = IC1;
393
ValeurCmp = FT2232C;
394
IdModule  = ft2232c-LQFP;
395
EndCmp
396
 
397
BeginCmp
398
TimeStamp = 4EAEBF62
399
Path = /4EAE3363
400
Reference = D4;
401
ValeurCmp = FT_OK;
402
IdModule  = LED-0805;
403
EndCmp
404
 
405
BeginCmp
406
TimeStamp = 4EB0CE47
407
Path = /4EAE3357
408
Reference = D3;
409
ValeurCmp = TX;
410
IdModule  = LED-0805;
411
EndCmp
412
 
413
BeginCmp
414
TimeStamp = 4EAEBF66
415
Path = /4EAE3349
416
Reference = D2;
417
ValeurCmp = RX;
418
IdModule  = LED-0805;
419
EndCmp
420
 
421
BeginCmp
422
TimeStamp = 4EAEBF68
423
Path = /4EAE32A1
424
Reference = D1;
425
ValeurCmp = +5V;
426
IdModule  = LED-0805;
427
EndCmp
428
 
429
BeginCmp
430
TimeStamp = 4EAEBF69
431
Path = /4EAE3DC9
432
Reference = JTAG1;
433
ValeurCmp = JTAG-ARM;
434
IdModule  = nxp-JTAG-ARM;
435
EndCmp
436
 
437
BeginCmp
438
TimeStamp = 4EAEBF6A
439
Path = /4EAE5354
440
Reference = P1;
441
ValeurCmp = UART;
442
IdModule  = PIN_ARRAY_5x2;
443
EndCmp
444
 
445
BeginCmp
446
TimeStamp = 4EAEBF6B
447
Path = /4EAE495A
448
Reference = R19;
449
ValeurCmp = 100;
450
IdModule  = SM0603;
451
EndCmp
452
 
453
BeginCmp
454
TimeStamp = 4EAEBF6D
455
Path = /4EAE4953
456
Reference = R18;
457
ValeurCmp = 100;
458
IdModule  = SM0603;
459
EndCmp
460
 
461
BeginCmp
462
TimeStamp = 4EAEBF6F
463
Path = /4EAE4946
464
Reference = R17;
465
ValeurCmp = 100;
466
IdModule  = SM0603;
467
EndCmp
468
 
469
BeginCmp
470
TimeStamp = 4EAEBF71
471
Path = /4EAE4FF4
472
Reference = R16;
473
ValeurCmp = 100K;
474
IdModule  = SM0603;
475
EndCmp
476
 
477
BeginCmp
478
TimeStamp = 4EAEBF73
479
Path = /4EAE4ED6
480
Reference = R15;
481
ValeurCmp = 100K;
482
IdModule  = SM0603;
483
EndCmp
484
 
485
BeginCmp
486
TimeStamp = 4EAEBF75
487
Path = /4EAE4DA5
488
Reference = R14;
489
ValeurCmp = 100K;
490
IdModule  = SM0603;
491
EndCmp
492
 
493
BeginCmp
494
TimeStamp = 4EAEBF77
495
Path = /4EAE4D2D
496
Reference = R13;
497
ValeurCmp = 100K;
498
IdModule  = SM0603;
499
EndCmp
500
 
501
BeginCmp
502
TimeStamp = 4EAEBF79
503
Path = /4EAE4E0E
504
Reference = R12;
505
ValeurCmp = 100K;
506
IdModule  = SM0603;
507
EndCmp
508
 
509
BeginCmp
510
TimeStamp = 4EAEBF7B
511
Path = /4EAE3F20
512
Reference = R11;
513
ValeurCmp = 10K;
514
IdModule  = SM0603;
515
EndCmp
516
 
517
BeginCmp
518
TimeStamp = 4EAEBF7D
519
Path = /4EAE3201
520
Reference = R10;
521
ValeurCmp = 470;
522
IdModule  = SM0603;
523
EndCmp
524
 
525
BeginCmp
526
TimeStamp = 4EAEBF7F
527
Path = /4EAE3B8F
528
Reference = R9;
529
ValeurCmp = 1K5;
530
IdModule  = SM0603;
531
EndCmp
532
 
533
BeginCmp
534
TimeStamp = 4EAEBF81
535
Path = /4EAE3B4B
536
Reference = R8;
537
ValeurCmp = 27;
538
IdModule  = SM0603;
539
EndCmp
540
 
541
BeginCmp
542
TimeStamp = 4EAEBF83
543
Path = /4EAE3B44
544
Reference = R7;
545
ValeurCmp = 27;
546
IdModule  = SM0603;
547
EndCmp
548
 
549
BeginCmp
550
TimeStamp = 4EAEBF85
551
Path = /4EAE346C
552
Reference = R6;
553
ValeurCmp = 1K;
554
IdModule  = SM0603;
555
EndCmp
556
 
557
BeginCmp
558
TimeStamp = 4EB0CE4A
559
Path = /4EAE3468
560
Reference = R5;
561
ValeurCmp = 1K;
562
IdModule  = SM0603;
563
EndCmp
564
 
565
BeginCmp
566
TimeStamp = 4EAEBF89
567
Path = /4EAE3464
568
Reference = R4;
569
ValeurCmp = 1K;
570
IdModule  = SM0603;
571
EndCmp
572
 
573
BeginCmp
574
TimeStamp = 4EAEBF8B
575
Path = /4EAE3297
576
Reference = R3;
577
ValeurCmp = 1K;
578
IdModule  = SM0603;
579
EndCmp
580
 
581
BeginCmp
582
TimeStamp = 4EAEBF8D
583
Path = /4EAE2459
584
Reference = R2;
585
ValeurCmp = 2K2;
586
IdModule  = SM0603;
587
EndCmp
588
 
589
BeginCmp
590
TimeStamp = 4EAEBF8F
591
Path = /4EAE2494
592
Reference = R1;
593
ValeurCmp = 10K;
594
IdModule  = SM0603;
595
EndCmp
596
 
597
BeginCmp
598
TimeStamp = 4EAEBF91
599
Path = /4EAE516F
600
Reference = C21;
601
ValeurCmp = 100n;
602
IdModule  = SM0603;
603
EndCmp
604
 
605
BeginCmp
606
TimeStamp = 4EAEBF93
607
Path = /4EAE5167
608
Reference = C20;
609
ValeurCmp = 100n;
610
IdModule  = SM0603;
611
EndCmp
612
 
613
BeginCmp
614
TimeStamp = 4EAEBF95
615
Path = /4EAE4AF1
616
Reference = C19;
617
ValeurCmp = 47p;
618
IdModule  = SM0603;
619
EndCmp
620
 
621
BeginCmp
622
TimeStamp = 4EAEBF97
623
Path = /4EAE4B24
624
Reference = C18;
625
ValeurCmp = 47p;
626
IdModule  = SM0603;
627
EndCmp
628
 
629
BeginCmp
630
TimeStamp = 4EAEBF99
631
Path = /4EAE4B2F
632
Reference = C17;
633
ValeurCmp = 47p;
634
IdModule  = SM0603;
635
EndCmp
636
 
637
BeginCmp
638
TimeStamp = 4EAEBF9B
639
Path = /4EAE4B56
640
Reference = C16;
641
ValeurCmp = 47p;
642
IdModule  = SM0603;
643
EndCmp
644
 
645
BeginCmp
646
TimeStamp = 4EAEBF9D
647
Path = /4EAE4B6A
648
Reference = C15;
649
ValeurCmp = 47p;
650
IdModule  = SM0603;
651
EndCmp
652
 
653
BeginCmp
654
TimeStamp = 4EAEBF9F
655
Path = /4EAE4B76
656
Reference = C14;
657
ValeurCmp = 47p;
658
IdModule  = SM0603;
659
EndCmp
660
 
661
BeginCmp
662
TimeStamp = 4EAEBFA1
663
Path = /4EAE3EE0
664
Reference = C13;
665
ValeurCmp = 100n;
666
IdModule  = SM0603;
667
EndCmp
668
 
