Sierra Wireless 20070914 manual Supervisory Control and Data Acquisition Scada, Modbus TCP/IP

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Raven 1x

The RTU connects to physical equipment such as switches, pumps, and other devices and monitors and controls these devices. The RTU can be part of a network set up for Super‐ visory Control and Data Acquisition.

Supervisory Control and Data Acquisition (SCADA)

Supervisory Control and Data Acquisition (SCADA) describes solutions across a large variety of industries and is used in industrial and engineering applications to monitor and control distributed systems from a master location. SCADA encom‐ passes multiple RTUs, a central control room with a host computer (or network), and some sort of communication infra‐ structure.

SCADA allows for “supervisory” control of remote devices as well as acquiring data from the remote locations. Program‐ mable Logic Controllers allow for a higher degree of automated SCADA.

Programmable Logic Controller (PLC)

A Programmable Logic Controller (PLC) is a small industrial computer which generally monitors several connected sensor inputs and controls attached devices (motor starters, solenoids, pilot lights/displays, speed drives, valves, etc.) according to a user‐created program stored in its memory. Containing inputs and outputs similar to an RTU, PLCs are frequently used for typical relay control, sophisticated motion control, process control, Distributed Control System and complex networking.

Modbus TCP/IP

Modbus TCP/IP simply takes the Modbus instruction set and wraps TCP/IP around it. Since TCP/IP is the communications standard for the Internet and most networked computers, this provides a simpler installation. Modbus TCP/IP uses standard Ethernet equipment.

Raven Modbus on UDP

When Sierra Wireless AirLink modems are used in place of radios, a Raven is connected to the central station (host) and aRaven is connected to each remote unit. When the Raven is configured for Modbus with UDP, the Raven connected to the host can store a list of IP addresses or names with matching IDs. When the host at the central station sends serial data as a poll request, the Raven at the host matches the RTU ID to a corresponding IP of a Raven at a remote unit. A UDP packet is assembled encapsulating the RTU ID and serial data trans‐ mitted from the host. The UDP packet is then transmitted to the specific Raven at the remote unit matching the RTU ID.

 

 

 

 

 

 

 

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Contents User Guide Important Notice Safety and Hazards Limitation Liability Patents Copyright Trademarks Qualcomm 3GSupport@sierrawireless.com Contact InformationRevision History Revision Release Changes Number DateContents Configuring your Raven Configuring Modbus/BSAP Contents Contents Contents Circuit Switch Communications Introduction to the Raven AleosAceWare AceManagerSimplified Deployment Monitor and ControlAceNet AceViewNetwork Monitoring Setup Wizard Modem DoctorModem Doctor USB Modem DoctorConnecting to the Telus Network Steps of a connectionConnecting to the Internet Dynamic vs. Static IP Addresses1x Communication SecuritySpecifications Power Connector Interface Port Pin-OutsSetup Wizard Starting the Setup WizardActivating your Raven on the 3 Telus Network Connecting to the Modem Setup WizardSetup Wizard Connected Selecting TasksOptionalUpdate Aleos Aleos UpdateSetup Wizard Activation Code Activate ModemSetup Wizard MDN and MIN/MSID Test Modem Setup Setup Wizard Signal TestOptional Setting up a DUN Connection 10 Setup Wizard DUN driver12 Setup Wizard DUN connections Activating Using AT Commands 14 Setup Wizard DUNAT*PROVISION2=MSL,MDN,MIN/MSID,SID,NID Raven 20070914 Hardware Installation Raven MountingConnecting to Power Connecting to a Computer or other Device Indicator LightsMounting Light PatternsOptional 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 Connect to your Raven AceManager Connect to ModemEnter the configuration options AceManager ConnectedUsing Templates Write the changes to the modemCreating the Template with AceManager · Cellular Technology specific settings the CDMA/EV‐DO group Reset the modem Applying a Template to one modem with AceManagerConfiguring your Raven 10 AceNet Selected modems Using a Terminal Application with AT Commands Choose a name and icon for your connectionPort Settings serial only Connect ToConnected · Flow Control HardwareAT Commands Data Communication and Host 6 Modes Basic ModesSerial Modes Start up Mode Basic ModesData Communication AT Mode PassThru Mode AceManager PassThruTelnet Mode Serial ModesAT\APPP UDP and UDP Pad UDP Auto AnswerReliable UDP UDP Multicast Mode TCP and TCP PadHybrid Modes TCP Auto AnswerUdplast Public and Private Mode Data CommunicationKeepalive Configuring Keepalive Data usage using KeepaliveIpping IP Manager Reasons to contact the modem and/or the connected deviceUnderstanding Domain Names Dynamic Names Car54.mydomain.comCar54.mydomain.com.ca Using IP Manager with your Raven AceManager Dynamic IPData Usage for IP Manager Server Updates Eairlink.comRestrictions for Modem Name Configuring DNS Understanding DNSPPP-Peer Domain Name AceManager DNSTelemetry Configuring Modbus/BSAPModbus Overview Remote Terminal Unit RTUModbus TCP/IP Supervisory Control and Data Acquisition ScadaProgrammable Logic Controller PLC Raven Modbus on UDPConfiguring the Raven at Polling Host for Modbus on Configure the listening/device portsConfigure the default mode for start-up Configure IP addresses for the Modbus IDsOptional Dynamic IP Address Configuring the Remote Ravens for Modbus with UDP Configure the portsConfigure IP addresses for the host AceManager UDPConfigure other RTU settings AceManager DNS Raven 20070914 Snmp Simple Network Management Protocol Management Information Base MIBSnmp Traps Snmp Configuration Listening PortSecurity Level User Name and Password AceManager Change Password menu optionSnmp 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 Configuration Commands Info informationDEVICEID? NETPHONE?NETCHAN? StatusHOSTMODE? NETERR?Any other value Failure AT Commands Requiring PassThru mode +WHWV +ECIO?+GSN +WPRL?Common Misc Miscellaneous+++ Dmethodd.d.d.d/ppppp or Dmethod@name/ ppppp DS=nOPRG=n S53=methodd.d.d.d/pppppMethod= P UDP Method=T TCP Method=N Telnet =1‐65535 Serial D.d=IP addressS3=n S4=nS5=n =1‐2545 =2‐10 seconds=0‐255 Parity=O Odd Parity=E Even Parity=N None Parity=M MarkS51=n S50=n=tenths of a second S211=n+IPR=n \APPP\Qn $QCVAD=nNUMTOIP=n CTSE=nModemhispeed PPPNOCARRIER=n=seconds S0=nS7=n S60=n=0 ‐ =intervalHh=01 Slip Hh=02 PPP Hh=03 UDP Hh=04 TCP HOR=nMDhh Hh=33 BsapUALL=n S83=nDU=n UDPLAST=nD.d=IP address of domain server DNSUPDATE=nDynamic IP DNSUSER=d.d.d.dDOMAIN=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 CSX1=n String=AT commands\APASSTHRU PTINIT=string=1‐255 minutes RESETPERIOD=nPTREFRESH=n =1‐255 hoursEmail=email address Body=message body Pw= password=SMS/E‐mail server number SMTPSTATUS?Subject=message subject Cntsms DasmsIndex= index list 0, 1 Message= message number DAE=n OtherSSMS? DATZ=nD.d=IP address Name=domain name Resetcfg=15‐255 minutes Name=domain name Port=portHost=IP address Port=TCP port =1 On=minutes TELNETTIMEOUT=nFriends TPORT=nLogging FM=nD.d = IP address DBGIPLVL=n Telemetry/Addr ListDBGCOMMLVL=n DBGPPPLVL=nMVMSK=hh IPL=nMVLEN=n Hh=hex valueMVTYP=n Addr ListMVOPT=n RKEY=nHexid=ID D.d=IP address or name 1x/EV-DOId=ID D.d=IP address or name +CTA=nPROVISION=MSL,MDN/MIN,SID,NID ~NAMLCK=nnnnnnNnnnnn=6 digit unlock code PROVISION2=MSL,MDN,MIN,SID,NID+WMDN=num +WIMI=numSid=system ID Nid=network ID Nam=0 Min=phone number Msid=second numberCircuit Switch Communications B Configuring Circuit-SwitchAT Commands and the Command String Commands Specific to the Raven 1x C3210 and C3216 Commands Specific to the Raven 1x C3211Step by Step Configuration Raven LEDs in Circuit-Switched ModeCommon AT Commands Hardware Required Software RequiredConnect the modem to your computer Erase the internal memoryInformation Required for CDMA/1x only Rev 3.0B Feb.08 139 Activate the Raven Start All Programs AirLink Communications AceManager 3GConfigure serial port speed Save the serial settingConfigure the Raven using a AceManager template 12 AceManager DisconnectConfigure additional PassThru settings 15 AceManager LoadReset the Raven Save the configuration settingsConfigure the Raven for your equipment Test the Raven ConfigurationCommission the Raven Modem on Site 146 20070914 Windows Dial-up Networking C DUN Installing a modem driver for RavenInstall the driver Connect the RavenSelect the Modems tab Check Don’t detect my modem I will select it from a list Check Selected Ports Configure the driver Modem PropertiesCreating a Dial-Up Networking PPP Connection Modem Properties ModemCreate a new network connection 10 Windows Start menuSelect Connect to the Internet Select Set up my connection manually Rev 3.0B Feb.08 156 Rev 3.0B Feb.08 157 Configure the DUN connection 21 New Connection FinishCheck Show icon...when connected Rev 3.0B Feb.08 160 Select Advanced Connecting to the Internet Using DUN Start AceViewEnable the Connection Windows DUNStart the DUN session Select Dial to connect to the modem and the cellular networkWindows 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.