EBC-C413
Intel® Atom™ E3800 PC/104-Plus
Single Board Computer with Digital I/O
Product Manual
WinSystems, Inc. | 715 Stadium Drive, Arlington, Texas 76011 | 817-274-7553 | info@winsystems.com | www.winsystems.com
Revision History
EBC-C413
Document
Version
v1.0 10/2016 Initial release
Last Updated
Date
Copyright and Trademarks
Copyright 2016, WinSystems, Inc.
No part of this document may be copied or reproduced in any form or by any means
without the prior written consent of WinSystems, Inc. The information in the document
is subject to change without notice. The information furnished by WinSystems, Inc. in
this publication is believed to be accurate and reliable. However, WinSystems, Inc.
makes no warranty, express, statutory, implied or by description, regarding the
information set forth herein or regarding the freedom of the described devices from
patent infringement. WinSystems, Inc. makes no warranty of merchantability or fitness
for any purpose. WinSystems, Inc. assumes no responsibility for any errors that may
appear in this document.
Trademark Acknowledgments
Brief Description of Change
WinSystems is a registered trademark of WinSystems, Inc.
Duo-Clasp™ and Pico-Clasp™ are registered trademarks of Molex, Inc.
®
InsydeH2O
®
Intel
Microsoft
Corporation in the United States and/or other countries.
is a registered trademark of Insyde Software.
Bay Trail™ Processor are trademarks of Intel, Inc.
®
and Windows® are either registered trademarks or trademarks of Microsoft
v1.0 www.winsystems.com Page i
EBC-C413
Table of Contents
1 Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
2 Functionality . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
3 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
4 Before You Begin . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
4.1 Warnings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
5 General Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
6 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
7 Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
7.1 Component Layout. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
7.1.1 Top View Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
7.1.2 Bottom View Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
7.1.3 Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
7.2 I/O Port Map. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
7.3 Interrupt Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
7.4 Digital I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
7.4.1 Ports 0 through 5 I/O . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
7.4.2 INT_PENDING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
7.4.3 PAGE/LOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.4.4 POL0 through POL2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.4.5 ENAB0 through ENAB2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.4.6 INT_ID0 through INT_ID2 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.5 Watchdog Timer. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.5.1 Enable and Set the Timer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
7.6 Real-Time Clock/Calendar . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
7.7 Buzzer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
7.8 Activity Light . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
7.9 Clear CMOS Settings Jumper. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
7.10 Serial Ports. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
7.11 Power. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
7.11.1 Fan . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
7.12 Connectors. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
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EBC-C413/Table of Contents
7.12.1 PWR - Power Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
7.12.2 ATXAUX - ATX/Auxiliary Power Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
7.12.3 COM3-4 - COM3 and COM4 Serial Ports . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
7.12.4 MIO - Multi I/O Interface Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
7.12.5 RST - Reset Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
7.12.6 MOUSE - PS/2 Mouse Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
7.12.7 KBMS - PS/2 Keyboard Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
7.12.8 USB1 - USB Connector for Ports 0-3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
7.12.9 USB2 - USB Connector for Ports 4-7 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
7.12.10 DIO1 - Digital I/O Connector with Event Sense. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
7.12.11 DIO2 - Digital I/O Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
7.12.12 PC104AB - PC/104 8-bit Bus Connector
PC104CD - PC/104 16-bit (Includes PC104AB) Bus Connector . . . . . . . . . . . . . . . . . . . . . 30
7.12.13 PC104P - PC/104-Plus/PCI-104 Bus Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
7.12.14 SATA1 - Serial ATA Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
7.12.15 SATAPWR - Serial ATA Power Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
7.12.16 FAN - Connector for Optional Fan. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
7.12.17 LVDS - LVDS Display Output Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34
7.12.18 BKLT - Backlight Power and Control Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
7.12.19 VGA - Analog VGA Display Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
7.12.20 DP - Mini DisplayPort Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
7.12.21 BAT - External Battery Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
7.12.22 AUDIO - HD Audio Connector. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
7.12.23 LAN1/LAN2 - Ethernet LAN Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 40
7.12.24 MC1 - MiniCard Connector with PCI-Express and USB . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
7.12.25 MC2 - MiniCard/mSATA Connector with PCI-Express, USB, and SATA . . . . . . . . . . . . . . . 43
7.12.26 CF1 - CFast SSD Connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
7.12.27 204-pin SODIMM Socket for System Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13 Jumpers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13.1 JP104P - PCI-104 Power Source Select. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13.2 JP5VSB - 5V Standby Power Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13.3 JPSATA - Serial ATA Device Select. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13.4 JPATX - AT/ATX Power Supply Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 46
7.13.5 JPMC1 - MC1 Wireless LAN Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
7.13.6 JPMC2 - MC2 Wireless LAN Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
7.13.7 JPMSATA - MC2 mSATA/MiniCard Select . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
7.13.8 JPLCDP - LCD Panel Power Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
7.13.9 JPBAT - RTC Battery Enable. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
7.14 LED Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
7.2.1 LED4 User LED. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48
8 BIOS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
8.1 General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
8.2 Entering Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
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EBC-C413/Table of Contents
8.3 Navigation of the Menus. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
8.4 BIOS Splash Screen . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
8.5 BIOS Screens . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
9 Cables and Accessories . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 62
10 Software Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 63
Appendix A. Best Practices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 64
Appendix B. Mechanical Drawings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 68
Appendix C. Power-on Self-Test (POST) Codes . . . . . . . . . . . . . . . . . . . . . . 69
Appendix D. Warranty Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 75
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1. Introduction
This manual provides configuration and usage information for the EBC-C413. The EBCC413 is a full-featured embedded single board computer (SBC) with digital I/O. If you
still have questions after reviewing this manual, contact the WinSystems Technical
Support at (817) 274-7553, Monday through Friday, between 8 AM and 5 PM Central
Standard Time (CST).
Refer to the WinSystems website for other accessories (including cable drawings and
pinouts) that can be used with your EBC-C413.
2. Functionality
The EBC-C413 is a full-featured, EBX-compatible, embedded single board computer
(SBC) that supports Linux, Windows
compatible real-time operating systems. Refer to “Features” on this page and “General
Operation” on page 4 for additional information.
EBC-C413/Introduction
®
10 desktop, Windows 10 IoT, and other x86-
3. Features
NOTE WinSystems can provide custom configurations for Original Equipment Manufacturer
(OEM) clients. Please contact an Application Engineer through technical support for
details (see the Introduction paragraph on this page for details).
This section describes the features of the EBC-C413.
Single Board Computer
• EBX-compatible Single Board Computer with Stacked PC/104-Plus connectors
®
• Soldered-down Multi-Core Intel
– E3815 single-core, 1.46 GHz
– E3827 dual-core, 1.75 GHz
– E3845 quad-core, 1.91 GHz
Operating Systems (compatible)
• Windows Embedded 7, 8, and 8.1
• Windows 7, 8, and 10 (32/64-bit)
Atom™ E3800 Processor. Available options:
•Linux
• Other x86-compatible systems
Memory
• SODIMM 204-pin DDR3-LV compatible socket (one socket, maximum of eight GB
RAM)
v1.0 www.winsystems.com Page 1
BIOS
EBC-C413/Features
• InsydeH2O
®
Video Interfaces (one or two simultaneously active displays)
• Dual video with simultaneous CRT, DisplayPort or LVDS with PWM backlight
support
Ethernet
®
•Intel
i210 Gigabit Ethernet (1 gigabit per second, GbE) with Surge Suppression
(2 ports)
Storage
• mSATA Socket (Multiplexed with the MiniCard connector MC2)
• SATA 2.0 connector
• CFast
• USB
Digital Input/Output (General Purpose Input/Output - GPIO)
• 48 lines (bi-directional) TTL digital I/O lines with 24 lines capable of event sense
interrupt generation (DIO1)
• External voltage translators allow the signals to drive or sink up to 5 V DC
Bus Expansion
• PC/104-Plus (PC/104 and PCI-104)
• MiniCard Sockets (two sockets, MC2 multiplexed with mSata)
Serial Interface
• Eight USB 2.0 ports with ESD suppression
• Four serial ports (RS-232 and RS-422/485 configurable)
Audio
• 7.1 HD Audio including connections for Line-In, Line-Out, rear, side, center, Low
Frequency Effects (LFE), two Microphones, and CD
Power
• +5 V DC Power Input (main supply to EBC-C413)
• If provided, the +12 V DC and -12 V DC supplies the PC104 and PC104PLUS
connector. Also, some flat panel displays require +12 V DC.
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Industrial Operating Temperature
• Fanless -40 °C to +85 °C (-40 °F to +185 °F)
• Fan control provided (fan powered from FAN connector, +12 V DC)
Additional Features
• Watchdog timer from 1 second to 255 minutes
• Real-Time Clock (RTC) with optional battery back up
• Software controlled activity LED
• BIOS buzzer alerts (beeps) to indicate POST failure
4. Before You Begin
Review the warnings in this section and the best practice recommendations (see “Best
Practices” on page 64) when using and handling the WinSystems EBC-C413.
Adherence to these recommendations provides an optimal user experience and
prevents damage. Read this document and become familiar with the EBC-C413 before
proceeding.
EBC-C413/Before You Begin
4.1 Warnings
FAILING TO COMPLY WITH THESE BEST PRACTICES MAY DAMAGE THE EBC-C413
AND VOID YOUR WARRANTY.
Only qualified personnel should configure and install the EBC-C413. While observing
the best practices, pay particular attention to the following:
Avoid Electrostatic Discharge (ESD)
Only handle the circuit board and other bare electronics when electrostatic discharge
(ESD) protection is in place. Having a wrist strap and a fully grounded workstation is
the minimum ESD protection required before the ESD seal on the product bag is
broken.
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5. General Operation
DDR3L
SODIMM
x64
LPC
E3815
E3825
E3845
VGA
DPØ/Mini DP
LVDS
USB 1-4
(5-8 via HUB)
Audio
MiniCard/
mSATA
PC/1Ø4-Plus
Gigabit Enet (2)
MUX
USB
Audio
SATA
CFast
SATA
PCIe
Display Controller
PC/1Ø4
DIO48
FPGA
SUPER I/O
Four serial ports (RS 232/422/485)
PS/2 keyboard, mouse, LPT
DisplayPort to LVDS
USB Power Switch
HD Audio Codec
PCIe to PCI Bridge
MiniCard
PCIe Packet Switch
MUX
The EBC-C413 is a single-board computer (SBC). It is a full-featured embedded system
with a variety of onboard I/O options. The following figure is a simplified system block
diagram of the EBC-C413.
EBC-C413/General Operation
Three display interfaces (VGA, DP Mini DisplayPort, and LVDS) support dual video (up
to two simultaneous independent displays) along with stereo audio. Communication
interfaces include two Gigabit Ethernet ports, eight USB 2.0 ports with ESD
suppression, four serial, 48 digital I/O lines with event sense, a watchdog timer, a PS/2
keyboard and mouse controller, and a parallel port (LPT).
The EBC-C413 can provide an upgrade for an existing EBX-compatible SBC. It is
designed for harsh environments and reliability, featuring soldered RAM for added
shock and vibration resistance, and provides a fanless solution for operating
temperatures between -40 °C and +85 °C (-40 °F and +185 °F).
The EBC-C413 processor options provide single, dual, or quad-core processing. Each
soldered-processor option can support up to eight GB of DDR3 memory and optional
stackable PC/104-Plus connectors.
Operating systems such as Linux or Windows can be initialized from the SATA, mSATA,
v1.0 www.winsystems.com Page 4
or USB interfaces. This provides flexible data storage options.
6. Specifications
The EBC-C413 adheres to the following specifications and requirements.
EBC-C413 Specifications
EBC-C413/Specifications
Electrical
V
CC
Processor 3815: E3815 single-core 1.46 GHz, 512 K cache (MOQ
Dimensions 5.75 x 8.00 inches (146 x 203 mm)
Weight 1.19 lbs (0.540 Kg) with heatsink
PCB Thickness 0.078 inch (1.98 mm)
Temperature -40 °C to +85 °C (-40 °F to +185 °F)
Humidity (RH) 5% to 95% non-condensing
Mechanical Shock
Testing
Random Vibration
Testing
RoHS Compliant Yes
+5 V DC ±5%, 1.7 A Typical, 2.2 A Maximum
required)
3825: E3825 dual-core 1.33 GHz, 1 MB cache
3845: E3845 quad-core 1.91 GHz, 2 MB cache
Mechanical
Environmental
MIL-STD-202G, Method 213B, Condition A 50g half-sine,
11 ms duration per axis, 3 axis
MIL-STD-202G, Method 214A, Condition D .1g/Hz
(11.95g rms), 20 minutes per axis, 3 axis
Operating Systems
Runs 32/64-bit Windows, Linux, and other x86-compatible operating systems.
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7. Configuration
1
1
2
39
40
1314
1
1
2
1
1
11
20
19
2
1
1
2
49
50
1
2
49
50
1
119
220
1
19
220
2
49
50
MIO
KBMS
1
MOUSE
1
COM3-4
1
ATXAUX
1
PWR
LAN2
LAN1
BAT
AUDIO
USB1
1
USB2
DIO1
DIO2
FAN
LVDS
BKLT
DP
(Mini DisplayPort)
VGA
1
1
SATA1
SATAPWR
A1B1
A32B32
PC104AB
D1C1
D19C19
PC104CD
D30
C30
B30
A30
PC104P
RST
21
This section describes the EBC-C413 components and configuration.
7.1 Component Layout
The EBC-C413 provides components on the top and bottom of the board.
7.1.1 Top View Connectors
The following figure illustrates the location of each connector on the top of the EBCC413.
