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‐3G‐ JAVA modem. Read it carefully before you start working with the MTX‐3G‐JAVA device. 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. ...
MTX‐3G‐JAVA Family Revision information Revision Date Author Changes 0.6 2014/01 JS First preliminary release 0.9 2014/03 JS Fixed index and RF card descriptions New document format and general 1.0 2014/06 AEM revision Language style revision Added MTX‐3G‐JAVA‐GPS‐BT device 1.1 2014/10 AEM/TP Added MTX‐3G‐JAVA‐RS485‐WC25 device 1.2 2014/12 AEM Minor revision 1.3 2015/04 AEM Fixed errata 1.4 2015/05 AEM Minor revision 1.5 ...
MTX‐3G‐JAVA Family 1. Introduction 1.1 Description The MTX‐3G‐JAVA modems family is an innovative and powerful all‐in‐one solution enabling GSM, SMS, fax and 3G (UMTS/HSPA) high speed data transmission. It has an intrinsic TCP/IP communication stack with Internet Services such as TCP, UDP, HTTP, FTP, SMTP, and POP3. The MTX‐3G‐JAVA is Java J2ME programmable and has a complete set of interfaces (RS232, RS485, USB, GPIO, I2C, GPIO, optoisolated IOs, Analog‐to‐Digital converter) avoiding need for further ...
MTX‐3G‐JAVA Family 1.3 Features by model Depending on the device model you have selected, there is a set of features available as described in the table below. Please ask us at gsmsupport@matrix.es if you need any other combination of features, or one that is not listed here. X X X RS232 (8‐wire) X X X X X X X X X X X X RS232 (4‐wire) RS485...
MTX‐3G‐JAVA Family 1.4 Highlights Interfaces GSM FME M antenna connector SMA F antenna connector for GPS or other RF options (*) USB 2.0 High Speed port up to 480Mbps SIM card interface 1.8V and 3V DB9 female connector: complete 8‐wire RS232 modem interface (*) DB15 female connector: o 1x RS232 (4‐wire) port (*) o 1x I2C port o 5x GPIO (*) o 6x Optoisolated I/Os (*) o 2x analog inputs (*) o 1x analog output (*) 1x RS485 port (5‐way plug‐in terminal block) (*) Operating status LEDs Plug‐in power supply (RJ11 connector) General features World Wide Version (default) o UMTS/HSPA+: Five‐Band 800/850/900/1900/2100MHz ...
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MTX‐3G‐JAVA Family Internal Hardware Watchdog (*) Internal 1650mAh Li‐Po battery (*) 3‐Axis Accelerometer (±2g/±4g/±8g) (*) Powered by Cinterion EHS6 modules Specifications HSPA (3GPP Release 6,7) o DL 7.2Mbps, UL 5.7Mbps o HSDPA Cat.8 / HSUPA Cat.6 data rates o Compressed mode (CM) according to 3GPP TS25.212 UMTS (3GPP Release 4) o PS data rate – 384 kbps DL, UL 384kbps o CS data rate – 64 kbps DL, UL 64kbps HSPA (3GPP Release 6,7) o DL 7.2Mbps, UL 5.7Mbps o HSDPA Cat.8 / HSUPA Cat.6 data rates GPRS o GPRS class 12 o Mobile station class B o PBCCH support ...
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MTX‐3G‐JAVA Family Java features Oracle Java ME Embedded 3.2 Compliant to CLDC 1.1 HI and IMP‐NG standards Capable of running multiple MIDlets in parallel with inter‐MIDlet communication Additional Java standards APIs: o JSR75 (FileConnection) o JSR177 (CRYPTO) o JSR280 (XML) Additional accessible periphery for Java applications o I/O pins, I2C, ADC/DAC o Serial interfaces (API): ASC0, ASC1, USB Memory space for Java applications o Flash File System: 8MB o RAM: 6MB o Just‐in‐Time (JIT) Compiler execution optimization Special features USB interfaces support multiple composite modes and a Linux ‐/Mac‐ compliant mode Firmware update via USB/RS232 ...
MTX‐3G‐JAVA Family 1.5 Product label The label fixed to the bottom of a MTX Terminal comprises the following information: No. Information 1 MTX Terminals logo 2 Product name (model) 3 Product ordering number 4 Hardware and Firmware Revisions 5 FCC ID 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‐3G‐JAVA Family 1.6 Main features and services The MTX‐3G‐JAVA performs a set of telecom services (TS) according to GSM standard phase 2+, ETSI and ITU‐T. The services and functions of the MTX‐3G‐JAVA are implemented by issuing customized applications embedded on the device, by AT commands issued internally or over the USB, RS232 or RS485 interface. 1.6.1 Key features at a glance The MTX‐3G‐JAVA is a UMTS/HSPA and also GSM/GPRS/EDGE bands mobile station with the characteristics shown in the table below. Feature Implementation General Frequency bands UMTS/HSPA+: Five band, 800/850/900/1900/2100MHz GSM/GPRS/EDGE: Quad band, 850/900/1800/1900MHz GSM class Small MS Output power Class 4 (+33dBm ±2dB) for EGSM850 Class 4 (+33dBm ±2dB) for EGSM900 ...
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MTX‐3G‐JAVA Family GSM / GPRS / EGPRS features Data transfer GPRS Multislot Class 12 Full PBCCH support Mobile Station Class B Coding Scheme 1 – 4 EGPRS Multislot Class 12 EDGE E2 power class for 8 PSK Downlink coding schemes – CS 1‐4, MCS 1‐9 Uplink coding schemes – CS 1‐4, MCS 1‐9 SRB loopback and test mode B 8‐bit, 11‐bit RACH PBCCH support 1 phase/2 phase access procedures Link adaptation and IR NACC, extended UL TBF Mobile Station Class B CSD V.110, RLP, non‐transparent ...
