MTX MTX-GTW User Manual

The information contained in this document has been carefully researched and is, to the best
of our knowledge, accurate. However, we assume no liability for any product failures or
damages, immediate or consequential, resulting from the use of the information provided
herein. Our products are not intended for use in systems in which failures of product could
result in personal injury. All trademarks mentioned herein are property of their resp ective
owners. All specifications are subject to change without notice.

Manual

MTX-GTW

Matrix Electrónica, S.L.

Our company network supports you worldwide with offices in Germany, Austria,

Switzerland, Great Britain and the USA. For more information please contact:

FORTEC Elektronik AG
Hauptniederlassung
Lechwiesenstr. 9
86899 Landsberg am Lech

Telefon: +49 (0) 8191 91172-0
Telefax: +49 (0) 8191 21770
E-Mail:

sales@fortecag.de

Internet: www.fortecag.de

FORTEC Elektronik AG
Büro West
Hohenstaufenring 55
50674 Köln

Telefon: +49 (0) 221 272 273-0
Telefax: +49 (0) 221 272 273-10
E-Mail:

west@fortecag.de

Internet: www.fortecag.de

FORTEC Elektronik AG

Büro Wien
Nuschinggasse 12
A-1230 Wien

Telefon: +43 1 8673492-0
Telefax: +43 1 8673492-26
E-Mail:

office@fortec.at

Internet: www.fortec.at

ALTRAC AG
(Tochter der FORTEC):
Bahnhofstraße 3
CH-5436 Würenlos

Telefon: +41 (0) 44 7446111
Telefax: +41 (0) 44 7446161
E-Mail:

info@altrac.ch

Internet: www.altrac.ch

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MTX-GTW

Hardware User Guide

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General Notes

Podut is deeed aepted  eipiet ad is poided ithout itefae to eipiet’s poduts. The douetatio

and/or product are provided for testing, evaluation, integration and information purposes. The documentation and/or

podut ae poided o a as is asis ol ad a otai defiieies o iadeuaies. The douetatio ad/o

product are provided without warranty of any kind, express or implied. To the maximum extent permitted by applicable
law, Matrix Electronica S.L.U. further disclaims all warranties; including without limitation any implied warranties of
merchantability, completeness, fitness for a particular purpose and non-infringement of third-party rights. The entire risk
arising out of the use or performance of the product and documentation remains with recipient. This product is not
intended for use in life support appliances, devices or systems where a malfunction of the product can reasonably be
expected to result in personal injury. Applications incorporating the described product must be designed to be in
accordance with the technical specifications provided in these guidelines. Failure to comply with any of the required
procedures can result in malfunctions or serious discrepancies in results.

Furthermore, all safety instructions regarding the use of mobile technical systems, including GSM products, which also
apply to cellular phones, must be followed. Matrix Electronica S.L.U. or its suppliers shall, regardless of any legal theory
upon which the claim is based, not be liable for any consequential, incidental, direct, indirect, punitive or other damages
whatever (including, without limitation, damages for loss of business profits, business interruption, loss of business
information or data, or other pecuniary loss) arising out the use of or inability to use the documentation and/or product,
even if Matrix Electronica S.L.U. has been advised of the possibility of such damages. The foregoing limitations of liability
shall not apply in case of mandatory liability, e.g. under the Spanish Product Liability Act, in case of intent, gross negligence,
injury of life, body or health, or breach of a condition which goes to the root of the contract. However, claims for damages
arising from a breach of a condition, which goes to the root of the contract, shall be limited to the foreseeable damage,
which is intrinsic to the contract, unless caused by intent or gross negligence or based on liability for injury of life, body or
health. The above provision does not imply a change on the burden of proof to the detriment of the recipient. Subject to
change without notice at any time. The interpretation of this general note shall be governed and construed according to
Spanish law without reference to any other substantive law.

Important information

This technical description contains important information for the start up and use of the MTX-GTW
modems. Read it carefully before you start working with the MTX-GTW modems. The warranty will
be void should damage occur due to non-compliance with these instructions for use.
We cannot accept any responsibility for consequential loss.

Service and Support

To contact customer support please use the contact details below:
Matrix Electrónica
Alejandro Sánchez, 109
28019 Madrid (SPAIN)

gsmsupport@matrix.es

Information about the MTX-GTW product and its accessories is available on the following web site:

www.mtxm2m.com

Or contact your local distributor / sales agent.

MTX-GTW

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Revision information

Revision

Date

Author

Changes

1.0

2014/09

RR

First draft

1.1

2014/10

AEM/TP

Language style revision

1.2

2014/12

AEM

Minor revision

1.3

2015/04

AEM

Minor revision

1.4

2015/04

RR

MTX-GTW Versions added

1.5

2015/04

AEM

Product label information

1.6

2015/08

AEM

HW & FW revisions added

Conformity assessment added

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Index

General Notes .....................................................................................................................................2

Important information ........................................................................................................................2

Service and Support ............................................................................................................................2

Revision information ...........................................................................................................................3

1. Description..................................................................................................................................7

1.1 Product label .......................................................................................................................7

1.2 Hardware revisions ..............................................................................................................8

1.3 Firmware revisions ..............................................................................................................8

2. Warranty.....................................................................................................................................9

3. References ..................................................................................................................................9

4. Technical Data........................................................................................................................... 10

4.1 System architecture and system functionality .................................................................... 10

4.1.1 Block diagram ............................................................................................................ 10

4.1.2 Technical data electronics .......................................................................................... 10

4.1.2.1 External interfaces ..................................................................................................... 11

4.1.2.2 Internal interfaces ...................................................................................................... 11

4.1.2.3 Use’s itefaes ........................................................................................................ 11

4.1.2.4 System components ................................................................................................... 11

4.1.3 Technical data mechanics, design .............................................................................. 11

5. Electronics Specification ............................................................................................................ 12

5.1 External interfaces ............................................................................................................. 12

5.1.1 Function specification ................................................................................................ 12

5.1.1.1 USB OTG .................................................................................................................... 12

5.1.1.2 Ethernet .................................................................................................................... 13

5.1.1.3 RS232/485/422 .......................................................................................................... 13

5.1.1.4 RS232 1 ..................................................................................................................... 14

5.1.1.5 RS232 2 ..................................................................................................................... 15

5.1.1.6 CAN ........................................................................................................................... 15

5.1.1.7 Power Supply ............................................................................................................. 16

5.2 Internal Interfaces ............................................................................................................. 17

5.2.1 TQMa28 ..................................................................................................................... 17

