Kontron SMARC sXAL User Manual



USER GUIDE

SMARC sXAL

Doc. Rev. 1.0

Doc-ID: 1061-8306

SMARC sXAL – Rev. 1.0



SMARC SXAL

- USER GUIDE

Disclaimer

Kontron would like to point out that the information contained in this manual may be subject to alteration,
particularly as a result of the constant upgrading of Kontron products. This document does not entail any guarantee
on the part of Kontron with respect to technical processes described in the manual or any product characteristics
set out in the manual. Kontron assumes no responsibility or liability for the use of the described product(s), conveys
no license or title under any patent, copyright or mask work rights to these products and makes no representations
or warranties that these products are free from patent, copyright or mask work right infringement unless otherwise
specified. Applications that are described in this manual are for illustration purposes only. Kontron makes no
representation or warranty that such application will be suitable for the specified use without further testing or
modification. Kontron expressly informs the user that this manual only contains a general description of processes
and instructions which may not be applicable in every individual case. In cases of doubt, please contact Kontron.

This manual is protected by copyright. All rights are reserved by Kontron. No part of this document may be
reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer
language, in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), without the
express written permission of Kontron. Kontron points out that the information contained in this manual is
constantly being updated in line with the technical alterations and improvements made by Kontron to the products
and thus this manual only reflects the technical status of the products by Kontron at the time of publishing.

Brand and product names are trademarks or registered trademarks of their respective owners.

©2017 by Kontron AG

Kontron AG

Lise-Meitner-Str. 3-5
86156 Augsburg
Germany
www.kontron.com

SMARC sXAL – Rev. 1.0

Revision History

Revision Brief Description of Changes Date of Issue

1.0 Basic draft 2017-Jan-20

High Risk Applications Hazard Notice

THIS DEVICE AND ASSOCIATED SOFTWARE ARE NOT DESIGNED, MANUFACTURED OR INTENDED FOR USE OR RESALE
FOR THE OPERATION OF NUCLEAR FACILITIES, THE NAVIGATION, CONTROL OR COMMUNICATION SYSTEMS FOR
AIRCRAFT OR OTHER TRANSPORTATION, AIR TRAFFIC CONTROL, LIFE SUPPORT OR LIFE SUSTAINING APPLICATIONS,
WEAPONS SYSTEMS, OR ANY OTHER APPLICATION IN A HAZARDOUS ENVIRONMENT, OR REQUIRING FAIL-SAFE
PERFORMANCE, OR IN WHICH THE FAILURE OF PRODUCTS COULD LEAD DIRECTLY TO DEATH, PERSONAL INJURY, OR
SEVERE PHYSICAL OR ENVIRONMENTAL DAMAGE (COLLECTIVELY, "HIGH RISK APPLICATIONS").

You understand and agree that your use of Kontron devices as a component in High Risk Applications is entirely at
your risk. To minimize the risks associated with your products and applications, you should provide adequate design
and operating safeguards. You are solely responsible for compliance with all legal, regulatory, safety, and security
related requirements concerning your products. You are responsible to ensure that your systems (and any Kontron
hardware or software components incorporated in your systems) meet all applicable requirements. Unless
otherwise stated in the product documentation, the Kontron device is not provided with error-tolerance capabilities
and cannot therefore be deemed as being engineered, manufactured or setup to be compliant for implementation or
for resale as device in High Risk Applications. All application and safety related information in this document
(including application descriptions, suggested safety measures, suggested Kontron products, and other materials) is
provided for reference only.

Customer Support

Find Kontron contacts by visiting: http://www.kontron.com/support.

Customer Service

As a trusted technology innovator and global solutions provider, Kontron extends its embedded market strengths
into a services portfolio allowing companies to break the barriers of traditional product lifecycles. Proven product
expertise coupled with collaborative and highly-experienced support enables Kontron to provide exceptional peace
of mind to build and maintain successful products.

For more details on Kontron’s service offerings such as: enhanced repair services, extended warranty, Kontron
training academy, and more visit http://www.kontron.com/support-and-services/services

.

Customer Comments

If you have any difficulties using this user guide, discover an error, or just want to provide some feedback, contact
Kontron support

. Detail any errors you find. We will correct the errors or problems as soon as possible and post the

revised user guide on our website.

SMARC sXAL User Guide. Rev. 1.0

Terms and Conditions

Kontron warrants products in accordance with defined regional warranty periods. For more information about
warranty compliance and conformity, and the warranty period in your region, visit http://www.kontron.com/terms­and-conditions.

Kontron sells products worldwide and declares regional General Terms & Conditions of Sale, and Purchase Order
Terms & Conditions. Visit http://www.kontron.com/terms-and-conditions.

For contact information, refer to the corporate offices contact information on the last page of this user guide or visit
our website CONTACT US.

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 5

Symbols

The following symbols may be used in this manual

DANGER indicates a hazardous situation which, if not avoided,
will result in death or serious injury.

WARNING indicates a hazardous situation which, if not avoided,
could result in death or serious injury.

CAUTION indicates a hazardous situation which, if not avoided,
may result in minor or moderate injury.

NOTICE indicates a property damage message.

Electric Shock!
This symbol and title warn of hazards due to electrical shocks (> 60 V) when touching

products or parts of them. Failure to observe the precautions indicated and/or prescribed by
the law may endanger your life/health and/or result in damage to your material.