669
BeginCmp
670
TimeStamp = 4EAEBFA3
671
Path = /4EAE384B
672
Reference = C12;
673
ValeurCmp = C;
674
IdModule  = SM0603;
675
EndCmp
676
 
677
BeginCmp
678
TimeStamp = 4EAEBFA5
679
Path = /4EAE31EE
680
Reference = C11;
681
ValeurCmp = 100n;
682
IdModule  = SM0603;
683
EndCmp
684
 
685
BeginCmp
686
TimeStamp = 4EAEBFA7
687
Path = /4EAE31F7
688
Reference = C10;
689
ValeurCmp = 100n;
690
IdModule  = SM0603;
691
EndCmp
692
 
693
BeginCmp
694
TimeStamp = 4EAEBFA9
695
Path = /4EAE3A16
696
Reference = C9;
697
ValeurCmp = 33n;
698
IdModule  = SM0603;
699
EndCmp
700
 
701
BeginCmp
702
TimeStamp = 4EAEBFAB
703
Path = /4EAE31FD
704
Reference = C8;
705
ValeurCmp = 100n;
706
IdModule  = SM0603;
707
EndCmp
708
 
709
BeginCmp
710
TimeStamp = 4EAEBFAD
711
Path = /4EAE24AC
712
Reference = C7;
713
ValeurCmp = 100n;
714
IdModule  = SM0603;
715
EndCmp
716
 
717
BeginCmp
718
TimeStamp = 4EAEBFAF
719
Path = /4EAE30A8
720
Reference = C6;
721
ValeurCmp = 2u2;
722
IdModule  = SM0603;
723
EndCmp
724
 
725
BeginCmp
726
TimeStamp = 4EAEBFB1
727
Path = /4EAE3C52
728
Reference = C5;
729
ValeurCmp = 2u2;
730
IdModule  = SM0603;
731
EndCmp
732
 
733
BeginCmp
734
TimeStamp = 4EAEBFB3
735
Path = /4EAE308F
736
Reference = C4;
737
ValeurCmp = 100n;
738
IdModule  = SM0603;
739
EndCmp
740
 
741
BeginCmp
742
TimeStamp = 4EAEBFB5
743
Path = /4EAE3C53
744
Reference = C3;
745
ValeurCmp = 100n;
746
IdModule  = SM0603;
747
EndCmp
748
 
749
BeginCmp
750
TimeStamp = 4EAEBFB7
751
Path = /4EAE2C55
752
Reference = C2;
753
ValeurCmp = 10n;
754
IdModule  = SM0603;
755
EndCmp
756
 
757
BeginCmp
758
TimeStamp = 4EAEBFB9
759
Path = /4EAE3C56
760
Reference = C1;
761
ValeurCmp = 10n;
762
IdModule  = SM0603;
763
EndCmp
764
 
765
BeginCmp
766
TimeStamp = 4EAEBFBA
767
Path = /4EAE3061
768
Reference = L2;
769
ValeurCmp = 742792095;
770
IdModule  = SM0805;
771
EndCmp
772
 
773
BeginCmp
774
TimeStamp = 4EAEBFBC
775
Path = /4EAE3C54
776
Reference = L1;
777
ValeurCmp = 742792095;
778
IdModule  = SM0805;
779
EndCmp
780
 
781
BeginCmp
782
TimeStamp = 4EAEBFBD
783
Path = /4EAE4851
784
Reference = U3;
785
ValeurCmp = SN74AUP1G125;
786
IdModule  = SOT23-5;
787
EndCmp
788
 
789
BeginCmp
790
TimeStamp = 4EAEBFBF
791
Path = /4EAE4848
792
Reference = U2;
793
ValeurCmp = SN74AUP1G125;
794
IdModule  = SOT23-5;
795
EndCmp
796
 
797
BeginCmp
798
TimeStamp = 4EAEBFC0
799
Path = /4EAE22F9
800
Reference = U1;
801
ValeurCmp = 93LC46BT;
802
IdModule  = SOT23_6;
803
EndCmp
804
 