EBC-C413/Configuration
v1.0 www.winsystems.com Page 6
EBC-C413/Configuration
Top View Components
The following table provides connector descriptions and references for the previous
figure (“Top View Connectors” on page 6).
Item Connector and Description Reference
PWR PWR - Power Connector page 18
ATXAUX ATXAUX - ATX/Auxiliary Power Connector page 18
COM3-4 COM3-4 - COM3 and COM4 Serial Ports page 20
MIO MIO - Multi I/O Interface Connector page 21
RST RST - Reset Connector (Reset) page 22
MOUSE MOUSE - PS/2 Mouse Connector page 23
KBMS KBMS - PS/2 Keyboard Connector page 23
USB1 USB1 - USB Connector for Ports 0-3 page 24
USB2 USB2 - USB Connector for Ports 4-7 page 25
DIO1 DIO1 - Digital I/O Connector with Event Sense page 26
DIO2 DIO2 - Digital I/O Connector page 28
PC104AB
PC104CD
PC104AB - PC/104 8-bit Bus Connector
PC104CD - PC/104 16-bit (Includes PC104AB)
page 30
Bus Connector
PC104P PC104P - PC/104-Plus/PCI-104 Bus Connector page 31
SATA1 SATA1 - Serial ATA Connector page 33
SATAPWR SATAPWR - Serial ATA Power Connector page 33
FAN FAN - Connector for Optional Fan page 34
LVDS LVDS - LVDS Display Output Connector page 34
BKLT BKLT - Backlight Power and Control Connector page 36
VGA VGA - Analog VGA Display Connector page 37
DP DP - Mini DisplayPort Connector page 38
BAT BAT - External Battery Connector page 38
AUDIO AUDIO - HD Audio Connector page 39
LAN1/LAN2 LAN1/LAN2 - Ethernet LAN Connectors page 40
v1.0 www.winsystems.com Page 7
7.1.2 Bottom View Components
MC2
MiniCard/mSata
MC1
MiniCard
SODIMM0
Memory
CF1
CFast
The following figure illustrates the location of each connector on the bottom of the EBCC413.
EBC-C413/Configuration
Bottom View Components
The following table provides connector descriptions and references for the above figure
(“Bottom View Components”).
Item Connector and Description Reference
MC1 MC1 - MiniCard Connector with PCI-Express and USB page 41
MC2 MC2 - MiniCard/mSATA Connector with PCI-Express,
page 43
USB, and SATA
CF1 CF1 - CFast SSD Connector page 45
SODIMM 204-pin SODIMM Socket for System Memory page 46
v1.0 www.winsystems.com Page 8
7.1.3 Jumpers
The following figure illustrates the location of each jumper on the EBC-C413.
JPBAT
1
JPLCDP
1
EBC-C413/Configuration
JP5VSBJP104P
1
1
JPFGA
1
JPSATA
5
11
JPATX
JPMC2
JPMC1
JPMSATA
111
Jumpers
The following table provides jumper descriptions and references for the above figure
(“Jumpers”).
Item Jumper and Description Reference
JP104P JP104P - PCI-104 Power Source Select page 46
JP5VSB JP5VSB - 5V Standby Power Select page 46
JPSATA JPSATA - Serial ATA Device Select page 46
JPATX JPATX - AT/ATX Power Supply Select page 46
JPMC1 JPMC1 - MC1 Wireless LAN Enable page 47
JPMC2 JPMC2 - MC2 Wireless LAN Enable page 47
JPSATA JPMSATA - MC2 mSATA/MiniCard Select page 47
JPLCDP JPLCDP - LCD Panel Power Configuration page 47
JPBAT JPBAT - RTC Battery Enable page 48
v1.0 www.winsystems.com Page 9
7.2 I/O Port Map
The EBC-C413 uses plug-and-play (PnP) BIOS resource allocation. Take care to avoid
contention with resources allocated by the BIOS.
The EBC-C413 utilizes a Low Pin Count to Industry Standard Architecture Bridge (LPC
to ISA Bridge) to address the PC/104 bus. Most legacy PC/104 modules are I/O mapped
and function as expected. The LPC controller is the subtractive agent of the Intel Legacy
Block. All transactions that are not claimed elsewhere are sent to the LPC controller. The
LPC to ISA Bridge does not implement bus mastering cycles or direct memory access
(DMA).
The following tables contain the I/O ports used on the EBC-C413.
PCU I/O Addresses
0000h-001Fh DMA Controller 82C37
0020h-0021h Interrupt Controller PIC 8259
0024h-0025h Interrupt Controller
0028h-0029h Interrupt Controller
002Ch-002Dh Interrupt Controller
002Eh-002Fh Forward to Super IO
0030h-0031h Interrupt Controller
0034h-0035h Interrupt Controller
0038h-0039h Interrupt Controller
003Ch-003Dh Interrupt Controller
0040h-0043h Timer Counter 8254
004Eh-004Fh Forward to Super IO
0050h-0053h Timer Counter 8254
0060h Keyboard Data Port
0061h NMI Controller
0062h 8051 download 4K address counter
0064h Keyboard Status Port
0066h 8051 Download 8-bit Data Port
0070h-0077h RTC Controller
0080h-0091h DMA Controller
0092h Reset Generator
0093h-009Fh DMA Controller
00A0h-00A1h Interrupt Controller PIC 8259
00A4h-00A5h Interrupt Controller
00A8h-00A9h Interrupt Controller
0ACh-00ADh Interrupt Controller
00B0h-00B1h Interrupt Controller
EBC-C413/Configuration
I/O Address Device
v1.0 www.winsystems.com Page 10
PCU I/O Addresses (Continued)
I/O Address Device
00B2h-00B3h Power Management
00B4h-00B5h Interrupt Controller
00B8h-00B9h Interrupt Controller
00C0h-00DFh DMA Controller 82C37
00F0h FERR#/IGNNE/Interrupt Controller
0120h-012Fh Digital I/O (Default)
0140h-01FFh Reserved
0170h-0177h IDE1 Controller
0180h-01FFh Reserved
0298h-029Bh Reserved for Super I/O Configuration
029C Interrupt Status Register
029D Status LED Register
029E-029F Watchdog Timer Control
02E8h-02EFh COM4 (Default)
02F8h-02FFh COM2 (Default)
0340h-03E7h Reserved
0376h IDE1 Controller
0378h-037Bh LPT (Default)
03E8h-03EFh COM3 (Default)
03F0h-03F5h Reserved
03F6h IDE0 Controller
03F8h-03FFh COM1 (Default)
04D0h-4D1h Interrupt Controller
0564h-0568h Advanced Watchdog
0CF9h Reset Generator
EBC-C413/Configuration
7.3 Interrupt Map
The EBC-C413 supports hardware interrupts (IRQs) for PC/104 (ISA), PCI, and PCIe
devices. The user must reserve IRQs in the BIOS CMOS configuration for use by legacy
devices. The PCIe/PnP BIOS will use unreserved IRQs when allocating resources during
the boot process. The following tables outline the EBC-C413 IRQ resource allocations.
IRQ Resources
IRQ Device
IRQ0 18.2 Hz Heartbeat
IRQ1 Keyboard
IRQ2 Chained to Slave Controller (IRQ9)
IRQ3 COM2 *
v1.0 www.winsystems.com Page 11
EBC-C413/Configuration
IRQ Resources (Continued)
IRQ Device
IRQ4 COM1 *
IRQ5 COM3 *
IRQ6 COM4 *
IRQ7 FREE *
IRQ8 Real Time Clock
IRQ9 FREE **
IRQ10 Digital I/O
IRQ11 PCI Interrupts
IRQ12 Mouse
IRQ13 Floating Point Processor
IRQ14 SATA Controller
IRQ15 SATA Controller ***
Some IRQs can be freed for other uses if the hardware features they are assigned to are not being used. To free an
interrupt, use the CMOS setup screens to disable any unused board features or their IRQ assignments.
* These IRQ references are default settings that can be changed by the user in the CMOS Settings utility. Reference
the Super I/O Control section under Intel.
** IRQ9 is commonly used by ACPI when enabled and may be unavailable (depending on operating system) for other
uses.
*** IRQ15 is currently unavailable under the Windows operating systems.
Interrupt Status Register - 29CH
Bit Name
Bit 0 COM1
Bit 1 COM2
Bit 2 COM3
Bit 3 COM4
Bit 4 N/A
Bit 5 N/A
Bit 6 N/A
Bit 7 N/A
WinSystems does not provide software support for implementing the Interrupt Status Register to share interrupts.
Some operating systems, such as Windows XP and Linux, have support for sharing serial port interrupts (see your
specific operating system’s documentation for any available examples). You will need to implement the appropriate
software to share interrupts for the other devices.
NOTE A “1” will be read for devices with an interrupt pending.
v1.0 www.winsystems.com Page 12
7.4 Digital I/O
The EBC-C413 uses the WinSystems exclusive application-specific integrated circuit
(ASIC), the WS16C48. This device provides 48 lines of digital I/O. There are 16 unique
registers within the WS16C48. The following table summarizes the registers.
EBC-C413/Configuration
I/O Address Offset Page 0 Page 1 Page 2 Page 3
00h Port 0 I/O Port 0 I/O Port 0 I/O Port 0 I/O
01h Port 1 I/O Port 1 I/O Port 1 I/O Port 1 I/O
02h Port 2 I/O Port 2 I/O Port 2 I/O Port 2 I/O
03h Port 3 I/O Port 3 I/O Port 3 I/O Port 3 I/O
04h Port 4 I/O Port 4 I/O Port 4 I/O Port 4 I/O
05h Port 5 I/O Port 5 I/O Port 5 I/O Port 5 I/O
06h Int_Pending Int_Pending Int_Pending Int_Pending
07h Page/Lock Page/Lock Page/Lock Page/Lock
08h Reserved Pol_0 Enab_0 Int_ID0
09h Reserved Pol_1 Enab_1 Int_ID1
0Ah Reserved Pol_2 Enab_2 Int_ID2
The following sections provide details on each of the internal registers.
7.4.1 Ports 0 through 5 I/O
Each I/O bit in each of the six ports can be individually programmed for input or output.
Writing a “0” to a bit position causes the corresponding output pin to go to a highimpedance state (pulled high by external 10 K resistors). This allows it to be used as
an input. When used in the input mode, a read reflects the inverted state of the I/O pin,
such that a high on the pin will read as a “0” in the register. Writing a “1” to a bit
position causes that output pin to sink current (up to 12 mA), effectively pulling it low.
7.4.2 INT_PENDING
This read-only register reflects the combined state of the INT_ID0 through INT_ID2
registers. When any of the lower three bits are set, it indicates that an interrupt is
pending on the I/O port corresponding to the bit position(s) that are set.
Reading this register allows an Interrupt Service Routine to quickly determine if any
interrupts are pending and which I/O port has a pending interrupt.
v1.0 www.winsystems.com Page 13
7.4.3 PAGE/LOCK
This register serves two purposes. The upper two bits (D6 and D7) select the register
page, and bits 0-5 allow for locking the I/O ports. Write a "1" to the I/O port position to
prohibit further writes to the corresponding I/O port:
Page D7 D6 D5-D0
Page 0 0 0 1/0
Page 1 0 1 1/0
Page 2 1 0 1/0
Page 3 1 1 1/0
7.4.4 POL0 through POL2
These registers are accessible when Page 1 is selected. They allow interrupt polarity
selection on a port-by-port and bit-by-bit basis. Writing a "1" to a bit position selects the
rising edge detection interrupts while writing a "0" to a bit position selects falling edge
detection interrupts.
EBC-C413/Configuration
7.4.5 ENAB0 through ENAB2
These registers are accessible when Page 2 is selected. They allow for port-by-port and
bit-by-bit enabling of the edge detection interrupts. When set to a "1", the edge detection
interrupt is enabled for the corresponding port and bit. When cleared to "0", the bit’s
edge detection interrupt is disabled.
NOTE You can use these registers to individually clear a pending interrupt by disabling and re-
enabling the pending interrupt.
7.4.6 INT_ID0 through INT_ID2
These registers are accessible when Page 3 is selected. They are used to identify
currently pending edge interrupts. A bit when read as a "1" indicates that an edge of the
polarity programmed into the corresponding polarity register has been recognized. A
write to this register (value ignored) clears ALL of the pending interrupts in this register.
7.5 Watchdog Timer
The EBC-C413 features an advanced watchdog timer that can be used to guard against
software lockups.
7.5.1 Enable and Set the Timer
The watchdog timer can be enabled in the BIOS Settings by entering a value for
Watchdog Timeout on the Advanced/SIO > FPGA G639 screen. Any non-zero value
represents the number of minutes prior to reset during system boot. Once the operating
v1.0 www.winsystems.com Page 14
EBC-C413/Configuration
system is loaded, the watchdog can be disabled or reconfigured in the application
software.
NOTE Use a longer reset interval if the watchdog is enabled and the operating system restarts.
The watchdog can also be enabled, disabled, or reset by writing the appropriate values
to the configuration registers located at I/O addresses 565h and 566h. To enable the
watchdog, write a timeout value other than zero to 566h. To disable the watchdog, write
a zero (00h) to 566h. The watchdog timer is serviced by writing the desired timeout
value to I/O port 566h. If the watchdog has not been serviced within the allotted time,
the circuit resets the CPU.
The timeout value (specified by I/O address 566h) can be set from 1 to 255 and
specified in seconds or minutes through I/O address 565h. Set bit 7 of address 565h to
"1" for seconds, and clear to "0" for minutes. See the following table for examples.
Watchdog Timer Examples
Port
Address
565h
To reset the watchdog timer, rewrite the timeout value to PORT 566h.