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MTX‐3G‐JAVA Family RS232 (4‐wire) Adjustable baud rates: 1200bps to 921600bps Autobauding: 1200 to 230400bps Supports RTS/CTS hardware flow control Multiplex ability according to GSM 07.10 Multiplexer Protocol RS485 Adjustable baud rates: 1200bps to 921600bps Autobauding: 1200 to 230400bps Half‐duplex I2C interface Supports I2C serial interface up to 400kbps GPIO Up to 5 GPIO lines and 6 Optoisolated I/O’s ADC Up to 2 analog‐to‐digital converters DAC 1 digital‐to‐analog converter Status Bi‐color LED to indicate network connectivity status. UICC interface Supported chip cards: UICC/SIM/USIM 3V, 1.8V Antenna 50 Ohms. GSM/UMTS main antenna Power on/off, Reset Power on/off Automatic switch‐on at power supply Switch off by AT command Switch off by hardware signal TURN_OFF Automatic switch‐off in case of critical temperature or voltage conditions Software Reset Orderly shutdown and reset by AT command Hardware Reset Emergency reset by hardware signal TURN_OFF Special features Antenna SAIC (Single Antenna Interference Cancellation) / DARP (Downlink Advanced Receiver Performance) Rx Diversity (receiver type 3i – 64‐QAM) / MIMO ...
MTX‐3G‐JAVA Family 1.6.2 Operating modes The table below briefly summarizes the various operating modes referred to in the following chapters. Limits Function Normal operation GSM / GPRS / Power saving automatically activated when no calls are in progress, the UMTS / HSPA SLEEP USB connection is suspended by the host or not present, and there is no active communication via ASC0 GSM / GPRS / UMTS Power saving is disabled if a USB connection is not suspended, but no call / HSPA IDLE is in progress. GSM TALK / GSM Connection between two subscribers is in progress. Power consumption DATA depends on the GSM network coverage and several connection settings (e.g. DTX off/on, FR/EFR/HR, hopping sequences and antenna connection). The following applies when power is to be measured in TALK_GSM mode: DTX off, FR and no frequency hopping. GPRS DATA ...
MTX‐3G‐JAVA Family 1.6.3 Power Consumption It is recommend to use 12V/1.5A power supply. Description Conditions Typical Unit ULP mode supply Ultra Low Power Mode 2.5 µA current Sleep mode supply Internal GSM module powered down 7 mA current Average IDLE (UART activated but no USB disconnected 11 mA GSM/GPRS supply communication) @ DRX=2 USB active 12 mA current GPRS Data transfer ROPR=4 (max. reduction) 67 mA GSM850/900; PCL=5; 1Tx/4Rx ROPR=0 (no reduction) GPRS Data transfer ...
MTX‐3G‐JAVA Family 1.6.4 RF antenna interface description The table below briefly summarizes the RF Antenna interface GSM/UMTS Parameter Conditions Min. Typical Max. Unit UMTS/HSPA connectivity Band I, II, V, VI, VIII Receiver Input Sensitivity @ ARP UMTS 800/850 Band VI/V ‐104.7/‐ ‐110 dBm 106.7 UMTS 900 Band VIII ‐103.7 ‐110 dBm UMTS 1900 Band II ‐104.7 ‐109 dBm UMTS 2100 Band I ‐106.7 ‐110 dBm RF Power @ ARP with 50Ohm Load UMTS 800/850 Band VI/V 21 24 ...
The MTX‐3G‐JAVA supports an external SIM card through the integrated SIM holder. Both 3V and 1.8V SIM technology is supported. Older 5V SIM technology is not supported. 1.7 Precautions MTX‐3G‐JAVA 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 specified in Technical Data ...
MTX‐3G‐JAVA Family 1.8 Block diagram 1.8.1 Base MTX‐3G‐JAVA The base MTX‐3G‐JAVA modem’s block diagram is shown in the following figure: UMTS/GSM LED signaling Antenna FME M SIM Card Reader External power Power Cinterion EHS6 UMTS Cellular RJ11 Mini USB •6.5‐40V M2M module USB 2.0 High Speed 8‐wire RS232 (ASC0) GPIO 4‐wire RS232 (ASC1) ADC/DAC Analog Analog VREF GPIO DB15 (I/O expansion port) ...
MTX‐3G‐JAVA Family 1.8.3 ULP models The MTX‐3G‐JAVA‐ULP modem’s block diagram is shown in the following figure: 1.8.4 All other models The general MTX‐3G‐JAVA family block diagram is shown in the following figure: www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 24 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 1.9 Hardware revisions Base MTX‐3G‐JAVA and MTX‐3G‐JAVA‐ULP models Hardware Revision Starting production date Changes 2.03 01/2014 Initial version Base MTX‐3G‐JAVA‐RS485 models Hardware Revision Starting production date Changes 1.02 01/2014 Initial version All other models Hardware Revision Starting production date Changes 5.02 01/2014 Initial version www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 25 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2. Mechanical description 2.1 MTX‐3G‐JAVA model and ULP models 2.1.1 Overview The pictures below show the mechanical design of the unit along with the positions of the different connectors and mounting holes. The device case is made of durable PC/ABS plastic. Bi‐color Led Indicator SIM Card Reader Antenna Connector DB15 connector DB9 connector Mounting holes Mini USB 2.0 Connector Power Supply Connector www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 26 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2.1.2 Dimensions All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 27 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
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MTX‐3G‐JAVA Family All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 28 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2.2 MTX‐3G‐JAVA‐RS485 models 2.2.1 Overview The pictures below show the mechanical design of the unit along with the positions of the different connectors and mounting holes. The modem case is made of durable PC/ABS plastic. Bi‐color Led Indicator SIM Card Reader Antenna Connector DB15 connector Mounting holes Mini USB 2.0 Connector Power Supply & RS485 Connector www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 29 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2.2.2 Dimensions All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 30 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
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MTX‐3G‐JAVA Family All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 31 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2.3 All other models 2.3.1 Overview The pictures below show the mechanical design of the unit along with the positions of the different connectors and mounting holes. The device case is made of durable PC/ABS plastic. Bi‐color Led Indicator SIM Card Reader Antenna Connector DB15 connector Mounting holes Mini USB 2.0 Connector GPS or RF antenna connector Power Supply connector www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 32 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 2.3.2 Dimensions All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 33 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
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MTX‐3G‐JAVA Family All dimensions are in millimeters www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 34 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 3. Electrical and environmental characteristics 3.1 Electrical specifications 3.1.1 Power supply ABSOLUTE MAXIMUM RATINGS Symbol Parameter Conditions Min. Max. Unit VIN Supply voltage All models except ULP devices 0 45 V VIN Supply voltage All ULP devices 0 10 V CHARACTERISTICS Symbol Parameter Conditions Min. Typ. Max. Unit VIN Supply voltaje Maximum 6.5 ...
