USERS MANUAL
Contents
1. The Profiles tab is used to save and retrieve device configuration files called Profiles A configuration may be saved to a new file by entering a filename in the topmost textbox and selecting Save as New Profile Existing profiles appear in the bottom textbox and may be loaded into the tab configuration boxes by selecting Load Profile or deleted by selecting Delete The Save as Selected allows a previously saved profile to be edited Profiles are kept in a database file C Program Files SXL1 SXL1 db Operational Standards The SXL1 is a fully self contained small profil et tracking device suit or extended exposure to outdoor and industrial environments It is 3 d 2 0 inch in height The device enclosure is molded polycarb resistant and designed to survive physical and temperature shock The SXL1 only need be snapped out of it s mounti The enclosure is divided into two sect onics assembly and the other holding the battery assembly The two 2 i sealed from each other and from ical signals through the barrier gt device that provides the clearest unobstructed view of the sky as possible on the ardest surface possible A location that allows mounting of the unit in a horizontal orte i the best view of the sky and thus greater thru put Contact Numerex for vertica derations A location that protects the unit from potential damage due to tie down straps shifting cargo container stacking etc is recommend2. ile 1 is a 2D fix ated messages containing 8 bytes of user data with a message type sensors and other devices that serially issue a Remote Data command via the This message is created upon receipt of serial command type g 20 Remote Message Fo OxCF z Message Type E Bit 7 0 OxCF Z SXL1 Remote message type Sensor Defined information 21 Page Proprietary and Confidential Revised 10 11 11 Termination Message The SXL1 automatically stops functioning issuing a termination message upon completion of the termination count as configured by the configuration serial command The Termination Message is the same format as a location message except the message type is OxD3 Termination Message Format OxD3 z Message Type s Bit 7 0 0xD3 SXL1 Termination message type Latitude Longitude Byte 1 Latitude MSByte Byte 2 Latitude Byte 3 Latitude LSByte Byte 4 Longitude MSB Byte 5 Longitude Status is stationary 1 unit in motion 1 2D GPS Fix found Engineering Message The SXL1 automati i g expiration of the Engineering i also be extracted over the serial command on first run of the device or if it encounters a e the origination cause for the message relay the operability of the device in use OxD7 Messag X i a Bit 7 0 0xD7 SXL1 Engineering message type GPS Mean Search 8 Unsigned binary count in seconds for mean GPS search to acquire A A AAA
3. will be ignored The subject of the email will be orbit one com Any message sent to this address acker Message XML document and upload the ixTimeStamp xml e g 0 123456 1196961753 xml to a ord will be required for this method Please note that ihe security of the login credentials and it is highly environment or a virtualized server to consume SFTP data For Js please refer to the system administrator Ste Datastream for an Asset in the FELIX Software Administration website For more detailed information please refer to the FELIX Help Documentation on Datastream Management Create Delivery Method A Delivery Method is the address and format information for sending data forwards and alerts 1 Login to FELIX Admin and choose the Datastream link from the Admin Menu On the Datastream Menu choose Delivery Methods 2 Fill out the Delivery Method Form with the desired Delivery Format and Delivery Type 30 Page Proprietary and Confidential Revised 10 11 11 3 Determine the Failure Response If FELIX is to ignore failures retry for a certain number of attempts or retry for a certain number of minutes 4 Fill in appropriate Contact Information for Numerex to use in case of failure to forward 5 Save your changes When saving a Delivery Method FELIX will verify a connection can be made prior to saving the changes 6 Next you must create a Trigger CJ Edit Delivery Method Name SFTP To example com Descripti
4. Bit 3 0 standard interval report 1 subsequent interval report Bit 4 alarm O no alarm 1 alarm w cause defined Bit 8 5 2 message cause valid when Bit 4 1 Bit 9 1 engine run time data is in message cause field Bit 10 configuration change toggles Bits 13 11 2 message count modulo 7 count Bit 14 motion state 0 unit is stationary 1 unit in motion Bit 15 023D GPS Fix found 1 2D GPS Fix found Message Type Byte 1 The SXL1 standard location message shows OxCB in the first byte denoting a standard location message 19 Page Proprietary and Confidential Revised 10 11 11 Position Bytes 2 8 The Latitude and Longitude information is encoded in these bytes Refer to Appendix B for calculating the Lat and Long from this information Status Byte 9 The Status byte contains various operational information about the SXL 1 Battery Status Bits 2 0 These bits hold the current battery status calculated by the device and reflected proportionally in this field Battery status starts at seven 7 and counts down in 12 5 resolution of usage Replacing the batteries will require the user to reset to this count using com Battery calculations suspend while in line power mode Report Mode Bit 3 When set to 0 the device is reporting a standard of an interval timer or an alarm input When se expiration of the subsequent interval timer rated either from expiration location triggered by the A
5. The FCC requires the following notification for the device in compliance with 47CFR 15 105 for this Class B digital device Full product test reports are available from Numerex upon request NOTE 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 when the equipment is operated in a residential environment This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instruction manual 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 ncrease 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 WARNING Changes or modifications not expressly approved by Numerex may render the device non compliant to FCC and other regulatory body standards for operation and m