Port Bit 7
Value
x
1 01h 1 second (minimum)
1 03h 3 seconds
1 1Eh 30 seconds
1 3Ch 60 seconds
0 01h 1 minute
0 04h 4 minutes
0 05h 5 minutes
0 FFh 255 minutes (maximum)
7.6 Real-Time Clock/Calendar
A real-time clock (RTC) is used as the AT-compatible clock/calendar. The RTC supports
a number of features, including periodic and alarm interrupt capabilities. In addition to
the time and date keeping functions, the system configuration is kept in CMOS RAM
contained within the clock section. A battery must be connected for the real-time clock
to retain time and date during a power down.
Port
Address
566h
Value
00h DISABLED
Reset Interval
7.7 Buzzer
The BIOS activates the buzzer during a POST failure. The beep code is specific to each
type of error. Refer to “Power-on Self-Test (POST) Codes” on page 69 for details.
v1.0 www.winsystems.com Page 15
7.8 Activity Light
MALE FEMALE
1
1
6
6
5
5
9
9
The system includes a programmable green activity LED on the board. To control it,
write to I/O address 0x29Dh. Write a 0x01h to turn it on; write a 0x00h to turn it off. See
“LED4 User LED” on page 48.
7.9 Clear CMOS Settings Jumper
This jumper can be used to reset the BIOS CMOS settings to the factory default settings.
This jumper ties a specific pin on the FPGA to ground. The BIOS reads this pin during
system startup and if grounded, forces the settings reset. See “JPBAT - RTC Battery
Enable” on page 48.
7.10 Serial Ports
The EBC-C413 provides four 16C550-compatible UARTs serial ports. Connect to COM1
and COM2 through the “MIO - Multi I/O Interface Connector” on page 21 and COM3 and
COM4 through the “COM3-4 - COM3 and COM4 Serial Ports” on page 20. Each port is
configured as Data Terminal Equipment (DTE). Both the send and receive registers of
each port have a 16-byte FIFO.
EBC-C413/Configuration
The RS-232 has a charge pump to generate the plus and minus voltages so that the
EBC-C413 only requires +5 V DC to operate. An independent, software programmable
baud-rate generator is selectable from 50 through 115.2 kbps. Individual modem
handshake control signals are supported for all ports.
COM1, COM2, COM3, and COM4 (DB-9 Male and Female)
v1.0 www.winsystems.com Page 16
NOTE The following table contains standard pinouts of the EBC-C413 COM ports (COM1
7.11 Power
through COM4) when connected to DB-9 connectors.
Pin RS-232 RS-422 RS-485
1 DCD N/A N/A
2 RX TX+ TX/RX+
3 TX RX+ N/A
4DTR N/A N/A
5 GND GND GND
6 DSR TX7 RTS RX- N/A
8CTR N/A N/A
9RI N/A N/A
TX/RX-
EBC-C413/Configuration
The EBC-C413 draws power through the PWR connector (see “PWR - Power
Connector” on page 18). The main supply to the board is 5 V DC. If supplied to the input
connector, the +12 V DC and -12 V DC supply the PC/104 and PC/104-Plus connectors
(only); 5 V DC stand-by is only required to supply the power connector for ATX mode
operation.
The EBC-C413 supports AT or ATX type power supplies. Jumper JP1 (see “PWR Power Connector” on page 18) specifies the type of supply connected to the single
board computer. AT Power is a simple on/off power supply with no interaction with the
single board computer. ATX mode sends a signal to the single board computer to
control the power (default setting).
7.11.1 Fan
Optional fan power and control is provided through 12 V and control pins at FAN1 (see
“FAN - Connector for Optional Fan” on page 34).
v1.0 www.winsystems.com Page 17
7.12 Connectors
7.12.1 PWR - Power Connector
Use this connection to supply power to the EBC-C413. If available, the +12 V and -12 V
supplies to the PC104 and PC104PLUS connectors. When using an AT power supply,
install jumper JP5VSB to short 5 V and 5 V Stand_by (see “JP5VSB - 5V Standby Power
Select” on page 46).
Layout and Pin Reference:
1 VCC
2 GND
3 GND
4+12 V
5 PC104Plus_3.3 V
6 GND
7 VCC
8-12 V
9 PWRGOOD
EBC-C413/Configuration
1
Pin Name
Additional Information
This power connection is a 9-pin Molex 26-60-6092, 1 x 9, 0.1 inch locking header
connector (or equivalent).
Matching connector:
• Molex 09-50-8093
• Molex 06-58-0189
WinSystems cable CBL-236-G-2-1.5 simplifies this connection to the board.
7.12.2 ATXAUX - ATX/Auxiliary Power Connector
Connect to the ATX signals for the power button, 5 V standby, and power good through
this connector.
v1.0 www.winsystems.com Page 18
EBC-C413/Configuration
1
Pin1
J1 WI RE
1W3 - RED
2W2 - BROWN
3W4 - ORANGE
4W1 - BLACK
WIRE LIST
The EBC-C413 supports either AT (standard power supply) or ATX type power supplies.
Zero-load supplies are recommended. An AT power supply is a simple on/off supply
with no interaction with the single board computer. Most embedded systems use this
type of power supply and it is the default setting. The EBC-C413 power circuit will detect
an AT power supply if +5 VSB is not present at startup.
ATX type power supplies function with a “soft” on/off power button and a +5 VSB
(standby). If an ATX compatible power supply is connected, connect a power switch
(momentary contact) between pin 2 (power button) and pin 1 (ground) of ATXAUX. The
+5 VSB signal provides the standby voltage to the EBC-C413, but does not power any
other features of the board. When the power button is pressed, the EBC-C413 pulls
PSON (Power Supply On) low and the power supply turns on all voltages to the single
board computer. When the power button is pressed again, the BIOS signals the event so
ACPI-compliant operating systems can be shutdown before the power is turned off. In
ATX mode, if the power button is held for 4 seconds, the power supply is forced off,
regardless of ACPI. Since this is software driven, it is possible that a software lockup
could prevent the power button from functioning properly. The EBC-C413 will detect an
ATX power supply, if +5 VSB is present at startup.
Layout and Pin Reference:
Pin Name Description
1 GND Ground
2 FRT_PWRON# (PWRBTN) Power Button
3 +5VSB +5 V Standby Input
4 ATX_PSON# (PSON) Momentary Contact (normally open)
Additional Information
This connection is a Molex 22-11-2042 (or equivalent).
Matching connector:
• MOLEX 22-01-2045 (Housing)
• MOLEX 08-55-0110 or 08-55-0111 (Crimp)
WinSystems cable CBL-PWR-600-14 simplifies this connection to the board.
v1.0 www.winsystems.com Page 19
7.12.3 COM3-4 - COM3 and COM4 Serial Ports
Pin 1
Pin 11
Connect to COM3 and COM4 through this connector.
Layout and Pin Reference:
Pin Name Pin Name
1 COM3_DCD 2 COM3_DSR
3 COM3_RX 4 COM3_RTS
5 COM3_TX 6 COM3_CTS
1
5 COM3_DTR 8 COM3_RI
9 GND 10 N/C
11 COM4_DCD 12 COM4_DSR
13 COM4_RX 14 COM4_RTS
15 COM4_TX 16 COM4_CTS
17 COM4_DTR 18 COM4_RI
19 GND 20 N/C
EBC-C413/Configuration
Additional Information
This connection is a 20-pin Teka SVC210B3580135-0, 2 x 10, 0.1” box header
connector (or equivalent).
NOTE See “Serial Ports” on page 16 for more information on EBC-C413 serial ports.
NOTE Refer to the “MIO - Multi I/O Interface Connector” on page 21 for connection to COM1
and COM2.
Matching connector:
• 20-pin IDC 0.1 inch TE1658622-4
WinSystems cable CBL-173-G-1-1.0 simplifies this connection to the board:
v1.0 www.winsystems.com Page 20
7.12.4 MIO - Multi I/O Interface Connector
1
2
49
50
Connect to the primary serial channels (COM1 and COM2), the printer port, and key
board through this connector.
Layout and Pin Reference:
Pin Name Pin Name
1 COM1_DCD 2 COM1_DSR
3 COM1_RX 4 COM1_RTS
5 COM1_TX 6 COM1_CTS
7 COM1_DTR 8 COM1_RI
9 GND 10 COM2_DCD
11 COM2_DSR 12 COM2_RX
13 COM2_RTS 14 COM2_TX
15 COM2_CTS 16 COM2_DTR
17 COM2_RI 18 GND
19 LPT_STROBE 20 LPT_AUTOFD
21 LPT_PD0 22 LPT_ERROR
23 LPT_PD1 24 LPT_INIT
25 LPT_PD2 26 LPT_SLCTIN
27 LPT_PD3 28 LPT_GND
29 LPT_PD4 30 LPT_ GND
31 LPT_PD5 32 LPT_ GND
33 LPT_PD6 34 LPT_ GND
35 LPT_PD7 36 LPT_ GND
37 LPT_ACK 38 LPT_ GND
39 LPT_BUSY 40 LPT_ GND
41 LPT_PE 42 LPT_ GND
43 LPT_SLCT 44 KBMS_GND
45 KBMS_GND 46 KBMS_GND
47 KBDAT 48 KBCLK
49 +V5S_KBMS 50 +V5S_KBMS
EBC-C413/Configuration
Additional Information
This connection is a 50-pin Teka SVC225B3580135-0, 2 x 25, 0.1” boxed header
connector (or equivalent).
v1.0 www.winsystems.com Page 21
EBC-C413/Configuration
NOTE See “Serial Ports” on page 16 for more information on EBC-C413 serial ports.
Matching connector:
• 50-pin IDC 0.1 inch TE 1-1658622-2 or equivalent
WinSystems cable CBL-247-G-1-1.0 simplifies this connection to the board.
7.12.5 RST - Reset Connector
This connector resets the CPU and all peripherals. Connect it to a normally open
monetary contact switch.
v1.0 www.winsystems.com Page 22
Layout and Pin Reference:
Pin Name
1 RSTBTN#
21
2 GND
WinSystems CBL-RST-402-18 simplifies this connection to the board.
7.12.6 MOUSE - PS/2 Mouse Connector
Connect mouse signals to this connection.
Layout and Pin Reference:
1
EBC-C413/Configuration
Pin Name Description
1MCLK Clock
2 KBMS_5V Power
3 GND Ground
4 N.C. No Connection
5MDAT Data
Additional Information
This connection is a Molex 22-11-2052 (or equivalent).
Matching connector:
• Molex 22-01-2057
• Molex 08-55-0102
WinSystems cable CBL-343-G-1-1.375 simplifies this connection to the board.
7.12.7 KBMS - PS/2 Keyboard Connector
This connection is for factory use only.
v1.0 www.winsystems.com Page 23
EBC-C413/Configuration
119
220
7.12.8 USB1 - USB Connector for Ports 0-3
Connect to the USB signals provided at the USB1 connector.
NOTE The EBC-C413 provides eight USB2.0 ports with ESD suppression (four ports at USB1
and four at USB2).
Layout and Pin Reference:
Pin Name Pin Name
1 USB1_PWR 2 USB1_PWR
3 USBD0- 4 USBD15 USBD0+ 6 USBD1+
7 USB_GND 8 USB_GND
9 USB_GND 10 USB_GND
11 USB_GND 12 USB_GND
13 USB2_PWR 14 USB2_PWR
15 USBD2- 16 USBD317 USBD2+ 18 USBD3+
19 USB_GND 20 USB_GND
Additional Information
This connection is a Molex 501571-2007, 2 x 10, 1 mm pitch (Pico-Clasp™)(or
equivalent) right angle locking header connector (WS G650-2020-7HB).
Matching connector: Molex 501189-2010 housing with Molex 501193-2000 crimp pins.
WinSystems cables simplify connections to the board:
• CBL-USB4-000-14: Pico-Clasp to unterminated
• CBL-USB4-001-12: Pico-Clasp to Pico-Clasp
• CBL-USB4-002-12: Pico-Clasp to 2 each, 2 x 4, 2 mm pitch housing (shown)
PIN 1
PIN 1
v1.0 www.winsystems.com Page 24
EBC-C413/Configuration
119
220
7.12.9 USB2 - USB Connector for Ports 4-7
Connect to the USB signals provided at the USB2 connector.
NOTE The EBC-C413 provides eight USB2.0 ports with ESD suppression (four ports at USB1
and four at USB2).
Layout and Pin Reference:
Pin Name Pin Name
1 +V5S_USB3 2 +V5S_USB3
3 USBD4- 4 USBD55 USBD4+ 6 USBD5+
7 GND 8 GND
9 GND 10 GND
11 GND 12 GND
13 +V5S_USB4 14 +V5S_USB4
15 USBD6- 16 USBD717 USBD6+ 18 USBD7+
19 GND 20 GND
Additional Information
This connection is a Molex 501571-2007, 2 x 10, 1 mm pitch (Pico-Clasp™)(or
equivalent) right angle locking header connector (WS G650-2020-7HB).
Matching connector: Molex 501189-2010 housing with Molex 501193-2000 crimp pins.
WinSystems cables simplify connections to the board:
• CBL-USB4-000-14: Pico-Clasp to unterminated
• CBL-USB4-001-12: Pico-Clasp to Pico-Clasp
• CBL-USB4-002-12: Pico-Clasp to 2 each, 2 x 4, 2 mm pitch housing (shown)
PIN 1
PIN 1
v1.0 www.winsystems.com Page 25
EBC-C413/Configuration
1
2
49
50
7.12.10 DIO1 - Digital I/O Connector with Event Sense
Connect to 24 bi-directional TTL digital I/O lines provided at the DIO1 connector (DIO1
provides up to 24 lines capable of event sense interrupt generation). External voltage
translators allow the signals to drive or sink up to 5 V DC.