5.2.2 Wifi ............................................................................................................................ 17

5.2.3 Expansion Connector ................................................................................................. 17

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5.3 User Interfaces .................................................................................................................. 18

5.3.1 Status LED .................................................................................................................. 18

5.3.2 DIP Switch .................................................................................................................. 18

5.4 System Components .......................................................................................................... 19

5.4.1 Temperature Sensor .................................................................................................. 19

5.4.2 EEPROM .................................................................................................................... 19

5.4.3 RTC ............................................................................................................................ 19

6. MTX-GTW Versions ................................................................................................................... 20

6.1 MTX-GTW-3G .................................................................................................................... 20

6.1.1 1-Wire ....................................................................................................................... 20

6.1.2 Relay Output .............................................................................................................. 20

6.1.3 GPIOs ......................................................................................................................... 21

6.1.4 Accelerometer ........................................................................................................... 21

6.1.5 Antennas configuration .............................................................................................. 21

6.2 MTX-GTW-3G-GPS ............................................................................................................. 22

6.2.1 1-Wire ....................................................................................................................... 22

6.2.2 Relay Output .............................................................................................................. 22

6.2.3 GPIOs ......................................................................................................................... 23

6.2.4 Accelerometer ........................................................................................................... 23

6.2.5 Antennas configuration .............................................................................................. 23

7. Mechanics Specification ............................................................................................................ 24

7.1 Overview ........................................................................................................................... 24

7.2 Requirements for the superior system ............................................................................... 25

7.2.1 Protection against external effects ............................................................................. 25

7.2.2 Thermal management ................................................................................................ 25

8. Safety Requirements and protective Regulations ...................................................................... 26

8.1 Safety instructions ............................................................................................................. 26

8.2 General precautions .......................................................................................................... 26

8.3 SIM card precautions ......................................................................................................... 27

8.4 Antenna precautions ......................................................................................................... 27

8.5 Radio Frequency (RF) exposure and SAR ............................................................................ 28

8.6 Personal medical devices ................................................................................................... 29

9. Conformity assessment ............................................................................................................. 30

9.1 Standards of European Type Approval ............................................................................... 30

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9.2 FCC Compliant ................................................................................................................... 32

9.2.1 SAR information ......................................................................................................... 32

10. Declaración de conformidad (Spanish)................................................................................... 34

10.1 Estándares de homologación europea ............................................................................... 34

10.2 Conformidad FCC ............................................................................................................... 36

10.2.1 Tasa de absorción específica (SAR) ............................................................................. 36

11. Regulatory and type approval information ............................................................................ 38

11.1 Directives and standards.................................................................................................... 38

11.2 SAR requirements specific to portable mobiles .................................................................. 41

11.3 SELV requirements ............................................................................................................ 42

12. RoHS Statement .................................................................................................................... 43

13. Disposal of old electrical & electronic equipment .................................................................. 43

14. Sales contact ......................................................................................................................... 44

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1. Description

The MTX-GTW is designed to be driven by the TQMa28 module and offers PC core functionalities and
standard interfaces. This user guide provides information about the components, features,
connectors and signals available on the MTX-GTW.

1.1 Product label

The label fixed to the bottom of a MTX devicel comprises the following information:

No.

Information

1

MTX M2M logo

2

Product name (model)

3

Product ordering number

4

Hardware and Firmware Revisions

5

MAC address

6

Year/Week of fabrication

7

Barcode (Code 128) (IMEI)

8

Product IMEI

9

RoHS symbol

10

Pb-Free symbol

11

WEEE symbol

12

CE logo

13

PTCRB Certification logo

MTX-GTW

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1.2 Hardware revisions

Hardware Revision

Starting production date

Changes

1.01

09/2014

Initial version.
Production date:

- Before year 2015 week 19 (1519):
WiFi antenna connector SMA F

- Year 2015 week 19 (1519) and after:
WiFi antenna connector SMA F RP

1.01A

09/2014

WiFi antenna SMA F RP

1.3 Firmware revisions

Hardware Revision

Starting production date

Changes

1.00

09/2014

Initial release

1.01

09/2014

Minor revision and bug fixes

2.00

06/2015

3G PPP connections problem solved

MTX-GTW

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2. Warranty

The information contained within this user guide, including but not limited to any product
specification, is subject to change without notice. Matrix Electronica provides no warranty with
regard to this user guide or any other information contained herein and hereby expressly disclaims
any implied warranties of merchantability or fitness for any particular purpose with regard to any of
the foregoing. Matrix Electronica assumes no liability for any damages incurred directly or indirectly
from any technical or typographical errors or omissions contained herein or for discrepancies
between the product and the uses guide. In no event shall Matrix Electronica be liable for any
incidental, consequential, special, or exemplary damages, whether based on tort, contract or
otherwise, arising out of or in connection with this user guide or any other information contained
herein or the use thereof.

3. References

 STK-MBa28 User Manual
 TQMa28 User Manual
 iMX28 Freescale Reference Manual

MTX-GTW

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4. Technical Data

4.1 System architecture and system functionality

4.1.1 Block diagram

Illustration 1: MTX-GTW block diagram

4.1.2 Technical data electronics

The interfaces and system components listed in the following are implemented on the MTX-GTW.
Due to the fact that the board can be installed in a casing, the interfaces are divided into external and
internal interfaces.

MTX-GTW

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4.1.2.1 External interfaces

 1x USB OTG 2.0
 1x Ethernet
 1x RS232/485/422
 2x RS232
 1x CAN
 1x SIM Holder
 1x Antenna connector

4.1.2.2 Internal interfaces

 1x TQMa28
 1x WiFi b/g/n
 3x Headers for specific extension

4.1.2.3 User’s interfaces

 4x Status LEDs
 1x DIP switch

4.1.2.4 System components

 Temperature sensor
 EEprom
 RTC

4.1.3 Technical data mechanics, design

Dimensions PCB (WxDxH): 78.1x66.8x37.2 mm

Weight: < 190g

MTX-GTW

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5. Electronics Specification

5.1 External interfaces

Illustration 2: MTX-GTW external interfaces

5.1.1 Function specification

5.1.1.1 USB OTG

The USB OTG interface of the TQMa28 (USB0) is offered as a Mini USB AB-Type

Type of media: USB OTG 2.0 Hi-Speed, 5V bus voltage (limited to 500mA)
Interface on module: USB OTG
Signal characteristic: Compatible with the Universal Serial Bus Specification REV. 2.0
ESD protection: ±15kV human body model

Manufacturer

Description

MOLEX: 47590-0001

Right angle Micro USB AB

MTX-GTW

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5.1.1.2 Ethernet

The MTX-GTW directly drives the Ethernet 1 interface. The SMSC LAN8720Ai is used as PHY.