MTX‐3G‐JAVA Family 3.1.3 RS485 interface ABSOLUTE MAXIMUM RATINGS Symbol Parameter Conditions Min. Max. Unit Voltage input range, ±50 V transient pulse, A and B, through 100 Ω Receiver output current ±11 mA Electrostatic discharge Human body model ±16 kV Chraged‐device model ±1 kV CHARACTERISTICS Symbol Parameter Conditions ...
MTX‐3G‐JAVA Family 3.1.5 GPIO ABSOLUTE MAXIMUM RATINGS Symbol Parameter Conditions Min. Max. Unit Input voltage range ‐0.5 3.5 V Output voltage range ‐0.5 3.5 V Input clamp current < 0V ‐20 mA Output clamp current < 0V ‐20 mA Input/Output clamp < 0V or V > 3V ...
MTX‐3G‐JAVA Family CHARACTERISTICS (TCMD4000 OPTOCOUPLER) Symbol Parameter Conditions Min. Typ. Max. Unit Input Forward voltage =50mA 1.25 1.6 V Junction capacitance =0V, f=1MHz 50 pF Output Collector‐emitter voltage =100µA 35 V Emitter‐collector voltage =100µA 7 V ...
MTX‐3G‐JAVA Family 3.2 Operating temperatures Please note that the modem’s lifetime, i.e., the MTTF (mean time to failure) may be reduced if operated outside the extended temperature range. Parameter Min Typ Max Unit Normal operation ‐30 +25 +85 °C Extended operation ‐40 +90 °C Automatic shutdown <‐40 >+90 °C 1. Extended operation allows normal mode speech calls or data transmissions for a limited time until the automatic thermal shutdown mode takes effect. Within the extended temperature range (outside the operating temperature range) the specified electrical characteristics may be increased or decreased. 2. Due to uncertainty in temperature measurement, a tolerance of ±3ºC on the stated ...
MTX‐3G‐JAVA Family 3.3 Storage conditions The conditions stated below are only valid for modems in their original packed state in weather protected, non‐temperature‐controlled storage locations. Normal storage time under these conditions is a maximum of 12 months. The units will be delivered in a packaging that meets the requirements according “IPD/JEDEC J‐STD‐033B.1” for Low Temperature Carriers. Type Condition Unit Reference Air temperature: Low ‐30 ºC ETS 300 019‐2‐1: T1.2, IEC 60068‐2‐1 Ab High +75 ETS 300 019‐2‐1: T1.2, IEC 60068‐2‐2 Db Relative humidity: Low 10 % ‐‐‐ High 90 at 30ºC ETS 300 019‐2‐1: T1.2, IEC 60068‐2‐56 Cb Condensation 90‐100 at 30ºC ETS 300 019‐2‐1: T1.2, IEC 60068‐2‐30 Db Air pressure: Low 70 kPa IEC TR 60271‐3‐1:1K4 High 106 IEC TR 60271‐3‐1:1K4 Movement of surrounding air 1.0 m/s IEC TR 60271‐3‐1:1K4 ...
MTX‐3G‐JAVA Family 4. Interface description All electrical connections to the modem are protected in compliance with the standard air and contact Electrostatic Discharge (ESD). The modem family uses the following industry standard connectors: USB mini connector DB9 female (main RS232 port) DB15 female (main RS232 and/or I/O expansion connector) RJ11 6‐way (power supply connector) 5 way plug‐in terminal block (power supply and RS485 bus) SIM card reader FME male coaxial jack (antenna connector) SMA female coaxial jack (GPS/GNSS antenna connector) or other RF options ...
4.1 Power supply connector Depending on the specific modem you are using, you will dispose of one of the connectors described in the sections below. Please read them carefully. 4.1.1 RJ11 (base MTX‐3G‐JAVA) An RJ11 6‐way connector, as shown and described below, serves as a means of supplying and controlling DC power to the modem. The power supply voltage (VCC) required by the modem is in the range of 6.5 to 40VDC. We ...
MTX‐3G‐JAVA Family 4.1.2 5 way plug‐in terminal block (RS485 models) A 5 way plug‐in terminal block connector shared with RS485 bus, as shown and described below, supplies and controls the D.C. power to the modem. The supply voltage, VCC, required by the modem is in the range of 6.5 to 40VDC. We recommend a 12VDC power supply. The power supply has to be a single voltage source capable of providing a peak during an active transmission. The uplink burst causes strong ripples (drop) on the power lines. By default, the MTX‐3G‐JAVA‐RS485 will automatically switch on when power supply is applied at PIN 4 and PIN 5. Pin Signal Direction Limits Description ‐RxB I/O RS485 B signal (see section 4.5 for details) 1 ...
MTX‐3G‐JAVA Family 4.1.3 RJ11 (ULP models) An RJ11 6‐way connector, as shown and described below, serves as a means of supplying and controlling DC power to the modem. The power supply voltage (VCC) required by the modem is in the range of 6.5 to 10VDC (9.8 to ...
The power supply voltage (VCC) required by the modem is in the range of 6.5 to 40VDC. We recommend a 12V DC power supply. The power supply has to be a single voltage source capable of providing a current peak during an active transmission. The uplink burst causes strong ripples (drop) on the power lines. By default, MTX‐3G‐JAVA devices are shipped to automatically switch on only with supply at PIN 1 and PIN 6. If you disable the “Automatic power up” feature you will need to use the additional active‐ low control signal TURN_ON, which must be applied for a time of 0.2 seconds or greater. ...
The USB host is responsible for supplying power across the VUSB_IN line to the module’s USB interface. This is because MTX‐3G‐JAVA is designed as a self powered device compliant with the “Universal Serial Bus Specification Revision 2.0”. The MTX‐3G‐JAVA cannot be powered by a USB port. If you need this feature, contact ...
The modem supports a standard RS232 8‐wire serial interface (EIA/TIA 574) via its 9 pin Sub‐D connector, shown below. It is connected to the modem’s ASC0 main port using a level shifter converter. The MTX‐3G‐JAVA modem is designed to be used as a DCE (data circuit‐terminating equipment). Based on the conventions for DCE‐DTE connections, it communicates with the customer application (DTE‐ data terminating equipment) using the following signals: Port TxD @ application sends data to TXD of MTX‐3G‐JAVA Terminal ...