NOTE The EBC-C413 provides 48 bi-directional TTL digital I/O lines (24 lines at DIO1 and 24
lines at DIO2).
Layout and Pin Reference:
Pin Name Pin Name
1 Bit C7 2 GND
3 Bit C6 4 GND
5 Bit C5 6 GND
7 Bit C4 8 GND
9 Bit C3 10 GND
11 Bit C2 12 GND
13 Bit C1 14 GND
15 Bit C0 16 GND
17 Bit B7 18 GND
19 Bit B6 20 GND
21 Bit B5 22 GND
23 Bit B4 24 GND
25 Bit B3 26 GND
27 Bit B2 28 GND
29 Bit B1 30 GND
31 Bit B0 32 GND
33 Bit A7 34 GND
35 Bit A6 36 GND
37 Bit A5 38 GND
39 Bit A4 40 GND
41 Bit A3 42 GND
43 Bit A2 44 GND
45 Bit A1 46 GND
47 Bit A0 48 GND
49 VCC1 50 GND
v1.0 www.winsystems.com Page 26
EBC-C413/Configuration
Additional Information
This connection is a Teka SVC225B3580135-0, 2 x 25, 0.1 inch box header (or
equivalent).
Matching connector:
• 50-pin IDC 0.1 inch TE 1-1658622-2 or equivalent
WinSystems cable CBL-129-4 simplifies this connection to the board.
v1.0 www.winsystems.com Page 27
EBC-C413/Configuration
1
2
49
50
7.12.11 DIO2 - Digital I/O Connector
Connect to 24 bi-directional TTL digital I/O lines at the DIO2 connector. External voltage
translators allow the signals to drive or sink up to 5 V DC.
NOTE The EBC-C413 provides 48 bi-directional TTL digital I/O lines (24 lines at DIO1 and 24
lines at DIO2).
Layout and Pin Reference:
Pin Name Pin Name
1Bit F7 2GND
3Bit F6 4GND
5Bit F5 6GND
7Bit F4 8GND
9 Bit F3 10 GND
11 Bit F2 12 GND
13 Bit F1 14 GND
15 Bit F0 16 GND
17 Bit E7 18 GND
19 Bit E6 20 GND
21 Bit E5 22 GND
23 Bit E4 24 GND
25 Bit E3 26 GND
27 Bit E2 28 GND
29 Bit E1 30 GND
31 Bit E0 32 GND
33 Bit D7 34 GND
35 Bit D6 36 GND
37 Bit D5 38 GND
39 Bit D4 40 GND
41 Bit D3 42 GND
43 Bit D2 44 GND
45 Bit D1 46 GND
47 Bit D0 48 GND
49 VCC2 50 GND
v1.0 www.winsystems.com Page 28
EBC-C413/Configuration
Additional Information
This connection is a Teka SVC225B3580135-0, 2 x 25, 0.1 inch box header (or
equivalent).
Matching connector:
• 50-pin IDC 0.1 inch TE 1-1658622-2 or equivalent.
WinSystems cable CBL-129-4 simplifies this connection to the board.
v1.0 www.winsystems.com Page 29
7.12.12 PC104AB - PC/104 8-bit Bus Connector
D0
D19
C0
C19
PC104CD
PC104AB
PC104CD - PC/104 16-bit (Includes PC104AB) Bus Connector
The PC/104 bus is electrically equivalent to the 16-bit ISA bus. Standard PC/104 I/O
cards can be populated on EBC-C413’s connectors, located at J2 and J3. The interface
does not support hot-swap capability.
Layout and Pin Reference:
EBC-C413/Configuration
A1
A32B1B32
Pin Name Pin Name Pin Name Pin Name
D0 GND C0 GND A1 IOCHK# B1 GND
D1 MEMCS16# C1 SBHE# A2 SD7 B2 RESETDRV
D2 IOCS16# C2 LA23 A3 SD6 B3 +5V
D3 IRQ10 C3 LA22 A4 SD5 B4 IRQ
D4 IRQ11 C4 LA21 A5 SD4 B5 -5V
D5 IRQ12 C5 LA20 A6 SD3 B6 DRQ2
D6 IRQ15 C6 LA19 A7 SD2 B7 -12V
D7 IRQ14 C7 LA18 A8 SD1 B8 ENDXFR#
D8 DACK0# C8 LA17 A9 SD0 B9 +12V
D9 DRQ0 C9 MEMR# A10 IOCHRDY B10 KEY
D10 DACK5# C10 MEMW# A11 AEN B11 SMEMW#
D11 DRQ5 C11 SD8 A12 SA19 B12 SMEMR#
D12 DACK6# C12 SB9 A13 SA18 B13 IOW#
D13 DRQ6 C13 SD10 A14 SA17 B14 IOR#
D14 DACK7# C14 SD11 A15 SA16 B15 DACK3#
D15 DRQ7 C15 SD12 A16 SA15 B16 DRQ3
D16 +5V C16 SD13 A17 SA14 B17 DACK1#
D17 MASTER# C17 SD14 A18 SA13 B18 DRQ1
D18 GND C18 SD15 A19 SA12 B19 REFRESH#
D19 GND C19 KEY1 A20 SA11 B20 SYSCLK
v1.0 www.winsystems.com Page 30
EBC-C413/Configuration
D0
D19
C0
C19
PC104CD
PC104AB
A1
A32B1B32
Pin Name Pin Name Pin Name Pin Name
A21 SA10 B21 IRQ7
A22 SA9 B22 IRQ6
A23 SA8 B23 IRQ5
A24 SA7 B24 IRQ4
# = Active Low Signal
B10 and C19 are key locations. WinSystems uses key
pins as connections to GND.
A25 SA6 B25 IRQ3
A26 SA5 B26 DACK2#
A27 SA4 B27 TC
A28 SA3 B28 BALE
A29 SA2 B29 +5V
A30 SA1 B30 OSC
A31 SA0 B31 GND
A32 GND B32 GND
Additional Information
The standard EBC-C413 uses a stackable PC104 expansion connector. The standard
EBC-C413 is not a "stack-thru" type, meaning PC104 cards must "stackup." A "stackthru" version may be special ordered (minimum quantities apply). The standard EBCC413 connectors are:
• J2 (40-pin) Connector: SAMTEC type ESQ-120-12-G-D (non-stack-through)
• J3 (64-pin) Connector: SAMTEC type ESQ-132-12-G-D (non-stack-through)
NOTE There are no keys in the connector and also no cut pins.
7.12.13 PC104P - PC/104-Plus/PCI-104 Bus Connector
The PC/104-Plus is electrically equivalent to the 33 MHz PCI bus. The interface is PC/
104-Plus version 2.0 compliant. The position of Jumper JP104P configures the 3.3 V
v1.0 www.winsystems.com Page 31
DC to be sourced from on-board 3.3 V if not provided at the power input connector (see
“JP104P - PCI-104 Power Source Select” on page 46). The interface does not support
hot-swap capability.
Layout and Pin Reference:
Pin A B C D
EBC-C413/Configuration
D30
C30
B30
D1C1B1
1
2
GND RESERVED +5V AD00
VI/O AD02 AD01 +5V
3 AD05
4 C/BE0# AD007
5
GND AD009 AD08 GND
6 AD11
7 AD14 AD13
8
+3.3V C/BE1# AD15 +3.3V
9 SERR#
10
11 STOP#
A30
12
GND PERR# +3.3V RESERVED
+3.3V TRDY# GND DEVSEL#
13 FRAME#
14
GND AD16 +3.3V C/BE2#
15 AD18
16 AD21 AD20
17
+3.3V AD23 AD22 +3.3V
18 IDSEL0
19 AD24 C/BE3#
A1
20
GND AD26 AD25 GND
21 AD29
22
+5V AD30 GND AD31
23 REQ0#
24
GND REQ2# +5V GNT0#
25 GNT1#
26
+5V CLK0 GND CLK1
27 CLK2
28
29
30
# = Active Low Signal
Shaded cells indicate power pins.
GND INTD# +5V RST#
+12V INTA# INTB# INTC#
-12V REQ3# GNT3# GND
GND AD04 AD03
GND AD06
VI/O AD10 M66EN
GND AD12
GND RESERVED PAR
+3.3V LOCK# GND
GND IRDY# +3.3V
+3.3V AD17 GND
GND AD19
GND IDSEL1 IDSEL2
VI/O IDSEL3
+5V AD28 AD27
GND REQ1# VI/O
VI/O GNT2# GND
+5V CLK3 GND
Additional Information
This connection is a 120-pin, Teka 2MR430-BDWM-368-00 (non-stack-through, solder
bearing), WS G650-0120-0BA (or equivalent).
NOTE There are no keys in the connector and also no cut pins.
v1.0 www.winsystems.com Page 32
7.12.14 SATA1 - Serial ATA Connector
1
The EBC-C413 provides a SATA interface to support connection with a variety of SATA
devices.
Layout and Pin Reference:
The SATA interface is an industry standard 7-pin, right angle SATA connector Molex
47080-4005 (WS G650-7007-600). WinSystems cable CBL-SATA-701-20 simplifies
connection to the board.
EBC-C413/Configuration
Pin Name
1GND
2A+
3A4GND
5B6B+
7GND
7.12.15 SATAPWR - Serial ATA Power Connector
The SATAPWR connector provides output power for the hard drive.
Layout and Pin Reference:
Pin Name
1+5 V
2 GND (Ground)
1
This connection is a Molex 22-11-2042 (or equivalent).
v1.0 www.winsystems.com Page 33
3 GND (Ground)
4+12 V
Matching connector:
J1
Pin 1
J2
4 3 RED
+ 5 V
• MOLEX 22-01-2045 (Housing)
• MOLEX 08-55-0110 or 08-55-0111 (Crimp)
WinSystems cable CBL-PWR-117-12 simplifies this connection to the board.
WIRE LIST
J1 J2 COLOR SIGNAL
1 NC
1 5 YELLOW +12 V
2 2 BLACK GND
3 4 BLACK GND
7.12.16 FAN - Connector for Optional Fan
The FAN connector provides output power and control for an optional fan.
Layout and Pin Reference:
EBC-C413/Configuration
Pin Name
1 GND (Ground)
212 V
1
3 RPM
4CTRL
This connection is a Molex 22-11-2042 (or equivalent).
Matching connector:
• MOLEX 22-01-2045 (Housing)
• MOLEX 08-55-0110 or 08-55-0111 (Crimp)
The FAN connector is pin compatible with Standard PC chassis 3-pin or 4-pin fans.
7.12.17 LVDS - LVDS Display Output Connector
The EBC-C413 supports low-voltage differential signaling (LVDS) for flat-panel displays
with resolutions up to 1920x1200 at 24 bpp.
NOTE The EBC-C413 has one VGA, one Mini DisplayPort and one Low-Voltage Differential
Signaling (LVDS) interface. Only two of the three outputs may be active simultaneously.
The power (SWVDD) portion of this connector can be configured (see “JPLCDP - LCD
Panel Power Configuration” on page 47). Connect to the LVDS interface through the
LVDS connector.
v1.0 www.winsystems.com Page 34
Layout and Pin Reference:
3940
1
2
Pin Name Pin Name
1 LVDS1_VDD 2 GND
3 LVDS_A0- 4 LVDS_A0+
5 LVDS_A1- 6 LVDS_A1+
7 LVDS1_VDD 8 GND
9 LVDS_A2- 10 LVDS_A2+
11 LVDS_A3- 12 LVDS_A3+
13 LVDS1_VDD 14 GND
15 LVDS_A_CLK- 16 LVDS_A_CLK+
17 LVDS_I2C_CLK 18 GND
19 LVDS_I2C_DAT 20 GND
21 LVDS1_VDD 22 GND
23 LVDS_B0- 24 LVDS_B0+
25 LVDS_B1- 26 LVDS_B1+
27 LVDS1_VDD 28 GND
29 LVDS_B2- 30 LVDS_B2+
31 LVDS_B3- 32 LVDS_B3+
33 LVDS1_VDD 34 GND
35 LVDS_B_CLK 36 LVDS_B_CLK+
37 NC 38 NC
39 NC 40 NC
EBC-C413/Configuration
Additional Information
This connection is a Molex 501571-4007, 2 x 20, 1 mm Box Header (or equivalent).
Matching connector:
• MOLEX 501189-4010 (Housing)
• MOLEX 501193-2000 (Crimp)
WinSystems LVDS cables are panel specific. Please contact an Application Engineer
through technical support for details (see the “Introduction” on page 1 for details).
v1.0 www.winsystems.com Page 35
7.12.18 BKLT - Backlight Power and Control Connector
1
11
The BLKLT connector provides PWM backlight support for the LVDS display.
Layout and Pin Reference:
Pin Name Description
1 +5VDC INV_VDD5
2 LBKLT_EN- Low Active Backlight Enable
3 LBKLT_EN+ High Active Backlight Enable
4 GND Ground
5 +12VDC INV_VDD12
6 PWM Backlight Control
7 NC No Connection
8 NC No Connection
9 NC No Connection
10 LCTLB_DATA Data
11 LCTLA_CLK Clock
EBC-C413/Configuration
Additional Information
This connection is a Molex 501331-1107, 1 x 11, 1 mm Vertical Box Header (or
equivalent).
Matching connector:
• MOLEX 501330-1100 (Housing)
• MOLEX 501334-0000 (Crimp)
WinSystems Backlight cables are panel specific. Please contact an Application Engineer
through technical support for details (see the “Introduction” on page 1 for details).
v1.0 www.winsystems.com Page 36
EBC-C413/Configuration
11
15
1
5
12
1314
7.12.19 VGA - Analog VGA Display Connector
The EBC-C413 supports analog VGA.