Please refer also to the "High-Voltage Safety Instructions" portion below in this section.

ESD Sensitive Device!
This symbol and title inform that the electronic boards and their components are sensitive

to static electricity. Care must therefore be taken during all handling operations and
inspections of this product in order to ensure product integrity at all times.

HOT Surface!
Do NOT touch! Allow to cool before servicing.

This symbol indicates general information about the product and the user manual.

This symbol also indicates detail information about the specific product configuration.

This symbol precedes helpful hints and tips for daily use.

SMARC sXAL User Guide. Rev. 1.0

For Your Safety

Your new Kontron product was developed and tested carefully to provide all features necessary to ensure its
compliance with electrical safety requirements. It was also designed for a long fault-free life. However, the life
expectancy of your product can be drastically reduced by improper treatment during unpacking and installation.
Therefore, in the interest of your own safety and of the correct operation of your new Kontron product, you are
requested to conform with the following guidelines.

High Voltage Safety Instructions

As a precaution and in case of danger, the power connector must be easily accessible. The power connector is the
product’s main disconnect device.

Warning
All operations on this product must be carried out by sufficiently skilled personnel only.

Electric Shock!
Before installing a non hot-swappable Kontron product into a system always ensure that

your mains power is switched off. This also applies to the installation of piggybacks. Serious
electrical shock hazards can exist during all installation, repair, and maintenance operations
on this product. Therefore, always unplug the power cable and any other cables which
provide external voltages before performing any work on this product.

Earth ground connection to vehicle’s chassis or a central grounding point shall remain
connected. The earth ground cable shall be the last cable to be disconnected or the first
cable to be connected when performing installation or removal procedures on this product.

Special Handling and Unpacking Instruction

ESD Sensitive Device!
Electronic boards and their components are sensitive to static electricity. Therefore, care

must be taken during all handling operations and inspections of this product, in order to
ensure product integrity at all times.

Do not handle this product out of its protective enclosure while it is not used for operational purposes unless it is
otherwise protected.

Whenever possible, unpack or pack this product only at EOS/ESD safe work stations. Where a safe work station is
not guaranteed, it is important for the user to be electrically discharged before touching the product with his/her
hands or tools. This is most easily done by touching a metal part of your system housing.

It is particularly important to observe standard anti-static precautions when changing piggybacks, ROM devices,
jumper settings etc. If the product contains batteries for RTC or memory backup, ensure that the product is not
placed on conductive surfaces, including anti-static plastics or sponges. They can cause short circuits and damage
the batteries or conductive circuits on the product.

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 7

General Instructions on Usage

In order to maintain Kontron’s product warranty, this product must not be altered or modified in any way. Changes
or
modifications to the product, that are not explicitly approved by Kontron and described in this User Guide or received
from Kontron’s Technical Support as a special handling instruction, will void your warranty.

This product should only be installed in or connected to systems that fulfill all necessary technical and specific
environmental requirements. This also applies to the operational temperature range of the specific board version,
that must not be exceeded. If batteries are present, their temperature restrictions must be taken into account.

In performing all necessary installation and application operations, only follow the instructions supplied by the
present User Guide.

Keep all the original packaging material for future storage or warranty shipments. If it is necessary to store or ship
the product then re-pack it in the same manner as it was delivered.

Special care is necessary when handling or unpacking the product. See Special Handling and Unpacking Instruction.

Environmental Protection Statement

This product has been manufactured to satisfy environmental protection requirements where possible. Many of the
components used (structural parts, printed circuit boards, connectors, batteries, etc.) are capable of being recycled.

Final disposition of this product after its service life must be accomplished in accordance with applicable country,
state, or local laws or regulations.

Environmental protection is a high priority with Kontron.
Kontron follows the WEEE directive
You are encouraged to return our products for proper disposal.

The Waste Electrical and Electronic Equipment (WEEE) Directive aims to:

Reduce waste arising from electrical and electronic equipment (EEE)

Make producers of EEE responsible for the environmental impact of their products, especially when the product

become waste

Encourage separate collection and subsequent treatment, reuse, recovery, recycling and sound environmental

disposal of EEE

Improve the environmental performance of all those involved during the lifecycle of EEE

SMARC sXAL User Guide. Rev. 1.0

Table of Contents

Symbols ................................................................................................................................................................................................................. 5

Table of Contents .............................................................................................................................................................................................. 8

List of Tables ....................................................................................................................................................................................................... 8

List of Figures ..................................................................................................................................................................................................... 8

1/ Introduction ............................................................................................................................................................................................ 9

2/ Description ............................................................................................................................................................................................ 10

3/ Installation procedure ....................................................................................................................................................................... 11

3.1. Packing Check List ...................................................................................................................................................................................... 11

3.2. Requirements IEC60950-1 ...................................................................................................................................................................... 11

4/ System specifications ....................................................................................................................................................................... 12

4.1. Component Main Data ............................................................................................................................................................................. 12

5/ Connectors ............................................................................................................................................................................................ 15

5.1. Hardware Configuration Setting .......................................................................................................................................................... 15

5.1.1. Connectors ................................................................................................................................................................................................ 15

5.2. Mainboard view and I/O locations ...................................................................................................................................................... 16

5.3. Rear Side ...................................................................................................................................................................................................... 17

5.4. Mechanical Drawing ................................................................................................................................................................................ 17