Type of media: 10/100 Mbit
Signal characteristic: Compatible with the IEEE-802.3 standard
Status LEDs: 2
Modes: MDI, Auto-MDIX
Interface on module: RMII/ENET0

Manufacturer

Description

Molex: 85502-5008

Right angle RJ45 jack

5.1.1.3 RS232/485/422

The AUART0 of the TQMa28 drives the RS232/485/422 interface on the MTX-GTW. The Maxim
MAX3160 is used as a transceiver.

In addition, two signals are used in order to configure the Maxim transceiver in one of its operational
modes:

Signal

Description

SW1_3

RS485/RS232#

SW1_4

Half_Duplex/Full_Duplex#

Transfer rate: Up to 10Mbit/s (full-duplex)
Interface on module: AUART0
Handshake: RTS# used for clearing the transmission direction
ESD protection: ±15kV human body model

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The following tables show the configuration of the DB15 of the RS232/485/422 interface (DTE
interface).

DB15 Connector pinout:

Pin

Signal

Type

Remark

2

RXD0

I

Receive Data

3

TXD0

O

Transmit Data

7

RTS0

O

Request to Send

8

CTS0

I

Clear To Send

14

GND

P

Ground

5.1.1.4 RS232 1

The AUART3 interface of the TQMA28 drives the RS232 interface of the MTX-GTW by default. The
Maxim MAX3222 is used as a driver.

Transfer rate: Up to 250Kbit/s
Interface on module: AUART3
Handshake: None
ESD protection: ±15kV human body model

The following tables show the configuration of the DB15 of the RS232_1 interface.

DB15 Connector pinout:

Pin

Signal

Type

Remark

4

TXD1

O

Transmit Data

9

RXD1

I

Receive Data

14

GND

P

Ground

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5.1.1.5 RS232 2

The AUART1 interface of the TQMA28 drives the RS232 interface of the MTX-GTW by default. The
Maxim MAX3222 is used as a driver.

Transfer rate: Up to 250Kbit/s
Interface on module: AUART1
Handshake: None
ESD protection: ±15kV human body model

The following tables show the configuration of the DB15 of the RS232_2 interface.

DB15 Connector pinout:

Pin

Signal

Type

Remark

12

TXD2

O

Transmit Data

13

RXD2

I

Receive Data

14

GND

P

Ground

5.1.1.6 CAN

The CAN 0 port of the TQMA28 directly drives the interface on the MTX-GTW. The NXP TJA1051T/3 is
used as a CAN transceiver.

Transfer rate: Up to 1Mbit/s
Interface on module: CAN_0
Signal characteristic: Compatible with the ISO-11898 standard (CAN 2.0B)
ESD protection: ±8kV human body model

The following tables show the configuration of the DB15 of the CAN interface.

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DB15 Connector pinout:

Pin

Signal

Type

Remark

1

CANH

I/O

CAN High-Level I/O

6

CANL

I/O

CAN Low-Level I/O

5.1.1.7 Power Supply

For protective and EMC reasons the supply input of the MTX-GTW is designed very robustly.

Parameter

Min.

Typ.

Max.

Unit

DC Input Voltage

7

24

50 V Power consumption

<2 W

VCC GND

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5.2 Internal Interfaces

5.2.1 TQMa28

The core of the MTX-GTW is the TQ Components TQMa28 module. The following table shows the key
features of this module.

Feature

Description

Processor

Freescale iMX287 @ 454MHz

RAM

128MB DDR2

FLASH

4GB eMMC

EEPROM

32Kb

Detailed information about this module can be found on the following link:

http://www.tq-group.com/en/products/industry-pcs/prod/embedded-modul­tqma28/extb/Main/productdetail/

5.2.2 Wifi

The MTX-GTW can be ordered with an integrated Bluegiga WF111 Wi-Fi module. The following table
shows the key features of this module.

Feature

Remark

IEEE 802.11 b/g/n

Single 2.4GHz band. Symbol rate up to 7.2Mbps

Encryption

WEP, WPA and WPA2

Operation mode

Supports Client and Access Point (Up to 8 clients)

Module interface

SDIO

5.2.3 Expansion Connector

An expansion connector is available on the MTX-GTW. One complete UART interface (RX,TX,CTS,RTS),
two additional two-wire UARTs, I2C, USB Host, USIM, and 4 GPIOs are available on this connector.

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5.3 User Interfaces

5.3.1 Status LED

The MTX-GTW has four LEDs to inform the user about different status conditions. The following table
shows the different LED indications.

Led

Status remark

DLp1

Power Supply OK. (Green LED )

DL1

Free for user information. Connected to GPIO3_6. (Red LED)

DL2

Ethernet link speed LED indication. On with 100Mbps, OFF with 10Mbps. (Red LED)

DL3

Ethernet link activity LED indication. (Green LED)

Both DLp1 and DL1 are visible though the LED window placed on the top of the MTX-GTW box.

5.3.2 DIP Switch

The MTX-GTW has one Dip-Switch with configuration purposes. The following table shows
information about the signals connected to the Dip Switch.

SW1:

Pin

Signal

Remark

1

LCD_D03

Recovery Switch (Default OFF= Normal Boot)

2

LCD_D00

Recovery Switch (Default OFF= Normal Boot)

3

SW1_3

Connected to RS485/RS232#. (Default OFF=RS232)

4

SW1_4

Connected to Half_Duplex/Full_Duplex#. (Default OFF = Full-Duplex)

5

VCC_OUT (3V3)

VCC_OUT (DB15_PIN10). ON = 3,3VDC

6

VCC_OUT (5V)

VCC_OUT (DB15_PIN10). ON = 5VDC

7

USB_OTG_ID

USB OTG Identification. (OFF=OTG, ON=Only Host)

8

GPIO_6

Input signal for User information. Connected to GPIO0_24

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5.4 System Components

5.4.1 Temperature Sensor

On the TQMa28 module there is a National Semiconductor LM73 temperature sensor. It can be read
out via I2C bus 1. The base address can be taken from the following table.

I2C Bus

Position

Device

Address

1

TQMa28

Temperature sensor - LM73

0x49

5.4.2 EEPROM

On the TQMa28 module there is a 64Kibit EEPROM (ST Microelectronics M24C64-WDW6TP). The
EEPROM is controlled via I2C bus 1 of the processor. The writing protection (WP) of the EEPROM is
not available. The base address can be taken from the following table.

