<b>Supply Symbols</b><p>
GND, VCC, 0V, +5V, -5V, etc.<p>
Please keep in mind, that these devices are necessary for the
automatic wiring of the supply signals.<p>
The pin name defined in the symbol is identical to the net which is to be wired automatically.<p>
In this library the device names are the same as the pin names of the symbols, therefore the correct signal names appear next to the supply symbols in the schematic.<p>
<author>Created by librarian@cadsoft.de</author>
>VALUE
>VALUE
<b>SUPPLY SYMBOL</b>
<b>SUPPLY SYMBOL</b>
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
chip
>NAME
>VALUE
<b>RESISTOR</b><p>
chip, wave soldering
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.10 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.25 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.12 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.10 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.25 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.25 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.12 W
>NAME
>VALUE
<b>RESISTOR</b><p>
MELF 0.25 W
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0204, grid 5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0204, grid 7.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0204, grid 2.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 10 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 12 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 15mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 2.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0207, grid 7.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0309, grid 10mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0309, grid 12.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0309, grid 2.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0411, grid 12.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0411, grid 15 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0411, grid 3.81 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0414, grid 15 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0414, grid 5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0617, grid 17.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0617, grid 22.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0617, grid 5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0922, grid 22.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0613, grid 5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0613, grid 15 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0817, grid 22.5 mm
>NAME
>VALUE
0817
<b>RESISTOR</b><p>
type 0817, grid 6.35 mm
>NAME
>VALUE
0817
<b>RESISTOR</b><p>
type V234, grid 12.5 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type V235, grid 17.78 mm
>NAME
>VALUE
<b>RESISTOR</b><p>
type V526-0, grid 2.5 mm
>NAME
>VALUE
<b>CECC Size RC2211</b> Reflow Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>CECC Size RC2211</b> Wave Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>CECC Size RC3715</b> Reflow Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>CECC Size RC3715</b> Wave Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>CECC Size RC6123</b> Reflow Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>CECC Size RC6123</b> Wave Soldering<p>
source Beyschlag
>NAME
>VALUE
<b>RESISTOR</b><p>
type 0922, grid 7.5 mm
>NAME
>VALUE
0922
<b>RESISTOR</b><p>
type RDH, grid 15 mm
>NAME
>VALUE
RDH
<b>Mini MELF 0102 Axial</b>
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
chip
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 2.4 x 4.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 2.5 x 5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 3 x 5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 4 x 5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 5 x 5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm, outline 6 x 5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 mm + 5 mm, outline 2.4 x 7 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 2.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 3.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 4.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 2.5 + 5 mm, outline 5.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 2.4 x 4.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 2.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 4.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 3 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 5.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 7.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
Horizontal, grid 5 mm, outline 7.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 7.5 mm, outline 3.2 x 10.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 7.5 mm, outline 4.2 x 10.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 7.5 mm, outline 5.2 x 10.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 10.2 mm, outline 4.3 x 13.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 10.2 mm, outline 5.4 x 13.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 10.2 mm, outline 6.4 x 13.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 10.2 mm + 15.2 mm, outline 6.2 x 18.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 15 mm, outline 5.4 x 18.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 15 mm, outline 6.4 x 18.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 15 mm, outline 7.2 x 18.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 15 mm, outline 8.4 x 18.3 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 15 mm, outline 9.1 x 18.2 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 22.5 mm, outline 6.2 x 26.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 22.5 mm, outline 7.4 x 26.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 22.5 mm, outline 8.7 x 26.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 22.5 mm, outline 10.8 x 26.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 22.5 mm, outline 11.3 x 26.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 9.3 x 31.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 11.3 x 31.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 13.4 x 31.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 20.5 x 31.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 32.5 mm, outline 13.7 x 37.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 32.5 mm, outline 16.2 x 37.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 32.5 mm, outline 18.2 x 37.4 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 37.5 mm, outline 19.2 x 41.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 37.5 mm, outline 20.3 x 41.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 5 mm, outline 3.5 x 7.5 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 37.5 mm, outline 15.5 x 41.8 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 7.5 mm, outline 6.3 x 10.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 15.4 x 31.6 mm
>NAME
>VALUE
<b>CAPACITOR</b><p>
grid 27.5 mm, outline 17.3 x 31.6 mm
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 0204 Reflow solder</b><p>
Metric Code Size 1005
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 0603 Reflow solder</b><p>
Metric Code Size 1608
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 0805 Reflow solder</b><p>
Metric Code Size 2012
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 1206 Reflow solder</b><p>
Metric Code Size 3216
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 1210 Reflow solder</b><p>
Metric Code Size 3225
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 1812 Reflow solder</b><p>
Metric Code Size 4532
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 1825 Reflow solder</b><p>
Metric Code Size 4564
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 2220 Reflow solder</b><p>
Metric Code Size 5650
>NAME
>VALUE
<b>Ceramic Chip Capacitor KEMET 2225 Reflow solder</b><p>
Metric Code Size 5664
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<B>RESISTOR</B>, European symbol
<B>CAPACITOR</B>, European symbol
<B>LED</B><p>
3 mm, round
>NAME
>VALUE
<B>LED</B><p>
5 mm, round
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>Name
>Value
>NAME
>VALUE
<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package E</b>
>NAME
>VALUE
<b>Panasonic Aluminium Electrolytic Capacitor VS-Serie Package G</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>LEDs</b>
Standard schematic elements and footprints for 5mm, 3mm, 1206, and 0603 sized LEDs. 5mm - Spark Fun Electronics SKU : COM-00529 (and others)
<b>Capacitor Polarized</b>
These are standard SMD and PTH capacitors. Normally 10uF, 47uF, and 100uF in electrolytic and tantalum varieties. Always verify the external diameter of the through hole cap, it varies with capacity, voltage, and manufacturer. The EIA devices should be standard.