5.5. Thermal Management, Heatspreader and Cooling Solutions ................................................................................................... 18

6/ Pin Definitions ...................................................................................................................................................................................... 19

6.1. Processor Support ................................................................................................................................................................................... 20

6.2. System Memory Support ...................................................................................................................................................................... 20

6.3. Fan Connector............................................................................................................................................................................................ 21

6.4. CPLD programming header .................................................................................................................................................................. 22

6.5. SMARC Connector .................................................................................................................................................................................... 23

List of Acronyms .............................................................................................................................................................................................. 29

About Kontron .................................................................................................................................................................................................. 30

List of Tables

Table 1: Component Main Data .................................................................................................................................................................... 12

Table 2: Environmental Conditions ............................................................................................................................................................ 14

Table 3: Connectors of SMARC sXCAL (2) ................................................................................................................................................. 15

Table 4: Connector Definitions..................................................................................................................................................................... 19

Table 5: Processor Support .......................................................................................................................................................................... 20

Table 6: Memory Support ............................................................................................................................................................................. 20

List of Figures

Figure 1: Half-size Card with SMARC interface ....................................................................................................................................... 10

Figure 2: Top View ............................................................................................................................................................................................ 16

Figure 3: Front View ......................................................................................................................................................................................... 16

Figure 4: Back View .......................................................................................................................................................................................... 16

Figure 5: Rear Side from SMARC sxal ........................................................................................................................................................ 17

Figure 6: Mechanical Drawing from SMARC sxal .................................................................................................................................. 17

Figure 7: Heatspreader as cooling solution ............................................................................................................................................. 18

Figure 8: 3-pin Fan Connector ...................................................................................................................................................................... 21

Figure 9: 6-pin CPLD Connector .................................................................................................................................................................. 22

Figure 10: 314-pin SMARC Connector, ....................................................................................................................................................... 23

SMARC sXAL User Guide. Rev. 1.0

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1/ Introduction

This manual describes the Smart Mobility ARChitecture (SMARC) sxal board. The use of this Users Guide implies a
basic knowledge of PC hard- and software. This manual is focussed on describing the special features and is not
intended to be a standard PC textbook.

New users are recommended to study the short installation procedure stated in the following chapter before
switching on the power.

All configuration and setup of the CPU board is either done automatically or manually by the user via the BIOS setup
menus.

Latest revision of this manual, datasheet, BIOS, drivers and BSP’s (Board Support Packages) can be downloaded
from Kontron Web Page.

SMARC sXAL User Guide. Rev. 1.0

2/ Description

The SMARC sxal is a SMARC half-size module using the Intel Apollo Lake-I processor based on Intel x86 SoC. It is
designed on the latest SMARC 2.0 specification.

Figure 1: Half-size Card with SMARC interface

Main characteristics are:

 1x channel LPDDR3L support 8x memory down and 1x ECC, support maximum memory size up to 8 Gbyte
 4x PCIe x1 Gen 2
 1x GbE LAN
 2x USB 3.0/2.0 (SMARC port 2,3)
 4x USB2.0 Host (SMARC port 0,1,4,5)
 1x USB2.0 On-the-Go (OTG) (SMARC port 0, via switch of full functional OTG)
 1x Dual Channel LVDS/1x optional eDP
 1x HDMI/optional DP
 1x DP
 Up to 64GB embedded Multimedia Card (eMMC)
 1x Secure Digital Input Output (SDIO)
 1x SPI external Boot (SPI0)
 1x SPI for generic devices (SPI1)
 1x HDA Audio
 1X I2S Audio
 5x I2C interface
 1x SMB interface, SMBUS via GPIO controlled switch
 2x Camera Serial Interface (CSI) of the Mobile Industry Processor Interface (MIPI-CSI2)
 4x Universal Asynchronous Receiver Transmitter (UART) interfaces
 12x General-purpose input/output (GPIO)
 Onboard Complex Programmable Logic Device (CPLD)
 SMARC short module form factor (82 mm x 50 mm)

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 11

3/ Installation procedure

3.1. Packing Check List

The package includes the following basic items accompany with this manual.

 One board

If this item is damaged or missed, please contact your vendor and save all packing materials for future replacement
and maintenance.

Note: The above packing list is for standard single box packing only.

3.2. Requirements IEC60950-1

Take care when designing chassis interface connectors in order to fulfil the IEC60950-1 standard.

Users of board must evaluate the end product to ensure compliance the requirements of the IEC60950-1 safety
standard are met:

The motherboard must be installed in a suitable mechanical, electrical and fire enclosure.

The system in its enclosure must be evaluated for temperature and air flow considerations.

For interfaces having a power pin such as external power or fan, ensure that the connectors and wires are suitably
rated. All connections from or to the product shall be with Safety Extra Low Voltage (SELV) circuits only.

Wires have suitable rating to withstand the maximum available power.

The enclosure of the peripheral device fulfills the fire protecting requirements of IEC60950-1.

SMARC sXAL User Guide. Rev. 1.0

4/ System specifications

4.1. Component Main Data

The table below summarizes the features of the motherboard.

Table 1: Component Main Data

SMARC sxal

Form factor

Smart Mobility ARChitecture (SMARC) Hardware with 82 mm x 50 mm, max. height 3 mm

Processor The processor is Intel Apollo Lake which is a 14 nm / 24 x 31 mm Type 3; 0.594 mm pitch;

1296 pin count.