NOTE The EBC-C413 has one VGA, one Mini DisplayPort and one Low-Voltage Differential
Signaling (LVDS) interface. Only two of the three outputs may be active simultaneously.
Layout and Pin Reference:
1314
1
2
Pin Name Pin Name
1 VGA_RED 2 GND
3 VGA_GREEN 4 GND
5 VGA_BLUE 6 GND
7 VGA_HSYNC 8 GND
9 VGA_VSYNC 10 GND
11 DDC_SDA 12 GND
13 DDC_SCL 14 VCC
Additional Information
This connection is a Molex 87832 series, 2 x 7, 1 mm Box Header (or equivalent).
Matching connector:
• Molex 51110-1451
• Molex 50394-8051
WinSystems cable CBL-234-G-1-1-375 simplifies this connection to the board.
v1.0 www.winsystems.com Page 37
EBC-C413/Configuration
21
2019
1
7.12.20 DP - Mini DisplayPort Connector
NOTE The EBC-C413 has one VGA, one Mini DisplayPort and one Low-Voltage Differential
Signaling (LVDS) interface. Only two of the three outputs may be active simultaneously.
Layout and Pin Reference:
PIN NAME DESCRIPTION PIN NAME DESCRIPTION
1 GND Ground 2 Hot Plug Detect Hot Plug Detect
3 ML_Lane 0 (p) Lane 0 (positive) 4 CONFIG1 CONFIG1
5 ML_Lane 0 (n) Lane 0 (negative) 6 CONFIG2 CONFIG2
7 GND Ground 8 GND Ground
9 ML_Lane 1 (p) Lane 1 (positive) 10 ML_Lane 3 (p) Lane 3 (positive)
11 ML_Lane 1 (n) Lane 1 (negative) 12 ML_Lane 3 (n) Lane 3 (negative)
13 GND Ground 14 GND Ground
15 ML_Lane 2 (p) Lane 2 (positive) 16 AUX_CH (p) Auxiliary Channel
17 ML_Lane 2 (n) Lane 2 (negative) 18 AUX_CH (n) Auxiliary Channel
19 GND Ground 20 DP_PWR Power for connector
(positive)
(negative)
7.12.21 BAT - External Battery Connector
An optional external battery, connected to BAT, supplies the EBC-C413 board with
standby power for the real-time clock and CMOS setup RAM. Extended temperature
lithium batteries are available from WinSystems, part numbers:
• BAT-LTC-E-36-16-1
• BAT-LTC-E-36-27-1
A power supervisory circuit contains the voltage sensing circuit and an internal power
switch to route the battery or standby voltage to the circuits selected for backup. The
battery automatically switches on when the VCC of the systems drops below the battery
voltage and off when VCC returns to normal.
Layout and Pin Reference:
1 NC No Connect
2 VBAT
3 GND Ground
Pin Name Description
Battery Voltage Input
(BAT+)
Additional Information
This connection uses MOLEX part number 22-11-2032.
v1.0 www.winsystems.com Page 38
WinSystems battery BAT-LTC-E-36-16-1 and BAT-LTC-E-36-27-1 (connected to J3)
BAT-LTC-E-36-16-1 BAT-LTC-E-36-27-1
1
simplify these connections to the board.
7.12.22 AUDIO - HD Audio Connector
Connect to the high-definition audio interface through this connector.
EBC-C413/Configuration
Layout and Pin Reference:
Pin Name Pin Name
1 OUT_R 2 MIC1_R
3 OUT_L 4 MIC1_L
5 AUDIO_ GND 6 AUDIO_GND
7 SUR_R 8 MIC2_R
9 SUR_L 10 MIC_L
11 AUDIO_ GND 12 AUDIO_GND
13 CENTER 14 LINE_R
15 LFE 16 LINE_L
17 AUDIO_ GND 18 AUDIO_GND
19 SIDE_R 20 CD_R
21 SIDE_L 22 CD_L
23 AUDIO_ GND 24 CD_GND
25 HEAD_R 26 AUDIO_GND
27 HEAD_L 28 AUDIO_GND
29 AUDIO_ GND 30 AUDIO_GND
Additional Information
This connection is a Molex 502046-3070 (Duo-Clasp), 2 x 15, 1.25 mm Box Header (or
equivalent).
v1.0 www.winsystems.com Page 39
Matching connector:
HEAD
CD
LFE
SIDE
CENTER
LINE
1
J1 J2 J3 J4 J5 J6
J7
J8
J9
2
3
3.5mm JACK
PINOUT
PIN 1
LINE
LFE
OUT MIC1
MIC2
CENTER/
SUR
3
3.5mm JACK
PINOUT
J1 J2 J3
J4
J5
J6
1
2
MIC1
LINE
REV. A RoHS xxyy
CBL-AUDIO2-102-12A
OUT
J3
J2
J1
1
2
3
3.5mm JACK
PINOUT
• Molex 503110-3000
• Molex 501930-1100
WinSystems has four cables for this connector:
• CBL-AUDIO7-102-12
• CBL-AUDIO7-100-14
EBC-C413/Configuration
• CBL-AUDIO5-102-12
• CBL-AUDIO2-102-12
7.12.23 LAN1/LAN2 - Ethernet LAN Connectors
The EBC-C413 uses two Intel® i210 Gb/s Ethernet Controller that includes ESD
suppression.
Additional Information
The connection is a RJ45 with activity LEDs.
Matching connector: Ethernet standard CAT5 (or better) cables.
v1.0 www.winsystems.com Page 40
7.12.24 MC1 - MiniCard Connector with PCI-Express and USB
Connect to the MC1 MiniCard socket that supports a variety of peripherals available in
this format.
Pin Name Pin Name
1 WAKE# 2 3.3Vaux
3 COEX1 4 GND
5 COEX2 6 1.5V
7 CLKREQ#
9 GND
11 REFCLK13 REFCLK+
15 GND
17 RSVD(UIM_C8) 18 GND
19 RSVD(UIM_C4) 20 W_DISABLE#
21 GND 22 PERST#
23 PETn0 24 3.3Vaux
25 PETp0 26 GND
27 GND 28 1.5V
29 GND
31 PETn0
33 PETp0 34 GND
35 GND 36 USB_D37 GND 38 USB_D+
39 3.3Vaux 40 GND
41 3.3Vaux
43 GND
45 RSVD 46 LED_WPAN#
47 RSVD 48 1.5V
49 RSVD 50 GND
51 RSVD 52 3.3Vaux
Shaded cells indicate unconnected signals.
8 UIM_PWR
10 UIM_DATA
12 UIM_CLK
14 UIM_RST
16 UIM_VPP
30 SMB_CLK
32 SMB_DATA
42 LED_WWAN#
44 LED_WLAN#
EBC-C413/Configuration
v1.0 www.winsystems.com Page 41
Additional Information
This connection is a Tyco 1775838-2 (or equivalent).
To install a MiniCard into the MC1 socket:
1. Insert the MiniCard/mSATA.
EBC-C413/Configuration
2. Push the free end of the card toward the circuit board, and then secure it
with two (2 mm) screws (WinSystems P/N: G527-0000-400).
v1.0 www.winsystems.com Page 42
EBC-C413/Configuration
7.12.25 MC2 - MiniCard/mSATA Connector with PCI-Express, USB, and SATA
The EBC-C413 provides a second MiniCard socket (also see “MC1 - MiniCard Connector
with PCI-Express and USB” on page 41) that supports a variety of peripherals available
in this format. The socket alternatively supports an mSATA device in this socket. A
sense circuit identifies the type of device present in the socket and auto-switches to
handle either type.
Layout and Pin Reference:
Pin Name Pin Name
1 WAKE# 2 +3.3 Vaux
3 RESERVED 4 GND
5 RESERVED 6 +1.5 V
7 CLKREQ#
9 GND
11 REFCLK13 REFCLK+
15 GND
17 RSVD(UIM_C) 18 GND
19 RSVD(UIM_C) 20 W_DISABLE#
21 GND 22 PERST#
23 PERn0 24 3.3 Vaux
25 PERp0 26 GND
27 GND 28 1.5V
29 GND 30 SMB_CLK
31 PERn0 32 SMB_DATA
33 PERp0 34 GND
35 GND 36 USB_D37 GND 38 USB_D+
39 3.3 Vaux 40 GND
41 3.3 Vaux
43 GND
45 RSVD 46 LED_WPAN#
47 RSVD 48 1.5 V
49 RSVD 50 GND
51 mSATA Detect 52 +3.3 Vaux
Shaded cells indicate unconnected signals.
8 UIM_PWR
10 UIM_DATA
12 UIM_CLK
14 UIM_RST
16 UIM_VPP
42 LED_WWAN#
44 LED_WLAN#
v1.0 www.winsystems.com Page 43
Additional Information
This connection is a Tyco 1775838-2 (or equivalent).
To install a MiniCard/mSATA into the MC2 socket:
1. Insert the MiniCard.
EBC-C413/Configuration
2. Push the free end of the card toward the circuit board, and then secure it
with two (2 mm) screws (WinSystems P/N: G527-0000-400).
v1.0 www.winsystems.com Page 44
7.12.26 CF1 - CFast SSD Connector
CFast is a small form factor SATA SSD standard that encompasses CFast data storage
cards.
Layout and Pin Reference:
Number Segment Name Type Description Sequence
S1 SATA SGND Signal GND Ground for signal integrity 1
S2 SATA A+ SATA Differential Signal Pair A 2
S3 SATA A- SATA Differential Signal Pair A 2
S4 SATA SGND Signal GND Ground for signal integrity 1
S5 SATA B- SATA Differential Signal Pair B 2
S6 SATA B+ SATA Differential Signal Pair B 2
S7 SATA SGND Signal GND Ground for signal integrity 1
KEY
KEY
PC1 PWR/CTL CDI Input Card Detect IN 3
PC2 PWR/CTL PGND Device GND Device Ground 1
PC3 PWR/CTL DEVSLP DEVSLP Card Input DevSleep Power State Enable 2
PC4 PWR/CTL Not applicable Reserved 2
PC5 PWR/CTL Not applicable Reserved 2
PC6 PWR/CTL Not applicable Reserved 2
PC7 PWR/CTL PGND Device GND 1
EBC-C413/Configuration
PC8 PWR/CTL LED1 LED Output LED Output 2
PC9 PWR/CTL LED2 LED Output LED Output 2
PC10 PWR/CTL Not applicable Reserved 2
PC11 PWR/CTL Not applicable Reserved 2
PC12 PWR/CTL IFDet GND Card output, connect to PGND on card 2
PC13 PWR/CTL PWR 3.3 V Device Power (3.3 V) 2
PC14 PWR/CTL PWR 3.3 V Device Power (3.3 V) 2
PC15 PWR/CTL PGND Device GND Device Ground 1
PC16 PWR/CTL PGND Device GND Device Ground 1
PC17 PWR/CTL CDO Output Card Detect Out 3
Additional Information
This connection is a 3M N7G24-A0B2EB-10-3WF (or equivalent).
v1.0 www.winsystems.com Page 45
7.12.27 204-pin SODIMM Socket for System Memory
123
123
123
7.13 Jumpers
7.13.1 JP104P - PCI-104 Power Source Select
EBC-C413/Configuration
The EBC-C413 supports up to eight GB DDR3 SODIMM system memory through this
one on-board socket.
Jumper Part Number SAMTEC 2SN-BK-G applies to all jumpers. These are available in a
ten piece kit from WinSystems (Part# KIT-JMP-G-200).
Purpose: Configures power source for the PC/104-Plus (see “PC104P - PC/104-Plus/
PCI-104 Bus Connector” on page 31)
Jumper PC/104-Plus Power Setting
1-2 From Pin 5 of Power Connector (Default)
2-3 From onboard +3.3 V
7.13.2 JP5VSB - 5V Standby Power Select
Purpose: Shorts 5 V and 5V_SB. Connect pins 1-2 when using AT Power supply;
connect pins 2-3 or Open when using ATX power Supply.
Jumper 5 V Standby Power Setting
1-2 Shorts +5 V IN to +5 V SB (Default)
2-3 +5 V IN to N.C. (no connection)
7.13.3 JPSATA - Serial ATA Device Select
Purpose: Configures SATA channel for use with CFast (CF1) or SATA (SATA1)
connector
Jumper Serial ATA Device Selection
Open Forces SATA1 as active connector.
1-2 Forces CFast to be active connector.
2-3 Auto detects presents of CFast and claims channel for CFast connector.
7.13.4 JPATX - AT/ATX Power Supply Select
Purpose: Specifies the style of power supply connected. The presence of a jumper at
JPATX specifies the style of supply connected to the single board computer (see
“ATXAUX - ATX/Auxiliary Power Connector” on page 18). AT Power is a simple on/off
power supply that has no interaction with the single board computer. Most embedded
systems use this type of power supply (default setting).
v1.0 www.winsystems.com Page 46
Jumper Pin Reference:
123
123
123
123
Jumper AT / ATX Mode Select
4-6 or Open ATX Mode (Default)
5
1
2-4 AT Mode
7.13.5 JPMC1 - MC1 Wireless LAN Enable
Purpose: Enables wireless LAN (turns on) for MC1
Jumper MC1 Wireless LAN Setting
1-2 Disable wireless LAN (MC1)
2-3 Enable wireless LAN (MC1)
EBC-C413/Configuration
7.13.6 JPMC2 - MC2 Wireless LAN Enable
Purpose: Enables wireless LAN (turns on) for MC2
Jumper MC2 Wireless LAN Setting
1-2 Disable wireless LAN (MC2)
2-3 Enable wireless LAN (MC2)
7.13.7 JPMSATA - MC2 mSATA/MiniCard Select
Purpose: Configures MC2 for use with mSATA or MiniCard
Jumper MC2 mSATA Setting
1-2 Configures MC2 for MiniCard
2-3 Configures MC2 for mSATA
7.13.8 JPLCDP - LCD Panel Power Configuration
Purpose: JPLCDP controls the power voltage for LVDS Panels
Jumper LVDS setting
1-2 +5 Volt Panel
2-3 +3.3 Volt panels
Open No power provided to panel
v1.0 www.winsystems.com Page 47
7.13.9 JPBAT - RTC Battery Enable
123
Purpose: Enable Real Time Clock (RTC) battery backup.