6. attempts since last engineering message Configuration Change 5 3 Modulo 7 count incrementing each time device is configured Termination Reset Toggles each time the termination count is reset Motion Status O stationary 1 motion Battery Status 2 0 Battery status Percent battery life remaining in 12 596 increments Magnet Status 6 3 J Ozmagnet absent 1 magnet present 22 Page Proprietary and Confidential Revised 10 11 11 undefined 6 5 4 undefined Message Cause 7 6 00 Engineering interval expired 01 First run of device 10 Watchdog reset 11 2 Low battery warning Engineering message generated upon reaching 12 5 remaining Hours of cut wire detection accumulated Message Type The SXL1 Engineering message shows OxD7 in the first byte denoting an Engineering message GPS Mean Search Time Byte 2 The second byte of the Engineering Message payload c acquire GPS location A problem with the GPS hardw indicated by this data Asset managers may use thi make better estimates for terminal battery life of rmation about the average time to atic installations as well as calculated using a Redundant messages are not included in the including Engineering Messaging and any 5 termination count via the configuration byte of the word The count will roll over 65535 dware configuration primarily the battery capacity for use by remote monitors end of battery life The H
7. tabs will be o vice being queried The Program button configures the device conne button may be used repetitively on When a device is connected to the ESN in the lower left corner SX1 Programmer v2 1 0 228 2 5 Standard Reporting Motion Reporting Triggered Reporting Testing info _ Profiles Advanced omm oew2 su Standard Interval 0 Days 12 Hours 0 Minutes Subsequent Messages 9 Subsequent Message Interval 9 Engineering Message Interval 14 Days Sleep Mode Read Device Program CTUM Programmer Seep Device om Device When the program is started the dialog boxes are initialized to the manufactured standard configuration If a device is read after being connected to the computer the dialog boxes are populated with the device configuration Connecting to a device after the program is launched will not change the dialog boxes 6 Page Proprietary and Confidential Revised 10 11 11 SXL Tab The SXL tab only appears if the program detects that a SXL1 programmer is attached to the computer The SXL tab contains functions specific to the RF link between the transceiver in the SXL1 and the SXL1 programmer E gt SX1 Programmer v2 1 0 228 2 5 Standard Reporting Motion Reporting Triggered Reporting Testing info _ Profiles Advanced OEM OEM2 SXL Select ESN s to program SXL s Discovered 3 ESN
8. I leprpe Mania SXL1 Asset Tracking Solution 5116 21 00772 Revision 1 0 9 2 Page Proprietary and Confidential Revised 10 11 11 Table of Contents O ote MU MM IMEEM CM ILI C MEUM Connecting the SXL1 to the Computer sssssssssssssseeee ene eene mene enm heen ern nen ne rennen rne nnns SXL1 Programmer SoftWare oococoonnccccconcoconnoronenonorononnnrnnnn inpe i a hene nn EdE E trees enne sieh nennen nnne nnne nnns Standard Reporting Tab ivonne Motion Reporting TaD vincia ia AA d Profiles Tab dilo Operational Standards oooccococcccccnncccnnnncccnnonnccnnnnnncncnonarans Mounting Provisions oooocccccocccccnnnccnncnncccnnnnnncnnnnnnnos Power Standards Outline eeseesessess New Battery Installation sssssssss Battery Replacement ssssssss Battery Counter Reset Battery Voltage ooooccccococccinnnocccconoccnnconancnnnnnos Battery Low Threshold seeeeseser Power Supply Battery Life Configuration Connector USB Port creirias naen Environmental Performance Standards SXL1 Serial Message Protocol Serial Protocol tees i Serial CRC Algorithnf s suus Message Count Bits AAN Motion State Bit 14 du a a A A de GPS 2D 8DABI Disc ER Remote MESSAGE cec dani e a Ed rines Fermination Message 00 baaa be Engin
9. Status he scan will last approximately 7 5 seconds up in the discovered SXLs dialog box The first is to click the Rescan button scan for SXL If the ESN of the eX Add ESN s button is clicked This causes 3ecifically to the specified device Once the device is ices to be configured Once the devices are high lit click the onfigure them all at the same time highlighting all of Program button to 7T Page Proprietary and Confidential Revised 10 11 11 Standard Reporting Tab The Standard Reporting tab is used to configure the device for routine position reporting The SXL1 can be configured to report on a time delay between reports Standard Interval or at a specific time of day Time of Day The pull down dialog box is used to select one or the other mode Standard Interval x 0 Days 0 Hours o Minutes Or Time of Day v o Hours o Minutes Note that if Standard Interval is selected the user may us ays Hours Minutes controls to set the amount of time between a standard location report Day is selected the Days control is not available the user is prompted to select t inute of the day for reporting The device will wake once a day at this time to pe ort Time of Day is provided in UTC GMT format only Displayed below th ting time of your current time zone as set by your computer If enable Id specify the time at Gree
10. W Configuration is set in the Reset Battery 00 Primary Battery 3200 mAh Configuration Change Byte 6 bits 4 2 Modulo 7 count that increments each time the device is configured counts O to 7 then starts again at 0 23 Page Proprietary and Confidential Revised 10 11 11 Termination Reset Byte 6 bit 1 This bit toggles each time the Termination Count is reset Motion Status Byte 6 bit 0 This bit shows whether the device is moving or stationary 0 is stationary and 1 is moving Message Cause Byte 7 bits 7 6 These two bits show the reason for the Engineering Message as explained in the table below First run ofdevies S Note The SXL1 will automatically generate an calculated at 12 596 setting message cause to en the battery remaining is Engine Run Time Byte 7 8 Bytes 7 and 8 are a 16 bit count of hours it will rollover to O gt reaches 65 535 Reserved Byte 7 bits 5 0 and The remaining bits in the Engineering d and reserved for future use ication markings visible on the top which will be of the device is labeled or printed in both decimal e weather resistant and permanently affixed Customers duplicate the data in their own labels 24 Page Proprietary and Confidential Revised 10 11 11 Appendix Appendix A Regulatory Notices The SXL1 contains a GPS radio receiver and simplex radio transmitter as well as a digital computing host interface board
11. XL1 uses the on board RF transceiver and the program of wireless sensors The SXL1 programmer can accept seri connected directly to a open closed or analog sensor Thi serial wireless sensors only When the programmer is it uses the following protocol to send the appropriate both configuration and support ands from a sensor or it can be S manual contains the messaging for an open closed or analog sensor XL 1 for transmission Serial Protocol and inrush protection for the interfac The serial protocol conforms to the fo byte followed by a length byte followed B a two byte CRC ator payload and concludes with Preamble 1 byte Serial Packet Field Fixed pattern Ox AA Total number of bytes in the serial et including the preamble Cmd Command type See section 3 2 below Responses to commands EE carry the same command type as the command that initiated the answer CRC low Least significant byte of the 16 bit CRC CRC high Most significant byte of the 16 bit CRC 16 Page Proprietary and Confidential Revised 10 11 11 Serial CRC Algorithm The CRC checksum uses the CCITT 16 Reversed 0x8408 algorithm The Security Field is a 16 bit CRC of all of the previous fields including the preamble length and command bytes The remainder is initialized to all 1 s OXFFFF and the CRC is inverted before being sent Following is a sample C routine that implements the algorithm using the reversed tec
12. age dialog coun nored Motion Reporting Mode In Motion v Sensitivity Medium Mj Stop Time 30 Minutes b Start Time 10 Minutes h Subsequent Messages g z b Subsequent Message Interval 0 Hours o Minutes Triggered Reporting Tab switch d for 15 seconds This mode configures the device to use the ff when the magnet is inserted and on when it is removed state when the magne magnet as an on off swit Magnet Reporting Made Resume Sleep hs 11 Page Proprietary and Confidential Revised 10 11 11 Alarm Alarm magnet mode configures the device to initiate an alarm message operation In this mode the magnet is recognized by the SXL1 but does not trigger sleep mode When the device detects the magnet inserted for at least 15 seconds the device will arm itself for alarm on magnet removal The alarm is triggered on magnet removal only not insertion The dialog GPS FIX checkbox is used to instruct the SXL1 to send an alarm message with or without GPS location If the checkbox is unchecked the alarm message will be sent immediately with null zero data in the GPS fields If the SXL1 has not detected motion since it s GPS fix it will send those coordinates instead of null data Subsequent messages may also be configured that will follow the initial alarm message The subsequent messages will also contain or not contain GPS data depending on the GPS FIX checkbox If a quantity of 31 su
13. ay void the user s authority to operate the equipment Accessory items that can be readily obtained from multiple retail outlets are not considered to be special accessories and are not to be marketed with the equipment Only those accessory items provided by Numerex have been tested to ensure operation consistent with the regulatory standards that the device is required to perform 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 25 Proprietary and Confidential Revised 10 11 11 8 inches separation between the device and the user and all other pers should be maintained FCC and IC certified transmitter FCC ID TWV SXLI IC 6322A SXL1 Contains FCC ID TWV SXLIFLEX he SXL1 is certified to the following safety L60950 1 CSA C22 2 No 60950 1 Second E ated March 27 2007 L 913 6 edition Intrins ivision 1 Hazardous Cla SA C22 2 No 157 92 R2006 ocations he SXL1 s MET listing file number is ppendix B Calculating Lat Long alculating Lat Long from SXL1 Messages The SXL1 uses 3 byte fields to encode Latitude and Longitude information The data is encoded to represent a specific location with sufficient abcopagtary tsndot datiiedtidbeatidsedati ftdm the GPS system 26 Pag
14. bsequent messages is entered the alarm will be considered infinite until the alarm is reset Magnet Reporting Mode Alarm be Subsequent Messages 0 GPS FIX Subsequent Message Interval 0 Hours 0 Minutes Cut Wire Dry Contact Operation The SXL1 SX1 the Cut Wir tionality of the Testing Tab The Testing tab supports field evalua sti sing a variety of manual commands and queries The Testing ta i i orce message transmissions or query GPS or evaluate engineering data i messages the SXL1 must be outside or taken outs i outside when the g Device Programmer v2 0 1 224 2 1 Standard Reporting Motion Reporting Triggered Reporting Testing Info Profiles Latitude Send Enginering Message kongitude Send Custom Payload Ox Fix time Query GPS 12 Page Proprietary and Confidential Revised 10 11 11 Send Engineering Message This button triggers the SXL1 to send an on air Engineering Message Send Custom Payload This button triggers the SXL1 to send an on air Raw Data Message containing the first 8 bytes entered into the text box to the right The data must be entered in hexadecimal form Query GPS This button triggers the SXL1 to get a GPS fix and populate the Latitude Longitude and Fix time textboxes above the button Get Engineering This button queries the SXL1 to retrieve the Engineering Message data to the large textbox to the ri
