Sierra Wireless 20070914 manual PinPoint X Supported Protocols, Remote Access Protocol RAP

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Global Positioning System (GPS)

from the difference between local time and the time the satellite signals were sent (this distance is called psuedoorange). The locations of the satellites are decoded from their radio signals and a database internal to the receiver. This process yields the location of the receiver. Getting positioning information from fewer than four satellites, using imprecise time, using satellites too closely positioned together, or using satellites too close to the Earth’s curve will yield inaccurate data.

The GPS data is then transmitted to a central location which uses a tracking application to compile information about location, movement rates, and other pertinent data.

Note: Depending on the location of the satellites in relation to the modem’s location and how many signals are being received, the PinPoint X may encounter “GPS drift”. The PinPoint X may report it is in a location a few feet from its actual location because it does not employ differential GPS.

PinPoint X Supported Protocols

The PinPoint X supports three different GPS reporting protocols.

Remote Access Protocol (RAP)

The Remote Access Protocol (RAP) is a proprietary binary message format developed by Sierra Wireless AirLink Solutions. RAP was originally designed to work specifically with AirLink Tracking System (ATS), but other 3rd party appli‐ cations have been developed to take advantage of the RAP messaging format.

In the original RAP, a PinPoint line modem uses the UDP (User

Datagram Protocol) to communicate with the host server.

In RAP‐based AVL, each PinPoint line device sends its command status and responses to the Host server and the Host sends commands to one or more PinPoint line devices. For reliability, the Host expects each command to be acknowl‐ edged within a time‐out period. If the acknowledgement packet (ACK) is not received within the time‐out period, the Host will retransmit the command.

The RAP messages are in Hex and are referred to by their message ID. Reports can include GPS data alone, as well as GPS data with the date and time, radio frequency data, and state changes of I/O as well as sending reports based on power states.

 

 

 

 

 

 

 