7.14 LED Indicators
The EBC-C413 contains four LEDs covered by the heat spreader.
Table 7–1: SATA Activity (LED1)
LED1 Description
LED1 Indicates SATA activity
EBC-C413/Configuration
Jumper RTC Battery Enable Setting
1-2 Normal operation
2-3 Resets RTC time, date, and battery backed
RAM
Table 7–2: Power and Standby Status (LED2 and LED3)
LED2 LED3 Description
Off Off No Power
Off Green In Standby
Blue Off Normal Operation
Blue Green Abnormal Operation
7.2.1 LED4 User LED
The user light emitting diode (LED4) can be used for any application-specific purpose.
In software applications, turn this LED on by writing a "1" to I/O port 29DH and turn it off
by writing a "0" to 29DH.
v1.0 www.winsystems.com Page 48
8. BIOS
8.1 General Information
8.2 Entering Setup
EBC-C413/BIOS
The EBC-C413 includes a BIOS from InsideH2O to assure full compatibility with PC
operating systems and software. The basic system configuration is stored in battery
backed CMOS RAM within the clock/calendar. As an alternative, the CMOS
configuration may be stored in EEPROM for operation without a battery. For more
information of CMOS configuration, see the “BIOS” on page 49. Access to this setup
information is through the Setup Utility in the BIOS.
To enter setup, power up the computer and press Del (the delete key) when the splash
screen is displayed. It may take a few seconds before the main setup menu screen is
displayed.
8.3 Navigation of the Menus
Use the Up and Down arrow keys to move among the selections. To enter a sub-menu
or to see a list of choices, press Enter when the selection is highlighted. See “BIOS
Screens” on page 49 for available options.
8.4 BIOS Splash Screen
A custom BIOS Splash Screens can be made available for OEM customers. Please
contact one of our Application Engineers for details.
8.5 BIOS Screens
The following BIOS screens contain the options and sample settings for the EBC-C413.
Your actual configuration may differ from the screens shown here.
NOTE Use care when modifying BIOS settings.
v1.0 www.winsystems.com Page 49
Main
EBC-C413/BIOS
Use this screen to configure the following components:
• Language
• System Time
• System Date
Language
v1.0 www.winsystems.com Page 50
Advanced
EBC-C413/BIOS
Access the following screens from the Advanced screen.
Boot Configuration
v1.0 www.winsystems.com Page 51
PCI Express Configuration
PCI Express Root Port Example (Port 1 shown)
EBC-C413/BIOS
PCI Port Speed Example (Port 1 shown)
v1.0 www.winsystems.com Page 52
PCI Port ASPM Example (Port 1 shown)
USB Configuration
EBC-C413/BIOS
Use this screen to enable or disable the following components:
• EHCI Controller
• USB RMH Mode
• USB EHCI Debug
• USB Per-Port Control
• USB Port #0
• USB Port #1
• USB Port #2
• USB Port #3
v1.0 www.winsystems.com Page 53
Audio Configuration
In addition to enabling and configuring LPE Audio Support, use this screen to enable or
disable the following components:
EBC-C413/BIOS
•Audio Controller
• Azalia VCi Enable
• Azalia Docking Support Enable
• Azalia PME Enable
• Azalia HDMI Codec
Video Configuration
Use this screen to configure the following components:
Video Configuration
• Logo and SCU Resolution: AUTO, 640 x 480, 800 x 600, 1024 x 768
v1.0 www.winsystems.com Page 54
EBC-C413/BIOS
VBT Hook Configuration
• Configure CRT as: Default, CRT, No Device
• CRT EDID Support: Enable, Disable
• Configure DD10 as: Default, eDP, DisplayPort, HDMI/DVI, DisplayPort with HDMI/
DVI Compatible, No Device
• Configure DD11 as: Default, eDP, DisplayPort, HDMI/DVI, DisplayPort with HDMI/
DVI Compatible, No Device
• Configure eDP Panel Number as: 1 through 16
• LFP EDID Support: Enable, Disable
• EFP EDID Support: Enable, Disable
PIN3460 (eDP to LVDS) Configuration
• PIN3460 Output Format: (00) VESA (24 bpp), (01) VESA or JEIDA (18 bpp), (10)
JEIDA (24 bpp)
• PIN3460 Channel Control: Single, Dual
• PIN3460 EDID Table
(0) 640 x 480 @ 60 Hz
(1) 800 x 600 @ 60 Hz
(2) 1024 x 768 @ 60 Hz
(3) 1366 x 768 @ 60 Hz
(4) 1280 x 1024 @ 60 Hz
(5) 1920 x 1080 @ 60 Hz
(6) 1920 x 1200 @ 60 Hz
GOP Configuration
• GOP Brightness Level: 20, 40, 60, 80, 100, 120, 140, 160, 180, 200, 220, 240, 255
• GOP Driver: Enabled, Disables
v1.0 www.winsystems.com Page 55
SATA Configuration
Use this screen to configure the following components:
SATA Controller: Enable, Disable
EBC-C413/BIOS
Chipset SATA Mode: IDE, AHCI
• SATA PORT: Enable, Disable
• SATA PORT 0 Hot Plug Capability: Enable, Disable
• SATA PORT 1 Hot Plug Capability: Enable, Disable
• SATA PORT 0 Connected to an 0DD: Enable, Disable
• SATA PORT 1 Connected to an 0DD: Enable, Disable
Serial ATA Port 0: Not Installed
Serial ATA Port 1: Not Installed
v1.0 www.winsystems.com Page 56
ACPI Table/Features Control
Use this screen to enable and disable the following components:
• FACP - RTC S4 Wakeup
EBC-C413/BIOS
• APIC - IO APIC Mode
• DSDT - ACPI S3
• DSDT - ACPI S4
• DSDT - ACPI BRGT
S10 FGPA G639
Use this screen to configure the following components:
Serial Port A through D: Enable, Disable
• Base I/O Address: 2E8, 2F8, 3E8, 3F8
• Interrupt: IRQ3 through IRQ11
v1.0 www.winsystems.com Page 57
Security
EBC-C413/BIOS
• Mode: Loopback, RS232, RS485, RS422
• Slew: Not Limited, Limited
• BRG: Normal, High
LPT Port: Enable, Disable
• Base I/O Interrupt: 278, 378
• Interrupt: IRQ5 through IRQ7
Digital I/O: Enable, Disable
• Base I/O Address: [0x120]
• Interrupt: IRQ3 through IRQ11
Watchdog Timer: Enable, Disable
Use this screen to configure, enable, and disable the following components:
• Select TPM Device: TPM 1.2
• Set Supervisor Password
v1.0 www.winsystems.com Page 58
Power
EBC-C413/BIOS
Use this screen to configure, enable, and disable the following components:
• Advanced CPU Control: Opens a new screen
• Wake on LAN: Enable, Disable
• RTC Wake on S5: Enable, Disable
Advanced CPU Control
Use this screen to configure, enable, and disable the following components:
• Use XD Capability: Enable, Disable
• Limit CPUID Max values: Enable, Disable
• Di-Directional PROCHOT#: Enable, Disable
v1.0 www.winsystems.com Page 59
Boot
EBC-C413/BIOS
• VTX-2: Enable, Disable
• TM1 AND TM2: Enable, Disable
• AESNI Feature: Enable, Disable
• DTS: Enable, Disable
• Active Processor Cores: ALL, 1
• P-Starts (IST): Enable, Disable
• Boot Performance Mode: Max Performance, Max Battery
• Turbo Mode: Auto, Disabled, Enabled
• C-States: Enable, Disable
• Enhanced C-States: Enable, Disable
• Max-C States: C1, C6, C7
• S0ix: Enable, Disable
Use this screen to configure, enable, and disable the following components:
• Boot Type: Dual Boot Type, Legacy Boot Type, UEFI Boot Type
• Quick Boot: Enable, Disable
• Quiet Boot: Enable, Disable
• Network Stack: Enable, Disable
• PXE Boot capability: Enable, Disable
• ACPI Selection: Acpi1.0B, Acpi3.0, Acpi4.0, Acpi5.0
• USB Boot: Enable, Disable
v1.0 www.winsystems.com Page 60
Exit
EBC-C413/BIOS
• EFI/Legacy Device Order: EFI device first, Legacy device first, Smart Mode
• Timeout: Value
• Automatic Failover: Enable, Disable
• EFI: Internal EFI Shell
Use this screen to save or exit the BIOS configuration with specific treatment of any
changes made.
v1.0 www.winsystems.com Page 61
9. Cables and Accessories
WinSystems cables and batteries simplify connection to the EBC-C413. The following
table lists available items.
Item Part Number Connection Description
CBL-236-G-2-1.5 See “PWR - Power Connector” on
CBL-173-G-1-1.0 See “COM3-4 - COM3 and COM4
CBL-247-G-1-1.0 See “MIO - Multi I/O Interface
CBL-RST-402-18 See “RST - Reset Connector” on
CBL-PWR-600-14 See “ATXAUX - ATX/Auxiliary
CBL-343-g-1-1-1.375 See “MOUSE - PS/2 Mouse
CBL-USB4-000-14 See “USB1 - USB Connector for
CBL-USB4-001-12 Pico-Clasp to Pico-Clasp
Cables
Batteries
Screws G527-0000-400 See “MC1 - MiniCard Connector
Jumpers KIT-JMP-G-200 See “Jumpers” on page 46 Jumper Kit (10 jumpers)
Standoffs KIT-PCM-STANDOFF-4 See “Mounting and Protecting the
CBL-USB4-002-12 Pico-Clasp to 2 each, 2 x 4, 2 mm pitch
CBL-129-4 See “DIO1 - Digital I/O Connector
CBL-SATA-701-20 See “SATA1 - Serial ATA
CBL-PWR-117-12 See “SATAPWR - Serial ATA
CBL-234-G-1-1-375 See “VGA - Analog VGA Display
CBL-AUDIO7-102-12
CBL-AUDIO7-100-14 1.25 mm, unterminated, 14"
CBL-AUDIO5-102-12 1.25 mm to 6 x 3.5 mm, 12”
CBL-AUDIO2-102-12 1.25 mm to 9 x 3.5 mm, 12”
BAT-LTC-E-36-16-1
BAT-LTC-E-36-27-1 External 3.6V, 2700 mAH battery with
KIT-PCM-STANDOFF-B-4 Four piece Brass Hex PC/104 Standoff Kit
page 18
Serial Ports” on page 20
Connector” on page 21
page 22
Power Connector” on page 18
Connector” on page 23
Ports 0-3” on page 24.
See “USB2 - USB Connector for
Ports 4-7” on page 25
with Event Sense” on page 26
See “DIO2 - Digital I/O
Connector” on page 28
Connector” on page 33
Power Connector” on page 33
Connector” on page 37
Duo-Clasp. See “AUDIO - HD
Audio Connector” on page 39
See “BAT - External Battery
Connector” on page 38.
with PCI-Express and USB” on
page 41
See “MC2 - MiniCard/mSATA
Connector with PCI-Express,
USB, and SATA” on page 43
EBC-C413” on page 65
EBC-C413/Cables and Accessories
PWR Power connection, DC harness
EBC-TX. Unterminated, 18”
COM3 and COM4, PCM-COM 4
Multi I/O: primary serial channels (COM1
and COM2), printer port, and keyboard
Normally open monetary contact switch,
18”
ATX signals for the power button, 5 V
standby, and power good
PS/2 Mouse connection to 5 pin, 16.5”
Pico-Clasp to unterminated
housing
Connect to 48 bi-directional TTL digital I/O
lines (Dual-port ram)
Latching Signal, 0.5 m
Power cable to SATA drive
2.0 mm to 15, D-sub (female)
1.25 mm to 3 x 3.5 mm, 12”
External 3.6V, 1650 mAH battery with
plug-in connector External
plug-in connector
2 mm
Four piece Nylon Hex PC/104 Standoff Kit
v1.0 www.winsystems.com Page 62
10. Software Drivers
Go to www.winsystems.com for information on available software drivers.
EBC-C413/Software Drivers
v1.0 www.winsystems.com Page 63
Appendix A. Best Practices
This section outlines the best practices for operating the EBC-C413 in a safe, effective
manner that will not damage the board. Please read this section carefully.
Power Supply
Avoid Electrostatic Discharge (ESD)—Only handle the circuit board and other bare
electronics when electrostatic discharge (ESD) protection is in place. Having a wrist
strap and a fully grounded workstation is the minimum ESD protection required
before the ESD seal on the product bag is broken.
Power Supply Budget
Evaluate your power supply budget. It is usually good practice to budget twice the
typical power requirement for all of your devices.
EBC-C413/Best Practices
Zero-Load Power Supply
Use a zero-load power supply whenever possible. A zero-load power supply does not
require a minimum power load to regulate. If a zero-load power supply is not
appropriate for your application, then verify that the single board computer’s typical
load is not lower than the power supply’s mum load. If the single board computer does
not draw enough power to meet the power supply’s minimum load, then the power
supply will not regulate properly and can cause damage to the EBC-C413.