15. burst message The network protocol is removed from this description for clarity Network operators utilizing the resulting internet packets must refer to Globalstar documentation regarding Simplex Data Service use All on air SXL1 messages follow the payload format depicted below Because the satellite packet is restricted to 9 bytes total the message fields are used sparingly The first byte of every on air message contains the message type identifier The message type identifier is the least significant 2 bits of the first byte of data The SXL1 may emit the following 4 types of on air messages On Air Message Type Definition 11001011 0xCB Location Message contains GP 11001111 OxCF A a i bh 0 11010011 0xD3 11010111 0xD7 Engineering Message The least two significant bits are set to 0x11 with 0x35 to avoid conflict with other satellite trans The subsequent 8 bytes are encoded as described be i essage type For data fields that span multiple bytes the parameters are sentin first in each byte Location Message Format The SXL1 transmits locati ta using th cation i The Location Message is denoted as messag d will fol the f Location Mess ormat OxCB pe OxCB L1 Location message type Lati ngitude 4 Byte 1 Byte te 2 Latit Latitude LSByte By Longitude MSByte Byte S Longitude Byte 6 Longitude LSByte see section 2 3 1 and 2 3 2 for encoding method Status Bit 2 0 battery status
16. ccordingly as to whether or not the data was received and handled properly 33 Page Proprietary and Confidential Revised 10 11 11 After a set number of failed attempts or error messages an alert will be emailed to an address provided notifying the VAR of failure Custom Defined Methods Datastreams are capable of defining custom formats transport layer methods and acknowledgement states as defined by the VAR Methods include but are not limited to TCP UDP SSL FTP SOAP etc Data encapsulation formats include but are not limited to CoT Cursor On Target custom XML schemas custom binary encoding etc Development of custom methods are subject to the terms and conditions arranged with Numerex 9 34 Page Proprietary and Confidential Revised 10 11 11
17. e The SXL1 encodes 180 degrees of LATITUDE as a 24 bit 3 byte signed integer The SXL1 encodes 360 degrees of LONGITUDE as a 24 bit 3 byte signed integer The encoded LATITUDE data is the first three bytes of the location data payload The encoded LONGITUDE data is the next three bytes of the location data payload Lat2 Latitude MSB Lati Latitude LatO Latitude LSB Long2 Longitude MSB Long1 Longitude Long0 Longitude LSB CALCULATING LATITUDE FROM ENCODED SXL1 MES Latitude may be calculated by converting the 3 encoded latitude b represented in hexadecimal to a decimal number and multiplying this decimal inte y the DEGR PER COUNT LAT conversion factor 90 0 27 Since the latitude is signed and can range fro or equal to 90 degrees 180 must be subtracted Negative Latitude corresponds to i i SOUTH Tlemisphere Positive Latitude corresponds to Hemisphere CALCULATING LONGITUDE FROM ENCO SSAGES The longitude may b U by conve O ongitude bytes represented in hexadecimal to a his deci n tiplied by the DEGREES PER C u nversion 180 0 2 0 to 90 degrees if the ab the result gt result is greater than equal to 180 gt from grees 360 must be subtracted from the result to 180 degrees If the above result is gre since the de is signe p UN ve Long orre ds to Long Positive Longitude pond ongitude i in the WESTern Hemisphe
18. ed Note that these hazards can also h message thru put When mounting ensure that the unit has been properly programmed has been placed in RUN mode and the magnet has been removed Several mounting techniques are available and may vary due to application of use VHB tape screws etc Power Standards Outline The SXL1 operates using series pairs of 3 0V lithium metal batteries The device uses the 6 0V DC voltage for all battery powered operation The battery assembly is intrinsically safe 14 Page Proprietary and Confidential Revised 10 11 11 Each of the 3V batteries has an operational range of 2 1 to 3 0V with end of life near 1 85V 3 7V for each series pair New Battery Installation For installation of a battery on a new SXL1 remove battery from packaging Ensure that the gray neoprene gasket is in place around the oval connection port to the electronic assembly section of the SXL1 Verify that you have two 6 32 T10 Torx security screws to affix the battery to the unit Slide the rear of the battery into the notches on the SXL 1 rotate the front of the battery down gently into place being careful not to damage the connection pins Place one 6 32 screw into each hole on top of the battery and tighten to approximately 10 inch pounds Battery Replacement In order to replace the battery of the SXL1 remove the zip ti mounting plate While lightly pulling up on the SXL1 us crew securing the SXL1 to the iver to gentl
19. eering Message orina ln a a o Message TP iaa lr ia GPS Mean Search Time Byte 2 ooooocccccncccccocococcnnnocnncnnarancnnancnnonornnconnnrnnnnnnnrrcnnnnraronnnrncennnianinns GPS Fails Byte 3 c ca e caian iio Ao E lada cagdea des Transmissions Bytes 4 5 eene nennen ehe these rh h ese ntn ee enne nnns HW Configuration Byte 6 bits 7 5 cece eet eee ee eee eee ene mne henn rhe n nne nne Configuration Change Byte 6 bits 4 2 mene hheene n rennen nnne 23 Termination Reset Byte 6 Dit 1 oooocccccnnncccnncccnncnnccnnnoncccnnonnncnnnnnccnnonnornnnnnnnraconnnnnnonnrrannnnininannns 24 Proprietary and Confidential Revised 10 11 11 Motion Status Byte 6 bit 0 certet e ies 24 Message Cause Byte 7 bits 7 6 ooooonccccconcccconaccononononnconancnnonannnconnncnnonnannnnnnnrnnnonnnranennnrarennnrenes 24 Engine Run Time Byte 7 8 cea fecit creer rong tee E em aeree I E ga aen 24 Reserved Byte 7 bits 5 0 and Bytes 8 9 eee hh nenne nh ennnn rn nnnn 24 Regulatory Approvals credi ideal lad eme e dtr v ou den e cue ei Peek A Y EN aa 24 Labeling and Marking sea aan eren e bete te c ine cR ii Rr TRA DOR 24 UTATA D seco ts ener feo EDI hunc Mu x LII UE LE LI Ot a 24 Appendix A Regulatory Notices ssssssssssssseseeeee eene mene hene e hhhene hne n enhn n n trennen nnne 25 Appendix B Calculating Lat Long rinira a a a E a i a e Aade 26 Calculating Lat Long from SXL1 Messages ssss