BIOS Onboard 128Mb SPI flash for BIOS storage

Embedded
Controller

FPGA MAX10 for Embedded Feature set and logic control

Memory 1x LPDDR3L 1.35V Memory up to 8 GB, (ECC optional), eight plus one soldered chips

Storage 8 to 64 GB eMMC 5.0 Flash (option)

Watchdog Timer Watchdog timer will be supported by WDT Out

Wake On Wake on LAN

H/W Status
Monitor

The SMARC sxal design shall incorporate a Nuvoton NCT7802Y hardware monitor. It
delivers:

 SM Bus connection to the System on Chip (SoC)
 Fan control for on-board fan header
 PWM and Tach interface to SMARC connector to satisfy SMARC specification
 Temperature measurement of the SMARC PCB (2x with external thermal diode)
 A/D measurements on V_RTC, V_3V3_S0 and V_3V0-525_IN

Trusted Platform
Module (TPM)

incorporated

Complex
Programmable
Logic Devices
(CPLD)

The SMARC sxal design shall incorporate a Altera MAX10 CPLD controller which will handle
the following.

 Power Sequencing
 Status and control signal level shifting mostly to allow signals routed to SMARC

connector to comply with SMARC Specifications.

 Incorporated with a LPC to UART bridge to provide two 2-wire UART.
 Incorporated with a LPC to I2C bridge to provide I2C interface.
 Incorporated with a LPC to GPIO bridge to provide twelve GPIOs.

Power
management

C0, C1, C6, C7, C8, C9, C10

Expansion The SOC provides four PCIe Gen 2 lanes that can be configured as 4 x 1 (i.e. 4 PCIe links that

are x1 wide) or as 1x4 (one link in an x4 configuration). The PCIe links and support signals
are to be implemented as per the SMARC specification document.

Operating System
Support

Windows® 10, Enterprise, Windows 10 IoT, Linux, VxWorks

External I/O

LAN, USB one Gbit-Ethernet, two USB3.0 and four USB2.0

Audio one High Definition Audio (HDA)

Display Port one embedded Display Port (eDP) interface. The Intel SoC eDP port shall be used to create

the SMARC eDP interface which are sharing the same pins with the LVDS interface.

LVDS The Intel SoC eDP shall be used to create the SMARC dual channel LVDS interface. The

interface should be able to support 18 and 24 bit single and dual channel LVDS panels.

Internal I/O: SMARC I/O System Interconnection

SATA one Gen3 SATA link

SMARC sXAL User Guide. Rev. 1.0

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GbE LAN one SMARC GBE port using Intel I210/I211 PCIe – GBE MAC/PHY controller

LVDS one LVDS and one LVDS/eDP1.4

PCIe four PCIe Gen 2 lanes that can be configured as 4 x1, i.e. 4 PCIe links that are x1 wide. Or it

can be designed as 1x4 with one link in an x4 configuration.

Inter-IC Sound (I2S) one I2S interface

Serial Port two 2-wire UART interface (TX, RX) and two 4-wire UART interface (TX, RX, CTS, RTS) at

1.8 V TTL

Serial Peripheral
Interface (SPI)

one SPI interface which is connected to the primary SPI chip and can also be used for
external boot from the BIOS SPI chip.

I2C five I2C interfaces which are derived from the SoC

GPIO 12x general purpose inputs/outputs

Internal Header and Jumper

Sys-Fan if needed, the fan will operate from the 3 V to 5.25 V input. The fan connector will have on

board fan speed control support from the Hardware Monitor chip.

Power one 10-pin power connector: The SMARC sxal is supplied from a single power supply

supporting a voltage of 5 V. The SMARC specification defines a maximum current per input
voltage pin of 0.5 A. Fan will only operate on 5 V DC.

Display

Graphics Interface

The board supports onboard graphics through four Ports:

 LVDS: The Intel SoC eDP (embedded Display Port) delivers the SMARC dual channel

LVDS interface. The interface supports 18 and 24 bit single and dual channel LVDS
panels via PTN3460.

 eDP: The Intel SoC eDP (embedded Display Port) connect the display via the SMARC

eDP interface, which shares the same pins with the LVDS interface.

 Dual mode HDMI: Dual Mode (HDMI and DisplayPort on the same pins)

implementations are realized through the Intel SoC DDI0 interface.

 DP++: The Intel SoC DDI0 shall be used to create the SMARC DP++ interface

Graphics Controller Intel HD Gfx Gen9

Resolution

DP/LVDS 4096 x 2160 with 60 Hz

Ethernet

Controller Intel i210IT/i211AT

Interface one GB Ethernet port via SMARC I/O

SMARC sXAL User Guide. Rev. 1.0

Security

Kontron Security
Solution Approtect

The board is equipped with the Kontron Security Solution Approtect, providing an
embedded hardware security solution that enables applications to be secured, even in
unsecure environments. The solution provides features such as:

 Copy protection
 IP protection
 License model enforcement

Danger of explosion if the lithium battery is incorrectly replaced.

