Spireon JH01 GPS Tracker User Manual

Spireon Inc GPS Tracker

User Manual

© 2017 Spireon, Inc.1 / 22 User Manual For the JG-H Trailer Tracking Device July10, 2017 R1.2 Author Revision Changes Date Hao 1.1 Initial version 2017-07-10 Ewing 1.2 Edits 2017-07-20 The information presented in this document is strictly confidential and contains trade secrets and other confidential information that are the exclusive property of Spireon Inc.
© 2017 Spireon, Inc.2 / 22
© 2017 Spireon, Inc.3 / 22 Contents 1 Introduction ............................................................................................................................... 4 2 Hardware Design....................................................................................................................... 5 2.1 Basic Hardware ................................................................................................................ 5 2.2 Basic RF Performance ...................................................................................................... 7 2.3 Certification and Safety .................................................................................................. 10 3 Software Features .................................................................................................................... 11 3.1 Basic Software ................................................................................................................ 11 3.2 Remote Update ............................................................................................................... 11 3.3 Power Modes .................................................................................................................. 11 3.4 AT Command ................................................................................................................. 12 3.5 Reset ............................................................................................................................... 18 3.5.1 Context Preservation .................................................................................................. 18 3.6 Startup Banner ................................................................................................................ 18 3.7 Hardware ........................................................................................................................ 19 3.8 Software Test .................................................................................................................. 19 Mechanical Structure(mm) ............................................................................................................. 20 FCC Statement ................................................................................................................................ 21
© 2017 Spireon, Inc.4 / 22 1 Introduction TheJG-His a self-contained trailer tracking device that combines GPS location with WCDMA/GSM/GPRSconnectivity.It is primarily a location reporting device that responds to requests (user, server) and events (timers, geo-fences). Data reports consist of a single record that contains all location data and system status. The device comes pre-configured from the factory, ready to use.TheJG-H 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, an over the air IP connection, or through SMS messaging. TheJG-Hpresents itself over these connections as an enhanced cellular modem with attached functional elements. These elements include: • GPS • Accelerometer • I/O pins and tamper alert • Serial UART port for management and for cargo sensor • Status LEDs • Timers • Watchdog lockup protection • Power Management • Power Output • Solar panel power supply Access to these elements and general purpose interfaces is done through an extended AT command set as defined herein.Configuration parameters are stored to flash memory and are automatically used on the next power up event. For more details, please reference the AT Command document. Diagram
© 2017 Spireon, Inc.5 / 22 This product is designed based on the MT6276 Baseband chipset, supporting WCDMAand GPRS protocol for wirelessdata; using an internal dual band antenna(GSM850&PCS 1900). The device also includes stand-alone GPS functionality, an accelerometer for motion detection, as well as support for solar panel power supply. The JG-H can operate from an internal rechargeable battery or an external power source. The battery is recharging via the solar panel or external power. 2 Hardware Design 2.1 Basic Hardware Items Requirement Baseband Chipset MT6276A RF 2G Transceiver RF3235 RF 3G Transceiver RF7411TR7 Memory MCP_NAND 1Gb(x16) / mobile DDR 512Mb(x16) Cellular Network Supportfor WCDMA Class 12 GPRS, GPS Frequency 2G band support : 850MHz & 1.8GHz Support for 12 class GPRS 3G band support : Band2 and Band5 Antenna Internal Antenna[850M&1900M] GPS Antenna Dedicate high performance ceramic antenna UIM requirement No-UIM mode, SIM card connector Interface Main PWR – 12V DC(1.5A current) Aux PWR – 12V DC(1.5A current) Solar PWR (battery charge) GND PWR OUT (3.3V, 300mA current) UART TX UART RX Relay Drive Output (12V, 500mA current) 1-Wire GPIO1 Tamper Power Monitor internal analog input scaled – battery, external power, solar Build in battery manager Supported Dedicate Timers Yes Watchdog Supported Motion Detect Accelerometer LED 3 status LEDs (Green, Red, and Orange)
© 2017 Spireon, Inc.6 / 22 Battery Built in rechargeable batteryfor up to 6 months of typical operation Power Switch No Power Cable connector type 23 - pin Power Out Yes Solar Panel Yes Power Consumption <20 Watts The JG-Hprovides support for specialized hardware features through extended AT commands. The features supported include the following. GPS GPS location functionality is provided by the device GPS receiver. Warm start from sleep is supported. GPIO One general purpose GPIO and three additional multiplexed IO’s are presented to the external environment on the main connector. They are 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. The multiplexed IO’s are typically configured as Ignition, Relay and Tamper. LED’s Three LED status indicators are provided to verify correct installation and operation. The status LEDs are color coded and directly convey the status of the cellular and GPS subsystems, as well as the power input; described in the table below. Their valid operation also indicates operational status and power. LED Function Status Red GPS On: GPS satellites acquired and locked Flash Slow: GPS satellite search is in progress Off: GPS is turned off Green Cellular Connection On: Indicates cellulardata connection is available Flash Slow: cellular subsystem initialized but no connection Flash Fast: cellular initialization in process Off: Cellular sub-system is off Orange Battery charging On: Indicates external power and battery is fully charged Flash: Indicates external power and battery is charging Off: Indicates running from battery. Blinks shortly every 30sec. The JG-H provides user control allowing the LEDs to be extinguished once installation is verified. This feature reduces power and further conceals the JG-H Tracker from untrained parties wishing to defeat its operation.