20. essage when certain conditions are met trigger The FELIX datastream trigger that was configured to send this message This will match the list of triggers found in FELIX condition The condition that was matched that triggered this forwarded message The options for this condition are specific to the tracking device sending the message unless the trigger is set for any message received position The position information and calculated address information of the position information coordinate The Tracker XML outputs the coordinates in type dd decimal degrees latitude The latitude reported in the forwarded tracker message and determined by the hexadecimal field in the payload 28 Page Proprietary and Confidential Revised 10 11 11 longitude The longitude reported in the forwarded tracker message and determined by the hexadecimal field in the raw payload address The address calculated by the latitude and longitude The address is an approximation made on available geographic data it is not intended to be exact street address The approximation of the number and street information by the latitude and longitude The address number may or may not be present depending on the street type The street may be a road avenue highway or other designated type and is an approximation of the nearest street to the location city The city the address resides in state The state the address resides in if applicable zip The US Postal zip c
21. ethod to inexpensively collect widely scattered asset data The device is speak only so there is no way to communicate to the device in the field This feature is mitigated by a rich configuration capability that enables the SXL automatically detect situations where a data update is desired such as start and stop or while otion This Users Manual describes how the SXL 1 is configured and internet XML packets This document provides a g for more details and options of relaying data Connecting the SXL1 to the Computer e protocol for on air data payload overview only Consult Numerex The SXL1 is available in preconfigured operational modes These modes determined at point of manufacture depot distribution Field configuratio only be performed by installation speci to avoid configuration erro Kis also required to run the configuration setup software This is a defat i P on and may also be downloaded from www microsoft com the SXL1 programmer right is used to connect to the computer being used to configure Vice Connect the computer to the SXL1 programmer using the USB cable and then run the Programmer software tool The SXL1 Programmer software will automatically begin searching for available SXL1 units SXL1 Programmer Software The SXL1 Programmer is a Windows executable software program designed to access and configure the SXL1 The program can simply be copied to a directory on the computer 5 Page Pr
22. ght of the button Get Testing Data This button queries the SXL1 to perform a device self test The SXL1 will return self test results to the textbox to the right after 5 seconds ive device self test The SXL 1 will seconds 7 and repeat until Loop Test Data This button queries the SXL1 to perform return self test results to the textbox to the right after a co canceled Test data is logged to a test file C Program Send GPS Message This button triggers the SX O ocation message Allow for up to 30 minutes for the SXL1 to determine the i message last GPS fix Get Last Location This button returns the l performed Note that this is not necessarily the e longitude and time ent location and time Info Tab The Info tab collects all communications i devices in a scrolling textbox It supports testing and evaluation of devic SX1 Programmer v2 0 2 224 2 1 Standard Reporting Motion Reporting Triggered Reporting Testing Inl i Profiles Main Config Read for 0 279909 Version 0 224 Main Config Read Sleep Mode Reset Battery Clear Text Show Events Sleep Device Reset Battery Resets the battery counter on the SXL1 a window will pop up to verify the change Clear Text Clears the text in the information box Show Events Shows pending and recent events that are in the SXL1 scheduler 13 Page Proprietary and Confidential Revised 10 11 11 Profiles Tab
23. hnique WORD crc16 Isb BYTE pData WORD length BYTE i WORD data crc crc OxFFFF if length 0 return 0 do data WORD OxOOFF amp pDat crc crc data for i 8 i gt 0 i if crc amp 0x0001 crc crc gt gt else crc gt gt 1 while leng The serial format ili serial messaging as described in the sections following All the command field of the response equal to the command field of the initiating message d formatted commands are negatively acknowledged by the SXL 1 Serial Sensor Message Types 0x04 Remote Data Command See Remote Data None Command pg 20 0x05 Remote Sensor Alarm Command See Remote Sensor 1 byte alarm accepted Alarm Command pg 20 17 Page Proprietary and Confidential Revised 10 11 11 Remote Data Command message type 0x04 The SXL1 supports remote sensors or other devices that force a satellite transmitted message using this command The external interface may relay up to 8 bytes of data for transmission by the SXL1 over the system Format of the user data is undefined The SXL1 acknowledges receipt of the Remote Data Command immediately then sends the data to the satellite system using message type OxCF Remote Message pg 24 The Remote Data Command is in the following format Bit Mask for Remote Data Command User Defined The SXL1 does support remote sensors or othe j itetransmitted message and may