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MTX‐3G‐JAVA Family In addition, the modem control signals DTR, DSR, DCD and RING are available. The MODEM control RING signal (Ring Indication) can be used to indicate, to the cellular device application, that an incoming call or Unsolicited Result Code (URC) is received. It can also be used to send pulses to the host application; for example, to wake the application up from the power saving mode. The DB9 connector pinout is shown in the table below: Pin Signal Direction Description 1 DCD Output Data carrier detected 2 RD 0 Output Received data ...
MTX‐3G‐JAVA Family 4.4 DB15 connector: I/O expansion port 4.4.1 Connector pinouts Depending on the specific modem you are using, the DB15 connector pinout will be different and there will be different resources available on it. www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 49 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
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MTX‐3G‐JAVA Family Common terminals available in all models Pin Signal Direction Description 1 I2CCLK Output I2C clock signal 2 DOM 3 DOM 4 DOM 5 DOM 6 I2CDAT I/O I2C data line 7 DOM 8 DOM 9 DOM ...
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MTX‐3G‐JAVA Family ULP models Pin Signal Direction Description 1 I2CCLK Output I2C clock signal 2 RD 1 Output Secondary RS232 ASC1 UART signal: Received data 3 TD 1 Input Secondary RS232 ASC1 UART signal: Transmitted data 4 GPIO 1 I/O CMOS General Purpose Digital Input/Output 1 5 GPIO 3 I/O CMOS General Purpose Digital Input/Output 3 6 I2CDAT I/O I2C data line 7 RTS 1 Input Secondary RS232 ASC1 UART signal: Request to send ...
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MTX‐3G‐JAVA Family RS485 models Pin Signal Direction Description 1 I2CCLK Output I2C clock signal 2 RD 0 Output Main RS232 ASC0 UART signal: Received data 3 TD 0 Input Main RS232 ASC0 UART signal: Transmitted data 4 NC 5 OUT 3 Output Opto‐isolated output GPIO8 (open collector) 6 I2CDAT I/O I2C data line 7 RTS 0 Input Main RS232 ASC0 UART signal: Request to send 8 CTS 0 ...
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MTX‐3G‐JAVA Family Rest of models Pin Signal Direction Description 1 I2CCLK Output I2C clock signal 2 RD 0 Output Main RS232 ASC0 UART signal: Received data 3 TD 0 Input Main RS232 ASC0 UART signal: Transmitted data 4 IO 1 (GPIO 9) I/O CMOS General Purpose Digital Input/Output 1 5 OUT 2 Output Opto‐isolated output GPIO8 (open collector) 6 I2CDAT I/O I2C data line 7 RTS 0 Input Main RS232 ASC0 UART signal: Request to send 8 CTS 0 Output ...
4.4.2 RS232 interface The modem supports a standard RS232 4‐wire serial interface (EIA/TIA 574) via its 15 pin Sub‐D connector, shown below. This interface is connected to the ASC0 port using a level shifter converter, except on the base MTX‐3G‐JAVA and MTX‐3G‐JAVA‐ULP, which use an ASC1 port instead of ASC0. The MTX‐3G‐JAVA modem is designed to be used as a DCE (data circuit‐terminating equipment). Based on the conventions for DCE‐DTE connections, it communicates with the customer application (DTE‐ data terminating equipment) using the following signals: • Port TxD @ application sends data to MTX‐3G‐JAVA Terminal’s TD. •...
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MTX‐3G‐JAVA Family Features (ASC0) Includes the data lines TD0 and RD0, the status lines RTS0 and CTS0 and also the modem control lines DTR0, DSR0, DCD0 and RING0. ASC0 is primarily designed for controlling voice calls, transferring CSD, fax and GPRS data and for controlling the GSM engine with AT commands. Full Multiplex capability allows the interface to be partitioned into three virtual channels, but with CSD and fax services only available on the first logical channel. Please note that when the ASC0 interface runs in Multiplex mode, ASC1 cannot be used. The DTR0 signal will only be polled once per second from the internal firmware of MTX‐3G‐ JAVA. The RING0 signal serves to indicate incoming calls and other types of URCs (Unsolicited ...
4.4.3 I2C bus I2C is a serial, 8‐bit oriented data transfer bus for bit rates up to 400kbps in Fast mode. It consists of two lines, the serial data line I2CDAT and the serial clock line I2CCLK. The MTX‐3G‐JAVA modem acts as a single master device, e.g. the clock I2CCLK is driven by the modem. I2CDAT is a bi‐directional line. Each device connected to the bus is software which is identified by a unique 7‐bit address. Simple ...
8 bits, which means that the voltage resolution in the given range is 11.71875mV. The MTX‐3G‐JAVA has an internal ADC/DAC chip (PCF8591) connected to its I2C bus, at a 7‐bit address 0x48 hexadecimal. Maximum bus frequency allowed is 100kHz. The A/D converter uses the successive approximation conversion technique. The D/A converter and a high‐gain comparator are used temporarily during the A/D conversion cycle. ...
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MTX‐3G‐JAVA Family A/D conversion In order to read samples from the ADC buffer, you have to send three bytes over the I2C bus before sending the I2C STOP condition 1. Address byte (write mode): 0x90 hexadecimal 2. Control byte: a. 0x00 hexadecimal to read from ADC1 b. 0x01 hexadecimal to read from ADC2 3. Address byte (read mode): 0x91 hexadecimal 4. Dummy byte 1: 0x00 hexadecimal 5. Dummy byte 2: 0x10 hexadecimal After that you should have three bytes in the I2C read buffer: the second one is the 8‐bit sample ...
MTX‐3G‐JAVA Family 4.4.5 General Purpose and Optoisolated I/O Depending on the model you use, you will dispose of the following set of GPIOs and Optoisolated IOs: Model Power Connector DB15 connector Base MTX‐3G‐JAVA & ULP models 4x CMOS inputs/outputs (bidirectional GPIO) RS485 models 2x Optoisolated inputs 2x Optoisolated outputs Rest of models 1x Optoisolated input 2x Optoisolated inputs 1x Optoisolated output ...