© 2017 Spireon, Inc.7 / 22 Accelerometer The accelerometer is used for motion start detection to wake the unit up from a sleep mode and driving behavior monitoring. UART A UART port is provided for AT command and data interaction. The UART can also serve to attach other accessories, such as cargo sensor. 1-Wire A 1-Wire interface is supported to attach external sensors, such as temperature sensor, etc. Relay Driver A 500mA sink capable output pin is provided. This pin is meant to drive a relay coil indented to interrupt the starter solenoid relay for the ignition circuit to a car. Ignition Monitor One of the GPIO’s can be wired to vehicle ignition to monitor and trigger event upon ignition start and stop. Power Out The JG-H provides a power out option at 3.3V and up to 300mA to enable powering up external devices. The power out is turned off by default and is controlled by software. Tamper Tamper detection pin is available on the external connector. The Tamper pin can trigger an alert when disconnected from ground. Solar Panel The JG-H includes an integrated solar panel that constantly charges the battery when exposed to light. Power Monitor The internal power monitor circuitry allows to measure the voltage on all possible power sources: Main, Auxiliary, Battery, Solar. Timers Timers resident on the baseband chip generate periodic interrupts for power down, wakeup, report generation and other timer related functions. 2.2 Basic RF Performance Items Requirements Remark TRP free space >= 20 dBm TRP free space
© 2017 Spireon, Inc.8 / 22 TIS free space <= -104dBm TIS free space Antenna loss <= -3dB TRP-TX Power Conducted Antenna Loss <= -3dB RX receive sensitivity conducted – TIS Board RF Specification Cellular Band RX 2G Frequency range 935MHz~960MHz Sensitivity -108dBm (FER≤0.5%) Dynamic range -25~-108dBm (FER≤0.5%) Single tone Desensitization -102.4dBm(FER≤1%,-30dBm@±900KHz) Intermediation Spurious Response Attenuation -102.4dBm(FER≤1%,-43dBm@±900 KHz/±1800KHz) -91.4dBm(FER≤1%,-32dBm @±900 KHz/±1800KHz) -80.4dBm(FER≤1%,-21dBm @±900 KHz/±1800KHz) Conducted Spurious Emission <-76dBm/1MHz(RX band) <-61dBm/1MHz(TX band) <-47dBm/30KHz(other frequency) Cellular Band TX 2G Frequency range 890MHz~915MHz Maximum Frequency error ±200KHz Maximum output power 21~32dBm Minimum controlled output power <-50dBm Standby output power <-61dBm Code domain power The code domain power in each inactive code channel shall be 23 dB or more below the total output power measured on both the I and Q data channel combined. Time reference ±1.0uS Waveform quality >0.944 Range of open loop output power (test1:-25dBm/1.23MHz)-47.7±9.5dBm (test2:-60dBm/1.23MHz)-7.7±9.5dBm (test3:-93.5dBm/1.23MHz)20.3±9.5dBm Conducted spurious emission -42dBc/30Khzor-54dBm/1.23MHz(|Δf|:1.25MHz~1.98MHz) -50dBc/30Khzor-54dBm/1.23MHz (|Δf|: 1.98MHz~4.00MHz) <-36dBm/1kHz (|Δf| > 4MHz, 9KHz < f < 150KHz,) <-36dBm/10kHz (|Δf| > 4MHz, 150kHz<f<30MHz,) <-36dBm/100kHz (|Δf| > 4MHz, 30MHz<f<1GHz) <-30dBm/1MHz
© 2017 Spireon, Inc.9 / 22 (|Δf| > 4MHz, 1GHz<f<12.75GHz) WCDMA Band1 RX 3G Frequency range 2110MHz~2170MHz Maximum Frequency error ±200KHz Maximum output power 21~24dBm Minimum controlled output power <-50dBm Standby output power <-61dBm Error Vector Magnitude <17.5% WCDMA Band1 TX 3G Frequency range 1920MHz~1980MHz Maximum Frequency error ±200KHz Maximum output power 21~24dBm Minimum controlled output power <-50dBm Standby output power <-61dBm Error Vector Magnitude <17.5% DCS Band RX Frequency range 1805MHz ~ 1880MHz Sensitivity -108dBm (FER≤0.5%) Dynamic range -25 ~ -108dBm (FER≤0.5%) Single tone Desensitization -102.4dBm(FER≤1%,-40dBm@±1250KHz) Intermediation Spurious Response Attenuation -102.4dBm(FER≤1%,-43dBm@±1250KHz/±2050KHz) Conducted Spurious Emission <-76dBm/1MHz(RX band) <-61dBm/1MHz( TX band) <-47dBm/30KHz(other frequency) PCS Band TX Frequency range 1710MHz ~ 1785MHz Maximum Frequency error ±200KHz Maximum output power 23 ~ 30dBm Minimum controlled output power <-50dBm Standby output power <-61dBm Code domain power The code domain power in each inactive code channel shall be 23 dB or more below the total output power measured on both I and Q data channel combined. Time reference ±1.0uS Waveform quality >0.944 Range of open loop output power (test1: -25dBm/1.23MHz) -50.7±9.5dBm Conducted spurious emission (test2: -60dBm/1.23MHz) -10.7±9.5dBm
© 2017 Spireon, Inc.10 / 22 (test3: -91.3dBm/1.23MHz) 20.3±9.5dBm -42dBc/30Khzor-54dBm/1.23MHz (|Δf|:885KHz~1.98MHz) -54dBc/30Khzor-54dBm/1.23MHz (|Δf|: 1.98MHz~4.00MHz) <-36dBm/1kHz (|Δf| > 4MHz, 9KHz < f < 150KHz) <-36dBm/10kHz (|Δf| > 4MHz, 150kHz<f<30MHz) <-36dBm/100kHz (|Δf| > 4MHz, 30MHz<f<1GHz) <-30dBm/1MHz (|Δf| > 4MHz, 1GHz<f<12.75GHz) GPS Frequency Support L1-band (1.57542GHz) Channels: 210 PRN, 66 Search, 22 Simultaneous tracking Sensitivity Sensitivity (UHIS): Tracking: -156dBm Reacquisition: -153dBm Acquisition: -144dBm Tracking Time Requirement Acquisition time: Hot: <2s Warm: <15s Cold: <60s Reacquisition: 2s - 10s Depends on signal level 2.3 Certification and Safety Items Requirement Drop Design 1.2meter 6 direction standard drop test Temperature Range -20 to 65C Operation -40 to +85° C Storage Humidity: 20% to 90% Operation 10% to 95% Storage Altitude: -500 to +18,000m Vehicle ISO Test ISO7637-2-2004; ISO7637-3-2007; ISO10605-2008; ISO16750-2-2010 FCC Certification FCC 47 CFR Part 15 ,Part 2,Part 22,Part 24 Others Operator Requirement Industry Canada/ AT&T (optional) ESD Requirement 10KV non-Conductive
© 2017 Spireon, Inc.11 / 22 3 Software Features 3.1 Basic Software Items Requirement Network Interface GSM 900/1800MHz/WCDMA(Band1); GPS GPRS Data Supported IP Stack Ipv4/IPV6 Upgrade Method Remote update/ PC tool Remote Update Supported Power Modes Supported AT Command Supported Report Supported Driver GPIO,LED,GPS,UART,3.3V out, Accelerometer GPIOs Interrupt for Cargo Sensor, Ignition Status, Tamper LEDs GPS Status, WCDMA Status, Battery Charging Watch Dog Supported Reset Soft reset, hard reset, GPS reset, RF reset Startup Banner Supported 3.2 Remote Update The JG-Hsupports OTA field upgrades of the JG-Hresident application. An over the air TFTP (Trivial File Transfer Protocol) connection is made over a UDP/IP connection. A replacement file is then transferred from a server to the JG-Hand that file replaces the previous application image. 3.3 Power Modes The JG-H device supports several power modes that are set by AT commands. In full power mode the GPS is active and the cellular subsystem will maintain a persistent cellular connection whenever service is available. IP connection is maintained according to the configuration of the device. The device can be put in a sleep mode whenever it runs on an internal battery, if the external battery is low or if the device is not moving. In low power mode the GPS is not running and the LED’s are off. The device would return to full power whenever an event occurs that triggers a report. Those events include: • GPIO change • Battery threshold • Heartbeat • Power-up • Accelerometer • Tamper Any hardware or software reset will return the device to full power mode.