24. ion Alarm Active is true Any Data is received Battery Level less than 50 Message Cause is Cut Wire 0010 X Message Cause is Line Powered 0100 Select Delivery Method s SFTP To example com Queue delivery method 2 X Action Name Deliver via SFTP To example com when SX1 SX1 Location Battery L Y Auto Generate Enabled Y Ji Cancel Lial Save Figure 4 Create Action jii Tow are cement secigning aseet to Sa actis Deliver via Wasal Rewind whee SX 1 SXI Lacan Battery Level isee th Bord eb Asset Selected harto Asset Meme LINT Ss 1 Derr me ut fC 110t Signal Quest mo wets 3 immons fran P rane Gi Engine 4 ibesrdich a is aed 3 TRA rro z T T Cae Teo vea Me ovs Te TROVTEST Cancel Save Figure 5 Assign Asset fg Action Queuing VAR Back Office Acknowledgement and Error Notifications With the use of user defined data transfers it is up to the VAR to make sure data is being received at the VAR s back office properly The Datastream assumes the VAR s back office is functioning properly and handling data without error Custom defined and future Datastream methods utilize a data queue that can be configured to retry every sixty seconds in the event of VAR back office failure or error response Messages will be transmitted one at a time in a first in first out fashion It will be the responsibility of the VAR s back office to acknowledge a
25. itiate a Datastream if the battery level gets below 50 Click Save Next you must create an Action and assign Assets to it Datastream Management gt Home a Delivery Methods B Actions oO New Trigger oar Figure 3 Create Tr Trigger Source l Payload v Device Type SX1 v J Message Type i SX1 Location S Payload Field l Battery Level Y Operator less than v Value 50 Name SX1 SX1 Location Battery Level less than 50 Y Auto Generate Display on Map Y Enabled v a Trigger or Triggers and Assets to form a enu Click Create New Action ou wish to configure need for this Datastream Choosing multiple Triggers will ogic between the two or more triggers AND represents all of resents any of the Triggers Choose the De 5 you want to configure to this Datastream Assign Assets to Action Ssets and choose the Assets you wish to assign to this action Use the g Assets to select multiple Assets or use the double arrow button to select Scroll through the li Ctrl key while selectin all Assets Click Save You have now created a Datastream 32 Page Proprietary and Confidential Revised 10 11 11 Es New Action Select Trigger s sx1 v Sxi Ski SXi Sxi S41 Ski SXi SX1 Engineering Engine Run time greater than 25 SX1 Engineering Engine Run time less than 50 81 Location Sx1 Location SX1 Location S41 Location Sx1 Locat
26. larm Indication Bit 4 When set to 1 this denotes the loce message cause ion message is Bi old the Message Cause Bits 8 5 These bits hold the binary value of the b C p Beoeo ooo undefined F undefined 20 Page Proprietary and Confidential Revised 10 11 11 1110 Analog Custom Sensor 1 1111 Digital Custom Sensor 7 Note Remote message cause 0 through 7 translate to message cause 8 through 15 bit 4 1 remote alarm initiated The message cause field alternatively can hold engine run time data as described below in the bit 9 description Engine Run Time Bit 9 This bit is zero unless the device is configured for engine run ti State byte of the configuration message If configured for a standard interval driven location message this bit 9 is are redefined to hold 16 hour resolution count of engi cause is 0000 and the field normally holding the m in 16 hour resolution ut Wire Configuration in Run run time and the SXL 1 is reporting the message cause fields bits 8 5 his means that the true message location messages be cleared This is only true for standard interval driven such as alarms or motion will not contain engl Configuration Change Bit 10 Toggles each time the device is re Message Count Bits 13 11 Modulo 7 count that incre i C e counts 0 to 7 then starts again at O Motion State B Holds current state o
27. nwich Mean Time for operation 8 Page Proprietary and Confidential Revised 10 11 11 Note When programming SXL1 for Time of Day reporting Programming for Time of Day mode within 1 hour of the scheduled time will result in the first days message being pushed out 24 hours Also if the device time is not current the first time of day event may take a complete 24 hours from time of program to complete Users should thus allow up to 48 hours for the unit to begin reporting on schedule Time of day reporting mode is set in UTC Displayed below the UTC setting is the correlating time of your current time zone as set by your computer SX1 Programmer v1 1 4 217 Standard Reporting Motion Reporting Triggered Reporting Testing Info Profiles Time of Day 12 Hours 0 j Minutes 06 00 AM Mountain Daylight Time Subsequent Messages 9 Subsequent Message Interval 0 Hours lo j Minutes Engineering Message Interval 14 Days 0 Hours jo Minutes ESN 0 301282 Sleep 5x1 Run 5X1 Sleep Mode Read 5X1 5 configured g the Subsequent dialog entry boxes Subsequent Messages 0 Subsequent Message Interval 0 Hours 0 Minutes Subsequent Me llowing the Standard report The Subsequent Messages dialog to be sent subsequent to the standard report The Subsequent Message Interval se n hours and minutes between subsequent reports For example a device co configured as ured to re
28. ode the address resides in if applicable county The county the address resides in if applicable motion The value reported by the tracking device for the moti This may be a different result than the motion sensor trig derived by different methods payload The following attributes will represent the pa related value The specific field names will depen of the tracking device tus at the time of the report may be configured as they are f the message data and the pe and specific configuration Tracker XML Example lt xml version 1 0 encoding ut lt trackermessages version 1 0 gt lt trackermessage type SXL1_locat 44855 po al true unixtime 1231360613 gt lt asset gt lt esn gt 0 301896 lt esn gt lt name gt TEST U lt user_data gt lt field name lt user_data gt lt asset gt 9 lt longitude gt lt address gt lt street_address lt city gt Bozeman lt c lt state gt MT lt state gt lt zip gt 59715 lt zip gt lt county gt Gallatin lt county gt lt address gt lt position gt lt motion gt false lt motion gt lt payload gt lt field name SXL1_alarm_status data false format boolean units gt lt field name battery data 100 format numeric units gt lt field name SXL1_config_change data false format boolean units gt lt field name SXL1_engine_runtime data format numeric units gt St lt street_address gt 29 Page P