I2C Bus

Position

Device

Address

1

TQMa28

EEPROM – M24C46

0x50

5.4.3 RTC

On the MTX-GTW board there is a DS1339U RTC module. The RTC is supplied by a super capacitor in
order to maintain the information if the main supply is removed.

I2C Bus

Position

Device

Address

1

MTX-GTW

RTC DS1339U-33

0x68

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6. MTX-GTW Versions

6.1 MTX-GTW-3G

The MTX-GTW-3G includes the Cinterion EHS5 3G modem. It also includes some features which are
not available on the MTX-GTW version.

6.1.1 1-Wire

A 1-Wire interface is available on the MTX-GTW-3G via the Maxim DS2482-100 I2C chip.

Transfer rate: Up to 400KHz
Interface on module: I2C1
Signal characteristic: Standard and Overdrive 1-Wire communication

The following table shows the configuration of the DB15 of the 1-Wire interface:

Pin

Signal

Type

Remark

5

1-WIRE

I/O

1-WIRE

6.1.2 Relay Output

The MTX-GTW-3G also includes a Relay Output available on the DB15 female connector.

The following table shows the configuration of the DB15 of the Relay:

Pin

Signal

Type

Remark

11

RL_COM

I/O

Relay common pin

15

RL_NA

I/O

Relay normally open pin

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6.1.3 GPIOs

The MTX-GTW-3G is able to support up to 4 GPIOs (IRQ capable) but they are multiplexed with other
interfaces. The following table shows the configuration of the DB15 connector and the multiplexed
interfaces

Pin

Signal

Type

Remark

13

GPI 1

Input

Shared with RX2 signal (GPIO3_4)

9

GPI 2

Input

Shared with RX1 signal (GPIO3_12)

15

GPI 3

Input

Incompatible with Relay NA signal (GPIO2_26)*

11

GPO 1

Output

Incompatible with Relay COM signal (GPIO2_24)*

*Mounting Option

6.1.4 Accelerometer

The MTX-GTW-3G includes the LIS331DLH ultra low power high performance 3-axes I2C
accelerometer.

The following table shows the Accelerometer I2C configuration

I2C Bus

Position

Device

Address

1

MTX-GTW

LIS331DLH

0x19

6.1.5 Antennas configuration

The MTX-GTW-3G has two external antenna connectors for the 3G and WiFi interfaces.

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6.2 MTX-GTW-3G-GPS

The MTX-GTW-3G includes the Cinterion PHS8 3G modem which integrates a GPS receiver. It also
includes some features which are not available on the MTX-GTW version.

6.2.1 1-Wire

A 1-Wire interface is available on the MTX-GTW-3G via the Maxim DS2482-100 I2C chip.

Transfer rate: Up to 400KHz
Interface on module: I2C1
Signal characteristic: Standard and Overdrive 1-Wire communication

The following table shows the configuration of the DB15 of the 1-Wire interface:

Pin

Signal

Type

Remark

5

1-WIRE

I/O

1-WIRE

6.2.2 Relay Output

The MTX-GTW-3G also includes a Relay Output available on the DB15 female connector.

The following table shows the configuration of the DB15 of the Relay:

Pin

Signal

Type

Remark

11

RL_COM

I/O

Relay common pin

15

RL_NA

I/O

Relay normally open pin

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6.2.3 GPIOs

The MTX-GTW-3G is able to support up to 4 GPIOs (IRQ capable) but they are multiplexed with other
interfaces. The following table shows the configuration of the DB15 connector and the multiplexed
interfaces

Pin

Signal

Type

Remark

13

GPI 1

Input

Shared with RX2 signal (GPIO3_4)

9

GPI 2

Input

Shared with RX1 signal (GPIO3_12)

15

GPI 3

Input

Incompatible with Relay NA signal (GPIO2_26)*

11

GPO 1

Output

Incompatible with Relay COM signal (GPIO2_24)*

*Mounting option

6.2.4 Accelerometer

The MTX-GTW-3G includes the LIS331DLH ultra low power high performance 3-axes I2C
accelerometer.

The following table shows the Accelerometer I2C configuration

I2C Bus

Position

Device

Address

1

MTX-GTW

LIS331DLH

0x19

6.2.5 Antennas configuration

The MTX-GTW-3G-GPS has two external antenna connectors for the 3G and GPS interfaces. For the
WiFi interface an internal PCB antenna is used.

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7. Mechanics Specification

7.1 Overview

The pictures below show the mechanical design of the terminal along with the positions of the
different connectors, mounting holes and dimensions. The terminal case is made of durable PC/ABS
plastic.

Power Supply

RJ45 (Ethernet)

Micro USB 2.0 Connector

Mounting holes

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All dimensions are in millimeters.

7.2 Requirements for the superior system

The MTX-GTW has an enclosure which protects itself again dust, external impact and contact.
However, as the MTX-GTW PCB can be bought as a standalone product, the following points must be
taken into consideration.

7.2.1 Protection against external effects

The MTX-GTW PCB is not protected against dust, external impact and contact (IP00). An adequate
protection has to be guaranteed by the surrounding system.

7.2.2 Thermal management

The main heat source is the TQMa28. Information about the cooling of the TQMa28 is to be taken
from its specification.

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8. Safety Requirements and protective Regulations

Please read the information in this section before starting your integration work!

8.1 Safety instructions

PLEASE READ THESE SAFETY INSTRUCTIONS AND KEEP A COPY OF THEM

• Always ensure that use of the modem is permitted. The modem may present a hazard if used
in proximity to personal electronic medical devices. As a rule, the modem must not be used
in hospitals, airports or planes.

• Never use the device at a gas station, refuelling point, blasting area or in any other
environment where explosives may be present.

• Operating the device close to other electronic devices, such as antennas, television sets, and
radios may cause electromagnetic interference.

• This product is intended to be used with the antenna or other radiating element at least
20cm away from any part of the human body. In applications where this rule cannot be
applied, the application designer is responsible for providing the SAR measurement test
report and declaration.

• You are responsible for observing your country's safety standards, and where applicable, the
relevant wiring rules.

8.2 General precautions

The MTX-GTW Terminal as a standalone item is designed for indoor use only. For outdoor use it must
be integrated into a weatherproof enclosure. Do not exceed the environmental and electrical limits

as speified i Tehial Data.

• Avoid exposing the device to lighted cigarettes, naked flames or to extreme hot or cold

temperatures.