Use Proper Power Connections (Voltage)—When verifying the voltage, measure it
at the power connector on the EBC-C413. Measuring it at the power supply does not
account for voltage drop through the wire and connectors.
The EBC-C413 requires +5 V (±5%) to operate. Verify the power connections.
Incorrect voltages can cause catastrophic damage.
Populate all of the +5 V and ground connections. Most single board computers will
have multiple power and ground pins, and all of them should be populated. The more
copper connecting the power supply to the EBC-C413 the better.
Adjusting Voltage
If you have a power supply that allows you to adjust the voltage, it is a good idea to set
the voltage at the power connector of the EBC-C413 to 5.1 V. The EBC-C413 can tolerate
up to 5.25 V, so setting your power supply to provide 5.1 V is safe and allows for a
small amount of voltage drop that will occur over time as the power supply ages and the
connector contacts oxidize.
Power Harness
Minimize the length of the power harness. This will reduce the amount of voltage drop
between the power supply and the EBC-C413.
v1.0 www.winsystems.com Page 64
EBC-C413/Best Practices
Gauge Wire
Use the largest gauge wire that you can. Most connector manufacturers have a
maximum gauge wire they recommend for their pins. Try going one size larger; it
usually works and the extra copper will help your system perform properly over time.
Contact Points
WinSystems boards mostly use connectors with gold finish contacts. Gold finish
contacts are used exclusively on high speed connections. Power and lower speed
peripheral connectors may use a tin finish as an alternative contact surface. It is critical
that the contact material in the mating connectors is matched properly (gold to gold and
tin to tin). Contact areas made with dissimilar metals can cause oxidation/corrosion,
resulting in unreliable connections.
Pin Contacts
Often the pin contacts used in cabling are not given enough attention. The ideal choice
for a pin contact uses a design similar to Molex’s or Trifurcon’s design, which provides
three distinct points to maximize the contact area and improve connection integrity in
high shock and vibration applications.
Power Down
Make sure that power has been removed from the system before making or breaking
any connections.
Power Supply OFF—The power supply should always be off before it is connected to
the I/O Module. Do not hot-plug the EBC-C413 on a host platform that is already
powered.
I/O Connections OFF—I/O Connections should also be off before connecting them to
the embedded computer modules or any I/O cards. Connecting hot signals can cause
damage whether the embedded system is powered or not.
Mounting and Protecting the EBC-C413
The EBC-C413 must be mounted properly to avoid damage. The following standoff
kits are available and recommended for use with the EBC-C413:
• KIT-PCM-STANDOFF-4: Four piece Nylon Hex PC/104 Standoff Kit
• KIT-PCM-STANDOFF-B-4: Four piece Brass Hex PC/104 Standoff Kit
v1.0 www.winsystems.com Page 65
The following table lists the items contained in each kit:
Kit Component Description Qty
EBC-C413/Best Practices
KIT-PCM-STANDOFF-4
4 pc. Nylon Hex PC/104
Standoff Kit
Standoff Nylon 0.25” Hex, 0.600" Long
Male/Female 4-40
Hex Nut Hex Nylon 4-40 4
Screw Phillips-Pan Head (PPH)
4
4
4-40 x 1/4" Stainless Steel
KIT-PCM-STANDOFF-B-4
4 pc. Brass Hex PC/104
Standoff Kit
Standoff Brass 5 mm Hex, 0.600" Long
Male/Female 4-40
Hex Nut 4-40 x 0.095 Thick, Nickel Finish 4
Screw Phillips-Pan Head (PPH)
4
4
4-40 x 1/4" Stainless Steel
Placing the EBC-C413 on Mounting Standoffs—Be careful when placing the EBC-C413
on the mounting standoffs. Sliding the board around until the standoffs are visible from
the top can cause component damage on the bottom of the board.
Do Not Bend or Flex the EBC-C413—Bending or flexing can cause irreparable damage.
Embedded computer modules are especially sensitive to flexing or bending around Ball
Grid Array (BGA) devices. BGA devices are extremely rigid by design and flexing or
bending the embedded computer module can cause the BGA to tear away from the
printed circuit board.
Mounting Holes—The mounting holes are plated on the top, bottom and through the
barrel of the hole and are connected to the embedded computer module’s ground plane.
Traces are often routed in the inner layers right below, above or around the mounting
holes.
• Never use a drill or any other tool in an attempt to make the holes larger.
• Never use screws with oversized heads. The head could come in contact with
nearby components causing a short or physical damage.
• Never use self-tapping screws; they will compromise the walls of the mounting
hole.
• Never use oversized screws that cut into the walls of the mounting holes.
• Always use all of the mounting holes. By using all of the mounting holes, you will
provide the support that the embedded computer module needs to prevent bending
or flexing.
Plug or Unplug Connectors Only on Fully Mounted Boards—Never plug or unplug
connectors on a board that is not fully mounted. Many of the connectors fit tightly, and
the force needed to plug or unplug them could cause the embedded computer module
to flex.
v1.0 www.winsystems.com Page 66
EBC-C413/Best Practices
Avoid Cutting the EBC-C413—Never use star washers or any fastening hardware that
will cut into the EBC-C413.
Avoid Over-tightening of Mounting Hardware—Causing the area around the mounting
holes to compress could damage interlayer traces around the mounting holes.
Use Appropriate Tools—Always use tools that are appropriate for working with small
hardware. Large tools can damage components around the mounting holes.
Avoid Conductive Surfaces—Never allow the embedded computer module to be placed
on a conductive surface. Many embedded systems use a battery to back up the clockcalendar and CMOS memory. A conductive surface such as a metal bench can short the
battery causing premature failure.
Adding PC/104 Boards to your Stack
Be careful when adding PC/104 boards to your stack—Never allow the power to be
turned on when a PC/104 board has been improperly plugged onto the stack. It is
possible to misalign the PC/104 card and leave a row of pins on the end or down the
long side hanging out of the connector. If power is applied with these pins misaligned, it
will cause the I/O board to be damaged beyond repair.
Conformal Coating
Applying conformal coating to a WinSystems product will not in itself void the product
warranty, if it is properly removed prior to return. Coating may change thermal
characteristics and impedes our ability to test, diagnose, and repair products. Any
coated product sent to WinSystems for repair will be returned at customer expense and
no service will be performed.
Operations/Product Manuals
Every single board computer has an Operations manual or Product manual.
Periodic Updates—Operations/Product manuals are updated often. Periodically check
the WinSystems website (http://www.winsystems.com
Check Pinouts—Always check the pinout and connector locations in the manual before
plugging in a cable. Many I/O modules will have identical headers for different functions
and plugging a cable into the wrong header can have disastrous results.
Contact an Applications Engineer—If a diagram or chart in a manual does not seem to
match your board, or if you have additional questions, contact a WinSystems
Applications Engineer at: +1-817-274-7553.
) for revisions.
v1.0 www.winsystems.com Page 67
Appendix B. Mechanical Drawings
0 mm
72.39 mm
152.40 mm
203.20 mm
76.20 mm
149.86 mm
160.02 mm
5.08 mm
198.12 mm
0 mm
5.08 mm
17.71 mm
93.35 mm
130.76 mm
140.97 mm
146.05 mm
7.62 mm
(152.23 mm)
DIA 3.20 mm THRU
(8X)
15.24 mm9.50 mm
0 mm
9.10 mm
18.20 mm
27.30 mm
0 mm
5.08 mm
76.20 mm
82.38 mm
137.82 mm
98.55 mm
148.08 mm
149.86 mm
198.12 mm
203.20 mm
0 mm
5.08 mm
7.62 mm
19.29 mm
56.03 mm
82.31 mm
93.35 mm
104.48 mm
140.97 mm
146.05 mm
EBC-C413 Dimensions
EBC-C413/Mechanical Drawings
v1.0 www.winsystems.com Page 68
EBC-C413/Power-on Self-Test (POST) Codes
Appendix C. Power-on Self-Test (POST) Codes
If the system hangs before the BIOS can process the error, the value displayed at the
I/O port address 80h is the code of the last successful operation. In this case, the screen
does not display an error code.
POST_CODE()
Use the POST_CODE() macro to output a number (Data) to the configured I/O port or
status code.
Prototype
#include "InsydeModulePkg/Include/PostCode.h" POST_CODE(Data)
Parameters
Data: Unsigned integer that specifies the POST Code value. Must be between 0x00 and
0xff.
POST Codes
POST Codes are 8-bit unsigned integer values that are sent to a specific I/O port (where
hardware can decode and display the value) or to the DDT debugger.
8-Bit POST Code Ranges
This table shows the overview of the 8-Bit POST Code Ranges used by InsydeH2O.
Phase POST Code Value Ranges
SEC 0x01 - 0x0F
PEI 0x70 - 0x9F
DXE 0x40 - 0x6F
BDS 0x10 - 0x3F
SMM 0xA0 - 0xBF
S3 0xC0 - 0xCF
ASL 0x51 - 0x55
0xE1 - 0xE4
PostBDS 0xF9 - 0xFE
Insyde H2ODDT Reserved 0xD0 - 0xD7
OEM Reserved 0xE8 - 0xEB
Reserved 0xD8 - 0xE0
0xE5 - 0xE7
0xEC - 0xF8
v1.0 www.winsystems.com Page 69
EBC-C413/Power-on Self-Test (POST) Codes
SEC Phase
Table C–1: SEC Phase 8-Bit POST Code Values
Value Functionality Name Description
01 SEC_SYSTEM_POWER_ON CPU power on and switch to Protected mode
02 SEC_BEFORE_MICROCODE_PATCH Patching CPU microcode
03 SEC_AFTER_MICROCODE_PATCH Setup Cache as RAM
04 SEC_ACCESS_CSR PCIE MMIO Base Address initial
05 SEC_GENERIC_MSRINIT CPU Generic MSR initialization
06 SEC_CPU_SPEEDCFG Setup CPU speed
07 SEC_SETUP_CAR_OK Cache as RAM test
08 SEC_FORCE_MAX_RATIO Tune CPU frequency ratio to maximum level
09 SEC_GO_TO_SECSTARTUP Setup BIOS ROM cache
0A SEC_GO_TO_PEICORE Enter Boot Firmware Volume
NOTE The shaded rows in the table indicate the related functions are not from InsydeH2O
(platform dependent).
PEIPhase
Table C–2: PEI Phase 8-Bit POST Code Values
Value Functionality Name Description
70 PEI_SIO_INIT Super I/O initialization
71 PEI_CPU_REG_INIT CPU Early Initialization
72 PEI_CPU_AP_INIT Multi-processor Early initialization
73 PEI_CPU_HT_RESET HyperTransport initialization
74 PEI_PCIE_MMIO_INIT PCIE MMIO BAR Initialization
75 PEI_NB_REG_INIT North Bridge Early Initialization
76 PEI_SB_REG_INIT South Bridge Early Initialization
77 PEI_PCIE_TRAINING PCIE Training
78 PEI_TPM_INIT TPM Initialization
79 PEI_SMBUS_INIT SMBUS Early Initialization
7A PEI_PROGRAM_CLOCK_GEN Clock Generator Initialization
7B PEI_IGD_EARLY_INITIAL Internal Graphic device early initialization
7C PEI_HECI_INIT HECI Initialization
7D PEI_WATCHDOG_INIT Watchdog timer initialization
7E PEI_MEMORY_INIT Memory Initialization for Normal boot.
7F PEI_MEMORY_INIT_FOR_CRISIS Memory Initialization for Crisis Recovery
80 PEI_MEMORY_INSTALL Simple Memory test
81 PEI_TXTPEI TXT function early initialization
82 PEI_SWITCH_STACK Start to use Memory
83 PEI_MEMORY_CALLBACK Set cache for physical memory
84 PEI_ENTER_RECOVERY_MODE Recovery device initialization
85 PEI_RECOVERY_MEDIA_FOUND Found Recovery image
86 PEI_RECOVERY_MEDIA_NOT_FOUND Recovery image not found
87 PEI_RECOVERY_LOAD_FILE_DONE Load Recovery Image complete
88 PEI_RECOVERY_START_FLASH Start Flash BIOS with Recovery image
v1.0 www.winsystems.com Page 70
EBC-C413/Power-on Self-Test (POST) Codes
Table C–2: PEI Phase 8-Bit POST Code Values (Continued)
Value Functionality Name Description
89 PEI_ENTER_DXEIPL Loading BIOS image to RAM
8A PEI_FINDING_DXE_CORE Loading DXE core
8B PEI_GO_TO_DXE_CORE Enter DXE core
8C PEI_IFFS_TRANSITION_START iFFS Transition Start
8D PEI_IFFS_TRANSITION_END iFFS Transition End
NOTE The shaded rows in the table indicate the related functions are not from InsydeH2O
(platform dependent).