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MTX‐3G‐JAVA Family Please take care with the following points: Each GPIO port (Pxx port) can be configured as an input (Hi‐Z) or output (strong drive push‐ pull drivers) Interrupt available, generated by any rising or falling edge of the port inputs in the input mode. This line is connected to GPIO8 of the EHS6 module. When optoisolated I/Os are available, you always must assure that: o RS485 models: GPIO 4 and GPIO 8 are configured as outputs GPIO 7 and GPIO 10 are configured as inputs o Rest of models: GPIO 4, GPIO 6 and GPIO 8 are configured as outputs GPIO 5, GPIO 7 and GPIO 10 are configured as inputs ...
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MTX‐3G‐JAVA Family The electrical equivalent circuits for MTX‐3G‐JAVA‐RS485 models are shown in the following figure Optoisolated inputs/outputs equivalent circuit INPUT OUTPUT 0V ≤ V ≤ 2.5V → Logic ‘0’ Logic ‘0’ → V = HiZ 2.7V ≤ V ≤ 40V → Logic ‘1’ Logic ‘1’ → V = 1V (max) The electrical equivalent circuits for all other models which have optoisolated input/outputs are shown in the following figures Optoisolated IN/OUT 2&3 equivalent circuit INPUT OUTPUT 0V ≤ V ≤ 2.5V → Logic ‘0’ Logic ‘0’ → V = HiZ 2.7V ≤ V ≤ 40V → Logic ‘1’ Logic ‘1’ → V = 1V (max) Optoisolated IN/OUT 4 equivalent circuit INPUT OUTPUT 0V ≤ V ≤ 1.1V → Logic ‘1’ Logic ‘0’ → V = HiZ ...
MTX‐3G‐JAVA Family 4.5 RS485 bus A terminal block with a 5‐way connector and shared Power Section, as shown and described below, is used to implement the RS485 interface The RS485 bus is connected to the modem’s ASC1 port using a level shifter converter. It meets or exceeds the requirements of ANSI TIA/EIA‐485‐A. Pin Signal Direction Limits Description ‐RxB I/O RS485 B signal 1 +RxA I/O RS485 A signal 2 AUTO ON Input 0‐VIN Automatic Restart after Shutdown Enable Signal 3 4 VIN Input 6.5‐40VDC Positive power input 5 GND Input Negative power (ground) ...
The card holder is a five wire interface according to GSM 11.11. It has a SIM card detector switch to detect whether or not the SIM card drawer is inserted. Removing and inserting the SIM card during operation requires the software to be reinitialized. Therefore, after reinserting the SIM card it is necessary to restart the MTX‐3G‐JAVA modem. The full operation of the MTX‐3G‐JAVA relies on a SIM card being inserted. Some MTX‐3G‐JAVA functionality may be lost if you try to operate the control modem without a SIM card. www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 ...
4.8 3‐Axis accelerometer Applicable models: The internal 3‐axis accelerometer available in all models except the base MTX‐3G‐JAVA and RS485/ULP models is based on a LIS331DLM chip. It has a dynamically user selectable full‐scale measure range of ±2g/±4g/±8g and it is capable of measuring accelerations with output data rates from 0.5Hz to 400Hz with a resolution of 8 bits. Also, the device may be configured to generate an interrupt signal by inertial wake‐up/free‐fall ...
MTX‐3G‐JAVA Family 4.9 Internal Li‐Po battery In the MTX‐3G‐JAVA modem family, the BAT suffix means that the internal 3.7V 1650mAh Li‐Po battery is attached. The unit is shipped with the battery disconnected. Please open the unit and connect the battery connector to the main board and then plug in the power supply to the RJ power connector for around 5 hours to fully charge the battery. Internal batteries can be ordered for MTX‐3G‐JAVA modems with either GPS or RF variants. In any ...
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MTX‐3G‐JAVA Family The duration of discharge depends on the end application. It is very sensitive to transmission (Voice and Data) so we recommend making as few as possible and keeping them as short as possible. Please disable GPS, or keep it in a low power mode when possible to extend battery life when longer periods of use (without charging) are required. Keep in mind that the battery will be 100% operative once a few charge and discharge cycles have been performed. Example 1. Li‐Po battery attached, 25ºC ambient temperature The blue colored circle shows when the battery is being charged. When it reaches 4.40V (to be ...
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MTX‐3G‐JAVA Family Example 2. Li‐Po battery attached, 25ºC ambient temperature Example 2 has the same charging time (indicated by the blue arrow) as in example 1 (6 hours 30 minutes); at this time the battery is fully charged; checking using the AT^SBV command, we discover that it is around 4.40V (indicated by the green arrow). Discharging time in these conditions is around 12 hours, so the more often you connect to GPRS, the shorter the battery will last. Keep GPRS connections short and infrequent where possible to extend battery life if you require longer periods of use without charging. Note: there are two internal LEDs that provide information about the battery status: A red LED will illuminate when the battery is charging. A green LED will illuminate when external power is applied. ...
MTX‐3G‐JAVA Family 4.10 Real Time Clock The EHS6 module attached to MTX‐3G‐JAVA modems contains a real time clock (RTC) to maintain accurate timekeeping and to enable you to “time stamp” messages. This RTC is supplied by a separate voltage regulator which is also active when the MTX‐3G‐JAVA is in power down mode and the power supply VIN is available. An alarm function is provided that allows the MTX‐3G‐JAVA to wake up in Airplane mode without logging onto the GSM/UMTS network. The MTX‐3G‐JAVA modems can also accommodate an independent battery or super‐cap inside to maintain the date and time of the RTC when the power supply is disconnected. Both the battery and the super‐cap will be charged when power supply is present again. ...
MTX‐3G‐JAVA Family 4.11 Internal Hardware Watchdog Applicable models: X X X X X X X X X X X X X The MTX‐3G‐JAVA has a new internal hardware watchdog component which allows the module to be reset when the internal Java program is not refreshed in 120±60 seconds, meaning that it has hang‐ ups or that it does not respond in this time. The MTX‐3G‐JAVA has the watchdog disabled by default in the factory settings. In order to use this watchdog, two GPIOs must be handled: GPIO1 (which must be configured as output) sets/resets watchdog. A logic ‘1’ disables the ...
MTX‐3G‐JAVA Family 4.12 GPS The MTX‐3G‐JAVA has an internal GPS receiver which offers the full performance of GPS technology. The GPS receiver continuously tracks all satellites in view, thus providing accurate satellite positioning data. 4.12.1 GPS antenna connector The antenna connector allows for the transmission of radio frequency (RF) signals between the modem and an external customer‐supplied antenna. The modem is fitted with a 50Ω, SMA F coaxial jack. It is possible to connect active or passive GPS antennas. In either case they must have 50 Ohm ...