• Never try to dismantle the device yourself. There are no components inside the modem that
can be serviced by the user. If you attempt to dismantle the device, you may invalidate the
warranty.

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• The MTX-GTW Terminal must not be installed nor located in areas where the surface
temperature of the plastic case could exceed 85°C.

In order to provide strain relief and to avoid transmitting excessive vibration to the device during
installation, all cables connected to the MTX-GTW Terminal must be secured or clamped immediately
adjacent to the device's connectors.

• To protect the power supply cables, and in order to comply with the fire safety requirements,
when the unit is powered from a battery or a high current supply, a fast 1.25A fuse should be
connected in line with the positive supply.

• Any incompatible components or products must not be connected to the MTX-GTW
Terminal.

Note! MTX-GTW distributors and sales offices may refuse warranty claims where evidence of product
misuse is found.

8.3 SIM card precautions

Before handling the SIM card in your application, ensure that you are not charged with static
electricity. Use proper precautions to avoid electrostatic discharges.

• When the SIM card hatch is opened, the SIM card connectors lie exposed under the SIM card
holder.

Caution! Do not touch these connectors! If you do, you may release an electrical discharge that could
damage the modem or the SIM card.

• Whe desigig ou appliatio, the “IM ad’s aessiilit should e take ito aout.

We always recommend that you have the SIM card protected by a PIN code. This will ensure
that the SIM card cannot be used by an unauthorized person.

8.4 Antenna precautions

If the antenna is to be mounted outside, consider the risk of lightning. Follow the instructions
provided by the antenna manufacturer.

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• Never connect more than one modem to a single antenna. The modem can be damaged by
radio frequency energy from the transmitter of another modem.

• Like any mobile station, the antenna of the modem emits radio frequency energy. To avoid
EMI (electromagnetic interference), you must determine whether the application itself, or

euipet i the appliatio’s poiit, eeds futhe potetio agaist adio eissio

and the disturbances it might cause. Protection is secured either by shielding the surrounding
electronics or by moving the antenna away from the electronics and the external signal
cable.

• The modem and antenna may be damaged if either come into contact with ground potentials
other than the one in your application. Beware: ground potentials are not always what they
appear to be.

8.5 Radio Frequency (RF) exposure and SAR

Your wireless modem device is a low-power radio transmitter and receiver (transceiver). When it is
turned on, it emits low levels of radio frequency energy (also known as radio waves or radio
frequency fields).

Governments around the world have adopted comprehensive international safety guidelines,
developed by scientific organizations such as ICNIRP (International Commission on Non-Ionizing
Radiation Protection) and IEEE (The Institute of Electrical and Electronics Engineers Inc.), through
periodic and thorough evaluation of scientific studies. These guidelines establish permitted levels of
radio wave exposure for the general population. The levels include a safety margin designed to
assure the safety of all persons, regardless of age and health, and to account for any variations in
measurements.

Specific Absorption Rate (SAR) is the unit of measurement for the amount of radio frequency energy
absorbed by the body when using a transceiver. The SAR value is determined at the highest certified
power level in laboratory conditions, but the actual SAR level of the transceiver while operating can
be well below this value. This is because the transceiver is designed to use the minimum power
required to reach the network.

The MTX-GTW wireless modem device has been approved for applications where the antenna is
located more than 20cm from the body. In all other configurations the user is responsible for
meeting the local SAR regulations.

MTX-GTW

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Users of the MTX-GTW wireless modem device are responsible for ensuring that they meet the SAR
regulatory requirements of the countries in which they intend to operate the device and that their
documentation contains the relevant SAR declaration, certification information and user guidance as
appropriate.

8.6 Personal medical devices

Wireless modem devices may affect the operation of cardiac pacemakers, hearing aids and certain
other implanted equipment. If a minimum distance of 15 cm (6 inches) is maintained between the
MTX-GTW ode adiatig atea ad a paeake, the isk of itefeee is liited. If the use’s
application is likely to be situated in the vicinity of personnel, a suitable warning should be contained
in the equipment manual to this effect.

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9. Conformity assessment

MATRIX ELECTRONICA S.L.U.

C/ Alejandro Sanchez 109

28019 Madrid

Spain

9.1 Standards of European Type Approval

We declare under our sole responsibility that the products MTX-GTW-3G containing Cellular Engine
Cinterion engine EHS6 (Type L30960-N2950-A100), to which this declaration relates, are labeled with
the CE conformity mark.

DIRECTIVE 2004/108/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 15 December
2004 on the approximation of the laws of the Member States relating to electromagnetic
compatibility and repealing Directive 89/336/EEC.

DIRECTIVE 2006/95/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 12 December 2006
on the harmonization of the laws of Member States relating to electrical equipment designed for use
within certain voltage limits.

ETSI EN 301 511 V9.0.2: Global System for Mobile communications (GSM); Harmonized standard for
mobile stations in the GSM 900 and DCS 1800 bands covering essential requirements under article

3.2 of the R&TTE directive (1999/5/EC) (GSM 13.11 version 7.0.1 Release 1998).

ETSI EN 301 489-1 V1.9.2: Electro Magnetic Compatibility and Radio spectrum Matters (ERM); Electro
Magnetic Compatibility (EMC) standard for radio equipment and services; Part 1: Common Technical
Requirements

ETSI EN 301 489-7 V1.3.1: Electromagnetic Compatibility and Radio spectrum Matters (ERM);
Electromagnetic Compatibility (EMC) standard for radio equipment and services; Part 7: Specific
conditions for mobile and portable radio and ancillary equipment of digital cellular radio
telecommunications systems (GSM and DCS).

MTX-GTW

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ETSI EN 301 489-24 V1.5.1: Electromagnetic Compatibility and Radio spectrum Matters (ERM);
Electromagnetic Compatibility (EMC) standard for radio equipment and services; Part 24: Specific
conditions for IMT-2000 CDMA Direct Spread (UTRA) for Mobile and portable (UE) radio and ancillary
equipment.

ETSI EN 301 908-01 V5.2.1: Electromagnetic compatibility and Radio spectrum Matters (ERM); Base

Stations (BS) and User Equipment (UE) for IMT-2000 Third Generation cellular networks; Part 1:
Harmonized EN for IMT-2000, introduction and common requirements of article 3.2 of the R&TTE
Directive.