• Replace only with the same or equivalent type recommended by the manufacturer

• Dispose of used batteries according to the manufacturer’s instructions

Table 2: Environmental Conditions

Operating commercial grade: 0°C to +60°C

extended (E1): -25°C to 75°C
industrial grade (E2): -40°C to +85°C
relative humidity (non-condensing) 10 % to 90 %

Storage commercial grade: -30°C to +85°C

extended (E1): -25°C to 75°C
industrial grade (E2): -40°C to +85°C
relative humidity (non-condensing) 10 % to 95 %

Electromagnetic
Compatibility
(EMC) and
Interference (EMI)

 Emissions:

Conducted in standard available chassis. Compliant to the
requirements of EN55022:2006+A1:2007 class B / FCC part 15 class B
Electromagnetic compatible – Emission standard for information technology
equipment (ITE). External test in certified test laboratory and declaration of
conformity written by Kontron Technology only.

Shock according to IEC/EN60068-2-6 and IEC/EN60068-2-27

Vibration According to IEC/EN60068-2-6 and IEC/EN60068-2-27

Compliance/
Regulatory

 CE marked according to low voltage directive 2006/95/EC EN60950
 Safety Component Recognition to UL60950-1

Theoretical MTBF not applicable

Restriction of
Hazardous
Substances
(RoHS) II
Compliance

The product will comply to the European Council Directive on the approximation of the laws
of the member states relating to Directive 20011/65/EU or the last status thereof.
Components and materials of the product must not contain lead, mercury, cadmium,
hexavalent chromium, polybrominated biphenyls (PBB) or polybrominated diphenyl ethers
(PBDE). (Directive 2002/95/EC)

Safety Component Recognition to UL60950-1

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 15

5/ Connectors

5.1. Hardware Configuration Setting

This chapter gives the definitions and shows the positions of jumpers, headers and connectors. All of the
configuration jumpers on the board are in the proper position. The default settings shipped from factory are marked
with an asterisk (*).

In general, jumpers on the board are used to select options for certain features. Some of the jumpers are designed to
be user-configurable, allowing for system enhancement. The others are for testing purpose only and should not be
altered. To select any option, cover the jumper cap over (SHORT) or remove (NC) it from the jumper pins according to
the following instructions. Here, NC stands for “Not Connect”.

5.1.1. Connectors

Table 3: Connectors of SMARC sXCAL (2)

Connector Function Remark

SYS_FAN Sys Fan Connector 1x3-pin Connector

CPLD CPLD Connector 1x6-pin Connector

SMARC Central Interface 1x314-pin header

SMARC sXAL User Guide. Rev. 1.0

5.2. Mainboard view and I/O locations

Figure 2: Top View

Figure 3: Front View

Figure 4: Back View

1. CPU

2. Memory

3. SMARC connector

4. Sys Fan/CPU Fan

5. CPLD

1 4 3

5

4

5

2

SMARC sXAL User Guide. Rev. 1.0

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5.3. Rear Side

Figure 5: Rear Side from SMARC sxal

5.4. Mechanical Drawing

Figure 6: Mechanical Drawing from SMARC sxal

SMARC sXAL User Guide. Rev. 1.0

5.5. Thermal Management, Heatspreader and Cooling Solutions

A heatspreader plate assembly is available from Kontron for the SMARC sXCAL (2). The heatspreader plate on top of
this assembly is NOT a heat sink. It works as a SMARC-standard thermal interface to use with a heat sink or external
cooling devices.

Figure 7: Heatspreader as cooling solution

External cooling must be provided to maintain the heatspreader plate at proper operating temperatures. Under
worstcase conditions, the cooling mechanism must maintain an ambient air and heatspreader plate temperature on
any spot of the heatspreader's surface according the module specifications:

 60°C for commercial grade modules
 75°C for extended temperature grade modules (E1)
 85°C for industrial temperature grade modules (E2/XT)

The aluminum slugs and thermal pads or the heat-pipe on the underside of the heatspreader assembly implement
thermal interfaces between the heatspreader plate and the major heat-generating components. About 80 % of the
power dissipated within the module is conducted to the heatspreader plate and can be removed by the cooling
solution. Documentation and CAD drawings of heatspreader and cooling solutions are provided at
http://emdcustomersection.kontron.com.

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 19

6/ Pin Definitions

The following sections provide pin definitions and detailed description of all on-board connectors.
The connector definitions follow the following notation:

Table 4: Connector Definitions

Column Name

Description

Pin Shows the pin-numbers in the connector. The graphical layout of the connector definition

tables is made similar to the physical connectors.

Signal The mnemonic name of the signal at the current pin.

The notation “XX#” states that the signal “XX” is active low.

Type AI: Analog Input

AO: Analog Output
I: Input, TTL compatible if nothing else stated
IO: Input / Output, TTL compatible if nothing else stated
IOT: Bi-directional tristate IO pin.
IS: Schmitt-trigger input, TTL compatible.
IOC: Input / open-collector Output, TTL compatible
IOD: Input / Output, CMOS level Schmitt-triggered (Open drain output)
NC: Not Connected
O: Output, TTL compatible
OC: Output, open-collector or open-drain, TTL compatible
OT: Output with tri-state capability, TTL compatible
LVDS: Low Voltage Differential Signal
PWR: Power supply or ground reference pins.

Ioh: Typical current in mA flowing out of an output pin through a grounded load,

while the output voltage is > 2.4 V DC (if nothing else stated).
Iol: Typical current in mA flowing into an output pin from a VCC connected load,
while the output voltage is < 0.4 V DC (if nothing else stated).