MTX‐3G‐JAVA Family The GPS receiver is connected to the EHS6 ASC1 port and NMEA data at 9600 bauds is present. JAVA code needs to open the ACS1 port and collect all these protocols and parses to calculate latitude and longitude positions. There are also two signals available to control the RF card: RESET_GPS: active low, driven by GPIO12_P13 of the IO extender (see section 4.4.5). It allows the RF module to be reset. DISABLE_GPS: active low, driven by GPIO11_P12 of the IO extender (see section 4.4.5). It allows the RF module to be powered off. To help all customers, Matrix Electronica provides “as is” (without further technical support, ...
MTX‐3G‐JAVA Family 4.13 Wireless RF modules MTX‐3G‐JAVA can be shipped with an internal RF card installed which allows for use with almost all protocols that exist nowadays, such as Bluetooth, WiFi, ISM, ZigBee, etc. The RF card is connected to the internal ASC1 port. This means that models mounting an RF card, ASC1 will not be available to be used by the DB15 connector. There is, however, another signal ...
MTX‐3G‐JAVA Family Receiver sensitivity: ‐93dBm Integrated antenna BGAPI host protocol BGScript programming for standalone applications Bluetooth Smart (low energy) support L2CAP, ATT, GTT, GAP and Security Manager Bluetooth Smart profiles Client and master mode 100kbps+ throughput Over‐the‐air firmware upgrade You can find more information about using the module and how to communicate with it by consulting the module specific user manual available at ftp.matrix.es or by asking our engineers at ...
MTX‐3G‐JAVA Family 4.13.4 ISM (868/900MHz) This option is only available upon request. Please contact gsmsupport@matrix.es for further information. 4.13.5 WiFi This option is only available upon request. Please contact gsmsupport@matrix.es for further information. 4.13.6 ZigBee This option is only available upon request. Please contact gsmsupport@matrix.es for further ...
MTX‐3G‐JAVA Family 5. Operation 5.1 Switching on the modem. New “Automatic restart after shutdown” feature There is no special way to turn the modem on: just apply power to the VIN terminal via a power connector (see Section 4.1). The modem will be fully operational after 4 to 9 seconds. Logging onto a network may take longer than this and is out of the modem’s control. The Automatic Restart after Shutdown feature is enabled as part of the default factory settings. This means that if/when the modem has to be switched off, due to a critical power supply, the modem will restart itself within a few seconds. This feature allows an application to be switched on all the time and also allows it to restart itself. The Automatic Restart after Shutdown feature cannot be disabled in the base MTX‐3G‐JAVA and ULP models. In RS485 models there is an AUTO_ON terminal in the Power Connector (see ...
MTX‐3G‐JAVA Family 5.3 Ultra Low Power mode MTX‐3G‐JAVA‐ULP modems can enter into an Ultra Low Power mode. In this mode, all the board devices are disconnected from the power supply, except a little portion of digital logic and the RTC that allows the modem to exit from this mode and go back into the normal mode. The first time the MTX‐3G‐JAVA‐ULP modem is powered up, it will switch on normally. When an ULP modem enters in power down mode, you can wake up again in several ways: By optoisolated inputs (see Section 4.1.3): there are two active‐high inputs and two active‐ low inputs allowing the modem to power up again. By the RTC alarm (see Section 4.10): you can configure the RTC to power on the modem at a specified date and time It is possible to know if the modem has been woken up by inputs or the RTC alarm by reading the status latches with AT commands or the Java application. WAKEUP input GPIO number Wake‐up 1 GPIO 6 ...
MTX‐3G‐JAVA Family 5.5 Status LEDs The MTX‐3G‐JAVA modem family has a bicolor status LED (green and red). The green color LED is handled automatically by the modem and indicates its different operating modes, as shown in table below. The LED mode configuration is set by the AT^SLED command. <mode>=2 <mode>=2 Terminal status <mode>=1 <flash>=default <flash>=user defined GSM CS data call in progress or established GSM voice call in progress or established 10ms ON <flash> ms ON Permanently ON 990ms OFF 990 ms OFF UMTS voice call in progress or established ...
MTX‐3G‐JAVA Family 6. AT command interpreter After a successful installation of the EHS6 driver package, the physical USB interface of the modem is represented in the operating system by two virtual interfaces, each assigned to a virtual COM port of its own: ‐ Modem interface: This interface is referred to as "Modem" if queried using the AT^SQPORT command. In the quick reference tables it is named USB0‐MDM. The Modem interface is intended particularly for data transmission (UMTS or GPRS). All URCs are normally issued on the Application interface. URCs related to data calls (RING, NO ...
7. Embedded applications The MTX‐3G‐JAVA can embed an internal application written in popular JAVA language. Java technology and several peripheral interfaces on the modem allow you to easily integrate your application. This way, the customer application can be reduced because all the resources ...
MTX‐3G‐JAVA Family 7.1 MTX‐Tunnel software application If you are not a JAVA expert and you do not have experts on hand in your company, we have a readily compiled JAVA code which fits into 99% of M2M applications: MTX‐TUNNEL. This is optional and must be ordered separately. MTX‐TUNNEL is an application running in the GSM/GPRS/UMTS modems and is based on the Cinterion EHS6 module which is designed for communicating with remote devices that have RS232/I2C ports. Frequently, remote meters, network switches, routers or other devices need to connect to the network, but they only have a n RS232 port and the only possible way to reach them is using the GSM/GPRS Network. MTX‐TUNNEL is ready‐to‐go solution for such cases. ...
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MTX‐3G‐JAVA Family Features: • GPRS‐SERIAL TUNNEL o TCP Client o TCP Server o UDP Client / Server • GPRS connection modes: o Permanent mode o Upon request (SMS or missed calls, authorized or blocked phone numbers) o Change on an input digital level o An analog input is out of the selected level window (MIN, MAX) o Serial data present on RS232/RS485 port ...
• Never try to dismantle the modem yourself. There are no components inside the modem that can be serviced by the user. If you attempt to dismantle the modem, you may invalidate the warranty. • The MTX‐3G‐JAVA Terminal must not be installed nor located in areas where the surface temperature of the plastic case could exceed 85°C. www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 82 109 ...