© 2017 Spireon, Inc.12 / 22 3.4 AT Command JG-Hcommands are AT extensions specific to JG-H devices. They are closely based on commands that are as similar as possible to other industry common devices. Native AT commands supported by the baseband modem are also available via the serial interface. Command Summary The following commands are specific to the JG-H. They are organized by categories. Event Setting Commands The following set of commands enables/disables reporting of the various events and state transitions that take place in the system. The event setting commands typically include trigger(s) that indicate what event or state transition would cause an event report to be sent. Often state transitions also qualified with “debounce” time to prevent various flickers and intermittent state transitions. Examples are: (1) state change of an input pin; (2) crossing a geo-fence line for a brief period of time and then crossing it back. As a general rule every event and state transition has its own unique event ID that is reflected in the report triggered by the said event. Refer to Table 2 – Events for the complete list of event ID’s. Those default event ID’s can be changed by the user to accommodate specific server implementations, by explicitly specifying what they are in the respective commands. As an example, all trip related events can be mapped to the same event ID, so there is no need to parse the specific event trigger. Following is a list of event setting commands: 1. AT+XBTLE Battery Low Event 2. AT+XBUBE Backup Battery Events 3. AT+XCCLE Cellular Connection Lost/Lock Events 4. AT+XDRI Drive Report Intervals 5. AT+XDTS Drive Trip Start/Stop 6. AT+XGFE Geo-Fence Enable 7. AT+XGME G-sensor Motion Events 8. AT+XGPL GPS Lost/Lock 9. AT+XHB Heart Beat 10. AT+XIA Idle Alert 11. AT+XIGN Ignition 12. AT+XIOE I/O Event 13. AT+XIPC IP Changed 14. AT+XPUP Power Up 15. AT+XPWE Power Events
© 2017 Spireon, Inc.13 / 22 16. AT+XRLYE Relay Event 17. AT+XSLPE Sleep Events 18. AT+XRSTE Reset Event 19. AT+XSPD Speeding 20. AT+XTA Tow Alert 21. AT+XTMPRE Tamper Event 22. AT+XVTOE Virtual Trip Odometer Event Action Commands Action commands instigate an immediate action. They cannot be included in configuration files. Following is a list of action commands: 23. AT+XBUBX Back-Up Battery eXit 24. AT+XCC Clear Counters 25. AT+XCSRN Cargo Sensor Report Now 26. AT+XFDR Factory DefaultsRestore 27. AT+XFDU Factory DefaultsUpdate 28. AT+XMRN Maintenance Report Now 29. AT+XRN Report Now 30. AT+XRNE Report Now Echo 31. AT+XRPQD Report Queue Dump 32. AT+XRST Reset - soft/hard 33. AT+XVEGH Virtual Engine-Hours 34. AT+XVO Virtual Odometer 35. AT+XVTO Virtual Trip Odometer 36. AT+XUMA Unauthorized Motion Alert File Update Commands 37. AT+XUAPP Update Application file OTA 38. AT+XUFW Update Firmware file OTA 39. AT+XUIO Update IO controller file OTA (Battery powered devices only) 40. AT+XUUC Update User Configuration file OTA
© 2017 Spireon, Inc.14 / 22 Periodic Action Commands (with Events) Periodic Action commands trigger time based periodic action, such as reset, data session renewal, etc. Some actions can trigger an event report to indicate the respective action took place. Following is a list of event setting commands: 41. AT+XKA Keep Alive 42. AT+XPST Packet Session Timeout 43. AT+XRSTP Reset Periodically Configuration Commands Configuration commands control various parameter settings of the device. For convenience they are grouped into topical settings. Following is a list of configuration commands: Communication related settings 44. AT+XAPN Set APN (GSM devices only) 45. AT+XCSW Cellular Session Watchdog 46. AT+XIP Set target server IP address and port number 47. AT+XLPORT Set Local IP port number 48. AT+XMIP Set Maintenance server IP address and port number 49. AT+XPRP PxP Renewal Policy 50. AT+XSMSD SMS Destination 51. AT+XSMSS SMS Source 52. AT+XSPIP Set Serial Port (A-UART) IP address and port number 53. AT+XUIP Set Update server IP address and port number Protocol related settings 54. AT+XCRA Command Response Appendix 55. AT+XITM Item Mask 56. AT+XRPA Report Acknowledge 57. AT+XRPF Report Format 58. AT+XRPM Report Mask 59. AT+XRPQ Report Queue length 60. AT+XRPSF Report Start Frame Drive Trip related settings 61. AT+XDDI Drive Distance Interval 62. AT+XDHC Drive Heading Change
© 2017 Spireon, Inc.15 / 22 63. AT+XDMED Drive Motion End Distance 64. AT+XDMES Drive Motion End Speed 65. AT+XDMSD Drive Motion start Distance 66. AT+XDMSS Drive Motion Start Speed 67. AT+XDMST Drive Motion Start Trigger 68. AT+XDMET Drive Motion End Trigger 69. AT+XDTT Drive Trip Trigger 70. AT+XUMSD Unauthorized Motion start Distance 71. AT+XUMSS Unauthorized Motion Start Speed 72. AT+XUMST Unauthorized Motion Start Trigger Peripheral related settings 73. AT+XBTL Battery Low 74. AT+XBUB Back-Up Battery 75. AT+EGHM Engine Hours Mode 76. AT+XGMTH G-sensor Motion Threshold 77. AT+XGPLP GPS Lock Parameters 78. AT+XGPLT GPS Lock Timeout 79. AT+XIGM Ignition Mode 80. AT+XIGV Ignition Voltage 81. AT+XIOD I/ODirection 82. AT+XIOW I/O Write 83. AT+XLEDO LED’s Off 84. AT+XODM Odometer Mode 85. AT+XOWM One-Wire Mode 86. AT+XPWET Power Event Threshold 87. AT+XPWSMM Power State-Mode Mobile 88. AT+XPWSMS Power State-Mode Stationary 89. AT+XPWST Power State Threshold 90. AT+XPWSRC Power Source Configuration (Puma, Jaguar only) 91. AT+XRLY Set Relay 92. AT+XRLYO Relay Override Policy
© 2017 Spireon, Inc.16 / 22 93. AT+XSPC Serial Port Configuration 94. AT+XTMPRM Tamper Mode Maintenance report settings 95. AT+XMHB Maintenance Report Heart Beat 96. AT+XMITM Maintenance Item Mask 97. AT+XMRC Maintenance Report Clone 98. AT+XMRPM Maintenance Report Mask Miscellaneous settings 99. AT+XCIN Configuration Id Number 100. AT+XCIV Configuration Id Version 101. AT+XEVIT Event Items 102. AT+XEVITD Event Item Default 103. AT+XGF Geo-Fence 104. AT+XGFH Geo-Fence Here 105. AT+XLW Listening Window 106. AT+XSLCK SIM Lock Information Commands Information commands simply output various data regarding the current status of the device. They are mostly useful for troubleshooting. Following is a list of information commands: 107. AT+XGFR Geo-Fence Read 108. AT+XIOR I/O Read Configuration reading commands 109. AT+XCFD Configuration file – Default 110. AT+XCFU Configuration file – User Information commands 111. AT+XINCEL Info: Cellular 112. AT+XINDAT Info: Data 113. AT+XINEVT Info: Events 114. AT+XINGPS Info: GPS 115. AT+XINNET Info: Network 116. AT+XINPWR Info: Power
© 2017 Spireon, Inc.17 / 22 117. AT+XINVER Info: Versions 118. AT+XEVITR Event-Item Read Report The JG-H captures data and forms a report record with that data. A report is a data structure containing all of the sensory and other typically useful data on the device. Reports are generated in response to specified events, such as periodic timeout, speed threshold, geo-fence crossing, etc., or in response to a Report Now command (AT+XRN). Report Queuing If a report trigger occurs while UDP connection is unavailable, it will be queued until connection becomes available and transmitted at such time. The only way report(s) can be lost is if too many reports are queued and the report-queue is overflowing. In such case the earliest report(s) will be discarded. The size of the queue can be configured via the Report Queue (AT+XRPQ) command. Ack’ed Mode UDP is not a 100% reliable connection and occasional reports or command/responses may be lost. Since all commands have responses, the server can repeat any command to which there is no response. In order to assure reliable reception of reports, the device can be configured either in Normal or Ack’ed mode to send the reports. In the Normal mode the reports are simply sent “as is” with no acknowledgment from the server. In the Ack’ed mode every report sent is expected to be acknowledged by the server by sending back an ACK message back. If acknowledgement is not received within the specified