Pull U/D On-board pull-up or pull-down resistors on input pins or open-collector output pins.

Note Special remarks concerning the signal

Designation Type and number of item described

SMARC sXAL User Guide. Rev. 1.0

6.1. Processor Support

Kontron has defined the board versions as listed in the following table, so far all based on Embedded CPUs.

Industrial Grade:

 Intel Atom x5 E3930 2C 1.8 GHz, 6,5W (Entry SKU of Apollo Lake @ -40°C to 85°C)
 Intel Atom x5 E3940 4C 1.8 GHz, 9,5W (Intermediate SKU of Apollo Lake @ -40°C to 85°C)
 Intel Atom x7 E3950 4C 2.0 GHz, 12W (High SKU of Apollo Lake @ -40°C to 85°C)

Commercial Grade

 Intel Mobile Celeron N3350 2C 2.3 GHz 6 W (Entry SKU @ 0°C to 60°C)
 Intel Mobile Celeron N4200 2C 2.5 GHz 6 W (High SKU @ 0°C to 60°C)

Table 5: Processor Support

Name Product

number

Speed Embed. Cache Sspec TDP / Tj

Atom x5
E3930 2C

1060­7110

1.8 GHz Yes 2 MB 6,5 W/85ºC

Atom x5
E3940 4C

1060­7111

1.8 GHz Yes 2 MB 9.5 W/85ºC

Atom x7
E3950 4C

1060­7114

2 GHz Yes 2 MB 12 W/85°C

Mobile
Celeron
N3350 2C

1060­7116

2.4 GHz Yes 2 MB SR2YB 6 W/105°C

Mobile
Celeron
N4200 2C

1060­7115

2.5 GHz Yes 2 MB SR2Y9 6 W/105ºC

6.2. System Memory Support

The memory system has one LPDDR3L socket. The sockets support the following memory features:

 1x Low Power DDR LPDDR3L with 1.35 V
 Max up to 8 GB (8 + 1 chip).
 DDR3-1867 (-1600) memory, ECC for Atom-versions

Kontron offers the following memory modules:

Table 6: Memory Support

Memory Module Description

8 GByte LPDDR3L

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 21

6.3. Fan Connector

The FANSYS (SYS_FAN) can be used to power, control and monitor a fan for chassis ventilation etc.

The three-pin header is recommended to be used for driving three-wire type Fan in order to implement Fan speed
control.

Figure 8: 3-pin Fan Connector

Pin Signal Description Type

1 PWM Fan speed sense O

2 PWR Power +5 V PWR

3 GND Ground PWR

Signal Description Type

GND Power Supply GND signal PWR

PWR +5 V supply for fan PWR

PWM PWM output signal for Fan speed control. O

SMARC sXAL User Guide. Rev. 1.0

6.4. CPLD programming header

Figure 9: 6-pin CPLD Connector

Pin Signal

1

3.3V Supply

2

TDO

3

TDI 4 TCK 5 TMS

6

GND

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 23

6.5. SMARC Connector

The SMARC connector has different pins on both sides:

 Top side: 74 pins are on the left side, 82 pins on the right side
 Bottom side: 75 pins are on the left side, 83 pins on the right side