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Contents User Guide Important Notice Safety and Hazards Limitation Liability Patents Copyright Trademarks Revision History Contact InformationContents Configuring your PinPoint X Data Communication and Host Modes Snmp Simple Network Management Protocol Configuration Commands Contents Contents Contents PPP over Ethernet PPPoE Aleos Introduction to the PinPoint XAceManager AceWareMonitor and Control Simplified DeploymentAceView AceNetNetwork Monitoring Modem Doctor Modem Doctor Modem Doctor USBSteps of a connection Connecting to the AT&T NetworkDynamic vs. Static IP Addresses Connecting to the InternetHsdpa Hsdpa CommunicationEdge Specifications Interface Port Pin-Outs Port Power ConnectorActivating PinPoint X on AT&T 3 Network Installating the SIMBefore you start Cellular Account RequiredEjecting the SIM tray Opening the SIM SlotInsert the SIM into the Tray Tools RequiredSample of a Card with SIM Insert the Tray and SIMFinishing the SIM installation Configuring the APNConnect to the Modem Start AceManagerAceManager EDGE/HSDPA Enter the APN10 AceManager Misc Write the Settings to the PinPointIndicator Lights Hardware Installation PinPointGPS Connecting to a Computer or other Device Connecting to PowerSerial Rssi LED Ranges RSSI/Signal LED Status Ranges of Rssi dBm Indicator LightsLight Patterns MountingFront Using AceManager Configuring your PinPointAceManager Connect to Modem Connect to your PinPointAceManager Connected Enter the configuration optionsWrite the changes to the modem Using TemplatesCreating the Template with AceManager · Cellular Technology specific settings EDGE/HSDPA group Applying a Template to one modem with AceManager Reset the modemConfiguring your PinPoint 10 AceNet Selected modems Choose a name and icon for your connection Using a Terminal Application with AT CommandsConnect To Port Settings serial only15 Port Settings Connected AT CommandsConfiguring your PinPoint Changing the USB port communication Universal Serial Bus USBSet the Port Type Installing the USB driverConnect the PinPoint X to your computer’s USB port Hardware Wizard Location options Install the driver from a specific locationVirtual Ethernet Optional Verify and Configure the Virtual Port SettingsSystem Properties Device Manager Ethernet Virtual Serial11 Device Manager Serial 12 Device Manager Driver menu Using USB Ethernet with AceManager Using the Virtual Ethernet PortUsing USB Ethernet with a Terminal Emulation Utility Using the USB virtual serial port with AceManager Using the Virtual Serial PortUniversal Serial Bus USB Capturing External Events Inputs, Relay Outputs, Power StatusAnalog Inputs Relay Outputs Digital InputsRev 3.0B Feb.08 Inputs, Relay Outputs, and Power Status Connecting devices to the I/O PortWiring Color Corospondance AceManager I/O Monitoring and Setting the I/OGetting Immediate Reports Using RAP Power Modes and InformationPower Effect on Modem State Wiring the PinPoint X forMonitoring Power-In Voltage 11 AceManager Status *POWERIN/*BOARDTEMP Basic Modes Data Communication and Host 8 ModesSerial Modes Basic Modes Start up ModeData Communication AceManager UDP MD AT ModePassThru Mode AceManager PassThru Telnet ModePPP Serial ModesUDP and UDP Pad SlipUDP Auto Answer Reliable UDP TCP and TCP Pad UDP Multicast ModeTCP Auto Answer Hybrid ModesData Communication Public and Private ModeInternal Dhcp Server Keepalive Data usage using Keepalive Configuring KeepaliveIpping Reasons to contact the modem and/or the connected device IP ManagerUnderstanding Domain Names Car54.mydomain.com Dynamic NamesCar54.mydomain.com.ca AceManager Dynamic IP Using IP Manager with your PinPointEairlink.com Data Usage for IP Manager Server UpdatesRestrictions for Modem Name Understanding DNS Configuring DNSAceManager DNS PPP-Peer Domain NameGPS Overview Global Positioning SystemPinPoint X Supported Protocols Remote Access Protocol RAPNational Marine Electronics Association Nmea DatumTrimble Ascii Interface Protocol Taip Before you Configure GPS Configuring the PinPoint X forReal-Time Clock Synchronization Configuring the DatumOver-The-Air Remote Host TCP GPS Report Polling Local HostAceManager PinPoint *PPTCPPOLL Report TypesSending Reports Automatically Report Delay on Power-UpRemote LocalStore and Forward Store and Forward Reliable Mode11 AceManager PinPoint *PPSNFR, *PPMAXRETRIES Sending Reports Based on an IntervalRAP Reports Over-The-Air Remote RAP ConfigurationFlush on Event 15 AceManager PinPoint *PPGPSR RAP Reports over a Local ConnectionDevice ID Configuring Additional RAP FeaturesEvent Reports Odometer Data in ReportsCOM 1000 support 22 AceManager *PPCOM1000, *PPREPORTINPUTS Flush on EventMessages Over-The-Air Remote Nmea Configuration26 AceManager Misc S53 Port Streaming Messages Local29 HyperTerminal Nmea Streaming Persistent StreamingTaip Command Emulation Taip Emulation ConfigurationSupported Taip Commands Rev 3.0B Feb.08 102 35 AceManager PinPoint *PPGPRSR Local ConnectionRev 3.0B Feb.08 104 ‐ *PGPS Sending Unsolicited Taip Messages over the Local ConnectionRev 3.0B Feb.08 106 Management Information Base MIB Snmp Simple Network Management ProtocolSnmp Traps Listening Port Snmp ConfigurationSecurity Level AceManager Change Password menu option User Name and PasswordTrap Destination Snmp MIB Definition SampleCommunity String Rev 3.0B Feb.08 111 Rev 3.0B Feb.08 112 Rev 3.0B Feb.08 113 Display Responses Product ID Info information Configuration CommandsDEVICEID? HOSTMODE? StatusNETOP? GPS Status and Map Link POWERMODE?Common AT Commands Requiring PassThru mode+++ Misc MiscellaneousDmethodd.d.d.d/ppppp or Dmethod@name/ ppppp DS=n D.d= IP address to contact Ppppp= port to contact ExamplesS53=methodd.d.d.d/ppppp OPRG=nMethod= P UDP Method=T TCP Method=N Telnet D.d=IP address =1‐65535STATUSCHK=n SerialUSBDEVICE=n S4=n S3=n=0‐255 =2‐10 seconds=1‐2545 Parity=O Odd Parity=E Even Parity=N None Parity=M Mark=tenths of a second S50=nS51=n S211=nCTSE=n \QnPPPNOCARRIER=n NUMTOIP=nS0=n =0 ‐ =seconds=interval AIP=n ENQ=nHOR=n Hh=33 Bsap Hh=01 Slip Hh=02 PPP Hh=03 UDP Hh=04 TCPUDPLAST=n UALL=nUSD=n D.d=IP address of domain serverDynamic IP DNSUPDATE=nDNSUSER=d.d.d.d DOMAIN=nameName=domain name IPMGRUPDATEn=mIPMGRKEYn=key MODEMNAME=nameDHCPSERVER=n PPP/EthernetD.d=local or peer IP address of the modem PassThru String=passwordHOSTPW=string HOSTUID=string=1‐255 minutes String=AT commands=1‐255 hours NETSMS2EMAIL=n Pw= password=SMS/E‐mail server number SMTPFROM=emailEmail=email address Body=message body SMTPSEND=emailbodySMTPSUBJ=subject Subject=message subjectDAE=n OtherDATZ=n IPPING=nName=domain name Port=port D.d=IP address Name=domain name=1‐255 seconds =1 On Host=IP address Port=TCP port=minutes Low PowerTPORT=n PTMR=nSISE=n FriendsVLTG=n FM=n LoggingD.d = IP address DBGDHCPLVL=n DBGCOMMLVL=nDBGETHLVL=n DBGIPLVL=nGPSn PinPoint GPS#IG=n PGPSF=n PGPS=nPPCOM1000=n PPDEVID=n=0‐65535 hex PPLATSEXTRA=n PPLATS=nPPLATSR=n PPMAXRETRIES=n=meters =1‐65535 seconds=5‐255 PPSNFB=n PPSNF=nPPSNFM=n PPSNFR=nPPTSV=n PPTIME=nUDPRGPS=n DIGITALINn? ANALOGINn?IOSTATE=n,s RELAYOUTn=xEdge/HSDPA Apn=access point nameNETAPN=apn Format=2 Numeric Oper=name PPP over Ethernet PPPoE Configuring the PinPoint X for PPPoEOptional Configure *MODEMNAME Configure your PinPoint X to support PPPoEWrite the configured settings to your PinPoint Configuring a PPPoE Connection in WindowsCreate a new network connection Next Select Connect to the Internet Select Connect using a broadband connection Rev 3.0B Feb.08 167 Select Properties Configure the PPPoE connectionSelect OK until you return to the Connect window 17 PPPoE Connection Connecting to the Internet with PPPoEInstall the driver Installing a modem driver for PinPointWindows Dial-up Networking C DUN Connect the PinPointSelect the Modems tab Check Don’t detect my modem I will select it from a list Check Selected Ports Modem Properties Configure the driverModem Properties Modem Creating a Dial-Up Networking PPP ConnectionRev 3.0B Feb.08 177 Rev 3.0B Feb.08 178 Select Connect using a dial‐up modem Rev 3.0B Feb.08 180 Rev 3.0B Feb.08 181 21 New Connection Finish Configure the DUN connectionCheck Show icon...when connected Rev 3.0B Feb.08 184 Select Advanced Start AceView Connecting to the Internet Using DUNWindows DUN Enable the ConnectionSelect Dial to connect to the modem and the cellular network Start the DUN sessionWindows Dial-up Networking DUN Rev 3.0B Feb.08 189
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20070914 specifications

Sierra Wireless 20070914 is a cutting-edge wireless communication module designed for IoT applications, offering remarkable features and robust performance. This module represents a significant advancement in the realm of embedded wireless solutions, catering to a variety of industries including automotive, industrial automation, and smart cities.

One of the key features of the Sierra Wireless 20070914 is its support for multiple cellular standards, including LTE, which ensures high-speed data transfer and reliable connectivity. The module is designed to operate on various frequency bands, making it versatile and suitable for global deployment. This multi-band capability allows businesses to deploy their IoT solutions in different regions without modification, reducing time-to-market and deployment costs.

Another standout characteristic of the Sierra Wireless 20070914 is its comprehensive and seamless integration with cloud services. The module supports advanced cloud connectivity options, enabling real-time data processing and analysis, which is crucial for industries that rely on timely decision-making. This feature is particularly important in sectors like transportation and logistics, where real-time tracking and monitoring are essential.

The power efficiency of the Sierra Wireless 20070914 is noteworthy. It is engineered to operate optimally in low-power modes, making it ideal for battery-operated devices. This focus on energy efficiency ensures prolonged device lifecycles, supporting the growing demand for sustainable and eco-friendly technologies.

Moreover, the module includes encrypted communication features, enhancing security and protecting sensitive data transmissions. With the increasing prevalence of cyber threats, this security aspect is critical for businesses looking to safeguard their IoT applications from unauthorized access and data breaches.

In addition to these features, the Sierra Wireless 20070914 offers comprehensive development support, including software development kits (SDKs) and application programming interfaces (APIs). This makes it easier for developers to integrate the module into their existing systems, streamlining the development process and accelerating innovation.

Overall, the Sierra Wireless 20070914 stands out as a powerful solution for IoT connectivity, blending advanced technology, security, and efficiency. Its capabilities are designed to support the diverse needs of modern industries, paving the way for future innovations and advancements in wireless communication. As businesses increasingly turn to IoT for modernization, modules like the Sierra Wireless 20070914 will play a crucial role in enabling this transformation.