805
BeginCmp
806
TimeStamp = 4EAEBF61
807
Path = /4EAE26A6
808
Reference = F1;
809
ValeurCmp = 6MHz;
810
IdModule  = -CSTCC;
811
EndCmp
812
 
813
BeginCmp
814
TimeStamp = 4EB863DD
815
Path =
816
Reference = ref;
817
ValeurCmp = logo_min;
818
IdModule  = ;
819
EndCmp
820
 
821
EndListe
822
\end{verbatim}
823
\end{multicols}
824
 
825
\newpage
826
\subsection{S3Power}
827
 
828
\begin{multicols}{2}
829
\begin{verbatim}
830
BeginCmp
831
TimeStamp = 48FC941B;
832
Reference = C1;
833
ValeurCmp = 100uf_6v;
834
IdModule  = -B/3528-21W;
835
EndCmp
836
 
837
BeginCmp
838
TimeStamp = 48FC9514;
839
Reference = C2;
840
ValeurCmp = 100nf;
841
IdModule  = SM0805;
842
EndCmp
843
 
844
BeginCmp
845
TimeStamp = 48FC9531;
846
Reference = C3;
847
ValeurCmp = 100nf;
848
IdModule  = SM0805;
849
EndCmp
850
 
851
BeginCmp
852
TimeStamp = 48FC9532;
853
Reference = C4;
854
ValeurCmp = 100nf;
855
IdModule  = SM0805;
856
EndCmp
857
 
858
BeginCmp
859
TimeStamp = 48FC94F6;
860
Reference = C5;
861
ValeurCmp = 1.5nf;
862
IdModule  = SM0805;
863
EndCmp
864
 
865
BeginCmp
866
TimeStamp = 48FCB2A9;
867
Reference = C6;
868
ValeurCmp = 1.5nf;
869
IdModule  = SM0805;
870
EndCmp
871
 
872
BeginCmp
873
TimeStamp = 48FC94AF;
874
Reference = C7;
875
ValeurCmp = 10nf;
876
IdModule  = SM0805;
877
EndCmp
878
 
879
BeginCmp
880
TimeStamp = 48FC948C;
881
Reference = C8;
882
ValeurCmp = 10uf_6v;
883
IdModule  = -A/3216-18R;
884
EndCmp
885
 
886
BeginCmp
887
TimeStamp = 48FC948A;
888
Reference = C9;
889
ValeurCmp = 10uf_6v;
890
IdModule  = -A/3216-18R;
891
EndCmp
892
 
893
BeginCmp
894
TimeStamp = 48FDDDFF;
895
Reference = C10;
896
ValeurCmp = 10uf_6v;
897
IdModule  = -A/3216-18R;
898
EndCmp
899
 
900
BeginCmp
901
TimeStamp = 48FC9564;
902
Reference = C11;
903
ValeurCmp = 10pf;
904
IdModule  = SM0805;
905
EndCmp
906
 
907
BeginCmp
908
TimeStamp = 48FC9463;
909
Reference = C12;
910
ValeurCmp = 100uf_3v;
911
IdModule  = -B/3528-21W;
912
EndCmp
913
 
914
BeginCmp
915
TimeStamp = 48FDDDFE;
916
Reference = C13;
917
ValeurCmp = 100uf_3v;
918
IdModule  = -B/3528-21W;
919
EndCmp
920
 
921
BeginCmp
922
TimeStamp = 48FC939B;
923
Reference = D1;
924
ValeurCmp = SM6T6V6A;
925
IdModule  = DO_214AA;
926
EndCmp
927
 
928
BeginCmp
929
TimeStamp = 48FC97B2;
930
Reference = D2;
931
ValeurCmp = SS32;
932
IdModule  = DO214AB;
933
EndCmp
934
 
935
BeginCmp
936
TimeStamp = 48FDDE02;
937
Reference = D3;
938
ValeurCmp = SS32;
939
IdModule  = DO214AB;
940
EndCmp
941
 
942
BeginCmp
943
TimeStamp = 4900D275;
944
Reference = D4;
945
ValeurCmp = LED;
946
IdModule  = -1206;
947
EndCmp
948
 
949
BeginCmp
950
TimeStamp = 4900C810;
951
Reference = D5;
952
ValeurCmp = LED;
953
IdModule  = -1206;
954
EndCmp
955
 
956
BeginCmp
957
TimeStamp = 48FC9598;
958
Reference = L1;
959
ValeurCmp = 15uHy;
960
IdModule  = wuerth_elektronik_WE-PD4;
961
EndCmp
962
 