ETSI EN 301 908-02 V5.2.1: Electromagnetic compatibility and Radio spectrum Matters (ERM); Base

Stations (BS) and User Equipment (UE) for IMT-2000 Third Generation cellular networks; Part 2:
Harmonized EN for IMT-2000, CDMA Direct Spread (UTRA FDD) (UE) covering essential requirements
of article 3.2 of the R&TTE Directive

IEC/EN 60950-1:2005 / EN 60950-1:2006+A11:2009: Health and Safety

The technical documentation relevant to the above equipment will be held at

MATRIX ELECTRONICA S.L.U.

Alejandro Sanchez 109

28019 Madrid

Spain

Madrid, 20/05/2013.

Mr. J. Vicente

Managing Board

MTX-GTW

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9.2 FCC Compliant

MTX-GTW-3G and any variants contain FCC ID: QIPEHS6. The FCC Equipment Authorization

Certification for the EHS6 Module is listed under the FCC identifier QIPEHS6

Industry Canada Certification Number: 7830A-EHS6 granted to Gemalto M2M GmbH.

The Cinterion reference application of the EHS6 Module registered under the above identifier is
certified to be in accordance with the following Rules and Regulations of the Federal
Communications Commission (FCC). Power listed is ERP for Part 22 and EIRP for Part 24. It is

compliant with FCC regulations.

Equipment class: PCS Licensed Transmitter

Notes: Quad band GSM/GPRS Modem

9.2.1 SAR information

Cinterion Wireless Modules models: EHS6 is marketed without a defined antenna.

The Maximum Antenna Gain when using indoor antennas depends on the distance from the antenna
to any nearby persons when in normal operation. It should not exceed the values shown on the table
below.

According to the limit in 47 CFR 1.1310, we get the value of the maximum antenna gain as follows:

The maximum measured power output in the 850 MHz band is 1866.38 mW (32.71 dBm, see 7layers
test report MDE_Siem_0714_FCCb).

The maximum permissible exposure is defined as 47 CFR 1.1310 with 0.55773 mW/cm².

The maximum measured power output in the 1900 MHz band is 974.99 mW (29.89 dBm, see 7layers
test report MDE_Siem_0714_FCCc).

The maximum permissible exposure is defined as 47 CFR 1.1310 with 1 mW/cm².

According to the limit in 47 CFR 1.1310, we get the value of the maximum antenna gain as follows:

S = P*G/4πR²

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S = 0.55773 mW/cm² or 1 mW/cm²

P = 1866.38 mW or 974.99 mW

R = 20 cm or 100cm

π = 3.1416

G(dBi)=10*log10(G)

Solving for G; the maximum antenna gain is

Band Distance Maximum Gain in dBi

850MHz 20cm 1.7669

850MHz 50cm 9.7257

1900MHz 20cm 7.1227

1900MHz 50cm 15.0815

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10. Declaración de conformidad (Spanish)

MATRIX ELECTRONICA S.L.U.

C/ Alejandro Sanchez 109

28019 Madrid

Spain

10.1 Estándares de homologación europea

Declaramos bajo nuestra responsabilidad que los productos MTX-GTW-3G que contienen un módulo
celular Cinterion EHS6 (tipo L30960-N2950-A100), al cual se refiere esta declaración, están
etiquetados con el marcado CE de conformidad.

DIRECTIVA 2004/108/EC DEL PARLAMENTO EUROPE Y DEL CONSEJO del 15 de Diciembre de 2004
sobre la aproximación de las leyes de los Estados Miembros correspondientes a la compatibilidad
electromagnética y que deroga la Directiva 89/336/EEC.

DIRECTIVA 2006/95/EC DEL PARLAMENTO EUROPE Y DEL CONSEJO del 12 de Diciembre de 2006
sobre la armonización de las leyes de los estados miembros relacionadas con los equipos eléctricos
diseñados para su uso bajo ciertos límites de voltaje.

ETSI EN 301 511 V9.0.2: Sistema Global de Comunicaciones Móviles (GSM); estándar unificado para
estaciones móviles en las bandas GSM 900 y DCS 1800, que cubren los requisitos esenciales del
artículos 3.2 de la directiva R&TTE (1999/5/EC) (GSM 13.11 versión 7.0.1 Release 1998).

ETSI EN 301 489-1 V1.9.2: Cuestiones sobre Compatibilidad Electromagnética y espectro
Radioeléctricos (ERM); estándar de compatibilidad electromagnética (EMC) para equipos y sistema
de radio; Parte 1: Requisitos Técnicos Comunes

ETSI EN 301 489-7 V1.3.1: Cuestiones sobre Compatibilidad Electromagnética y espectro
Radioeléctricos (ERM); estándar de compatibilidad electromagnética (EMC) para equipos y sistema
de radio; Parte 7: Condiciones específicas para equipos de radio móviles y portátiles y equipos
auxiliares de sistemas de radiocomunicaciones móviles digitales (GSM y DCS).

MTX-GTW

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ETSI EN 301 489-24 V1.5.1: Cuestiones sobre Compatibilidad Electromagnética y espectro
Radioeléctricos (ERM); estándar de compatibilidad electromagnética (EMC) para equipos y sistema
de radio; Parte 24: Condiciones específicas para IMT-2000 CDMA Direct Spread (UTRA) para radios
móviles y portátiles (UE) y equipamiento auxiliar.

ETSI EN 301 908-01 V5.2.1: Cuestiones sobre Compatibilidad Electromagnética y espectro
Radioeléctricos (ERM); estaciones base (BS) y equipamiento de usuario (UE) para redes celulares
IMT-2000 de tercera generación; Parte 1: Normativa europea armonizada para IMT-2000,
introducción y requisitos comunes del artículo 3.2 de la directiva R&TTE.

ETSI EN 301 908-02 V5.2.1: Cuestiones sobre Compatibilidad Electromagnética y espectro
Radioeléctricos (ERM); estaciones base (BS) y equipamiento de usuario (UE) para redes celulares
IMT-2000 de tercera generación; Parte 2: Normativa europea armonizada para IMT-2000, CDMA
Direct Spread (UTRA FDD) (UE) que cubre los requisitos esenciales del artículo 3.2 de la directiva
R&TTE

IEC/EN 60950-1:2005 / EN 60950-1:2006+A11:2009: Salud y Seguridad

La documentación técnica referente al equipo anterior está disponible en:

MATRIX ELECTRONICA S.L.U.

Alejandro Sanchez 109

28019 Madrid

España

Madrid, 20/05/2013.

Sr. J. Vicente

Managing Board

MTX-GTW

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10.2 Conformidad FCC

MTX-GTW-3G y todas sus variantes contienen el FCC ID: QIPEHS6. El Certificado de Autorización de
Equipo de la FCC para el módulo EHS6 está listado con el identificador

FCC QIPEHS6

Número de Certificación de Industria en Canadá: 7830A-EHS6 asignado a Gemalto M2M GmbH.