MTX‐3G‐JAVA Family • In order to provide strain relief and to avoid transmitting excessive vibration to the modem during installation, all cables connected to the MTX‐3G‐JAVA Terminal must be secured or clamped immediately adjacent to the modem's connectors. • To protect the power supply cables, and in order to comply with 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‐3G‐JAVA ...
MTX‐3G‐JAVA Family • 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 ...
When an application is completed, you can verify the signal strength by issuing the AT command AT+CSQ. Tip! Before installing the modem, use an ordinary mobile telephone to check a possible location for it. In determining the location for the modem and antenna, you should consider signal strength as well as cable length. 9.1.3 Connections of components to MTX‐3G‐JAVA Terminal The user is responsible for the final integrated system. If not correctly designed or installed, external components may cause radiation limits to be exceeded. For instance, improperly made connections or improperly installed antennas can disturb the network and lead to malfunctions in the modem or equipment. 9.1.4 Network and subscription Before your application is used, you must ensure that your chosen network provides the necessary telecommunication services. Contact your service provider to obtain the necessary information. • If you intend to use SMS in the application, ensure this is included in your (voice) ...
When the unit is powered from a battery or a high current supply, connect a fast 1.25A fuse in line with the positive supply. This protects the power cabling and modem. 9.2.2 Securing the modem Before securing the modem take into account the amount of additional space required for the mating connectors and cables that will be used in the application. • Where access is restricted, it may be easier to connect all the cables to the modem prior to securing it in the application. • Securely attach the MTX‐3G‐JAVA Terminal modem to the host application using two 3mm diameter pan‐head screws 9.3 Antenna 9.3.1 General The antenna is the component in your system that maintains the radio link between the network and the modem. Since the antenna transmits and receives electromagnetic energy, its efficient function will depend on: • The type of antenna (for example, circular or directional); ...
MTX‐3G‐JAVA Family 9.3.3 Antenna placement The antenna should be placed away from electronic devices and other antennas. The recommended minimum distance between adjacent antennas, operating in a similar radio frequency band, is at least 50cm. If the signal strength is weak, it is useful to face a directional antenna towards the closest radio base station. This can increase the strength of the signal received by the modem. The modem’s peak output power can reach 2W. RF field strength varies with antenna type and distance. At 10cm from the antenna the field strength may be up to 70V/m and at 1m it will have reduced to 7V/m. In general, CE‐marked products for ...
28019 Madrid Spain 10.1 Standards of European Type Approval We declare under our sole responsibility that the products MTX‐3G‐JAVA Terminal 0 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 ...
MTX‐3G‐JAVA Family 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 10.2 PTCRB approval PTCRB is the regional approval needed in North American Market. MTX‐3G‐JAVA is now PTCRB Certified: ...
MTX‐3G‐JAVA Family 10.3 FCC Compliant MTX‐3G‐JAVA 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 ...
Network selection testing The MTX‐3G‐JAVA device was not observed to cause any adverse problems to the AT&T network when activated and used in the lab. The MTX‐3G‐JAVA is certified for both CS and PS services (as applicable). Any change to the mode of operation invalidates the AT&T Certification www.mtx‐terminals.com www.mtxm2m.com ...
MTX‐3G‐JAVA Family 11. Declaración de conformidad (Spanish) MATRIX ELECTRONICA S.L.U. C/ Alejandro Sanchez 109 28019 Madrid Spain 11.1 Estándares de homologación europea Declaramos bajo nuestra responsabilidad que los productos MTX‐3G‐JAVA que contienen un modulo 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 ...
MTX‐3G‐JAVA Family 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 ...
MTX‐3G‐JAVA Family 11.3 Conformidad FCC MTX‐3G‐JAVA 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 11.3.1 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 ...
MTX‐3G‐JAVA Family 11.4 Certificación AT&T AT&T ha realizado los test aplicables al terminal MTX‐3G‐JAVA. Esto incluye las siguientes comprobaciones: Impactos negatives en la red inalámbrica de AT&T Confirmación del cumplimiento de la normativa básica aplicable Prueba de RF contra los distintos components usados en la red de AT&T Prueba de selección de red El dispositivo MTX‐3G‐JAVA no ha evidenciado ni causado ningún tipo de problema en la red de AT&T cuando ha sido activado y utilizado en el laboratorio. El MTX‐3G‐JAVA está certificado para servicios CS y PS. Cualquier cambio en el modo de operación del equipo invalidará la certificación de AT&T. www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 95 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 12. Regulatory and type approval information 12.1 Directives and standards The MTX‐3G‐JAVA 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) Directive of the European Parliament and of the Council of 27 January 2003 (and revised on 8 June 2011/65/EC (RoHS 2) 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 ...
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MTX‐3G‐JAVA Family 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+ Safety of information technology equipment A11:2009+A1:2010+ A12:2011 Requirements of quality IEC 60068 Environmental testing DIN EN 60529 IP codes Standards of the Ministry of Information Industry of the People’s Republic of China SJ/T 11363‐2006 “Requirements for Concentration Limits for Certain Hazardous Substances in Electronic Information Products” (2006‐06). SJ/T 11364‐2006 “Marking for Control of Pollution Caused by Electronic Information Products” (2006‐06). According to the “Chinese Administration on the Control of Pollution caused by Electronic Information Products” (ACPEIP) the EPUP, i.e., Environmental Protection 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. ...
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 centimeters is normally maintained between the transmitter’s radiating structure(s) and the user’s body or that of nearby persons. In this context, the term “fixed location” means that the device is physically secured at one location and cannot be easily moved to another location. 12.3 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. www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 98 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...
MTX‐3G‐JAVA Family 13. RoHS Statement The MTX‐3G‐JAVA 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). 14. 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, ...
MTX‐3G‐JAVA Family 15. Abbreviations Abbreviation Description ADC Analog‐to‐digital converter AGC Automatic Gain Control ANSI American National Standards Institute ARFCN Absolute Radio Frequency Channel Number ARP Antenna Reference Point ASC0/ASC1 Asynchronous Controller. Abbreviations used for first and second serial interface of EHS6 B Thermistor Constant BER Bit Error Rate BTS Base Transceiver Station CB or CBM Cell Broadcast Message CE Conformité Européene (European Conformity) CHAP Challenge Handshake Authentication Protocol CPU Central Processing Unit CS Coding Scheme CSD Circuit Switched Data CTS Clear to Send DAC Digital‐to‐Analog Converter ...