963
BeginCmp
964
TimeStamp = 48FDDE00;
965
Reference = L2;
966
ValeurCmp = 5uHy;
967
IdModule  = wuerth_elektronik_v5-WE-TPC_XL/XLH;
968
EndCmp
969
 
970
BeginCmp
971
TimeStamp = 4907220B;
972
Reference = P1;
973
ValeurCmp = TST_Vin;
974
IdModule  = PINTST;
975
EndCmp
976
 
977
BeginCmp
978
TimeStamp = 48FDE089;
979
Reference = P3;
980
ValeurCmp = TST_Vaux;
981
IdModule  = PINTST;
982
EndCmp
983
 
984
BeginCmp
985
TimeStamp = 48FDDD65;
986
Reference = P4;
987
ValeurCmp = TST_Vcore;
988
IdModule  = PINTST;
989
EndCmp
990
 
991
BeginCmp
992
TimeStamp = 48FDDE09;
993
Reference = P5;
994
ValeurCmp = TST_Vcco;
995
IdModule  = PINTST;
996
EndCmp
997
 
998
BeginCmp
999
TimeStamp = 491C3ECB;
1000
Reference = P6;
1001
ValeurCmp = CONN_4;
1002
IdModule  = header_1x4;
1003
EndCmp
1004
 
1005
BeginCmp
1006
TimeStamp = 49256388;
1007
Reference = P7;
1008
ValeurCmp = CONN_7;
1009
IdModule  = header_1x7;
1010
EndCmp
1011
 
1012
BeginCmp
1013
TimeStamp = 499DB3E3;
1014
Reference = P8;
1015
ValeurCmp = TST_GND;
1016
IdModule  = PINTST;
1017
EndCmp
1018
 
1019
BeginCmp
1020
TimeStamp = 48FC9789;
1021
Reference = Q1;
1022
ValeurCmp = G2309;
1023
IdModule  = SOT23GDS;
1024
EndCmp
1025
 
1026
BeginCmp
1027
TimeStamp = 48FDDE01;
1028
Reference = Q2;
1029
ValeurCmp = G2309;
1030
IdModule  = SOT23GDS;
1031
EndCmp
1032
 
1033
BeginCmp
1034
TimeStamp = 48FDE587;
1035
Reference = R1;
1036
ValeurCmp = 22K;
1037
IdModule  = SM0805;
1038
EndCmp
1039
 
1040
BeginCmp
1041
TimeStamp = 48FDE584;
1042
Reference = R2;
1043
ValeurCmp = 22K;
1044
IdModule  = SM0805;
1045
EndCmp
1046
 
1047
BeginCmp
1048
TimeStamp = 48FDE56A;
1049
Reference = R3;
1050
ValeurCmp = 22K;
1051
IdModule  = SM0805;
1052
EndCmp
1053
 
1054
BeginCmp
1055
TimeStamp = 48FDE06A;
1056
Reference = R4;
1057
ValeurCmp = 620K;
1058
IdModule  = SM0805;
1059
EndCmp
1060
 
1061
BeginCmp
1062
TimeStamp = 48FDE06B;
1063
Reference = R5;
1064
ValeurCmp = 154K;
1065
IdModule  = SM0805;
1066
EndCmp
1067
 
1068
BeginCmp
1069
TimeStamp = 48FDD021;
1070
Reference = R6;
1071
ValeurCmp = 33m;
1072
IdModule  = SM2512;
1073
EndCmp
1074
 
1075
BeginCmp
1076
TimeStamp = 48FDDE03;
1077
Reference = R7;
1078
ValeurCmp = 33m;
1079
IdModule  = SM2512;
1080
EndCmp
1081
 
1082
BeginCmp
1083
TimeStamp = 4900D274;
1084
Reference = R8;
1085
ValeurCmp = 330;
1086
IdModule  = SM0805;
1087
EndCmp
1088
 
1089
BeginCmp
1090
TimeStamp = 48FDE2B6;
1091
Reference = R9;
1092
ValeurCmp = 56;
1093
IdModule  = SM0805;
1094
EndCmp
1095
 
1096
BeginCmp
1097
TimeStamp = 48FDDF37;
1098
Reference = R10;
1099
ValeurCmp = 620K;
1100
IdModule  = SM0805;
1101
EndCmp
1102
 
1103
BeginCmp
1104
TimeStamp = 48FDDF3E;
1105
Reference = R11;
1106
ValeurCmp = 365K;
1107
IdModule  = SM0805;
1108
EndCmp
1109
 
1110
BeginCmp
1111
TimeStamp = 4900C7F6;
1112
Reference = R12;
1113
ValeurCmp = 330;
1114
IdModule  = SM0805;
1115
EndCmp
1116
 
1117
BeginCmp
1118
TimeStamp = 48FC9227;
1119
Reference = U1;
1120
ValeurCmp = TPS75003;
1121
IdModule  = TPS75003;
1122
EndCmp
1123
 
1124
EndListe
1125
\end{verbatim}
1126
\end{multicols}
1127
 
1128
\newpage
1129
\subsection{FPGA}
1130
 
1131
\begin{multicols}{2}
1132
\begin{verbatim}
1133
BeginCmp
1134
TimeStamp = /4F4D3964;
1135
Reference = C1;
1136
ValeurCmp = C_clk;
1137
IdModule  = SM0603_Capa;
1138
EndCmp
1139
 
1140
BeginCmp
1141
TimeStamp = /4F58A802;
1142
Reference = Ca1;
1143
ValeurCmp = 10n;
1144
IdModule  = SM0603_Capa;
1145
EndCmp
1146
 
1147
BeginCmp
1148
TimeStamp = /4F69141B;
1149
Reference = Ca2;
1150
ValeurCmp = 10n;
1151
IdModule  = SM0603_Capa;
1152
EndCmp
1153
 
1154
BeginCmp
1155
TimeStamp = /4F69141F;
1156
Reference = Ca3;
1157
ValeurCmp = 10n;
1158
IdModule  = SM0603_Capa;
1159
EndCmp
1160
 
1161
BeginCmp
1162
TimeStamp = /4F691428;
1163
Reference = Ca4;
1164
ValeurCmp = 10n;
1165
IdModule  = SM0603_Capa;
1166
EndCmp
1167
 
1168
BeginCmp
1169
TimeStamp = /4F58BF85;
1170
Reference = Ca5;
1171
ValeurCmp = 10u;
1172
IdModule  = SM1206POL;
1173
EndCmp
1174
 
1175
BeginCmp
1176
TimeStamp = /4F69144A;
1177
Reference = Ca6;
1178
ValeurCmp = 100u;
1179
IdModule  = SM1210L;
1180
EndCmp
1181
 
1182
BeginCmp
1183
TimeStamp = /4F6913AD;
1184
Reference = Ci1;
1185
ValeurCmp = 10n;
1186
IdModule  = SM0603_Capa;
1187
EndCmp
1188
 
1189
BeginCmp
1190
TimeStamp = /4F6913AC;
1191
Reference = Ci2;
1192
ValeurCmp = 10n;
1193
IdModule  = SM0603_Capa;
1194
EndCmp
1195
 
1196
BeginCmp
1197
TimeStamp = /4F6913AA;
1198
Reference = Ci3;
1199
ValeurCmp = 10n;
1200
IdModule  = SM0603_Capa;
1201
EndCmp
1202
 
1203
BeginCmp
1204
TimeStamp = /4F6913AB;
1205
Reference = Ci4;
1206
ValeurCmp = 10n;
1207
IdModule  = SM0603_Capa;
1208
EndCmp
1209
 
1210
BeginCmp
1211
TimeStamp = /4F6913A7;
1212
Reference = Ci5;
1213
ValeurCmp = 10u;
1214
IdModule  = SM1206POL;
1215
EndCmp
1216
 
1217
BeginCmp
1218
TimeStamp = /4F6913A9;
1219
Reference = Ci6;
1220
ValeurCmp = 100u;
1221
IdModule  = SM1210L;
1222
EndCmp
1223
 
1224
BeginCmp
1225
TimeStamp = /4F58BBF5;
1226
Reference = Co1;
1227
ValeurCmp = 1n;
1228
IdModule  = SM0603_Capa;
1229
EndCmp
1230
 
1231
BeginCmp
1232
TimeStamp = /4F58BC49;
1233
Reference = Co2;
1234
ValeurCmp = 1n;
1235
IdModule  = SM0603_Capa;
1236
EndCmp
1237
 
1238
BeginCmp
1239
TimeStamp = /4F58BC4C;
1240
Reference = Co3;
1241
ValeurCmp = 1n;
1242
IdModule  = SM0603_Capa;
1243
EndCmp
1244
 
1245
BeginCmp
1246
TimeStamp = /4F58BC4F;
1247
Reference = Co4;
1248
ValeurCmp = 1n;
1249
IdModule  = SM0603_Capa;
1250
EndCmp
1251
 
1252
BeginCmp
1253
TimeStamp = /4F58BEE2;
1254
Reference = Co5;
1255
ValeurCmp = 1u;
1256
IdModule  = SM1206POL;
1257
EndCmp
1258
 
1259
BeginCmp
1260
TimeStamp = /4F58BF10;
1261
Reference = Co6;
1262
ValeurCmp = 1u;
1263
IdModule  = SM1206POL;
1264
EndCmp
1265
 
1266
BeginCmp
1267
TimeStamp = /4F58BF12;
1268
Reference = Co7;
1269
ValeurCmp = 1u;
1270
IdModule  = SM1206POL;
1271
EndCmp
1272
 
1273
BeginCmp
1274
TimeStamp = /4F58BF17;
1275
Reference = Co8;
1276
ValeurCmp = 1u;
1277
IdModule  = SM1206POL;
1278
EndCmp
1279
 
1280
BeginCmp
1281
TimeStamp = /4F58BF30;
1282
Reference = Co9;
1283
ValeurCmp = 10u;
1284
IdModule  = SM1206POL;
1285
EndCmp
1286
 
1287
BeginCmp
1288
TimeStamp = /4E4D4DD3;
1289
Reference = D1;
1290
ValeurCmp = DONE;
1291
IdModule  = LED-0805;
1292
EndCmp
1293
 
1294
BeginCmp
1295
TimeStamp = /4F4D2E32;
1296
Reference = H1;
1297
ValeurCmp = PCB_HOLE;
1298
IdModule  = HOLE;
1299
EndCmp
1300
 
1301
BeginCmp
1302
TimeStamp = /4F4D2E38;
1303
Reference = H2;
1304
ValeurCmp = PCB_HOLE;
1305
IdModule  = HOLE;
1306
EndCmp
1307
 
1308
BeginCmp
1309
TimeStamp = /4F4D2E36;
1310
Reference = H3;
1311
ValeurCmp = PCB_HOLE;
1312
IdModule  = HOLE;
1313
EndCmp
1314
 
1315
BeginCmp
1316
TimeStamp = /4F4D2E3A;
1317
Reference = H4;
1318
ValeurCmp = PCB_HOLE;
1319
IdModule  = HOLE;
1320
EndCmp
1321
 
1322
BeginCmp
1323
TimeStamp = /4E178DD4;
1324
Reference = IC1;
1325
ValeurCmp = XCF01S-VO20;
1326
IdModule  = xilinx_virtexii-xc2v80&flashprom-VO20;
1327
EndCmp
1328
 
1329
BeginCmp
1330
TimeStamp = /4E178908;
1331
Reference = K1;
1332
ValeurCmp = MODE_PROG;
1333
IdModule  = PIN_ARRAY_3X1;
1334
EndCmp
1335
 
