Sierra Wireless 20070914 manual TCP and TCP Pad, UDP Multicast Mode

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Data Communication and Host Modes

until it receives an acknowledgement with this sequence number. If an acknowledgement is not received within the time‐out period (specified in S7), the data will be retrans‐ mitted. This will continue until an acknowledgement is received or the modem is reset. Likewise any UDP packets received by the Raven are expected to have this simple header. The Raven will issue an acknowledgement for any valid packets which are received.

To configure the Raven for a normal UDP session, you need to set the Startup Mode Default to 73 (ATMD73). If you are using two modems, configure the Destination IP and Port in each to point to each other. Serial data will then be sent reliably between the two.

Caution: Although it adds reliability, the simple implementation of the

Reliable UDP mode in the does not check for duplicate packets.

UDP Multicast Mode

UDP Multicast mode results in any data received from the host serial port being sent to all the clients in the address list. The remote port number is taken from S53. To avoid flooding the network, the packets are sent to each client with a 20ms pause in between. The receipt of UDP packets works as in normal UDP mode (i.e. bound by the value S53 and/or AIP). Since it may take a while to transmit the data to all hosts (especially if all 20 Modbus entries are used and name resolutions are required), new data received from the host port is buffered until current transmissions to all hosts are finished.

Enter the list of target IPs in the address list (ADDR LIST). The index numbers in the list arenʹt used. Configure for a normal UDP session. Set the Startup Mode Default to 83 (ATMD83). Configure the Destination port to match the device port of the remote modems.

TCP and TCP Pad

When the Raven is in a TCP session, all characters received on the serial port are assembled into TCP packets and sent to the modeʹs remote IP address/port, and any packets received from the remote end of the TCP connection are disassembled and dumped onto the serial line.

A TCP connection is established by one of the following methods:

Using the Dial TCP (DT) AT command. For example, ATDT192.168.3.23/3456.

 

 

 

 

 

 

 

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Contents User Guide Important Notice Safety and Hazards Limitation Liability Qualcomm 3G Patents Copyright TrademarksContact Information Support@sierrawireless.comRevision Release Changes Number Date Revision HistoryContents Configuring your Raven Configuring Modbus/BSAP Contents Contents Contents Circuit Switch Communications Aleos Introduction to the RavenAceManager AceWareMonitor and Control Simplified DeploymentAceNet AceViewNetwork Monitoring Modem Doctor Setup WizardModem Doctor Modem Doctor USBSteps of a connection Connecting to the Telus NetworkDynamic vs. Static IP Addresses Connecting to the InternetSecurity 1x CommunicationSpecifications Interface Port Pin-Outs Power ConnectorSetup Wizard Starting the Setup WizardActivating your Raven on the 3 Telus Network Setup Wizard Connecting to the ModemSelecting Tasks Setup Wizard ConnectedAleos Update OptionalUpdate AleosActivate Modem Setup Wizard Activation CodeSetup Wizard MDN and MIN/MSID Setup Wizard Signal Test Test Modem Setup10 Setup Wizard DUN driver Optional Setting up a DUN Connection12 Setup Wizard DUN connections 14 Setup Wizard DUN Activating Using AT CommandsAT*PROVISION2=MSL,MDN,MIN/MSID,SID,NID Raven 20070914 Mounting Hardware Installation RavenConnecting to Power Indicator Lights Connecting to a Computer or other DeviceLight Patterns MountingOptional Mounting Bracket Hardware Installation of the Raven Rev 3.0B Feb.08 Hardware Installation of the Raven Rev 3.0B Feb.08 Configuring your Raven Using AceManagerStart AceManager AceManager Connect to Modem Connect to your RavenAceManager Connected Enter the configuration optionsUsing Templates Write the changes to the modemCreating the Template with AceManager · Cellular Technology specific settings the CDMA/EV‐DO group Applying a Template to one modem with AceManager Reset the modemConfiguring your Raven 10 AceNet Selected modems Choose a name and icon for your connection Using a Terminal Application with AT CommandsConnect To Port Settings serial only· Flow Control Hardware ConnectedAT Commands Data Communication and Host 6 Modes Basic ModesSerial Modes Start up Mode Basic ModesData Communication AT Mode AceManager PassThru PassThru ModeSerial Modes Telnet ModeAT\APPP UDP Auto Answer UDP and UDP PadReliable UDP TCP and TCP Pad UDP Multicast ModeTCP Auto Answer Hybrid ModesUdplast Data Communication Public and Private ModeKeepalive Data usage using Keepalive Configuring KeepaliveIpping Reasons to contact the modem and/or the connected device IP ManagerUnderstanding Domain Names Dynamic Names Car54.mydomain.comCar54.mydomain.com.ca AceManager Dynamic IP Using IP Manager with your RavenData Usage for IP Manager Server Updates Eairlink.comRestrictions for Modem Name Understanding DNS Configuring DNSAceManager DNS PPP-Peer Domain NameRemote Terminal Unit RTU Configuring Modbus/BSAPModbus Overview TelemetryRaven Modbus on UDP Supervisory Control and Data Acquisition ScadaProgrammable Logic Controller PLC Modbus TCP/IPConfigure the listening/device ports Configuring the Raven at Polling Host for Modbus onConfigure IP addresses for the Modbus IDs Configure the default mode for start-upOptional Dynamic IP Address Configure the ports Configuring the Remote Ravens for Modbus with UDPAceManager UDP Configure IP addresses for the hostConfigure other RTU settings AceManager DNS Raven 20070914 Snmp Simple Network Management Protocol Management Information Base MIBSnmp Traps Snmp Configuration Listening PortSecurity Level AceManager Change Password menu option User Name and PasswordSnmp MIB Definition Sample Trap DestinationCommunity String Snmp Simple Network Management Protocol Snmp Simple Network Management Protocol Snmp Simple Network Management Protocol Display Responses Product ID Info information Configuration CommandsNETPHONE? DEVICEID?NETERR? StatusHOSTMODE? NETCHAN?Any other value Failure AT Commands Requiring PassThru mode +WPRL? +ECIO?+GSN +WHWVCommon Misc Miscellaneous+++ DS=n Dmethodd.d.d.d/ppppp or Dmethod@name/ pppppOPRG=n S53=methodd.d.d.d/pppppMethod= P UDP Method=T TCP Method=N Telnet =1‐65535 D.d=IP address SerialS3=n S4=nS5=n Parity=O Odd Parity=E Even Parity=N None Parity=M Mark =2‐10 seconds=0‐255 =1‐2545S211=n S50=n=tenths of a second S51=n$QCVAD=n \APPP\Qn +IPR=nPPPNOCARRIER=n CTSE=nModemhispeed NUMTOIP=nS60=n S0=nS7=n =seconds=interval =0 ‐Hh=33 Bsap HOR=nMDhh Hh=01 Slip Hh=02 PPP Hh=03 UDP Hh=04 TCPUDPLAST=n S83=nDU=n UALL=nDNSUSER=d.d.d.d DNSUPDATE=nDynamic IP D.d=IP address of domain serverDOMAIN=name Name=domain nameIPMGRKEYn=key IPMGRUPDATEn=m PPP/EthernetMODEMNAME=name DHCPSERVER=n HOSTAUTH=nHOSTNETMASK=n.n.n.n String=password PassThruD.d=local or peer IP address of the modem PTINIT=string String=AT commands\APASSTHRU CSX1=n=1‐255 hours RESETPERIOD=nPTREFRESH=n =1‐255 minutesSMTPSTATUS? Pw= password=SMS/E‐mail server number Email=email address Body=message bodySubject=message subject Cntsms DasmsIndex= index list 0, 1 Message= message number DATZ=n OtherSSMS? DAE=nName=domain name Port=port Resetcfg=15‐255 minutes D.d=IP address Name=domain name=1 On Host=IP address Port=TCP portTPORT=n TELNETTIMEOUT=nFriends =minutesLogging FM=nD.d = IP address DBGPPPLVL=n Telemetry/Addr ListDBGCOMMLVL=n DBGIPLVL=nHh=hex value IPL=nMVLEN=n MVMSK=hhRKEY=n Addr ListMVOPT=n MVTYP=n+CTA=n 1x/EV-DOId=ID D.d=IP address or name Hexid=ID D.d=IP address or namePROVISION2=MSL,MDN,MIN,SID,NID ~NAMLCK=nnnnnnNnnnnn=6 digit unlock code PROVISION=MSL,MDN/MIN,SID,NID+WIMI=num +WMDN=numNam=0 Min=phone number Msid=second number Sid=system ID Nid=network IDConfiguring Circuit-Switch Circuit Switch Communications BAT Commands and the Command String Commands Specific to the Raven 1x C3211 Commands Specific to the Raven 1x C3210 and C3216Step by Step Configuration Raven LEDs in Circuit-Switched ModeCommon AT Commands Software Required Hardware RequiredConnect the modem to your computer Erase the internal memoryInformation Required for CDMA/1x only Rev 3.0B Feb.08 139 Start All Programs AirLink Communications AceManager 3G Activate the RavenSave the serial setting Configure serial port speed12 AceManager Disconnect Configure the Raven using a AceManager template15 AceManager Load Configure additional PassThru settingsTest the Raven Configuration Save the configuration settingsConfigure the Raven for your equipment Reset the RavenCommission the Raven Modem on Site 146 20070914 Connect the Raven Installing a modem driver for RavenInstall the driver Windows Dial-up Networking C DUNSelect 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 Connection10 Windows Start menu Create a new network connectionSelect Connect to the Internet Select Set up my connection manually Rev 3.0B Feb.08 156 Rev 3.0B Feb.08 157 21 New Connection Finish Configure the DUN connectionCheck Show icon...when connected Rev 3.0B Feb.08 160 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.08 165
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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.

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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.
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