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Gemalto Cinterion PLS62T-W USB Hardware Interface Description

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Cinterion
Hardware Interface Description
Version:
01
DocId:
PLS62T-W_HID_v01
Java Terminal
 M2M.GEMALTO.COM

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Summary of Contents for Gemalto Cinterion PLS62T-W USB

  • Page 1 ® Cinterion Java Terminal Hardware Interface Description Version: DocId: PLS62T-W_HID_v01  M2M.GEMALTO.COM...
  • Page 2 Copyright © 2018, Gemalto M2M GmbH, a Gemalto Company Trademark Notice Gemalto, the Gemalto logo, are trademarks and service marks of Gemalto and are registered in certain countries. Microsoft and Windows are either registered trademarks or trademarks of Microsoft Corpora- tion in the United States and/or other countries.

  • Page 3: Table Of Contents

    ® Cinterion Java Terminal Hardware Interface Description Page 3 of 91 Contents Contents Document History ...................... 8 Introduction ......................... 9 Related Documents ..................10 Terms and Abbreviations ................. 10 Regulatory and Type Approval Information ............. 12 1.3.1 Directives and Standards..............12 1.3.2 Safety Precautions................
  • Page 4 Mechanical Dimensions ................... 53 Mounting the Java Terminal................56 Packaging ......................57 Full Type Approval....................58 Gemalto M2M Reference Setup ..............58 Restrictions ...................... 59 CE Conformity....................59 EMC ......................... 59 Compliance with FCC and IC Rules and Regulations ........60 List of Parts and Accessories..................
  • Page 5 ® Cinterion Java Terminal Hardware Interface Description Page 5 of 91 Contents Appendix B: Ethernet Setup and Usage ..............84 Connection Setup .................... 84 Connection Usage ................... 86 9.2.1 Access LTE Terminal via Telnet (or SSH) .......... 86 9.2.2 Access LTE Terminal via FTP ............87 9.2.3 Security Notes..................
  • Page 6 ® Cinterion Java Terminal Hardware Interface Description Page 6 of 91 Tables Tables ® Table 1: Cinterion Java Terminal overview ..............9 Table 2: Terms and abbreviations................. 10 Table 3: Directives ......................12 Table 4: Standards of North American type approval ........... 12 Table 5: Standards of European type approval.............
  • Page 7 ® Cinterion Java Terminal Hardware Interface Description Page 7 of 91 Figures Figures Figure 1: Sample Java Terminal label PLS62T-W USB..........17 Figure 2: Java Terminal 3D view..................22 Figure 3: Block diagram ....................23 Figure 4: Java Terminal circuit block diagram..............24 Figure 5: Pin assignment RS-232 (D-sub 9-pole female)..........

  • Page 8: Document History

    ® Cinterion Java Terminal Hardware Interface Description Page 8 of 91 0 Document History Document History ® New document: "Cinterion Java Terminal Hardware Interface Description" Version 01 Chapter What is new Initial document setup.  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...

  • Page 9: Introduction

    Industrial standard interfaces and an integrated SIM card reader allow using the Java Terminal easily as GSM/GPRS/UMTS terminal. 1. The document is effective only if listed in the appropriate Release Notes as part of the technical docu- mentation delivered with your Gemalto M2M product.  PLS62T-W_HID_v01...

  • Page 10: Related Documents

    1.1 Related Documents Related Documents AT Command Set for your Java Terminal product Release Notes for your Java Terminal product To visit the Gemalto M2M GmbH Website please use the following link: http://m2m.gemalto.com Terms and Abbreviations Table 2: Terms and abbreviations...
  • Page 11 ® Cinterion Java Terminal Hardware Interface Description Page 11 of 91 1.2 Terms and Abbreviations Table 2: Terms and abbreviations Abbreviation Description kbps kbits per second Low voltage Directive Mbps Mbits per second Microprocessor Controll Unit Machine Machine Interface Mobile Originated Mobile Station Mobile Terminated Not Connected...

  • Page 12: Regulatory And Type Approval Information

    ® Cinterion Java Terminal Hardware Interface Description Page 12 of 91 1.3 Regulatory and Type Approval Information Regulatory and Type Approval Information 1.3.1 Directives and Standards Java Terminal have been designed to comply with the directives and standards listed below Table 3: Directives 2014/53/EU Directive of the European Parliament and of the council of 16 April 2014...

  • Page 13: Table 6: Requirements Of Quality

    ® Cinterion Java Terminal Hardware Interface Description Page 13 of 91 1.3 Regulatory and Type Approval Information Table 5: Standards of European type approval Draft ETSI EN 301 489-1 ElectroMagnetic Compatibility (EMC) standard for radio equipment and V2.2.0 services; Part 1: Common technical requirements; Harmonized Standard covering the essential requirements of article 3.1(b) of Directive 2014/53/ EU and the essential requirements of article 6 of Directive 2014/30/EU Draft ETSI EN 301 489-52...

  • Page 14: Table 7: Standards Of The Ministry Of Information Industry Of The People's Republic Of China

    ® Cinterion Java Terminal Hardware Interface Description Page 14 of 91 1.3 Regulatory and Type Approval Information Table 7: 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 Sub- stances in Electronic Information Products”...

  • Page 15: Safety Precautions

    Failure to comply with these precautions violates safety standards of design, manufacture and intended use of the product. Gemalto M2M GmbH assumes no liability for customer’s failure to comply with these precautions.
  • Page 16 ® Cinterion Java Terminal Hardware Interface Description Page 16 of 91 1.3 Regulatory and Type Approval Information IMPORTANT! Cellular terminals or mobiles operate using radio signals and cellular networks. In that case connections cannot be guaranteed at all times under all conditions. There- fore, you should never rely solely upon any wireless device for essential communi- cations, for example emergency calls.

  • Page 17: Product Label

    ® Cinterion Java Terminal Hardware Interface Description Page 17 of 91 1.4 Product Label Product Label The label fixed to the bottom of a Java Terminal comprises the following information. Figure 1: Sample Java Terminal label PLS62T-W USB Table 9: Java Terminal label information Information Cinterion logo Product name...

  • Page 18: Product Concept

    ® Cinterion Java Terminal Hardware Interface Description Page 18 of 91 2 Product Concept Product Concept Key Features at a Glance Feature Implementation General ® Incorporates Cinterion The Java module handles all signal and data processing within the Java Java module Terminal.
  • Page 19 V.110, RLP, non-transparent • 2.4, 4.8, 9.6, 14.4kbps • USSD • Point-to-point MT and MO • Cell broadcast • Text and PDU mode Software AT commands Hayes 3GPP TS 27.007, TS 27.005, Gemalto M2M  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...
  • Page 20 ® Cinterion Java Terminal Hardware Interface Description Page 20 of 91 2.1 Key Features at a Glance Feature Implementation Java™ Open Platform Java™ Open Platform with • Java™ profile IMP-NG & CLDC 1.1 HI • Secure data transmission via HTTPS/SSL •...
  • Page 21 ® Cinterion Java Terminal Hardware Interface Description Page 21 of 91 2.1 Key Features at a Glance  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...

  • Page 22: Interface Description

    ® Cinterion Java Terminal Hardware Interface Description Page 22 of 91 3 Interface Description Interface Description Overview Java Terminal provide the following interfaces for power supply, antenna, SIM card and data transfer: Table 10: Java Terminal‘ interfaces Description 6-pin Western connector (female) for power supply, ignition, power down signal 8-pin (female) RJ-45 Ethernet connector (PLS62T-W LAN only) 9-pin (female) D-sub connector (RS-232 interface) SMA connector (female) for RF antenna...

  • Page 23: Block Diagram

    ® Cinterion Java Terminal Hardware Interface Description Page 23 of 91 3.2 Block Diagram Block Diagram Figure 3 shows a block diagram of a sample configuration that incorporates a Java Terminal and typical accessories. Antenna RF antenna interface RF antenna interface RS-232 driver...

  • Page 24: Terminal Circuit

    ® Cinterion Java Terminal Hardware Interface Description Page 24 of 91 3.3 Terminal Circuit Terminal Circuit Figure 4 shows a general Java Terminal block diagram that includes all variants. Not every interface is available for all Terminal products. Vreg WD_RETRIG (GPIO8) (Hardware ) Level -...

  • Page 25: Operating Modes

    ® Cinterion Java Terminal Hardware Interface Description Page 25 of 91 3.4 Operating Modes Operating Modes The table below briefly summarizes the various operating modes referred to in the following chapters. Table 11: Overview of operating modes Normal operation GSM IDLE Software is active.

  • Page 26: Rs-232 Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 26 of 91 3.5 RS-232 Interface RS-232 Interface The interface is implemented as a serial asynchronous transmitter and receiver conforming to ITU-T V.24 Interchange Circuits DCE. It is configured for 8 data bits, no parity and 1 stop bit, and can be operated at bit rates from 1200bps to 921kbps.

  • Page 27: Usb Interface (Pls62T-W Usb)

    ® Cinterion Java Terminal Hardware Interface Description Page 27 of 91 3.6 USB Interface (PLS62T-W USB) In addition, the modem control signals DTR0, DSR0, DCD0 and RING0 are available. The mo- dem control signal RING0 (Ring Indication) can be used to indicate, to the cellular device ap- plication, that a call or Unsolicited Result Code (URC) is received.

  • Page 28: Ethernet Interface (Pls62T-W Lan)

    ® Cinterion Java Terminal Hardware Interface Description Page 28 of 91 3.7 Ethernet Interface (PLS62T-W LAN) Ethernet Interface (PLS62T-W LAN) The Ethernet interface is available only on PLS62T-W LAN. 1 2 3 4 5 6 7 8 Green LED (Link/Activity) Figure 6: 8-pole RJ-45 Ethernet connector (female) Table 13: Female 8-pole RJ-45 Ethernet connector Signal name...

  • Page 29: Gpio Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 29 of 91 3.8 GPIO Interface GPIO Interface The GPIO connectors (8-pin and 12-pin) provide access to various module signals including a number of configurable GPIOs. Note that not all of the pins are available for every Java Termi- nal variant.

  • Page 30: Serial Interface Asc1

    ® Cinterion Java Terminal Hardware Interface Description Page 30 of 91 3.8 GPIO Interface Table 14: GPIO connector pin availability and alternate pin functionalities PIN Signal Comment PLS62T-W 12-pin connector  VCCref Input supply for level adjustment. E.g., connect +5Vout for 5V IO operation ...

  • Page 31: I 2 C Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 31 of 91 3.8 GPIO Interface 3.8.2 C Interface Two lines of the Java Terminal‘ GPIO connector are I C lines. I C 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.

  • Page 32: Spi Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 32 of 91 3.8 GPIO Interface 3.8.3 SPI Interface For the Java Terminal four GPIO interface pins can be configured as Serial Peripheral Interface (SPI). The SPI is a synchronous serial interface for control and data transfer between Java Ter- minal and the external application.

  • Page 33: Pwm Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 33 of 91 3.8 GPIO Interface 3.8.4 PWM Interface The GPIO6 and GPIO7 pins at the GPIO connector can be configured as Pulse Width Modu- lation signals PWM1 and PWM2 by AT^SCFG command - see [1]. The PWM interface lines are output lines and can be used, for example, to connect buzzers.

  • Page 34: Power Supply

    ® Cinterion Java Terminal Hardware Interface Description Page 34 of 91 3.9 Power Supply Power Supply The Java Terminal power supply via Western jack has to be a single voltage source of =8V…30V capable of providing a peak current (pulsed 2x577ms at T=4.615ms) of about PLUS 1.2A at 8V during an active transmission .

  • Page 35: Power Up/Power Down Scenarios

    3.10 Power Up/Power Down Scenarios Mains adapter: If it fits into the design of your application we recommend the plug-in supply unit used with the type approved Gemalto M2M reference setup. Ordering information can be found Chapter 7. This 12V mains adapter comes with a 6-pole Western plug and provides an inter- nal connection between IGT_IN pin and PLUS pin.

  • Page 36: Turn Java Terminal Off

    ® Cinterion Java Terminal Hardware Interface Description Page 36 of 91 3.10 Power Up/Power Down Scenarios connection between IGT_IN and PLUS, it is ensured that the module will automatically restart after a normal shutdown using AT^SMSO. Emergency restart: • Finally, Java Terminal can be reset/restarted in the event of software hang-ups etc. by applying a voltage >8V to the RST_IN pin (pin 3) for more than 10ms.

  • Page 37: Automatic Thermal Shutdown

    ® Cinterion Java Terminal Hardware Interface Description Page 37 of 91 3.11 Automatic thermal shutdown 3.11 Automatic thermal shutdown An on-board NTC measures the temperature of the built-in Java module. If over- or undertem- perature is detected on the module the Java Terminal automatically shut down to avoid thermal damage to the system.

  • Page 38: Sim Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 38 of 91 3.14 SIM Interface 3.14 SIM Interface The SIM interface is intended for 1.8V and 3V SIM cards in accordance with GSM 11.12 Phase 2. The card holder is a five wire interface according to GSM 11.11. A sixth pin has been added to detect whether or not a SIM card is inserted.

  • Page 39: Status Leds

    ® Cinterion Java Terminal Hardware Interface Description Page 39 of 91 3.15 Status LEDs 3.15 Status LEDs Java Terminal have two LEDs indicating its operating states through the semitransparent cas- ing: • A green LED indicates whether the Java Terminal are ready to operate and reports certain watchdog operations.

  • Page 40: Rf Antenna Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 40 of 91 3.16 RF Antenna Interface 3.16 RF Antenna Interface The external RF antennas are connected via the Java Terminal’s female SMA connectors that is also the antenna reference point (ARP). Figure 12: Antenna connectors ...

  • Page 41: Pls62T-W_Hid_V01

    ® Cinterion Java Terminal Hardware Interface Description Page 41 of 91 4 Electrical and Environmental Characteristics Electrical and Environmental Characteristics Absolute Maximum Ratings Table 17: Absolute maximum ratings Parameter Port / Description Min. Max. Unit Supply voltage PLUS Overvoltage PLUS / for 1min Input voltage for on/off IGT_IN, RST_IN control lines...

  • Page 42: Electrical Specifications Of The Application Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 42 of 91 4.2 Electrical Specifications of the Application Interface Electrical Specifications of the Application Interface 4.2.1 On/Off Control Table 19: On/Off control line specifications Parameter Description Conditions Min. Max. Unit Input voltage active high high IGT_IN, RST_IN...

  • Page 43: Gpio Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 43 of 91 4.2 Electrical Specifications of the Application Interface 4.2.4 GPIO Interface Table 21: GPIO interface specifications (requirements) Function Signal name Signal form and level Comment 8-pin, 12- GPIO 6-8 max = 0.1V at I = 100µA If unused keep lines pin connec- GPIO 11-13...

  • Page 44: Ethernet Interface (Pls62T-W Lan)

    ® Cinterion Java Terminal Hardware Interface Description Page 44 of 91 4.2 Electrical Specifications of the Application Interface Table 21: GPIO interface specifications (requirements) Function Signal name Signal form and level Comment 8-pin, 12- I2CDAT Open drain IO According to the I C Bus pin connec- min = 0.3V at I = -3mA...

  • Page 45: Power Supply Ratings

    ® Cinterion Java Terminal Hardware Interface Description Page 45 of 91 4.3 Power Supply Ratings Power Supply Ratings Table 22: Power supply specifications Para- Description Conditions Unit meter PLS62T-W Allowed voltage ripple Power control level for P PLUS (peak-peak), drop during transmit burst peak current Average supply current...
  • Page 46 ® Cinterion Java Terminal Hardware Interface Description Page 46 of 91 4.3 Power Supply Ratings Table 22: Power supply specifications Para- Description Conditions Unit meter PLS62T-W Peak supply current Power control 1130 PLUS (during 577µs transmis- level for Pout max @30V 270 sion slot every 4.6ms) (850/900MHz)
  • Page 47 ® Cinterion Java Terminal Hardware Interface Description Page 47 of 91 4.3 Power Supply Ratings Table 22: Power supply specifications Para- Description Conditions Unit meter PLS62T-W Average LTE supply IDLE PLUS current (average time 3 min.) @30V @57V --- LTE DATA Band 1, 23dBm @30V @57V ---...
  • Page 48 ® Cinterion Java Terminal Hardware Interface Description Page 48 of 91 4.3 Power Supply Ratings Table 22: Power supply specifications Para- Description Conditions Unit meter PLS62T-W LTE DATA PLUS Band 18, 23dBm @30V @57V --- LTE DATA Band 19, 23dBm @30V @57V --- LTE DATA...

  • Page 49: Operating Temperatures

    ® Cinterion Java Terminal Hardware Interface Description Page 49 of 91 4.4 Operating Temperatures Operating Temperatures Table 23: Temperature characteristics Parameter Typical Unit Normal operation °C Extended operation -40 to -30 +85 to +90 °C Automatic thermal shutdown <-40 >+90 °C Thermal resistance (R 2G operation (with P...

  • Page 50: Antenna Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 50 of 91 4.5 Antenna Interface Antenna Interface Table 24 lists RF antenna interface specifications for the Java Terminal. Please note that the specified conditions may not apply to or be supported by all terminals. Table 24: RF Antenna interface GSM / UMTS / LTE Parameter Conditions...
  • Page 51 ® Cinterion Java Terminal Hardware Interface Description Page 51 of 91 4.5 Antenna Interface Table 24: RF Antenna interface GSM / UMTS / LTE Parameter Conditions Min. Typical Max. Unit RF Power @ GPRS, 1 TX GSM 850 / E-GSM 900 GSM 1800 / GSM 1900 with 50Ohm Load,...

  • Page 52: Storage Conditions

    ® Cinterion Java Terminal Hardware Interface Description Page 52 of 91 4.6 Storage Conditions Storage Conditions Table 25: Storage conditions Type Condition Unit Reference Air temperature: °C ETS 300 019-2-1: T1.2, IEC 60068-2-1 Ab High ETS 300 019-2-1: T1.2, IEC 60068-2-2 Bb Humidity relative: High 90 at 30°C...

  • Page 53: Mechanics, Mounting And Packaging

    ® Cinterion Java Terminal Hardware Interface Description Page 53 of 91 5 Mechanics, Mounting and Packaging Mechanics, Mounting and Packaging Mechanical Dimensions Figure 13 shows a 3D view of the Java Terminal and provides an overview of the mechanical dimensions of the board. For further details see Figure 14 Figure 15.

  • Page 54: Figure 14: Java Terminal Mechanical Dimensions

    ® Cinterion Java Terminal Hardware Interface Description Page 54 of 91 5.1 Mechanical Dimensions Figure 14: Java Terminal mechanical dimensions  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...

  • Page 55: Figure 15: Java Terminal Exploded View

    ® Cinterion Java Terminal Hardware Interface Description Page 55 of 91 5.1 Mechanical Dimensions Figure 15: Java Terminal exploded view  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...

  • Page 56: Mounting The Java Terminal

    ® Cinterion Java Terminal Hardware Interface Description Page 56 of 91 5.2 Mounting the Java Terminal Mounting the Java Terminal There are a number of ways to mount the Java Terminal: • Java Terminal can be attached to a rail installation or other surface using the two provided screw holes for screws, e.g., size M3.

  • Page 57: Packaging

    ® Cinterion Java Terminal Hardware Interface Description Page 57 of 91 5.3 Packaging Packaging Java Terminal come in terminal boxes: • Terminal box size: 191mm x 143mm x 44mm.  PLS62T-W_HID_v01 2018-06-20 Confidential / Prelimenary...

  • Page 58: Full Type Approval

    Java Terminal Hardware Interface Description Page 58 of 91 6 Full Type Approval Full Type Approval Gemalto M2M Reference Setup The Gemalto M2M reference setup submitted to type approve Java Terminal consists of the following components: • Java Terminal with approved Java module •...

  • Page 59: Restrictions

    ® Cinterion Java Terminal Hardware Interface Description Page 59 of 91 6.2 Restrictions Restrictions Later enhancements and modifications beyond the certified configuration require extra approv- als. Each supplementary approval process includes submittal of the technical documentation as well as testing of the changes made. •...

  • Page 60: Compliance With Fcc And Ic Rules And Regulations

    • Consult the dealer or an experienced radio/TV technician for help. Changes or modifications made to this equipment not expressly approved by Gemalto M2M may void the FCC authorization to operate this equipment. This device contains UMTS, GSM and GPRS class functions in the 900, 1800 and 2100MHz bands that are not operational in U.S.
  • Page 61 ® Cinterion Java Terminal Hardware Interface Description Page 61 of 91 6.5 Compliance with FCC and IC Rules and Regulations Notes (IC): (EN) This Class B digital apparatus complies with Canadian ICES-003 and RSS-210. Opera- tion is subject to the following two conditions: (1) this device may not cause interference, and (2) this device must accept any interference, including interference that may cause undesired operation of the device.

  • Page 62: List Of Parts And Accessories

    7 List of Parts and Accessories List of Parts and Accessories Table 26: List of parts and accessories Description Supplier Ordering information Java Terminal Gemalto M2M Ordering number PLS62T-W USB: L30960-Nxxxx-A100 PLS62T-W LAN: L30960-Nxxxx-A100 Power supply unit Gemalto M2M Terminal Power Supply (incl. EU adapter)

  • Page 63: Appendix A: (Hardware) Watchdog

    ® Cinterion Java Terminal Hardware Interface Description Page 63 of 91 8 Appendix A: (Hardware) Watchdog Appendix A: (Hardware) Watchdog The watchdog is part of the Java Terminal and connected to the Java module itself (see also Figure 4). It can be used to •...

  • Page 64: Reset Conditions

    ® Cinterion Java Terminal Hardware Interface Description Page 64 of 91 8.1 Reset Conditions Reset Conditions The watchdog implements three conditions, under which a reset of the module is automatically performed: • Repetitive: A module reset is performed frequently and repetitive. This reset condition can be used to force the module to reconnect to the mobile network once in a while.

  • Page 65: Reset Delay

    ® Cinterion Java Terminal Hardware Interface Description Page 65 of 91 8.2 Restart Conditions 8.1.2 Reset Delay The watchdog implements a protection mechanism to prevent too frequent module resets. When the delayed reset mechanism is enabled, the watchdog will start its activity only after the specified amount of time, MIN_START_TIME.

  • Page 66: Complete Watchdog Configuration

    ® Cinterion Java Terminal Hardware Interface Description Page 66 of 91 8.3 Complete Watchdog Configuration Complete Watchdog Configuration The complete hardware watchdog functionality can be configured via the TXD0 line of the serial interface ASC0 as described in this section. The watchdog listens on the TXD0 line exclusively at the low baudrate 1200bps.
  • Page 67 ® Cinterion Java Terminal Hardware Interface Description Page 67 of 91 8.3 Complete Watchdog Configuration The following watchdog configuration commands are available: • Watchdog on/off - see Section 8.3.1.1 • Test mode - see Section 8.3.1.2 • Repetitive module reset - see Section 8.3.1.3 •...
  • Page 68 ® Cinterion Java Terminal Hardware Interface Description Page 68 of 91 8.3 Complete Watchdog Configuration 8.3.1.2 Test Mode TEST_MODE Command Parameter <on|off> Type Boolean Range 0: Off (Exit test mode) 1: On (Enter test mode) Default 0: Off Non-volatile TEST_MODE Example ,0,0 // Exit test mode...
  • Page 69 ® Cinterion Java Terminal Hardware Interface Description Page 69 of 91 8.3 Complete Watchdog Configuration 8.3.1.4 UART Reset RST_UART Command Parameter <timeout> Type Milliseconds Range 0 .. 2 Default 0: Feature is disabled Non-volatile Example WD=RST_UART,600000,6 // Resets the module if there was no activity on the RXD0 line for 10 minutes This command configures a module reset, if no UART activity from the module was observed for the specified amount of time - RST_UART.
  • Page 70 ® Cinterion Java Terminal Hardware Interface Description Page 70 of 91 8.3 Complete Watchdog Configuration 8.3.1.6 C Reset RST_I2C Command Parameter <timeout> Type Milliseconds Range 0 .. 2 Default 0: Feature is disabled Non-volatile Example WD=RST_I2C,600000,6 // Resets the module if there was no keep alive signal received at the I C bus address 0x09 for 10 minutes.
  • Page 71 ® Cinterion Java Terminal Hardware Interface Description Page 71 of 91 8.3 Complete Watchdog Configuration 8.3.1.7 Restart Delay MIN_START_TIME Command Parameter <timeout> Type Milliseconds Range 0 .. 2 Default 18000000ms (30 minutes) Non-volatile Example WD=MIN_START_TIME,18000000,9 // Prevents module resets for 30 minutes after each module startup, and after the watchdog becomes active This command configures the MIN_START_TIME timeout value.
  • Page 72 ® Cinterion Java Terminal Hardware Interface Description Page 72 of 91 8.3 Complete Watchdog Configuration 8.3.1.8 Always On Command ALWAYS_ON Parameter <timeout> Type Milliseconds Range 0 .. 2 Default 0: Feature is disabled Non-volatile Example WD= ALWAYS_ON,60000,6 // Observes the module and restarts it 60 seconds after it has been turned off This command configures the on/off-state observation of the module by specifying a timeout value for ALWAYS_ON.
  • Page 73 ® Cinterion Java Terminal Hardware Interface Description Page 73 of 91 8.3 Complete Watchdog Configuration 8.3.1.10 Change the Watchdog‘s I C Address Command I2C_ADDR Parameter <address> Type Number Range 1-127 Default 106 (0x6A) Non-volatile Example WD= I2C_ADDR,87,15 // Changes the I C address to 87d (0x57) The watchdog‘s I C slave address can be changed to any 7-bit address.
  • Page 74 ® Cinterion Java Terminal Hardware Interface Description Page 74 of 91 8.3 Complete Watchdog Configuration 8.3.1.11 Set GPIO Direction Command GPIO_DIR Parameter <pin-config> Type Number Range 0-1023 Default 0 (0x000, 0000000000b) Non-volatile Example WD= GPIO_DIR,682,16 // Sets the GPIOs alternating to output and input (binary value: 1010101010b) This command configures the input/output direction of level-shifters to the module‘s externally available GPIO pins.
  • Page 75 ® Cinterion Java Terminal Hardware Interface Description Page 75 of 91 8.3 Complete Watchdog Configuration 8.3.1.12 Configure ADC1_IN/DSR0/SPI_CLK Line ADC_DSR0 Command Parameter <input/output> Type Boolean Range 0: Analog input (ADC1_IN) 1: Digital output (DSR0/SPI_CLK) Default 0: Analog input (ADC1_IN) Non-volatile Example WD= ADC_DSR0,0,0 // Configures the line to be analog input...

  • Page 76: Qualified Watchdog Configuration

    ® Cinterion Java Terminal Hardware Interface Description Page 76 of 91 8.4 Qualified Watchdog Configuration Qualified Watchdog Configuration While the complete watchdog functionality may be configured via TXD0 line of the ASC0 inter- face (for details see Section 8.3), a qualified set of configuration commands can also be spec- ified via the watchdog‘s I C interface as described in this section.

  • Page 77: Table 27: Address Register For I

    ® Cinterion Java Terminal Hardware Interface Description Page 77 of 91 8.4 Qualified Watchdog Configuration 8.4.1.3 C Protocol Overview In write mode (i.e., slave address “0xD4“), one address byte and one data byte is sent to the Java Terminal/Watchdog. The address byte specifies a register to write the data byte to. The data byte value is only written, if it is valid, i.e., in the specified range.

  • Page 78: Table 28: I 2 C Status Result Codes

    ® Cinterion Java Terminal Hardware Interface Description Page 78 of 91 8.4 Qualified Watchdog Configuration Table 27: Address register for I C commands Register Read/ Description Name Non- Default Value range address Write volatile 0x31 GPIO direction High Byte: GPIOHBR [0..0xFF] Read out 2 bits for the GPIOs 20 and 21 in the representation:...

  • Page 79: Figure 19: Write Data To Address Register

    ® Cinterion Java Terminal Hardware Interface Description Page 79 of 91 8.4 Qualified Watchdog Configuration Examples The following two samples show how the watchdog can be configured by means of the watch- dog‘s I C interface and using the AT^SSPI command over RS-232/ASC0 to transfer the I user data.

  • Page 80: Figure 20: Read Data From Address Register

    ® Cinterion Java Terminal Hardware Interface Description Page 80 of 91 8.4 Qualified Watchdog Configuration The second example listed below reads out the hardware watchdog‘s firmware version, it therefore uses a read register marked as “R“ in Table However, except for the status address register (SR) no information can be directly retrived from an address register itself, but only indirectly by means of a so-called read-address-register (RAR).