timeout, the report is re-sent. If the report is not acknowledged after the specified number of attempts, it is queued. If acknowledgement is received after the report is queued (i.e. past timeout of the last attempt), it is ignored. Report is not considered “complete” until its acknowledgement is received. Thus, if report X is sent and report X+1 is triggered while waiting for acknowledgement of X, report X+1 will be queued until such acknowledgement is received and only then sent. The JG-H will attempt to re-send queued report(s) every time a new report is triggered. If there is more than one report queued, the reports will attempt to be sent in the order of triggering and only once the report is acknowledged, the next report is attempted. This assures that reports are sent and received in order. Ack’ed mode assures that all reports are received, but adds overhead in time and data. Report that is not acknowledged is sent again and eventually will be queued and sent again. The number and frequency of re-tries is configurable via the Report Acknowledgement command (AT+XRPA). Event Report Format Reports are encoded as binary hex.
© 2017 Spireon, Inc.18 / 22 3.5 Reset There are a number of resets available on the device. Soft reset only restarts the baseband on the device. Hard reset is caused by resetting the whole baseband module via a reset pin. There is also an option to reset the cellular and GPS sub-systemsindividially. 3.5.1 Context Preservation When a self-initiated reset is performed due to 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 or preventive measure without losing reports that are already in the queue or are pending on running timers. Note that the reset process may cause 1-2min of inaccuracy in the timers and should not be considered as very precise. 3.6 Startup Banner After a reset a startup banner is printed through the UART only.
© 2017 Spireon, Inc.19 / 22 Test Method 3.7 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 3.8 Software Test Test Environment Construct  Message Test environment 1. USB dongle and PC as message server 2. Send message to JG-H  UDP Test environment 1. Connect dongle to PC and create dialup as ip server 2. JG-H create IP connection to server  UART Test environment 1. Connect JG-H to pc with com serial cable 2. Open Terminal tool and send at command 3. Response can be shown at terminal window
© 2017 Spireon, Inc.20 / 22 Mechanical Structure(mm)
© 2017 Spireon, Inc.21 / 22 FCC Statement RF Exposure Warning Statements: The antenna(s) used for this transmitter must be installed to provide a separation distance of at least 20 cm from all persons during the normal operations. 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. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures: -- Reorient or relocate the receiving antenna. -- Increase the separation between the equipment and receiver. -- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. -- Consult the dealer or an experienced radio/TV technician for help. This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. IC STATEMENT This device complies with Industry Canada licence-exempt RSS standard(s). Operation 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. Le présentappareilestconforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitationestautorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareildoit accepter tout brouillageradioélectriquesubi, mêmesi le brouillageest susceptible d'encompromettre le fonctionnement. In order to avoid the possibility of exceeding the IC radio frequency exposure limits, human
© 2017 Spireon, Inc.22 / 22 proximity to the antenna shall not be less than 20cm (8 inches) during normal operation. Afind'éviter la possibilité de dépasser les limitesd'exposition aux fréquences radio de la IC CNR102, la proximitéhumaine à l'antenne ne doit pas êtreinférieure à 20 cm (8 pouces) pendant le fonctionnement normal.

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