ePawn Library 2011
<b>TEST PAD</b>
>NAME
>VALUE
<B>DIODE</B>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>NAME
>VALUE
<b>NPN Transistor</b>
<b>SOT-223</b>
>NAME
>VALUE
Header for OS4000-T
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
GND
IN
OUT
>VALUE
>NAME
<b>Voltage Regulator</b>
Standard LM317 adjustable voltage regulator. AOI (Adjust Output Input). Google LM317 Calculator' for easy to use app to get the two resistor values needed. 240/720 for 5V output. 240/390 for 3.3V output. Spark Fun Electronics SKU : COM-00527'
<b>Header 5</b>
Standard 5-pin 0.1" header. Use with straight break away headers (SKU : PRT-00116), right angle break away headers (PRT-00553), swiss pins (PRT-00743), machine pins (PRT-00117), and female headers (PRT-00115). Molex polarized connector foot print use with SKU : PRT-08230 with associated crimp pins and housings.
<b>TTL Devices, 74xx Series with European Symbols</b><p>
Based on the following sources:
<ul>
<li>Texas Instruments <i>TTL Data Book</i> Volume 1, 1996.
<li>TTL Data Book, Volume 2 , 1993
<li>National Seminconductor Databook 1990, ALS/LS Logic
<li>ttl 74er digital data dictionary, ECA Electronic + Acustic GmbH, ISBN 3-88109-032-0
<li>http://icmaster.com/ViewCompare.asp
</ul>
<author>Created by librarian@cadsoft.de</author>
<b>Dual In Line Package</b>
>NAME
>VALUE
<b>Wide Small Outline package</b> 300 mil
>VALUE
>NAME
<b>Leadless Chip Carrier</b><p> Ceramic Package
>NAME
>VALUE
>NAME
>VALUE
>NAME
GND
VCC
Octal <b>BUFFER</b> and <b>LINE DRIVER</b>, 3-state
<b>Jumpers</b><p>
<author>Created by librarian@cadsoft.de</author>
<b>JUMPER</b>
>NAME
1
2
3
4
>VALUE
<b>Solder jumper</b>
>NAME
>VALUE
<b>Solder jumper</b>
>NAME
>VALUE
<b>JUMPER</b>
>NAME
1
2
3
>VALUE
<b>JUMPER</b>
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
>NAME
>VALUE
<b>JUMPER</b>
SMD solder <b>JUMPER</b>
<b>JUMPER</b>
<b>JUMPER</b>
<b>Female Headers etc.</b><p>
Naming:<p>
FE = female<p>
# contacts - # rows<p>
W = angled<p>
<author>Created by librarian@cadsoft.de</author>
<b>FEMALE HEADER</b>
>NAME
1
>VALUE
40
>VALUE
>NAME
<b>FEMALE HEADER</b>
<b>Pin Header Connectors</b><p>
<author>Created by librarian@cadsoft.de</author>
<b>PIN HEADER</b>
>NAME
>VALUE
<b>PIN HEADER</b>
>NAME
>VALUE
>NAME
>VALUE
<b>PIN HEADER</b>
>NAME
>VALUE
<b>SMALL OUTLINE TRANSISTOR</b><p>
reflow soldering
>NAME
>VALUE
>NAME
>VALUE
>VALUE
GND
>NAME
>VALUE
<b>SUPPLY SYMBOL</b>
<b>SOT-23 Voltage Regulator</b><p>
<b>Supply Symbols</b><p>
GND, VCC, 0V, +5V, -5V, etc.<p>
Please keep in mind, that these devices are necessary for the
automatic wiring of the supply signals.<p>
The pin name defined in the symbol is identical to the net which is to be wired automatically.<p>