29. on Send Tracker Message XML to example com to SFTP Delivery Format Tracker Message XML vj Delivery Type SFTP vj Delivery Address sftp username password sftp example com 22 home users amp Failure Response Retry for a set number of attempts Ss Seconds Between Attempts 60 Maximum Retry Attempts io Maximum Retry Minutes 120 Contact Name Training Contact E Mail Address training numerex com You will be notified via this e mail on delivery failure Contact Phone Number 406 555 1234 Enabled v e Cancel a lal Test and Save j laj Save Figure ate Delivery od The configuration you have entered must be tested before saving A test message will be sent using the parameters you have provided Continue Perform Test Cancel Figure 2 Save Delivery Method Create Trigger A Trigger defines the criteria that must be matched to initiate a Datastream 1 From the Datastream Menu choose Triggers and Create New Trigger 31 Page Proprietary and Confidential Revised 10 11 11 Choose the Trigger Source Every Trigger Source is determined by an incoming message from the tracker In the case of triggering on payloads the available payload fields are dependent on the GPS Device Type as some fields are specific to certain devices Choose the desired Message Type Payload Field Operator and Value See the screenshot to see the configuration for a Trigger that will in
30. oprietary and Confidential Revised 10 11 11 When launched the program will auto detect a SXL1 programmer If a programmer is detected the SXL tab will appear along the top of the program window The SXL1 Programmer tool is structured as a standard Windows application with tabs along the top of the display area that groups similar configuration controls and displays The bottom of the display remains constant showing the ESN of the connected SXL1 sleep mode indicator control and two buttons used to read back a device configuration or write configure a device for operation The Sleep SXL 1 button queries the configuration of the connected device populating the dialog boxes of the tool and then places the device to sleep This button is used to force a device to sleep without changing the configuration The Run SXL1 button queries the configuration of the connected device populating the dialog boxes of the tool and then places the device into run mode Thi ton is used to force a device to run using the pre configured settings The Sleep Mode checkbox is used to select the operati configuration If checked a unit is left in low power sle unchecked the device is left in run mode following the sleep mode checkbox will reflect the current of the device subsequent to ing programming If evice is read for configuration The Read SXL1 button queries the device urrent configurations held in the dialog boxes of all the
31. optionally enable subsequent reporting u i n of this command the device enters the data parameters into o fc Orting able is full the device responds to the device with a If the event table can accept another e command immediately and then initiate on air Location Messages Command is in the fo an Alarm messages are standard he Remote Sensor Alarm C nt value of zero disables alarm messaging This can be used to suspend termina ing alarm messaging nt value ranging from 1 to 30 will initiate an alarm immediately and e count value Count value of 1 initiates a single alarm message infinite number of subsequent alarm messages subsequent messages Count value of 31 initiates The device will send alarm notifications containing or omitting GPS data per the setting of bit 15 of bytes 0 amp 1 Alarm triggered interval sets the minutes between first and subsequent alarm messages initiated by the SXL1 This term set to zero instructs the S XL1 to send the alarm message only once SXL1 On Air Message Protocol The SXL1 transmits data via the embedded satellite transmitter The SXL1 initiates a satellite transmission following location determination or to relay engineering data that is useful for evaluating the health of the device over time This section describes the on air messages emanating from the 18 Page Proprietary and Confidential Revised 10 11 11 SXL1 Each message below describes the payload region of the satellite
32. port daily at 8 AM and hourly thereafter for 6 hours would be Time of Day v 8 Hours 0 Minutes Subsequent Messages 6 Subsequent Message Interval 1 2 Hours lo Minutes 9 Page Proprietary and Confidential Revised 10 11 11 Also on the Standard Interval tab is the dialog to configure the Engineering Message The Engineering Message is a transmitted message containing data related to the health and operation of the SXL1 It is advisable to send the Engineering Message routinely typically monthly or bi weekly Standard Engineering Interval v 1 Days o g Hours 0 2 Minutes The Engineering message interval may also be configured for time of day operation This is useful for example when requiring a daily count of engine runtime Time Of Day Engineering 0 Hours 0 Minutes 06 00 PM Mountain Daylight Time Motion Reporting Tab The Motion Reporting tab is used to configur evice for detectin reporting while in motion The Motion Reporting Mode pull down dialog used to select one o odes of motion detection and operation Disabled Disabled mode configures the device to Stop Time dialogs are ignored Gn Sensitivity and Motion Reporting Mode Disabled v Sensitivity Medium v Stop Time 30 Minutes he Start Time 10 Minutes v Start Only Start Only detect start of motion and report The Sensitivi device i sitivit
33. re the EASTern Hemisphere 27 Page Proprietary and Confidential Revised 10 11 11 Appendix C SXL1 Data Interface Scope This document describes the SXL1 Data Interface Datastreams transport methods and data formats available for machine to machine communications from a device to a Value Added Reseller VAR or customer s back office All methods and formats described in this document can be configured in the FELIX Software Administration website It is assumed the reader is familiar with the terms and technology described in this document Transport Layers The Datastream functionality implements common Internet integration with the VAR back office The following proto HTTP HTTPS SMTP E Mail and SFTP For a desc table below ia aria Protocol Secure 1 1 PEN SMS Protocol E onic Mail RW NEN Protocol Y fer 02 txt Data Formats port layers to facilitate ease of n be utilized for data transport e protocols please refer to the Tracker XML trackermessages XML which contains the individual tracker sion e Asset Values for the elements are attained at om field is free text spaces are allowed field name The field represent the Organization defined custom field name as assigned to the asset The data field will represent the value of the field defined for the Asset cause This element and its children refer to the FELIX datastream trigger that is configured to forward the tracker m
34. roprietary and Confidential Revised 10 11 11 field name 2d gps fix data false format boolean units gt field name latitude data 45 679092407227 format numeric units gt lt field name longitude data 111 03650093079 format numeric units gt lt field name SXL1_alarm_type data 0000 format string units gt field name SXL1_message_count data 7 format numeric units gt lt field name motion data false format boolean units gt field name raw_payload data CB40F740B10A6C3807 format string units gt lt field name status_code data CB format string units gt lt field name SXL1_interval_report data false format boolean units gt lt field name SXL1_termination_message data false format boolean units gt lt payload gt lt trackermessage gt lt trackermessages gt Delivery Methods HTTP HTTPS The Datastream will encapsulate an SXL1 m in the XML format ibed above and POST the data to an HTTP HTTPS server A list of i i e VAR such that appropriate firewall rules may be established i icati http www ietf org rfc rfc2617 txt is available upo e text xml with no URL or other encoding Fora acknowledgement TML Code in the 200 s is all that is necessary fo nsmission a success SMTP E Mail The Datastream will e email and will be deli Administration we semicolon characte Numerex Alert and
35. ssssee emen hme rhe ne rre nnis 26 Appendix C SXE1 Data Interface certis ee prep shes tees e Fete d OTI de kp CE e eed HERE S TR ge 28 SCOPE E EIL 28 Transport Layers piorou b rei O oe ont weer dete lees teehee 28 Data Formats reote rece t e tet tatit on c iB emen 28 Tracker XML Description ss c n M aaaeeeaa 28 Tracker XML Example cceeeeseeeeeeteeeeees oA a ATT 29 Delivery IA DAL A 30 HTTP AITTPS ee ee Pg N Ree eene reer TTT 30 SMTP E Mail ee AE INE essen 30 SFETP CAS lice me 30 Steps for Configuring the Datastream for an Asset i ion website 30 Queuing VAR Back Office Acknowledgement and Er ificaddie CA 33 Custom Defined Methods A oo 34 4 Page Proprietary and Confidential Revised 10 11 11 SXL1 The SXL1 is a small but fully self contained global satellite based tracking device capable of determining location using GPS and reporting the location over a low earth orbit LEO satellite network The SXL1 is powered by a field replaceable battery and requires no wiring or harnesses for use The SXL1 communicates data via the Globalstar Simplex Data Service This satellite service utilizes low power one way transmitters to relay data from locations globally to a back office server accessible over the internet through secure connection The use of one way simplex satellite communications is a proven reliable m
36. y Stop Time sets the amount of time in device drops out of motion The Start Time ts motion before the device reports in motion Motion Reporting Mode Sensitivity Stop Time 30 Minutes bh Start Time 10 Minutes lt i Subsequent Messages 9 Subsequent Message Interval 0 Hours o 2 Minutes As with the Standard reporting function the device may be configured to report subsequently following motion start detection For example a device may be configured to detect motion start and report every 30 minutes subsequently for 4 reports Start Stop Start Stop mode configures the device to detect start or stop of motion and report The Sensitivity and Start and Stop Time configurations are as described earlier The device only reports start and stop of motion No subsequent reporting is configurable in this motion mode 10 Page Proprietary and Confidential Revised 10 11 11 Motion Reporting Mode Start Stop v Sensitivity Medium M Stop Time 30 Minutes Nj Start Time 10 Minutes Ni In Motion In Motion mode configures the device to detect start and stop of motion and report at a set interval while remaining in motion The Sensitivity and Start and Stop Time configurations are as described earlier The Subsequent Message Interval controls set s time between reports while the unit remains in motion The Subsequent Mess
37. y pry the locking tabs mounting plate remove the two river Rotate the front connection ports for debris ensuring that the gray screws holding the battery to the SXL1 using a T1 portion of the battery up and remove the battery neoprene gasket is in place around the oval c security screws to affix the battery to the SXL1 e notches in the SXL1 and rotate the front of the battery gently dow mage the connection pins Replace the batte tighten to approximately 10 inch pounds Afte i the SXL 1 setup tool to reset the battery count this will ensure the engine n n accurate battery power remaining The SXL1 triggers a Le y State when the battery capacity reaches 12 5 useful life remaining calculated by the device peration The device also contains low voltage and brown out protection that will restart the unit upon a power interruption event Power Supply Battery Life The SXL1 is powered by field replaceable lithium metal batteries The typical operational battery life and expected location report count is a function of use as shown in the graph below Extended temperature of use outside 20 to 60 C or obscured view of sky resulting in more cold start GPS fixes can shorten battery life The graphs below depict typical usage curves Environmental conditions and device placement with respect to sky visibility will impact device performance 15 Page Proprietary and Confidential Revised 10 11 11 SXL1 Serial Message Protocol The S
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