1336
BeginCmp
1337
TimeStamp = /4F4D2E41;
1338
Reference = OSC1;
1339
ValeurCmp = OSC;
1340
IdModule  = DIP4-8_OSC;
1341
EndCmp
1342
 
1343
BeginCmp
1344
TimeStamp = /4F4807B3;
1345
Reference = P1;
1346
ValeurCmp = A;
1347
IdModule  = 1X20_MOD;
1348
EndCmp
1349
 
1350
BeginCmp
1351
TimeStamp = /4F480E3E;
1352
Reference = P2;
1353
ValeurCmp = B;
1354
IdModule  = 1X20_MOD;
1355
EndCmp
1356
 
1357
BeginCmp
1358
TimeStamp = /4F4D2C3A;
1359
Reference = P3;
1360
ValeurCmp = JTAG;
1361
IdModule  = PIN_ARRAY-6X1;
1362
EndCmp
1363
 
1364
BeginCmp
1365
TimeStamp = /4F47FC62;
1366
Reference = P4;
1367
ValeurCmp = POWER;
1368
IdModule  = bornier2;
1369
EndCmp
1370
 
1371
BeginCmp
1372
TimeStamp = /4F4810C2;
1373
Reference = P5;
1374
ValeurCmp = PUDC;
1375
IdModule  = PIN_ARRAY_2X1;
1376
EndCmp
1377
 
1378
BeginCmp
1379
TimeStamp = /4F46B535;
1380
Reference = R1;
1381
ValeurCmp = 330;
1382
IdModule  = SM0805;
1383
EndCmp
1384
 
1385
BeginCmp
1386
TimeStamp = /4F46B5A2;
1387
Reference = R2;
1388
ValeurCmp = 4K7;
1389
IdModule  = SM0805;
1390
EndCmp
1391
 
1392
BeginCmp
1393
TimeStamp = /4F46B626;
1394
Reference = R3;
1395
ValeurCmp = 4K7;
1396
IdModule  = SM0805;
1397
EndCmp
1398
 
1399
BeginCmp
1400
TimeStamp = /4E4D4DC9;
1401
Reference = R4;
1402
ValeurCmp = R_LED;
1403
IdModule  = SM0805;
1404
EndCmp
1405
 
1406
BeginCmp
1407
TimeStamp = /4F4D3968;
1408
Reference = R5;
1409
ValeurCmp = R_clk;
1410
IdModule  = SM0805;
1411
EndCmp
1412
 
1413
BeginCmp
1414
TimeStamp = /4E4D5328;
1415
Reference = R6;
1416
ValeurCmp = 10K;
1417
IdModule  = SM0805;
1418
EndCmp
1419
 
1420
BeginCmp
1421
TimeStamp = /4F4801C9;
1422
Reference = R7;
1423
ValeurCmp = R_push;
1424
IdModule  = SM0805;
1425
EndCmp
1426
 
1427
BeginCmp
1428
TimeStamp = /4F481067;
1429
Reference = R8;
1430
ValeurCmp = 100;
1431
IdModule  = SM0805;
1432
EndCmp
1433
 
1434
BeginCmp
1435
TimeStamp = /4F4801A4;
1436
Reference = SW1;
1437
ValeurCmp = RESET_PROG;
1438
IdModule  = SW_PUSH_SMALL;
1439
EndCmp
1440
 
1441
BeginCmp
1442
TimeStamp = /4F4675A1;
1443
Reference = U1;
1444
ValeurCmp = XC3S50A-VQ100;
1445
IdModule  = VQFP100;
1446
EndCmp
1447
 
1448
BeginCmp
1449
TimeStamp = /4F47E8FD;
1450
Reference = U2;
1451
ValeurCmp = TPS75003_PM;
1452
IdModule  = TPS75003_PM_INV;
1453
EndCmp
1454
 
1455
EndListe
1456
\end{verbatim}
1457
\end{multicols}
1458 61 guanucolui
\end{document}

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