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MTX‐3G‐JAVA Family FR Full Rate GMSK Gaussian Minimum Shift Keying GPIO General Purpose Input/Output GPRS General Packet Radio Service GSM Global Standard for Mobile Communications HiZ High Impedance HR Half Rate HSDPA High Speed Downlink Packet Access I/O Input/Output IC Integrated Circuit IMEI International Mobile Equipment Identity ISO International Standards Organization ITU International Telecommunications Union kbps kbits per second LED Light Emitting Diode Li‐Ion/Li+ Lithium‐Ion Li battery Rechargeable Lithium Ion or Lithium Polymer battery LPM Link Power Management MBB Moisture barrier bag ...
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MTX‐3G‐JAVA Family PU Pull Up resistor (appr. 100k) PWM Pulse Width Modulation QAM Quadrature Amplitude Modulation R&TTE Radio and Telecommunication Terminal Equipment RAM Random Access Memory RF Radio Frequency RLS Radio Link Stability RMS Root Mean Square (value) RoHS Restriction of the use of certain hazardous substances in electrical and electronic equipment. ROM Read‐only Memory RTC Real Time Clock RTS Request to Send Rx Receive Direction SAR Specific Absorption Rate SAW Surface Acoustic Wave SELV Safety Extra Low Voltage SIM Subscriber Identification Module SMD Surface Mount Device SMS Short Message Service ...
MTX‐3G‐JAVA Family 16. AT command summary The AT standard is a line‐oriented command language. AT is an abbreviation of ATtention and it is always used to send a command line from the terminal equipment (TE) to the terminal adaptor (TA). The command line consists of a string of alphanumeric characters. It is sent to the MTX‐3G‐JAVA to instruct it to perform the commands specified by the characters. The AT commands listed below are supported from within the MTX‐3G‐JAVA. The AT Command Set manual can be downloaded from the MTX‐3G‐JAVA web page at www.mtxm2m.com. AT Command Description +++ Switch from data mode or PPP online mode to command mode A/ Repeat Previous Command Line AT&C Set Data Carrier Detect (DCD) Line Mode AT&D Set Data Terminal Ready (DTR) Line Mode AT&F Reset AT Command Settings to Factory Default Values AT&S Set Data Set Ready (DSR) Line Mode ...
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MTX‐3G‐JAVA Family AT+CGQMIN Quality of Service Profile (Minimum acceptable) AT+CGQREQ Quality of Service Profile (Requested) AT+CGREG Packet Domain Network Registration Status AT+CGSMS Select service for MO SMS messages AT+CGSN Request International Mobile Equipment Identity (IMEI) AT+CHLD Call Hold and Multiparty AT+CHUP Hang up call AT+CIMI Request International Mobile Subscriber Identity (IMSI) AT+CLCC List of current calls AT+CLCK Facility lock AT+CLIP Calling Line Identification Presentation AT+CLIR Calling Line Identification Restriction AT+CMEE Error Message Format AT+CMGC Send SMS Command AT+CMGD Delete short message AT+CMGF Select SMS message format AT+CMGL List SMS messages from preferred store AT+CMGR Read SMS messages AT+CMGS Send SMS ...
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MTX‐3G‐JAVA Family AT+CREG Network Registration Status AT+CRLP Configure RLP Parameters for Outgoing Non‐Transparent Data Calls AT+CRSM Restricted SIM Access AT+CSCA SMS Service Center Address AT+CSCB Select Cell Broadcast Message Indication AT+CSCS Character Set AT+CSDH Show SMS text mode parameters AT+CSIM Generic USIM Access AT+CSMP Set SMS Text Mode Parameters AT+CSMS Select Message Service AT+CSQ Signal quality AT+CSSN Supplementary service notifications AT+CSTA Select type of address AT+CSVM Set voice mail number AT+CTZR Time Zone Reporting AT+CTZU Automatic Time Zone Update AT+CUSD Unstructured Supplementary Service Data AT+GSN Request International Mobile Equipment Identity (IMEI) AT+IPR Bit Rate ...
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MTX‐3G‐JAVA Family AT^SISI Internet Service Information AT^SISO Internet Service Open AT^SISR Internet Service Read Data AT^SISS Internet Service Setup Profile AT^SIST Enter Transparent Access Mode AT^SISW Internet Service Write Data AT^SISX Internet Service Execution AT^SJAM Manage Java Application AT^SJDL Java Download AT^SJMSEC Java Midlet Security AT^SJNET Set Dialup Network Access Parameters AT^SJOTAP Over The Air Application Provisioning AT^SJRA Run Java Application AT^SLED LED Feature AT^SMGL List Short Messages from preferred store without setting status to REC READ AT^SMGR Read short message without setting status to REC READ AT^SMONI Monitoring Serving Cell AT^SMONP Monitoring Neighbour Cells AT^SMSO Switch Off EHS6 ...
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MTX‐3G‐JAVA Family ATE AT Command Echo ATH Disconnect existing connection ATI Display product identification information ATL Set monitor speaker loudness ATO Switch from command mode to data mode / PPP online mode ATQ Result Code Presentation Mode ATS0 Set number of rings before automatically answering a call ATS10 Set disconnect delay after indicating the absence of data carrier ATS3 Command Line Termination ATS4 Response Formatting ATS5 Command Line Editing ATS6 Set pause before blind dialing ATS7 Set number of seconds to wait for connection completion ATS8 Comma Dial Pause Time ATV Result code format mode ATX CONNECT Result Code Format ATZ Restore AT Command Settings from User Defined Profile www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 ...
MTX‐3G‐JAVA Family 17. Accessories The MTX‐3G‐JAVA has a wide range of available accessories, including: Power supplies All type of antennas (indoor, outdoor, high gain, etc…) Cables and DIN adapters The MTX‐3G‐JAVA is shipped without any accessories. Please visit the following web sites to see the full range of accessories: www.mtxm2m.com www.mtx‐terminals.com www.mtxm2m.com 2015/10 v1.6 Page 108 109 MTX M2M® by MATRIX ELECTRONICA S.L.U ...