Figure 10: 314-pin SMARC Connector,

P-Pin Signal S-Pin Signal

P1

SMB_ALERT_1V8
#

S1

CSI1_TX+ /
I2C_CAM1_CK

P2

GND S2

CSI1_TX- /
I2C_CAM1_DAT

P3

CSI1_CK+ S3 GND

P4

CSI1_CK- S4 RSVD

P5

GBE1_SDP S5

CSI0_TX- /
I2C_CAM0_CK

P6

GBE0_SDP S6 CAM_MCK

P7

CSI1_RX0+ S7

CSI0_TX+ /
I2C_CAM0_DAT

P8

CSI1_RX0-

S8

CSI0_CK+

P9

GND S9 CSI0_CK-

P10

CSI1_RX1+ S10 GND

P11

CSI1_RX1- S11 CSI0_RX0+

P12

GND S12 CSI0_RX0-

P13

CSI1_RX2+ S13 GND

P14

CSI1_RX2- S14 CSI0_RX1+

P15

GND

S15

CSI0_RX1-

P16

CSI1_RX3+

S16

GND

P17

CSI1_RX3-

S17

GBE1_MDI0+

P18

GND S18 GBE1_MDI0-

P19

GBE0_MDI3- S19 GBE1_LINK100#

SMARC sXAL User Guide. Rev. 1.0

P-Pin Signal S-Pin Signal

P20

GBE0_MDI3+ S20 GBE1_MDI1+

P21

GBE0_LINK100# S21 GBE1_MDI1-

P22

GBE0_LINK1000# S22 GBE1_LINK1000#

P23

GBE0_MDI2- S23 GBE1_MDI2+

P23

GBE0_MDI2-

S24

GBE1_MDI2-

P24

GBE0_MDI2+

S25

GND

P25

GBE0_LINK_ACT#

S26

GBE1_MDI3+

P26

GBE0_MDI1- S27 GBE1_MDI3-

P27

GBE0_MDI1+ S28 GBE1_CTREF

P28

GBE0_CTREF S29 PCIE_D_TX+

P29

GBE0_MDI0- S30 PCIE_D_TX-

P30

GBE0_MDI0+ S31 GBE1_LINK_ACT#

P31

SPI0_CS1# S32 PCIE_D_RX+

P32

GND

S33

PCIE_D_RX-

P33

SDIO_WP

S34

GND

P34

SDIO_CMD

S35

USB4+

P35

SDIO_CD# S36 USB4-

P36

SDIO_CK S37 USB3_VBUS_DET

P37

SDIO_PWR_EN S38 AUDIO_MCK

P38

GND S39 I2S0_LRCK

P39

SDIO_D0 S40 I2S0_SDOUT

P40

SDIO_D1 S41 I2S0_SDIN

P41

SDIO_D2

S42

I2S0_CK

P42

SDIO_D3

S43

ESPI_ALERT0#

P43

SPI0_CS0# S44 ESPI_ALERT1#

P44

SPI0_CK S45 RSVD

P45

SPI0_DIN S46 RSVD

P46

SPI0_DO S47 GND

P47

GND S48 I2C_GP_CK

P48

SATA_TX+ S49 I2C_GP_DAT

P49

SATA_TX-

S50

HDA_SYNC /
I2S2_LRCK

P50

GND S51

HDA_SDO /
I2S2_SDOUT

P51

SATA_RX+ S52

HDA_SDI /
I2S2_SDIN

P52

SATA_RX-

S53

HDA_CK / I2S2_CK

P53

GND

S54

SATA_ACT#

P54

ESPI_CS0# S55 USB5_EN_OC#

P55

ESPI_CS1# S56 ESPI_IO_2

P56

ESPI_CK S57 ESPI_IO_3

P57

ESPI_IO_0 S58 ESPI_RESET#

P58

ESPI_IO_1 S59 USB5+

P59

GND

S60

USB5-

P60

USB0+

S61

GND

P61

USB0-

S62

USB3_SSTX+

P62

USB0_EN_OC# S63 USB3_SSTX-

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 25

P-Pin Signal S-Pin Signal

P63

USB0_VBUS_DET S64 GND

P64

USB0_OTG_ID S65 USB3_SSRX+

P65

USB1+

S66

USB3_SSRX-

P66

USB1-

S67

GND

P67

USB1_EN_OC#

S68

USB3+

P68

GND S69 USB3-

P69

USB2+ S70 GND

P70

USB2- S71 USB2_SSTX+

P71

USB2_EN_OC# S72 USB2_SSTX-

P72

RSVD S73 GND

P73

RSVD S74 USB2_SSRX+

P74

USB3_EN_OC# S75 USB2_SSRX-

Key

Key

P75

PCIE_A_RST#

S76

PCIE_B_RST#

P76

USB4_EN_OC#

S77

PCIE_C_RST#

P77

RSVD S78 PCIE_C_RX+

P78

RSVD S79 PCIE_C_RX-

P79

GND S80 GND

P80

PCIE_C_REFCK+ S81 PCIE_C_TX+

P81

PCIE_C_REFCK- S82 PCIE_C_TX-

P82

GND S83 GND

P83

PCIE_A_REFCK+

S84

PCIE_B_REFCK+

P84

PCIE_A_REFCK-

S85

PCIE_B_REFCK-

P85

GND

S86

GND

P86

PCIE_A_RX+ S87 PCIE_B_RX+

P87

PCIE_A_RX- S88 PCIE_B_RX-

P88

GND S89 GND

P89

PCIE_A_TX+ S90 PCIE_B_TX+

P90

PCIE_A_TX- S91 PCIE_B_TX-

P91

GND

S92

GND

P92

HDMI_D2+ /

DP1_LANE0+

S93

DP0_LANE0+

P93

HDMI_D2- /
DP1_LANE0-

S94 DP0_LANE0-

P94

GND S95 DP0_AUX_SEL

P95

HDMI_D1+ /
DP1_LANE1+

S96 DP0_LANE1+

P96

HDMI_D1- /
DP1_LANE1-

S97 DP0_LANE1-

P97

GND

S98

DP0_HPD

P98

HDMI_D0+ /

DP1_LANE2+

S99

DP0_LANE2+

P99

HDMI_D0- /
DP1_LANE2-

S100

DP0_LANE2-

SMARC sXAL User Guide. Rev. 1.0

P-Pin Signal S-Pin Signal

P100

GND S101 GND

P101

HDMI_CK+ /
DP1_LANE3+

S102 DP0_LANE3+

P102

HDMI_CK- /
DP1_LANE3-

S103 DP0_LANE3-

P103

GND

S104

USB3_OTG_ID

P104

HDMI_HPD /

DP1_HPD

S105

DP0_AUX+

P105

HDMI_CTRL_CK /
DP1_AUX+

S106 DP0_AUX-

P106

HDMI_CTRL_DAT
/ DP1_AUX-

S107 LCD1_BKLT_EN

P107

DP1_AUX_SEL S108

LVDS1_CK+ /
eDP1_AUX+ /
DSI1_CLK+

P108

GPIO0 /
CAM0_PWR#

S109

LVDS1_CK- /
eDP1_AUX- /
DSI1_CLK-

P109

GPIO1 /

CAM1_PWR#

S110

GND

P110

GPIO2 /
CAM0_RST#

S111

LVDS1_0+ /
eDP1_TX0+ /
DSI1_D0+

P111

GPIO3 /

CAM1_RST#