In this library the device names are the same as the pin names of the symbols, therefore the correct signal names appear next to the supply symbols in the schematic.<p>
<author>Created by librarian@cadsoft.de</author>
>VALUE
>VALUE
<b>SUPPLY SYMBOL</b>
<b>SUPPLY SYMBOL</b>
<BR>Würth Elektronik -- Electronic Interconnect & Electromechanical Solutions<br><Hr>
<BR><BR>
<TABLE BORDER=0 CELLSPACING=0 CELLPADDING=0>
<TR>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3><BR><br>
<BR>
<BR>
<BR>
<BR><BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3><br>
-----<BR>
-----<BR>
-----<BR>
-----<BR>
-----<BR><BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER> <FONT FACE=ARIAL SIZE=3><br>
---------------------------<BR>
<B><I><span style='font-size:26pt;
color:#FF6600;'>WE </span></i></b>
<BR>
---------------------------<BR><b>Würth Elektronik</b></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3><br>
---------O---<BR>
----O--------<BR>
---------O---<BR>
----O--------<BR>
---------O---<BR><BR></FONT>
</TD>
<TD BGCOLOR="#cccccc" ALIGN=CENTER><FONT FACE=ARIAL SIZE=3><BR>
<BR>
<BR>
<BR>
<BR>
<BR><BR></FONT>
</TD>
</TR>
<TR>
<TD COLSPAN=7>
</TD>
</TR>
</TABLE>
<B> More than you expect<BR><BR><BR></B>
<HR><BR>
<b>Würth Elektronik eiSos GmbH & Co. KG</b><br>
EMC & Inductive Solutions<br>
Max-Eyth-Str.1<br>
D-74638 Waldenburg<br>
<br>
Tel: +49 (0)7942-945-0<br>
Fax:+49 (0)7942-945-405<br>
<br>
<a href="http://www.we-online.com">http://www.we-online.com</a><br>
<a href="mailto:pm.hotline@we-online.de">pm.hotline@we-online.de</a> <BR><BR>
<br><HR><BR>
Neither CadSoft nor WE-eiSos does warrant that this library is error-free or <br>
that it meets your specific requirements.<br><BR>
Please contact us for more information.<br><BR><br>
<hr>
Version 1.2, May 6-th 2011
<HR>
Copyright: Würth Elektronik
WR-COM SMT Horizontal 5 Contacts Micro USB Type B, 5 pins
1
5
PCB EDGE
CONNECTOR EDGE
>NAME
>VALUE
>NAME
>VALUE
WR-COM SMT Horizontal 5 Contacts Micro USB Type B,5 pins
From Remote Controller
Open Collector
Low ESR Output Ceramic Capacitor
X7R ?
Min 10uF if tantalum
MODULE WIFI ESP8266 ESP-12-Q SPI IC FLASH 32MBIT 104MHZ 8SOIC ‑ 25Q32 ‑ SiliconKit
PC10
PC12
VDD
BOOT0
NC
NC
PA13
PA14
PA15
GND
PB7
PC13
PC14
PC15
PH0
PH1
VBAT
PC2
PC3
PC11
PD2
E5V
GND
NC
IOREF
RESET
+3V3
+5V
GND
GND
GND
GND
AGND
VIN
NC
PA0
PA1
PA4
PB0
PC1
PC0
PC9
PB8
PB9
AVDD
PA5
PA6
PA7
PB6
PC7
PA9
PA8
PB10
PB4
PB5
PB3
PA10
PA2
PA3
PC8
PC6
PC5
U5V
NC
PA12
PA11
PB12
NC
PB2
PB1
PB15
PB14
PB13
PC4
NC
NC
VIN : Entrée de Tension +7Và 15V
E5V : Tension 5V régulée à partir d'une source externe sur VIN +7Và 15V..
VBAT : connecté à VDD par pont par défaut
+3V3: Tension 3.3V = +5V régulée. le régulateur peut cracher 0.5A
VDD : entrée de tension directe alternative à +3V3. Si injecté, il faut ouvrir le pont SB2ou enlever JP6. Par défaut, == +3V3.
+5V : par défaut connecté à U5V. (jumper JP5 pour sélectionner E5V à la place de U5V)
U5V : Provient de VUSB5V
AVDD : connecté à VDD par SB57 équipé
GNDA : relié à GND
VDD : connecté par JP6 à +3V3 par défaut
GND : relié à GNDA
UART DOWNLOAD MODE :
GPIO15 : LOW
GPIO0 : LOW
GPIO2 :HIGH
FLASH BOOT MODE :
GPIO15 : LOW
GPIO0 : HIGH
GPIO2 : HIGH
0C-ESP8266__WROOM_WiFi_Module_Datasheet__EN_v0.4
0B-ESP8266__Hardware_User_Guide__EN_v1.1.pdf
OPEN COLLECTOR (BLACK)
REMOTE SUPPLY +5VSB
REMOTE GND
+5VSB (RED)
3 MODES (same for NUCLEO-F446RE and NUCLEO-F746ZG). Modes 1 and 2 for software dev. through USB connected to the Nucleo. Mode 3 : final product, standalone.
1 : On Table, 1 USB from a laptop connected to nucleo and one USB supply to this shield board. No PC-ATX Power Supply used. All Power for NUCLEO comes from USB on NUCLEO.
All power on this shield board comes from USB connected to this board. JP3:2-3, JP2:OFF. On Nucleo JP1 = OFF, SB1 solder bridge open or closed. Connect laptop last. Disconnect first.
2 : On Table, 1 USB from a laptop connected to nucleo, with PC-ATX Power Supply. For sw devs and tests of control of PS.
All Power for NUCLEO comes from USB on NUCLEO. All power on this board comes from PC-ATX Power Supply. JP3:1-2, JP2:OFF, On Nucleo JP1 = ON or OFF, SB1 solder bridge open or closed. Connect laptop last. Disconnect first.
3 : Final config in Lamp. NO USB allowed.
All power comes from PC-ATX Power Supply +5VSB. JP3:1-2. JP2:ON. On Nucleo JP1 = ON, SB1 solder bridge open or closed.
For quick tests on table with one led strip
and a micro usb supply able to deliver potentially
up to 3.6A
720mA garantied by standard
Not Used
PA5:Controls Green Led on Nucleo
PC13:Also connected to User Push Button on Nucleo Board
PC13:SB17 should be replaced by a 10K resistor
Option 1
Option 2
REQUIRED MODIFICATION on NUCLEO-F446RE:
SB17 0ohm bridge resistor should be replaced by a 10Kohm resistor (0406 size), so that PC13 can be used as an ouput, as well as an input
This resistor is useless
Do not close JP2 while USB is connected to nucleo
goes to GPIO15_ESP
There is a 470R+Blue LED to VCC in the module on GPIO2
Remote In Levels on PA0
Required Production Tested
Low 0.3Vdd = 0.99V
High 0.7Vdd = 2.31V
Spec Garantied
Low 0.35Vdd -0.04 = 1.115V
High 0.45Vdd+0.3 = 1.78V
Measured :
Min 0.5V
Max 2.4V
Input Hysteresis = 10%Vdd = 0.33V
N_PS_ON is to be connected
to PS_ON of ATX Connector
PW_OK is to be connected
to PW_OK of ATX Connector
+5VSB is to be connected
to 5VSB of ATX Connector
NEVER connect simultaneously (USB on Nucleo) AND (PC Supply to SV10) AND (JP2 = ON)
NEVER connect simultaneously USB on Nucleo, PC Supply to SV10 with JP2 = ON
Micro USB Connector
Power Supply from ATX by SV10 pin 1 and 5
No input to pins 2,3,4 (here only for checking with voltmeter)
ATX Power ON/OFF OK management
Power from Micro USB option
Needed in debug without ATX because the Wifi chip needs lot of current
3.3V Regulation
Power Source Selection for +5V. Either +5V_USB (debug on table) or +5VSB from ATX (nominal)
WiFi
433Mhz Remote Control Input (optional)
Buffers (4V level) to RGB Led DataIn pins
NUCLEO64 connections. NUCLEO-F446RE
JP3 in 1-2 or 2-3 See Below
Warning
Warning
Female 1 pin Header
Male 1 pin Header
Female 4 pins 0.1" Header
Male 0.1" Headers
Female 0.1" 5 pin header
REQUIRED MODIFICATION on NUCLEO-F746ZG:
SB173 0ohm bridge resistor should be replaced by a 10Kohm resistor (0406 size), so that PC13 can be used as an ouput, as well as an input.
Else there is an electrical conflict when pressing the blue button of the nucleo.
Since Version 6.2.2 text objects can contain more than one line,
which will not be processed correctly with this version.