  • Page 81: Configuring Gpio Directions

    ® Cinterion Java Terminal Hardware Interface Description Page 81 of 91 8.5 Configuring GPIO Directions Configuring GPIO Directions As already shown in Figure 4 and mentioned in Section 8.3.1.11 the GPIO pins at the Java Ter- minal‘ GPIO connector are not electrically identical to the GPIO lines at the integrated Java module.

  • Page 82: Configuration Using I

    ® Cinterion Java Terminal Hardware Interface Description Page 82 of 91 8.5 Configuring GPIO Directions 8.5.1 Configuration using I C Interface Please refer to Section 8.4 for more information on how to configure the watchdog via I C in- terface. Figure 21 explains the configuration steps required to set the Java Terminal‘s GPIO7 signal di- rection to OUTPUT (default direction is INPUT):...

  • Page 83: Configuration Using Txd0 Line Of Asc0 Interface

    ® Cinterion Java Terminal Hardware Interface Description Page 83 of 91 8.5 Configuring GPIO Directions 8.5.2 Configuration using TXD0 Line of ASC0 Interface Please refer to Section 8.3 for more information on how to configure the watchdog via TXD0 line of ASC0 interface. Figure 21 explains the configuration steps required to set the Java Terminal‘s GPIO7 signal di- rection to OUTPUT (default direction is INPUT):...

  • Page 84: Appendix B: Ethernet Setup And Usage

    ® Cinterion Java Terminal Hardware Interface Description Page 84 of 91 9 Appendix B: Ethernet Setup and Usage Appendix B: Ethernet Setup and Usage Once LTE Terminal is connected and set up as described in Section 9.1, the Ethernet connec- tion can be used to transparently exchange data.
  • Page 85 ® Cinterion Java Terminal Hardware Interface Description Page 85 of 91 9.1 Connection Setup Note: The Telnet connection can be opened only if no root login password is configured. In case a root login password exists, access to the embedded Linux system is only possible via SSH (using e.g., PuTTY for Windows).

  • Page 86: Connection Usage

    ® Cinterion Java Terminal Hardware Interface Description Page 86 of 91 9.2 Connection Usage Connection Usage Once the Ethernet connection has been set up successfully, it is possible to transparently ex- change data with a remote application, or to administer the LTE terminal. Possible usages are described in more detail in the following sections.

  • Page 87: Access Lte Terminal Via Ftp

    ® Cinterion Java Terminal Hardware Interface Description Page 87 of 91 9.2 Connection Usage 9.2.2 Access LTE Terminal via FTP In addition to Telnet, it is also possible to access the LTE Terminal via FTP, i.e., build a con- nection to an FTP server on the LTE Terminal that gives access to a defined directory for FTP services.

  • Page 88: Security Notes

    ® Cinterion Java Terminal Hardware Interface Description Page 88 of 91 9.2 Connection Usage 9.2.3 Security Notes Please note that by delivery default it is possible to open a Telnet connection to LTE Terminal’s embedded Linux system without being asked for a password. A root login password should therefore be defined to restrict this type of access.

  • Page 89: Enter Sim Pin

    ® Cinterion Java Terminal Hardware Interface Description Page 89 of 91 9.2 Connection Usage 9.2.6 Enter SIM Pin Normally, LTE Terminal requires a SIM pin before being able to automatically connect to the APN (Internet). Note: The SIM pin should be made available permanently to LTE Terminal be- fore the SIM is actually required, i.e., usually before the SIM is inserted, and a wireless connec- tion is built up.

  • Page 90: Update Lte Module Firmware

    ® Cinterion Java Terminal Hardware Interface Description Page 90 of 91 9.2 Connection Usage 9.2.8 Update LTE Module Firmware To update the firmware of the Terminal’s LTE module, please complete the following steps: • Connect to the LTE Terminal using FTP as described in Section 9.2.2.
  • Page 91 - anytime, everywhere - in ways that are enjoyable and safe. Gemalto delivers on their expanding needs for personal mobile services, payment security, authenticated cloud access, identity and privacy protection, eHealthcare and eGovernment efficiency, convenient ticketing and dependable machine-to- machine (M2M) applications.

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