S112

LVDS1_0- /

eDP1_TX0- /
DSI1_D0-

P112

GPIO4 /
HDA_RST#

S113 eDP1_HPD

P113

GPIO5 /

PWM_OUT

S114

LVDS1_1+ /

eDP1_TX1+ /
DSI1_D1+

P114

GPIO6 / TACHIN S115

LVDS1_1- /
eDP1_TX1- /
DSI1_D1-

P115

GPIO7

S116

LCD1_VDD_EN

P116

GPIO8

S117

LVDS1_2+ /

eDP1_TX2+ /
DSI1_D2+

P117

GPIO9 S118

LVDS1_2- /
eDP1_TX2- /
DSI1_D2-

P118

GPIO10 S119 GND

P119

GPIO11 S120

LVDS1_3+ /
eDP1_TX3+ /
DSI1_D3+

P120

GND

S121

LVDS1_3- /

eDP1_TX3- /
DSI1_D3-

P121

I2C_PM_CK S122 LCD1_BKLT_PWM

P122

I2C_PM_DAT S123 RSVD

P123

BOOT_SEL0# S124 GND

P124

BOOT_SEL1#

S125

LVDS0_0+ /

eDP0_TX0+ /

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 27

P-Pin Signal S-Pin Signal

DSI0_D0+

P125

BOOT_SEL2#

S126

LVDS0_0- /

eDP0_TX0- /
DSI0_D0-

P126

RESET_OUT# S127 LCD0_BKLT_EN

P127

RESET_IN# S128

LVDS0_1+ /
eDP0_TX1+ /
DSI0_D1+

P128

POWER_BTN#

S129

LVDS0_1- /

eDP0_TX1- /
DSI0_D1-

P129

SER0_TX S130 GND

P130

SER0_RX S131

LVDS0_2+ /
eDP0_TX2+ /
DSI0_D2+

P131

SER0_RTS# S132

LVDS0_2- /
eDP0_TX2- /
DSI0_D2-

P132

SER0_CTS#

S133

LCD0_VDD_EN

P133

GND S134

LVDS0_CK+ /
eDP0_AUX+ /
DSI0_CLK+

P134

SER1_TX S135

LVDS0_CK- /
eDP0_AUX- /
DSI0_CLK-

P135

SER1_RX

S136

GND

P136

SER2_TX

S137

LVDS0_3+ /

eDP0_TX3+ /
DSI0_D3+

P137

SER2_RX S138

LVDS0_3- /
eDP0_TX3- /
DSI0_D3-

P138

SER2_RTS# S139 I2C_LCD_CK

P139

SER2_CTS#

S140

I2C_LCD_DAT

P140

SER3_TX

S141

LCD0_BKLT_PWM

P141

SER3_RX

S142

RSVD

P142

GND S143 GND

P143

CAN0_TX S144 eDP0_HPD

P144

CAN0_RX S145 WDT_TIME_OUT#

P145

CAN1_TX S146 PCIE_WAKE#

P146

CAN1_RX S147 VDD_RTC

P147

VDD_IN

S148

LID#

P148

VDD_IN

S149

SLEEP#

P149

VDD_IN

S150

VIN_PWR_BAD#

P150

VDD_IN S151 CHARGING#

P151

VDD_IN S152 CHARGER_PRSNT#

P152

VDD_IN S153 CARRIER_STBY#

SMARC sXAL User Guide. Rev. 1.0

P-Pin Signal S-Pin Signal

P153

VDD_IN S154 CARRIER_PWR_ON

P154

VDD_IN S155 FORCE_RECOV#

P155

VDD_IN S156 BATLOW#

P156

VDD_IN S157 TEST#

SMARC sXAL User Guide. Rev. 1.0

www.kontron.com // 29

List of Acronyms

CPLD Complex Programmable Logic Devices

CSI Camera Serial Interface

eDP embedded Display Port

EMC Electromagnetic Compatibility

EMI Electromagnetic Interference

eMMC embedded Multimedia Card

ESD Electrostatic Discharge

GPIO General-purpose input/output

HDA High Definition Audio

HDMI Integrated High Definition Multimedia Interface

I2S Inter-IC Sound

LPC Low Pin Count

LPDDR Low Power DDR

LVDS Low Voltage Differential Signalling

MIPI Mobile Industry Processor Interface

PEG PCI Express External

SDIO Secure Digital Input Output

SMARC Smart Mobility ARChitecture

SMBus System Management Bus

SoC System on Chip

TPM Trusted Platform Module

UART Universal Asynchronous Receiver Transmitter

SMARC sXAL User Guide. Rev. 1.0

About Kontron

Kontron, a global leader in embedded computing technology and trusted advisor in Internet of Things (IoT), works
closely with its customers, allowing them to focus on their core competencies by offering a complete and integrated
portfolio of hardware, software and services designed to help them make the most of their applications.

With a significant percentage of employees in research and development, Kontron creates many of the standards
that drive the world’s embedded computing platforms; bringing to life numerous technologies and applications that
touch millions of lives. The result is an accelerated time-to-market, reduced total-cost-of-ownership, product
longevity and the best possible overall application with leading-edge, highest reliability embedded technology.

Kontron is a listed company. Its shares are traded in the Prime Standard segment of the Frankfurt Stock Exchange
and on other exchanges under the symbol “KBC”. For more

information, please visit: http://www.kontron.com/



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