El formulario de referencia del módulo EHS6 registrado bajo el anterior identificador está conforme
con las siguientes Reglas y Regulaciones de la Comisión Federal de Comunicaciones (FCC). La
potencia listada como ERP para la parte 22 y como EIRP para la parte 24 cumple con las regulaciones
de la FCC.

Clase de equipo: Transmisor PCS Licenciado

Notas: Quad band GSM/GPRS Modem

10.2.1 Tasa de absorción específica (SAR)

El modulo Cinterion EHS6 es comercializado sin una antena definida. La ganancia máxima de antena
usando antenas de interior depende de la distancia de esta a las personas cercanas y en condiciones
normales no debe sobrepasar los límites mostrados en la tabla siguiente.

La máxima potencia de salida medida en la banda de 850MHz es 1866.38 mW (32.71 dBm, ver el
reporte de test de 7layers MDE_Siem_0714_FCCb).

La máxima exposición permisible se define en 47 CFR 1.1310 con un valor de 0.55773 mW/cm².

La máxima potencia de salida medida en la banda de 1900 MHz es 974.99 mW (29.89 dBm, ver el
reporte de test de 7layers MDE_Siem_0714_FCCc).

La máxima exposición permisible se define en 47 CFR 1.1310 con un valor de 1 mW/cm².

De acuerdo al límite en 47 CFR 1.1310, obtenemos el valor de la máxima ganancia de antena como
sigue:

S = P*G/4πR²

S = 0.55773 mW/cm² o 1 mW/cm²

P = 1866.38 mW o 974.99 mW

MTX-GTW

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R = 20 cm o 100cm

π = 3.1416

G(dBi)=10*log10(G)

Despejando G; la máxima ganancia de antena es:

Banda Distancia Ganancia Máxima en dBi

850MHz 20cm 1.7669

850MHz 50cm 9.7257

1900MHz 20cm 7.1227

1900MHz 50cm 15.0815

MTX-GTW

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11. Regulatory and type approval information

11.1 Directives and standards

The MTX-GTW-3G modem has been designed to comply with the directives and standards listed
below.

It is the responsibility of the application manufacturer to ensure compliance of the final product with
all provisions of the applicable directives and standards, as well as with the technical specifications
provided in this document.

Directives

1999/05/EC

Directive of the European Parliament and of the council of 9 March 1999 on radio equipment and
telecommunications terminal equipment and the mutual recognition of their conformity (in short
referred to as R&TTE Directive 1999/5/EC).
The product is labeled with the CE conformity mark

ECE-R 10

Economic Commission for Europe (ECE) Regulation No. 10: Uniform provisions concerning the
approval of vehicles with regard to electromagnetic compatibility

2002/95/EC (RoHS 1)
2011/65/EC (RoHS 2)

Directive of the European Parliament and of the Council of 27 January 2003 (and revised on 8 June

2011) on the restriction of the use of certain hazardous substances in electrical and electronic
equipment (RoHS)

Standards of North American type approval

CFR Title 47

Code of Federal Regulations, Part 22 and Part 24 (Telecommunications,

PCS); US Equipment Authorization FCC

OET Bulletin 65

(Edition 97-01)

Evaluating Compliance with FCC Guidelines for Human Exposure to

Radiofrequency Electromagnetic Fields

UL 60 950-1

Product Safety Certification (Safety requirements)

NAPRD.03 V5.15

Overview of PCS Type certification review board Mobile Equipment Type

Certification and IMEI control

PCS Type Certification Review board (PTCRB)

RSS132 (Issue2)

RSS133 (Issue5)

Canadian Standard

Standards of European type approval

3GPP TS 51.010-1

Digital cellular telecommunications system (Release 7); Mobile Station (MS) conformance
specification;

ETSI EN 301 511 V9.0.2

Global System for Mobile communications (GSM); Harmonized standard for mobile stations in
the GSM 900 and DCS 1800 bands covering essential requirements under article 3.2 of the
R&TTE directive (1999/5/EC)

MTX-GTW

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GCF-CC V3.49

Global Certification Forum - Certification Criteria

ETSI EN 301 489-01
V1.9.2

Electromagnetic Compatibility and Radio spectrum Matters (ERM); Electromagnetic
Compatibility (EMC) standard for radio equipment and services; Part 1: Common Technical
Requirements

ETSI EN 301 489-07
V1.3.1

Electromagnetic Compatibility and Radio spectrum Matters (ERM); Electromagnetic
Compatibility (EMC) standard for radio equipment and services; Part 7: Specific conditions for
mobile and portable radio and ancillary equipment of digital cellular radio telecommunications
systems (GSM and DCS)

ETSI EN 301 489-24
V1.5.1

Electromagnetic Compatibility and Radio spectrum Matters (ERM); Electromagnetic
Compatibility (EMC) standard for radio equipment and services; Part 24: Specific conditions for
IMT-2000 CDMA Direct Spread (UTRA) for Mobile and portable (UE) radio and ancillary
equipment

EN 301 908-01 V5.2.1

Electromagnetic compatibility and Radio spectrum Matters (ERM); Base Stations (BS) and User
Equipment (UE) for IMT-2000 Third Generation cellular networks; Part 1: Harmonized EN for
IMT-2000, introduction and common requirements of article 3.2 of the R&TTE Directive

EN 301 908-02 V5.2.1

Electromagnetic compatibility and Radio spectrum Matters (ERM); Base Stations (BS) and User
Equipment (UE) for IMT-2000 Third Generation cellular networks; Part 2: Harmonized EN for
IMT-2000, CDMA Direct Spread (UTRA FDD) (UE) covering essential requirements of article 3.2 of
the R&TTE Directive

EN 62311:2008

Assessment of electronic and electrical equipment related to human exposure restrictions for
electromagnetic fields (0 Hz - 300 GHz)

IEC/EN 60950-1:2006+
A11:2009+A1:2010+
A12:2011

Safety of information technology equipment

Requirements of quality

IEC 60068

Environmental testing

DIN EN 60529

IP codes

Stadards of the Miistry of Iforatio Idustry of the People’s Repuli of Chia

SJ/T 11363-2006

Reuieets fo Coetatio Liits fo Cetai Hazadous “ustaes

i Eletoi Ifoatio Poduts 2006-06).

SJ/T 11364-2006

Makig fo Cotol of Pollutio Caused  Eletoi Ifoatio Poduts 2006-06).