DXEPhase
Table C–3: DXE Phase 8-Bit POST Code Values
Value Functionality Name Description
40 DXE_TCGDXE TPM initialization in DXE
41 DXE_SB_SPI_INIT South bridge SPI initialization
42 DXE_CF9_RESET Setup Reset service
43 DXE_SB_SERIAL_GPIO_INIT South bridge Serial GPIO initialization
44 DXE_SMMACCESS Setup SMM ACCESS service
45 DXE_NB_INIT North bridge Middle initialization
46 DXE_SIO_INIT Super I/O DXE initialization
47 DXE_LEGACY_REGION Set up Legacy Region service
48 DXE_SB_INIT South Bridge Middle Initialization
49 DXE_IDENTIFY_FLASH_DEVICE Identify Flash device
4A DXE_FTW_INIT Fault Tolerant Write verification
4B DXE_VARIABLE_INIT Variable Service Initialization
4C DXE_VARIABLE_INIT_FAIL Fail to initialize Variable Services
4D DXE_MTC_INIT MTC Initialization
4E DXE_CPU_INIT CPU middle-phase initialization
4F DXE_MP_CPU_INIT Multi-processor middle-phase initialization
50 DXE_SMBUS_INIT SMBUS Initialization
51 DXE_SMART_TIMER_INIT 8259 Initialization
52 DXE_PCRTC_INIT RTC Initialization
53 DXE_SATA_INIT SATA Controller early initialization
54 DXE_SMM_CONTROLER_INIT Setup SMM Control service
55 DXE_LEGACY_INTERRUPT Setup legacy interrupt services
56 DXE_RELOCATE_SMBASE Relocate SMM BASE
57 DXE_FIRST_SMI SMI test
58 DXE_VTD_INIT VTD Initialization
59 DXE_BEFORE_CSM16_INIT Legacy BIOS initialization
5A DXE_AFTER_CSM16_INIT Legacy interrupt function initialization
5B DXE_LOAD_ACPI_TABLE ACPI Table Initialization
5C DXE_SB_DISPATCH Setup SB SMM Dispatcher service
5D DXE_SB_IOTRAP_INIT Setup SB IOTRAP Service
5E DXE_SUBCLASS_DRIVER Build AMT Table
5F DXE_PPM_INIT PPM Initialization
60 DXE_HECIDRV_INIT HECIDRV Initialization
v1.0 www.winsystems.com Page 71
EBC-C413/Power-on Self-Test (POST) Codes
Table C–3: DXE Phase 8-Bit POST Code Values (Continued)
Value Functionality Name Description
61 DXE_VARIABLE_RECLAIM Variable store garbage collection and reclaim operation
62 DXE_FLASH_PART_NONSUPPORT Flash part not supported.
NOTE The shaded rows in the table indicate the related functions are not from InsydeH2O
(platform dependent).
BDSPhase
Table C–4: BDS Phase 8-Bit POST Code Values
Value Functionality Name Description
10 BDS_ENTER_BDS Enter BDS entry
11 BDS_INSTALL_HOTKEY Install Hotkey service
12 BDS_ASF_INIT ASF Initialization
13 BDS_PCI_ENUMERATION_START PCI enumeration
14 BDS_BEFORE_PCIIO_INSTALL PCI resource assign complete
15 BDS_PCI_ENUMERATION_END PCI enumeration complete
16 BDS_CONNECT_CONSOLE_IN Keyboard Controller, Keyboard and Mouse initialization
17 BDS_CONNECT_CONSOLE_OUT Video device initialization
18 BDS_CONNECT_STD_ERR Error report device initialization
19 BDS_CONNECT_USB_HC USB host controller initialization
1A BDS_CONNECT_USB_BUS USB BUS driver initialization
1B BDS_CONNECT_USB_DEVICE USB device driver initialization
1C BDS_NO_CONSOLE_ACTION Console device initialization fail
1D BDS_DISPLAY_LOGO_SYSTEM_INFO Display logo or system information
1E BDS_START_IDE_CONTROLLER IDE controller initialization
1F BDS_START_SATA_CONTROLLER SATA controller initialization
20 BDS_START_ISA_ACPI_CONTROLLER SIO controller initialization
21 BDS_START_ISA_BUS ISA BUS driver initialization
22 BDS_START_ISA_FDD Floppy device initialization
23 BDS_START_ISA_SEIRAL Serial device initialization
24 BDS_START_IDE_BUS IDE device initialization
25 BDS_START_AHCI_BUS AHCI device initialization
26 BDS_CONNECT_LEGACY_ROM Dispatch option ROMs
27 BDS_ENUMERATE_ALL_BOOT_OPTION Get boot device information
28 BDS_END_OF_BOOT_SELECTION End of boot selection
29 BDS_ENTER_SETUP Enter Setup Menu
2A BDS_ENTER_BOOT_MANAGER Enter Boot manager
2B BDS_BOOT_DEVICE_SELECT Try to boot system to OS
2C BDS_EFI64_SHADOW_ALL_LEGACY_ROM Shadow Misc Option ROM
2D BDS_ACPI_S3SAVE Save S3 resume required data in RAM
2E BDS_READY_TO_BOOT_EVENT Last Chipset initialization before boot to OS
2F BDS_GO_LEGACY_BOOT Start to boot Legacy OS
30 BDS_GO_UEFI_BOOT Start to boot UEFI OS
31 BDS_LEGACY16_PREPARE_TO_BOOT Prepare to Boot to Legacy OS
v1.0 www.winsystems.com Page 72
EBC-C413/Power-on Self-Test (POST) Codes
Table C–4: BDS Phase 8-Bit POST Code Values (Continued)
Value Functionality Name Description
32 BDS_EXIT_BOOT_SERVICES Send END of POST Message to ME via HECI
33 BDS_LEGACY_BOOT_EVENT Last chipset initialization before boot to Legacy OS.
34 BDS_ENTER_LEGACY_16_BOOT Ready to Boot Legacy OS.
35 BDS_RECOVERY_START_FLASH Fast recovery start flash
36 BDS_START_SDHC_BUS SDHC device initialization
37 BDS_CONNECT_ATA_LEGACY ATA legacy device initialization
38 BDS_CONNEC_SD_LEGACY SD legacy device initialization
NOTE The shaded rows in the table indicate the related functions are not from InsydeH2O
(platform dependent).
PostBDSPhase
Table C–5: BDS Phase 8-Bit POST Code Values
Value Functionality Name Description
F9 POST_BDS_NO_BOOT_DEVICE No Boot Device
FB POST_BDS_START_IMAGE UEFI Boot Start Image
FD POST_BDS_ENTER_INT19 Legacy 16 boot entry
FE POST_BDS_JUMP_BOOT_SECTOR Try to Boot with INT 19
S3
Table C–6: S3 8-Bit POST Code Values
Value Functionality Name Description
C0 S3_RESTORE_MEMORY_CONTROLLER Memory initialization for S3 resume
C1 S3_INSTALL_S3_MEMORY Get S3 resume required data from memory
C2 S3_SWITCH_STACK Start to use memory during S3 resume
C3 S3_MEMORY_CALLBACK Set cache for physical memory during S3 resume
C4 S3_ENTER_S3_RESUME_PEIM Start to restore system configuration
C5 S3_BEFORE_ACPI_BOOT_SCRIPT Restore system configuration stage 1
C6 S3_BEFORE_RUNTIME_BOOT_SCRIPT Restore system configuration stage 2
C7 S3_BEFORE_RELOCATE_SMM_BASE Relocate SMM BASE during S3 resume
C8 S3_BEFORE_MP_INIT Multi-processor initialization during S3 resume
C9 S3_BEFORE_RESTORE_ACPI_CALLBACK Start to restore system configuration in SMM
CA S3_AFTER_RESTORE_ACPI_CALLBACK Restore system configuration in SMM complete
CB S3_GO_TO_FACS_WAKING_VECTOR Back to OS
v1.0 www.winsystems.com Page 73
EBC-C413/Power-on Self-Test (POST) Codes
ACPI
Table C–7: ACPI 8-Bit POST Code Values
Value Functionality Name Description
51 ASL_ENTER_S1 Prepare to enter S1
53 ASL_ENTER_S3 Prepare to enter S3
54 ASL_ENTER_S4 Prepare to enter S4
55 ASL_ENTER_S5 Prepare to enter S5
E1 ASL_WAKEUP_S1 System wakeup from S1
E3 ASL_WAKEUP_S3 System wakeup from S3
E4 ASL_WAKEUP_S4 System wakeup from S4
E5 ASL_WAKEUP_S5 System wakeup from S5
SMM
Table C–8: SMM 8-Bit POST Code Values
Value Functionality Name Description
A0 SMM_IDENTIFY_FLASH_DEVICE Identify flash device in SMM
A2 SMM_SMM_PLATFORM_INIT SMM service initialization
A6 SMM_ACPI_ENABLE_START OS call ACPI enable function
A7 SMM_ACPI_ENABLE_END ACPI enable function complete
A1 SMM_S1_SLEEP_CALLBACK Enter S1
A3 SMM_S3_SLEEP_CALLBACK Enter S3
A4 SMM_S4_SLEEP_CALLBACK Enter S4
A5 SMM_S5_SLEEP_CALLBACK Enter S5
A8 SMM_ACPI_DISABLE_START OS call ACPI disable function
A9 SMM_ACPI_DISABLE_END ACPI disable function complete
InsydeH2ODDTDebugger
Table C–9: InsydeH2O DDT Debugger 8-Bit POST Code Values
Value Functionality Name Description
0D Used by Insyde debugger Waiting for device connect
D0 Used by Insyde debugger Waiting for device connect
D1 Used by Insyde debugger InsydeH2ODDT ready
D2 Used by Insyde debugger EHCI not found
D3 Used by Insyde debugger Debug port connect low speed device
D4 Used by Insyde debugger DDT cable became low speed device
D5 Used by Insyde debugger DDT cable transmission error (Get descriptor fail)
D6 Used by Insyde debugger DDT cable transmission error (Set debug mode fail)
D7 Used by Insyde debugger DDT cable transmission error (Set address fail)
v1.0 www.winsystems.com Page 74
EBC-C413/Warranty Information
Appendix D. Warranty Information
WinSystems warrants that for a period of two (2) years from the date of shipment, any Products and Software purchased or
licensed hereunder which have been developed or manufactured by WinSystems shall be free of any defects and shall perform
substantially in accordance with WinSystems' specifications therefor. With respect to any Products or Software purchased or
licensed hereunder which have been developed or manufactured by others, WinSystems shall transfer and assign to Customer
any warranty of such manufacturer or developer held by WinSystems, provided that the warranty, if any, may be assigned. The
sole obligation of WinSystems for any breach of warranty contained herein shall be, at its option, either (i) to repair or replace at
its expense any materially defective Products or Software, or (ii) to take back such Products and Software and refund the
Customer the purchase price and any license fees paid for the same. Customer shall pay all freight, duty, broker's fees,
insurance, charges and other fees and charges for the return of any Products or Software to WinSystems under this warranty.
WinSystems shall pay freight and insurance charges for any repaired or replaced Products or Software thereafter delivered to
Customer within the United States. All fees and costs for shipment outside of the United States shall be paid by Customer. The
foregoing warranty shall not apply to any Products or Software which have been subject to abuse, misuse, vandalism, accident,
alteration, neglect, unauthorized repair or improper installation.
THERE ARE NO WARRANTIES BY WINSYSTEMS EXCEPT AS STATED HEREIN. THERE ARE NO OTHER WARRANTIES EXPRESS
OR IMPLIED INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
PARTICULAR PURPOSE. IN NO EVENT SHALL WINSYSTEMS BE LIABLE FOR CONSEQUENTIAL, INCIDENTAL OR SPECIAL
DAMAGES FOR LOSS OF DATA, PROFITS OR GOODWILL. WINSYSTEMS' MAXIMUM LIABILITY FOR ANY BREACH OF THIS
AGREEMENT OR OTHER CLAIM RELATED TO ANY PRODUCTS, SOFTWARE, OR THE SUBJECT MATTER HEREOF, SHALL NOT
EXCEED THE PURCHASE PRICE OR LICENSE FEE PAID BY CUSTOMER TO WINSYSTEMS FOR THE PRODUCTS OR SOFTWARE
OR PORTION THEREOF TO WHICH SUCH BREACH OR CLAIM PERTAINS.
Title to the Products shall remain vested in WinSystems until complete payment is made by Customer. Title to any Software shall
remain vested in WinSystems, or WinSystems' licensor from whom WinSystems has obtained marketing rights, both before,
during and after the term of the License. Nonpayment when due of the purchase price for any Products or the License fees for
any Software, or, if applicable, taxes and/or the cost of any freight and insurance for any Products and/or Software, shall entitle
WinSystems to take possession of the Products and/or Software without notice to Customer or prejudice to WinSystems' rights
under contract or any other legal remedy.
Until title to the Products pass in accordance with the provision set out above, except with the prior written approval of
WinSystems, no Products shall be modified, altered, moved or in any way assigned, sublet, mortgaged or charged nor may
Customer part with possession of all or part of the same.
There are no understandings, agreements or representations, express or implied, other than those set forth herein. This Order
embodies the entire agreement between the parties and may be waived, amended or supplemented only by a written instrument
executed jointly by WinSystems and Customer as evidenced only by the signature of duly authorized officers of each party. The
foregoing terms and conditions of any order which may be issued by Customer for the purchase of Products or licensing of
Software hereunder.
In the event this Order is placed in the hands of an attorney or collection agency by WinSystems to collect any sums due
hereunder to WinSystems, Customer shall pay all reasonable attorney's fees, expenses, collection and court costs incurred by
WinSystems.
THIS AGREEMENT SHALL BE GOVERNED AND CONSTRUED UNDER THE TEXAS UNIFORM COMMERCIAL CODE AND THE
APPLICABLE LAWS OF THE STATE OF TEXAS. THE PARTIES ACKNOWLEDGE THAT ANY ACTION BROUGHT HEREUNDER
SHALL ONLY BE BROUGHT IN A COURT OF COMPETENT JURISDICTION IN TARRANT COUNTY, TEXAS.
Warranty Service
1. To obtain service under this warranty, obtain a return authorization number. In the United States, contact the WinSystems
Service Center for a return authorization number. Outside the United States, contact your local sales agent for a return
authorization number.
2. You must send the product postage prepaid and insured. You must enclose the products in an anti-static bag to protect
from damage by static electricity. WinSystems is not responsible for damage to the product due to static electricity.
v1.0 www.winsystems.com Page 75
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