User Manual For the Talon-LTE Vehicle Tracking Device Aug 15, 2016 R1.0 The information presented in this document is strictly confidential and contains trade secrets and other confidential information that are the exclusive property of Montage Systems LLC Author Revision Changes Date Zeev 1.
Contents 1 Introduction 2 Hardware Design 2.1 Basic Hardware 2.2 Basic RF Performance 2.3 Certification and Safety 3 Software Features 3.1 Basic Software 3.2 Remote Update 3.3 Power Modes 3.
1 Introduction The TALON-LTE is a self-Contained vehicle tracking device that combines GPS location with LTE connectivity. The TALON-LTE appears to a user or a server application as a single endpoint device. It can be queried, updated and configured either through a serial connection, or an over the air IP connection, or through SMS messaging. The TALON-LTE presents itself over these connections as an enhanced cellular modem with attached functional elements.
2 Hardware Design 2.
GPIO Two GPIO pins, GP1 and GP2, are presented to the external environment on the main connector. They are general purpose bidirectional lines capable of providing system interrupts to generate a report or drive logic levels to external devices. These lines are 2.8V logic level and are 16V tolerant. These pins default to input. GP1 is pulled down representing 0 when disconnected; GP2 is pulled up representing logical 1 when disconnected. They should be asserted to a known value if used.
Watchdog SQN3223 chipset provides internal software Watchdog, and a physically dedicate Watchdog circuit requirement is optional. The circuit includes is MCU that acts as a failsafe external watchdog. The MCU power cycles the system, if no activity is detected for 2 hours. Motion Detect (Option) A factory populates option for motion detector is provided.
EVM <3% TX Spectral Flatness Pass LTE_B13 RX Frequency range 746MHz ~ 756MHz Sensitivity -100dBm (10MHZ_50RB_Downlink) -23 ~ -100dBm Dynamic range Dynamic Range PER Pass LTE_B13 TX Frequency range 777MHz ~ 787MHz Maximum Frequency error ±10Hz 23dBm <-40dBm UTRA2: 45.48 UTRA1: 41.41 UTRA2: 44.87 UTRA1: 41.51 8.87MHZ (10MHZ Nominal) < -54.7dbc <3% Maximum output power Minimum control output power ACLR OBW IQ OFFSET EVM © 2016 Montage Systems LLC E-UTRA1:39.43 E-UTRA2:38.
TX Spectral Flatness Pass GPS AGPS Support Frequency Support Sensitivity Tracking Time Requirement 2.3 Embedded AGPS software supporting an internal GPS subsystem solution E911 FCC mandated phase 1 and phase 2 (optional1) L1-band (1.
3 Software Features 3.1 Basic Software Items Requirement RF Function WWAN Data IP Stack Upgrade Method Remote Update Power Modes AT Command Report Driver GPIOs LEDs Watch Dog Reset Startup Banner LTE、GPS Supported IPV4/IPV6 Remote update/ PC tool Supported Supported Supported Supported;3000records GPIO,LED,GPS,UART Interrupt for Door Open Detect, Ignition Status GPS Status, WWAN Status Supported (CBP8.2 integrated, and external) Soft reset, hard reset Supported 3.
Any hardware or software reset will return the device to full power mode. 3.4 AT Command TALON-LTE commands are AT extensions specific to TALON-LTE devices. They are closely based on commands that are as similar as possible to other industry common devices and are essentially subsets of standard TALON-LTE commands. Common commands used with LTE modems supporting IP connectivity are not included within the TALON-LTE command set extensions. These commands are left in their native structure.
3.5.1 Context Preservation When a reset is caused by the Network Watchdog or by the Reset command (modes 0,1), the context of the system is being preserved and is restored after the reset. The context includes all the periodic timers, the report queue, the odometer, etc. This allows to reset the unit as a troubleshooting measure either periodically or due to Network Watchdog without losing reports that are already in the queue or are pending on running timers.
4 Test Method 4.1 Hardware Test Item Description Baseband Function Test • • • • • • • • • • Power Input Test Power Consumption and Current Test Heat Dissipation Test UART Stability Test GPIO Level Test LED Stability Test Drop Down Test ESD Test High/Low Temperature Test Humidity Test RF Test • • • RF Performance Test GPS Performance Test Antenna Performance Test 4.2 Software Test Test Environment Construct Message Test environment 1. USB dongle and PC as message server 2.
Mechanical Structure(mm) © 2016 Montage Systems LLC 13 / 15
FCC Statement This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications.
Afin d'éviter la possibilité de dépasser les limites d'exposition aux fréquences radio de la IC CNR102, la proximité humaine à l'antenne ne doit pas être inférieure à 20 cm (8 pouces) pendant le fonctionnement normal.