Aodig to the Chiese Adiistatio o the Cotol of Pollutio aused  Eletoi
Ifoatio Poduts ACPEIP the EPUP, i.e., Eioetal Potetio Use Period, of this

product is 20 years as per the symbol shown here, unless otherwise marked. The EPUP is valid
only as long as the product is operated within the operating limits described in the Gemalto M2M
Hardware Interface Description.

Please see next table for an overview of toxic or hazardous substances or elements that might be
contained in product parts in concentrations above the limits defined by SJ/T 11363-2006.

MTX-GTW

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MTX Terminals® by MATRIX ELECTRONICA S.L.U

MTX-GTW

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MTX Terminals® by MATRIX ELECTRONICA S.L.U

11.2 SAR requirements specific to portable mobiles

Mobile phones, PDAs or other portable transmitters and receivers incorporating a GSM module must
be in accordance with the guidelines for human exposure to radio frequency energy. This requires
the Specific Absorption Rate (SAR) of portable EHS6 based applications to be evaluated and approved
for compliance with national and/or international regulations.

Since the SAR value varies significantly with the individual product design, manufacturers are advised
to submit their product for approval if designed for portable use. For European markets the relevant
directives are mentioned below. It is the responsibility of the manufacturer of the final product to
verify whether or not further standards, recommendations or directives are in force outside these
areas.

Products intended for sale in US markets

EN 59005/ANSI C95.1: Considerations for evaluation of human exposure to Electromagnetic Fields
(EMFs) from Mobile Telecommunication Equipment (MTE) in the frequency range 30MHz – 6GHz

Products intended for sale in European markets

EN 50360: Product standard to demonstrate the compliance of mobile phones with the basic
restrictions related to human exposure to electromagnetic fields (300MHz - 3GHz)

Please note that SAR requirements are specific only for portable devices and not for mobile devices
as defined below:

 Portable device:

A portable device is defined as a transmitting device designed to be used so that the
radiating structure(s) of the device is/are within 20 centimeters of the user´s body.

 Mobile device:

A mobile device is defined as a transmitting device designed to be used in other than fixed
locations and to generally be used in such a way that a separation distance of at least 20

etietes is oall aitaied etee the tasitte’s adiatig stutues ad the
use’s od o that of ea pesos. I this otet, the te fied loatio eas that

the device is physically secured at one location and cannot be easily moved to another
location.

MTX-GTW

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MTX Terminals® by MATRIX ELECTRONICA S.L.U

11.3 SELV requirements

The power supply connected to the MTX-3G-JAVA modem shall be in compliance with the SELV
requirements defined in EN 60950-1.

MTX-GTW

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MTX Terminals® by MATRIX ELECTRONICA S.L.U

12. RoHS Statement

The MTX-GTW modem is compliant with the 2002/95/EC Directive of the
European Parliament and of the Council of 27 January 2003 on the
restriction of the use of certain hazardous substances in electrical and
electronic equipment (RoHS).

13. Disposal of old electrical & electronic equipment

This symbol, applied on our products and/or on its packaging, indicates that this
product should not be treated as household waste when you wish to dispose of it.
Instead, it should be handed over to an applicable collection point for the recycling of
electrical and electronic equipment. By ensuring this product is disposed of correctly,

you will help prevent potential negative consequences to the environment and human
health, which could otherwise be caused by inappropriate disposal of this product. The recycling of
materials will help to conserve natural resources. For more detailed information about the recycling
of this product, please contact your local city office, household waste disposal service or the retail
store where you purchased this product.

MTX-GTW

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MTX Terminals® by MATRIX ELECTRONICA S.L.U

14. Sales contact

www.mtxm2m.com

Matrix Madrid

Matrix Barcelona

Matrix Bilbao

Matrix Valencia

Matrix Electrónica S.L.

C/ Alejandro Sánchez, 109
28019 Madrid (SPAIN)

Matrix Electrónica S.L.

Ctra. Rubí a Sabadell Km 13
Nave 109, Oficinas 6-9
08191 Rubí, Barcelona
(SPAIN)

Matrix Electrónica S.L.

Pol. Aliendalde, 11
Oficina 2G
48200 - Durango, Vizcaya
(SPAIN)

Matrix Electrónica S.L.

Valencia (SPAIN)

Phone 1:
Phone 2:
Fax 1:
Fax 2:

902 19 81 46

+34915602737

902 99 54 14

+34915652865

Phone 1:
Fax 1:

902 19 81 46
902 99 54 14

Phone 1:
Fax 1:

902 19 81 46
902 99 54 14

Phone 1:
Fax 1:

902 19 81 46

902 99 54 14

Matrix Sevilla

Matrix Lisboa

Matrix Santiago de Chile

Matrix Electrónica S.L.

Sevilla (SPAIN)

Phone: 902 19 81 46
Fax: 902 99 54 14

LusoMatrix Lda.

Av. Coronel Eduardo
Galhardo, 7 1ºC
1170-105 - Lisboa
(PORTUGAL)

Matrix Electrónica S.L.

Calle Badajoz, 100

Oficina 1305
Santiago de Chile (CHILE)

Phone 1:
Fax 1:

902 19 81 46
902 99 54 14

Phone 1:
Fax 1:

+351218162625
+351218149482

Phone 1:
Phone 2:

+56(9)53369943
+56(9)74822647

Our company network supports you worldwide with offices in Germany, Austria, Switzerland, Great Britain
and the USA. For more information please contact:

FORTEC Elektronik AG
Hauptniederlassung
Lechwiesenstr. 9
86899 Landsberg am Lech

Telefon: +49 (0) 8191 91172-0
Telefax: +49 (0) 8191 21770
E-Mail:

sales@fortecag.de

Internet: www.fortecag.de

FORTEC Elektronik AG
Büro West
Hohenstaufenring 55
50674 Köln

Telefon: +49 (0) 221 272 273-0
Telefax: +49 (0) 221 272 273-10
E-Mail:

west@fortecag.de

Internet: www.fortecag.de

FORTEC Elektronik AG

Büro Wien
Nuschinggasse 12
A-1230 Wien

Telefon: +43 1 8673492-0
Telefax: +43 1 8673492-26
E-Mail:

office@fortec.at

Internet: www.fortec.at

ALTRAC AG
(Tochter der Fortec AG):
Bahnhofstraße 3
CH-5436 Würenlos

Telefon: +41 (0) 44 7446111
Telefax: +41 (0) 44 7446161
E-Mail:

info@altrac.ch

Internet: www.altrac.ch

Members of the Group: