UMTS router UR5 v2 and UR5 v2 SL USER’S GUIDE
OBSAH Contents 1. 2. Safety instruction Description of the router 2.1. Introduction 2.2. UMTS technology 2.3. HSDPA technology (High Speed Download Packet Access) 2.4. Delivery Identification 2.5. Antenna Connection 2.6. SIM Card Reader 2.7. Power Supply 2.8. Technical parameters 2.9. Description of the individual components of the router 2.9.1. UMTS module 2.9.2. Control microcomputer 2.10. User interfaces (Connectors) 2.10.1. Connection of the PWR Supply Connector 2.10.2.
CONTENTS 6.13. IPSec Tunnel Configuration 6.14. GRE Tunnels Configuration 6.15. L2TP Configuration 6.16. DynDNS Client Configuration 6.17. NTP Client Configuration 6.18. SNMP Configuration 6.19. SMTP Configuration 6.20. SMS Configuration 6.21. Expansion Port Configuration 6.22. USB Port Configuration 6.23. Startup Script 6.24. Up/Down Script 6.25. Automatic update configuration 6.26. Change profile 6.27. Change password 6.28. Set real time clock 6.29. Set SMS service center address 6.30. Unlock SIM card 6.
CONTENTS Symbols used Danger – important notice, which may have an influence on the user’s safety or the function of the device. Attention – notice on possible problems, which can arise in specific cases. Information, notice – information, which contains useful advice or special interest. GPL licence Source codes under GPL licence are available free of charge by sending an email to info@conel.cz. Declared quality system ISO 9001 Conel s.r.o.
SAFETY INSTRUCTION 1. Safety instruction Please, observe the following instructions: • The communication module must be used in compliance with all applicable international and national laws and in compliance with any special restrictions regulating the utilization of the communication module in prescribed applications and environments.
EXPANSION PORT MOUNTING 2. Description of the router 2.1. Introduction The UMTS router is a compact electronic device based on the UMTS module which enables data transfers using HSDPA/UMTS/EDGE/GPRS/GSM technologies. Primarily, the router expands the capabilities of the UMTS module by the option of connecting more PC’s by means of the built-in Ethernet interface. In addition, the firmware of the router provides automatic establishment and maintenance of HSDPA/UMTS/EDGE/GPRS PPP connection.
EXPANSION PORT MOUNTING 2.2. UMTS technology For radio terrestrial part UMTS (Universal Mobile Telecommunication System), which is marked as UTRA (UMTS Terrestrial Radio Access), is warranted 155 MHz band in frequency band about the 2 GHz. It is bands 1900–1980 MHz, 2010–2025 MHz and 2110–2170 MHz. The UMTS system is based on code division of carried channels – use the access method WCDMA (Wideband Code Division Multiple Access). WCDMA exploits direct spread spectrum DS (Direct Spread).
EXPANSION PORT MOUNTING 2.4.
EXPANSION PORT MOUNTING Basic delivered set of router includes: • UMTS router, • power supply, • crossover UTP cable, • external antenna, • clips for the DIN rail • installation CD containing instructions. In addition to the basics it is possible to deliver: • one or two expansion ports RS232, RS485/RS422, ETHERNET, M-BUSD or CNT (separation columns are in distribution), Module can be connected only as follows.
EXPANSION PORT MOUNTING 2.6. SIM Card Reader The SIM card reader for 3 V and 1.8 V SIM cards is located on the front panel of the router. To initiate the router into operation it is necessary to insert an activated SIM card with unblocked PIN in the reader. The SIM cards might be of different adjusted APN (Access Point Name). 2.7. Power Supply The router requires +10 V DC to +30 V DC supply. Protection against reversed polarity without signaling is built into the router.
EXPANSION PORT MOUNTING 2.9. Description of the individual components of the router 2.9.1. UMTS module The UMTS module is used for HSDPA/UMTS/EDGE/GPRS UMTS network wireless communication. It is integrated in the printed circuit board. The slide-out SIM card reader is accessible from the front panel. The SMA antenna connector is accessible from the front panel.
EXPANSION PORT MOUNTING 2.10.
EXPANSION PORT MOUNTING 2.10.1. Connection of the PWR Supply Connector Panel socket MRT 2pin. Pin Signal Description number mark 1 +UN Positive pole of DC supply voltage (+10 to +30 VDC) 2 GND Negative pole of DC supply voltage Circuit example: + DC Pin 1 – +UN Pin 2 – GND Router The positive pole +UN is marked by a red socket on the power supply. 2.10.2. Connection of binary input and output Panel socket WURT MRT 3pin. Pin Signal Description no.
EXPANSION PORT MOUNTING 2.10.3. Connection of the Port1 Connector – RS232 Panel socket RJ45 (RS232 – DCE – Data Communication Equipment).
EXPANSION PORT MOUNTING 2.10.4. Connection of the Port1 Connector – RS485 Panel socket RJ45. Pin number 1 2 3 4 5 6 7 8 Signal mark GND GND TxRxTxRx+ TxRxTxRx+ +12 V EXT +12 V EXT Description Signal and supply ground Signal and supply ground RS485 B (-) RS485 A (+) RS485 B (-) RS485 A (+) External power supply External power supply Data flow direction Input/Output Input/Output Input/Output Input/Output ATTENTION! Power supply is selected on the expansion port RS485 by help of a jumper, 2.11.
EXPANSION PORT MOUNTING 2.10.5. Pin number 1 2 3 4 5 6 7 8 Connection of the Port1 Connector – RS422 Signal Description mark SGND Signal and power supply ground SGND Signal and power supply ground RxDReceive Data (-) RxD+ Receive Data (+) TxDTransmit Data (-) TxD+ Transmit Data (+) +12V EXT External power supply +12V EXT External power supply Data flow direction Output Output Input Input ATTENTION! Power supply is selected on the expansion port RS422 by help of a jumper, 2.9.
EXPANSION PORT MOUNTING 2.10.6. Connection of the Port1 Connector – M-BUSD Panel socket RJ45.
EXPANSION PORT MOUNTING 2.10.7. Connection of the Port1 Connector – CNT Panel socket RJ45.
EXPANSION PORT MOUNTING 2.10.8. Connection of the ETH Connector Panel socket RJ45. Pin number 1 2 3 4 5 6 7 8 Signal mark TXD+ TXDRXD+ ----RXD----- Description Data flow direction Transmit Data – positive pole Transmit Data – negative pole Receive Data – positive pole ----Receive Data – negative pole ----- Input/Output Input/Output Input/Output Input/Output ATTENTION! Port ETH is not POE (Power Over Ethernet) compatible! The ETH router connection: Switch USB UTP cable ETH Router PORT1 PWR 2.
EXPANSION PORT MOUNTING 2.11. Technical specification of optional PORT1 and PORT2 • Expansion port RS232 Expansion port RS232 Power supply Environment Standards RS232 specifications (EN 1434) LED port indicator Green LED Yellow LED • Internal Operating temperature Storage temperature Emission Immunity Safety Max. operating bus current Max. bit rate Max. overvoltage Max. total cable length (300Bd, 200nF/km) .... -20 .. +55 °C -20 ..
EXPANSION PORT MOUNTING Interface behaviour of module Expansion port RS485/RS422 can be made by wiring jumpers J4, J5 and J6 on this module. If RS485 is required, jumpers J4 and J5 must be connected and jumper J6 disconnected. If RS422 is required, jumpers J4 and J5 must be disconnected and jumper J6 connected. Jumper placement can be seen in the picture below (module Expansion port RS485/RS422 from TOP layer).
EXPANSION PORT MOUNTING • Expansion port ETHERNET Expansion port ETH Power supply Environment Standards Ethernet (IEEE 802.3) Internal Operating temperature Storage temperature Emission Immunity Safety Max. bit rate Max. total cable length (300Bd, 200nF/km) .... -30 .. +60 °C -30 .. +85 °C EN 55022/B ETS 300 342 EN 60950 100 Mbps 100 m LED port indicator On ...................... selected 100 Mbit/s Green LED Yellow LED • Off ...................... selected 10 Mbit/s On........................
EXPANSION PORT MOUNTING • Expansion port CNT Expansion port CNT Power supply Environment Standards Inputs/Outputs Internal Sleep Operation Operating temperature Storage temperature Emission Immunity Safety Isolation 2x counter 2x analogue inputs 2x binary inputs 1x output (open collector) Voltage resistance Sleeping mode Others LED port indicator Green LED Yellow LED …. 100 µA (counter is functional) 2 mA -30 .. +60 °C -30 .. +85 °C EN 55022/B ETS 300 342 EN 60950 EN 60747 Max. 100 Hz, ratio max.
EXPANSION PORT MOUNTING 2.12. Technical specification of I/O port Port IO Input/Output Binary input reed contact with trigger level 1,3 up to 1,4 V Binary output 120 mA/max. 30 V 2.13. Modem status indication On the front and back panel of the modem there are altogether eight LED indicators, which inform on the modem status. On every port are two LED indicators, which inform port status. Panel Color Description Front Green PWR Blinking ......................... router is ready Permanently on ……….
EXPANSION PORT MOUNTING 2.14. Putting into operation Before putting the UR5 v2 or UR5 v2 SL router into operation it is necessary to connect all components needed for the operation of your applications and the SIM card must be inserted (the modem is off). The modem is put into operation by connection of the power supply to the modem. In the default setting the modem starts to login automatically to the preset APN.
EXPANSION PORT MOUNTING For the majority of applications with a built-in modem in a switch board it is possible to recognize two sorts of environments: • • no public and industry environment of low voltage with high interference, public environment of low voltage without high interference. For both of these environments it is possible to mount modems to a switch board, the following there is no need to have examination immunity or issues in connection with EMC according to EN 60439-1 ed.2:00 + A1:04.
EXPANSION PORT MOUNTING 27 • for single cables we recommend to bind the bunch according to the following picture, for this use we recommend: length of the bunch (combination of power supply and data cables) can be maximum 1,5 m, if the length of data cables exceeds 1,5 m or in the event of, the cable leads towards the switch - board, we recommend installing over - voltage protectors (surge suppressors), with data cables they mustn't carry cables with reticular tension ~ 230 V/50 Hz, all signals to
EXPANSION PORT MOUNTING • 28 the circuit diagram of the modem is on the following pictures.
EXPANSION PORT MOUNTING 3. Expansion port mounting 3.1. Expansion port mounting for UR5 v2 Attention! Expansion port PORT1 and PORT2 include when the router UR5 v2 SL is switched off. After removing front head of the box it is possible to take out the B-RB-v2 motherboard (position 1). The expansion port PORT1 (position 2) is connected to connector J8 (see below) of the router B-RB-v2 motherboard (position 1) from TOP side.
EXPANSION PORT MOUNTING Parts list and description Part Description Number 1 UMTS router motherboard 1 2 Expansion port PORT1 1 3 Expansion port PORT2 1 4 Box 1 5 Front head 1 6 Spacers for expansion port PORT1 mounting to motherboard 6 30
EXPANSION PORT MOUNTING 3.2. Expansion port mounting for UR5 v2 SL Attention! Expansion port PORT1 and PORT2 include when the router UR5 v2 SL is switched off. After unscrewing four screws (position 11) on the rear panel (position 6) and removing it is possible to take out the B-RB-v2 motherboard (position 1). The expansion port PORT1 (position 2) is connected to connector J8 (see below) of the router B-RB-v2 motherboard (position 1) from TOP side.
EXPANSION PORT MOUNTING Parts list and description Part Description Number 1 UMTS router motherboard 1 2 Expansion port PORT1 1 3 Expansion port PORT2 1 4 Left box part 1 5 Right box part 1 6 Rear head 1 7 Front head 1 8 Bottom box part 1 9 Top box part 1 10 Spacers for expansion port PORT1 mounting to motherboard 6 11 Screw for box completion 8 32
CHANGING THE SIM CARD 4. Changing the SIM cards Attention! Insert the SIM card when the router is switched off. Changing the first SIM card: Ensure that the modem is disconnected from the power supply. Press the small yellow button next to the reader to eject the reader holder. Insert the SIM card into the reader holder and slide it in the reader. Second SIM card SIM2 changes, as well as SIM1.
ORDERING CODE 5. Ordering code routers 5.1.
CONFIGURATION 6. Configuration settings over web browser Attention! If the SIM card is not inserted in the router, then it is impossible to operate. The inserted SIM card must have activated GPRS. Insert the SIM card when the router is switched-off. Monitoring of the status, configuration and administration of the router can be performed by means of the web interface, which is available after insertion of IP address of the modem into the web browser. The default IP address of the modem is 192.168.1.1.
CONFIGURATION 6.1. Network Status To view the system information about the modem operation, select the System Information menu item. The bottom part of the window contains information about the system memory usage.
CONFIGURATION 6.2. DHCP Status Information about IP addresses, which was leased to the router by the DHCP server, is possible to find in menu in sum DHCP: • • • • • • lease 192.168.1.
CONFIGURATION 6.4. IPsec status Information on actual IPsec tunnel state can be called up in option IPsec in the menu. Detailed information on the description shown below can be found on the following link http://www.freeswan.org/doc.html.
CONFIGURATION 6.5. DynDNS status DynDNS up - dating entry result on server www.dyndns.org can be called up in option DynDNS item in the menu. 6.6. System Log In case of any problems with connection to GPRS it is possible to view the system log by pressing the System Log menu item. The System log observes only connection to GPRS and formation of IPsec tunnel. The upper part of the window displays possible errors at GPRS connection establishment.
CONFIGURATION 6.7. LAN Configuration To enter the network configuration, select the LAN menu item. In the first part of the window it is possible to define the network interface IP address (IP address), the network mask (Subnet Mask) and media type (Media Type), in the majority of cases set Auto-Negotiation. ETH network set in Primary LAN configuration, expansion ETH PORT set in Secondary LAN configuration. In the second part of the window is possible to define Default Gateway and DNS server.
CONFIGURATION Example of the network interface with dynamic DHCP server: 192.168.1.2 GSM/GPRS ETH 192.168.1.1 192.168.1.3 192.168.1.
CONFIGURATION Example of the network interface with dynamic and static DHCP server: 192.168.1.2 192.168.1.3 192.168.1.4 ETH GSM/GPRS 192.168.1.1 192.168.1.10 01-23-45-67-89-ab 192.168.1.
CONFIGURATION Example of the network interface with default gateway and DNS server: 192.168.1.2 192.168.1.3 192.168.1.4 ETH GSM/GPRS 192.168.1.1 192.168.1.
CONFIGURATION 6.8. VRRP Configuration To enter the VRRP configuration select the VRRP menu item. VRRP protocol (Virtual Router Redundancy Protocol) is a technique, by which it is possible to forward routing from main router to backup router in the case of the main router failure. If the Enable VRRP is checked, then it is possible to set the following parameters. Parameter Virtual Server IP Address sets virtual server IP address. This address should be the same for both routers.
CONFIGURATION Example of the VRRP protocol: Main router Virtual server ID 5 Host priority 255 192.168.1.2 APN 1 ETH 192.168.1.1 10.0.1.3 APN 2 192.168.1.
CONFIGURATION 6.9. UMTS/GPRS Configuration To enter the GPRS connection configuration select the GPRS menu item. If the Create GPRS connection option is selected, the modem automatically tries to establish GPRS connection after switching-on. In this window it is possible to define Username, Password, authentificate protocol in the GSM network (Authentication), IP address (IP Address) and phone number (Phone Number) for two different APN.
CONFIGURATION If parameter Backup SIM card is set to none, then parameters Switch to other SIM card when connection fails, Switch to backup SIM card when roaming is detected and Switch to backup SIM card when data limit is exceeded switch the router to off-line mode. If PPP connection fails, then the parameter Switch to other SIM card when connection fails ensures switch to secondary SIM card or secondary APN of the SIM card. Failure of the PPP connection can occur in two ways.
CONFIGURATION If the Enable PPPoE bridge mode option selected, it activate the PPPoE bridge protocol PPPoE (point-to-point over ethernet) is a network protocol for encapsulating Pointto-Point Protocol (PPP) frames inside Ethernet frames. Allows you to create a PPPoE connection from the device behind router. For example from PC which is connected to ETH port router. There will be allot Ip address of SIM card to PC. The changes in settings will apply after pressing the Apply button.
CONFIGURATION 6.10. Firewall Configuration By the help of a firewall it is possible to set IP addresses from which are possible to remotely access the router. The choice Allow remote access only from specified hosts is given for easier configuration of hosts. In this firewall configuration it is possible to set up to four remote accesses by the help of Source, Source IP Address, Protocol and Target Port.
CONFIGURATION Example of the firewall configuration: TCP/1000 10.0.2.123 171.92.5.45 50 ALL ICMP 142.2.26.
CONFIGURATION 6.11. NAT Configuration To enter the Network Address Translation configuration, select the NAT menu item. By checking off the Send all incoming packets to default server item and setting the Default Server item it is possible to put the router into the mode in which all incoming data from GPRS will be routed to the computer with the defined IP address. If the Enable remote HTTP access field and port number is filled in, then configuration of the router over web interface is possible.
CONFIGURATION Example of the configuration with one connection equipment on the router: 162.209.13.222 ppp0 10.0.0.1 192.168.1.2 In these configurations it is important to have marked choice of Send all remaining incoming packets it default server, IP address in this case is the address of the device behind the router. Connected equipment behind the router must have set Default Gateway on the router. Connected device replies, while PING on IP address of SIM card.
CONFIGURATION Example of the configuration with more connected equipment: SWITCH 162.209.13.222 10.0.0.1:81 ppp0 10.0.0.1 10.0.0.1:82 192.168.1.2:80 10.0.0.1:83 192.168.1.3:80 192.168.1.
CONFIGURATION In this configuration equipment wired behind the router defines the address Server IP Address. The router replies, while PING on address of SIM card. Access on web interface of the equipment behind the router is possible by the help of Port Forwarding, when behind IP address of SIM is indicating public port of equipment on which we want to come up.
CONFIGURATION set NAT rules to OpenVPN tunnel. By Authenticate Mode it is possible to choose authentication. On choice are none authentication, or by Pre-shared secret which set shared key for both off-side tunnel; or by Username/Password which enable authentication by CA Certificate, Username and Password; next can be X.509 Certificate (client), this enables authentication by CA Certificate, Local Certificate and Local Private Key; last possibility is X.
CONFIGURATION Example of the OpenVPN tunnel configuration: 192.168.1.2 192.168.2.2 A ppp0 10.0.0.2 192.168.2.0 tun 0 19.16.2.0 ppp0 10.0.0.1 192.168.1.0 tun0 19.16.1.0 B 192.168.1.3 OpenVPN tunnel 192.168.2.3 192.168.1.4 192.168.2.4 Default Gateway 192.168.2.1 Default Gateway 192.168.1.
CONFIGURATION 6.13. IPSec Tunnel Configuration IPsec tunnel configuration can be called up by option IPsec item in the menu. IPsec tunnel allows protected connection of two networks LAN to the one which looks like one homogenous. In the IPsec Tunnels Configuration window are four rows, each row for one configured IPSec tunnel. The column Create switches on tunnels, other columns contain values view set in the IPsec Tunnel Configuration windows; configuration is possible by the Edit button.
CONFIGURATION 58
CONFIGURATION Example of the IPSec Tunnel configuration: 192.168.1.2 192.168.2.2 ppp0 10.0.0.2 192.168.2.0 A B ppp0 10.0.0.1 192.168.1.0 192.168.1.3 IPSec tunel 192.168.2.3 192.168.1.4 192.168.2.4 Default Gateway 192.168.1.1 Default Gateway 192.168.2.1 IPsec tunnel configuration: Remote IP Address: Remote Subnet: Remote Subnet Mask: Local Subnet: Local Subnet Mask: Authenticate mode: Pre-shared key A 10.0.0.2 192.168.2.0 255.255.255.0 192.168.1.0 255.255.255.0 pre-shared key test B 10.0.0.
CONFIGURATION The tunnels are active after selecting Create x GRE tunnel.
CONFIGURATION 6.15. L2TP Configuration To enter the L2TP tunnels configuration, select the L2TP menu item. L2TP tunnel allows protected connection by password of two networks LAN to the one which it looks like one homogenous. The tunnels are active after selecting Create L2TP tunnel.
CONFIGURATION Example of the L2TP Tunnel configuration: 192.168.1.2 192.168.2.2 ppp0 10.0.0.2 192.168.2.1 A B ppp0 10.0.0.1 192.168.1.1 192.168.1.3 L2TP tunel 192.168.2.3 192.168.1.4 192.168.2.4 Default Gateway 192.168.1.1 Default Gateway 192.168.2.1 Configuration of the L2TP tunnel: Mode Server IP Address Client Start IP Address: Client End IP Address: Local IP Address: Remote IP Address Remote Subnet Remote Subnet Mask Username Password 62 A L2TP Server --192.168.3.2 192.168.3.254 192.168.
CONFIGURATION 6.16. DynDNS Client Configuration DynDNS client Configuration can be called up by option DynDNS item in the menu. In the window can be defined a third order domain registered on server www.dyndns.org (Hostname), user name (Username) and password (Password). If you want to use a different server than www.dyndns.org, fill in his address to the item server (Server). If this item is left blank, the default server is used. The changes in settings will apply after pressing the Apply button.
CONFIGURATION 6.17. NTP Client Configuration NTP client Configuration can be called up by option NTP item in the menu. In the window can be defined the address prime (Primary NTP server Address) and secondary NTP server (Secondary NTP server Address), by the help of which the router, after first interface to the GPRS from make power supply, will adjust the inner clock. Example of NTP server address can be seenon ntp.isc.org/bin/view/Servers/StratumOneTimeServers.
CONFIGURATION M-BUSD status. Parameters Enable XC-CNT extension and Enable M-BUS extension can not be checked together. Every monitor value is uniquely identified by the help of number identifier OID - Object Identifier. OID is finished by „.9“. For binary input and output the following range of OID is used: OID Description .1.3.6.1.4.1.30140.2.3.1.0 .1.3.6.1.4.1.30140.2.3.2.
CONFIGURATION The meter address can be from range 0..254 when 254 is broadcast. Example of the MIB browser: It is important to set the IP address of the SNMP agent (router) in field Remote SNMP agent. After enter the IP address is in a MIB tree part is possible show object identifier. The path to objects is: iso->org->dod->internet->private->enterprises->conel->protocols. 6.19. SMTP Configuration To enter the SMTP it is possible configure SMTP client.
CONFIGURATION E-mail can be send from the Startup skript. This command is used to email with following parameters. • -t receiver Email address • -s subject • -m message • -a appendix • -r number of attempts to send email (default set 2 attempts) Example to send email: email –t name@domain.com –s “subject“ –m “message“ –a c:\directory\abc.doc –r 5 6.20.
CONFIGURATION It is possible to send controls SMS in the form: SMS Description go online sim 1 go online sim 2 go online go offline set out0=0 set out0=1 set out1=0 set out1=1 set profile std set profile alt1 set profile alt2 set profile alt3 reboot get ip Switch to SIM1 card Switch to SIM2 card Switch router in online mode PPP connection termination Set output I/O connector on 0 Set output I/O connector on 1 Set output expansion port XC-CNT on 0 Set output expansion port XC-CNT on 1 Set standard profile
CONFIGURATION 69
CONFIGURATION After powering up the router, at introduction of the telephone number comes SMS in the form of: UR5 (Unit ID) has been powered up. PLMN:xxxxx,Cell:xxxx,Channel:xx,Level:-xxdBm. Where PLMN is – number of mobile operator, Cell – number of cell, Channel – used channel, Level – level signal After PPP connect, at introduction of the telephone number comes SMS in the form: UR5 (Unit ID) has established PPP connection. IP address xxx.xxx.xxx.
CONFIGURATION Example of the router configuration for SMS sending via serial interface: 71
CONFIGURATION Example of the router configuration for controlling via SMS from every phone numbers: 72
CONFIGURATION Example of the router configuration for controlling via SMS from two phone numbers: The SMS is possible to do for example in HyperTerminal program. After establishing connection with the router via serial interface or Ethernet, it is possible to do with SMS by the help of the next AT commands (more about AT commands see reference [1]): AT commands AT+CMGF=1 AT+CMGS=”tel.
CONFIGURATION For the text mode for SMS writing is used command AT+CMGF=1. AT+CMGF=1 Enter OK The SMS message is created by the help of command AT+CMGS=. After Enter button is pressed is displayed mark >, behind this mark it is possible to write your own SMS message. The SMS message is sent by the help of CTRL+Z (SMS sending takes a few minutes). SMS writing is possible to cancel by pressing Esc.
CONFIGURATION 6.21. Expansion Port Configuration The expansion port configuration can be called up by airbrush option External Port in menu. Inside the window can be defined Baudrate, number of Data bits, Parity, number of Stop bits, Protocol and Mode. Split timeout is for messages. In mode TCP server it is necessary to enter the TCP port, on which the router will listen to incoming requests about TCP connection. In mode TCP client it is necessary to enter the Server address and final TCP port.
CONFIGURATION PLC PC ppp0 10.0.0.2 RS232 RS232 ppp0 10.0.0.1 Settings in the router Mode: TCP client Server Address: 10.0.0.2 TCP Port: 2000 Settings in the router Mode: TCP server Server Address: TCP Port: 2000 6.22. USB Port Configuration The USB port configuration can be called up by airbrush option USB Port in menu. Inside the window can be defined Baudrate, number of Data bits, Parity, number of Stop bits, Protocol and Mode. Split timeout is for messages.
CONFIGURATION Example of USB port configuration: Equipment PC ppp0 10.0.0.2 ETH ppp0 10.0.0.1 192.168.1.1 USB 192.168.1.100 Settings in application on PC: TCP connection on 10.0.0.2:2000 Default Gateway 192.168.1.1 Settings in the router Mode: TCP server Server Address: TCP Port: 2000 Equipment PC ppp0 10.0.0.2 USB ETH ppp0 10.0.0.1 Settings in the router Mode: TCP client Server Address: 10.0.0.
CONFIGURATION 6.23. Startup Script In the window Startup Script it is possible to create own scripts which will be executed after all initial scripts. This script is not stored or restored when using web interface backup or restores option. The changes in settings will apply after pressing the Apply button. Change take effect after restarting router by the help of button Reboot in web administration or by SMS message.
CONFIGURATION 6.24. Up/Down Script In the window Up/Down Script it is possible to create own scripts. In the item Up script is defined scripts, which begins after establishing a PPP connection. In the item Down Script is defines script, which begins after lost a PPP connection. This script is not stored or restored when using web interface backup or restores option. The changes in settings will apply after pressing the Apply button.
CONFIGURATION By parameter Base URL it is possible to enter base part of the domain or IP address, from which the configuration file will be downloaded. In the case that Unit ID is empty, the contents of parameter Unite ID or MAC address is added to Base URL. The configuration file name is from parameter Base URL, hardware MAC address of ETH0 interface and cfg extension. Hardware MAC address and cfg extension is connected automatically and it isn’t needed to enter this.
CONFIGURATION 6.27. Change password To open the dialog box for changing the access password select the Change Password menu item. The new password will be saved after pressing the Apply button. In basic settings of the router the password is set on default form root. For higher security of your network we recommend changing this password. 6.28. Set real time clock One - shot inner clock of the router setting can be called up in option Set Real Time Clock item in the menu.
CONFIGURATION 6.31. Send SMS Sending SMS messages is possible in menu Send SMS. The SMS message will be sent after entering the Phone number and text SMS (Message) and by pushing button Send. SMS message sending via HTTP request is in the form: GET /send_exec.cgi?phone=%2B420712345678&message=Test HTTP/1.1 Authorization: Basic cm9vdDpyb290 HTTP request will be sent to TCP connection on router port 80 which sends an SMS message Test to phone number 420712345678.
CONFIGURATION 6.34. Update firmware To view the information about the firmware version and instructions for its update select the Update Firmware menu item. The new firmware will be checked after pressing Browse button and update the following pressing the Update button. After successful firmware updating the following statement is listed: There is information about updating of the FLASH memory. By firmware actualization from 1.0.5 version the router configuration is remains include IP address.
CONFIGURATION 6.36. Default settings After green LED starts to blink it is possible to restore initial settings of the router by pressing button RST on front panel. After press button RST it is restoration of the configuration and reset (green LED will be on). 6.36.1.
CONFIGURATION 6.36.2. VRRP Configuration 6.36.3.
CONFIGURATION 6.36.4.
CONFIGURATION 6.36.5.
CONFIGURATION 6.36.6.
CONFIGURATION 6.36.7.
CONFIGURATION 6.36.8. GRE Tunnels Configuration 6.36.9. L2TP Tunnel Configuration 6.36.10.
CONFIGURATION 6.36.11. NTP Configuration 6.36.12. SNMP Configuration 6.36.13.
CONFIGURATION 6.36.14.
CONFIGURATION 6.36.15. Expansion Port Configuration 6.36.16.
CONFIGURATION 6.36.17. Startup script 6.36.18.
CONFIGURATION 6.36.19.
CONFIGURATION 7. Configuration setting over Telnet Attention! If the SIM card isn’t inserted in the router, it is impossible for the router to operate. The Included SIM card must be activated for GPRS transmissions. Insert the SIM card when the router is switched off. Monitoring of status, configuration and administration of the router can be performed by means of the Telnet interface. After IP address entry to the Telnet interface it is possible to configure the router by the help of commands.
PROBLEMS, FAG AND KEEPING 8. Possible problems Some network cards are able to be set in situation, when it is not possible to connect the router. It is possible to solve this problem in the following steps: hand by selection communication rates 10 MB/s in property network cards, connect router over switch, start computer only after finalizing the start of the router. 9. Reference [1] Cinterion: EES3_ATC_V01.100 – AT command Set, 2008 10.
PROBLEMS, FAG AND KEEPING Firewall is possible to verify, for example by remote access on web interface. The operator doesn’t give out address DNS servers and without DNS server’s it is impossible to connect to server dyndns.org. In log system will be this message: DynDNS daemon started, Error resolving hostname: no such file or directory, Connect to DynDNS server failed. IPSec tunnel is establishing but communication doesn’t function.
PROBLEMS, FAG AND KEEPING 12. Product disposal instructions The WEEE (Waste Electrical and Electronic Equipment: 2002/96/EC) directive has been introduced to ensure that electrical/electronic products are recycled using the best available recovery techniques to minimize the impact on the environment. This product contains high quality materials and components which can be recycled. At the end of it’s life this product MUST NOT be mixed with other commercial waste for disposal.
GUARANTEE 13. Guarantee Claim Guidelines Dear customer, The product that you have purchased was tested by the manufacturer and, before it was sold, the product’s functions were checked once more by our company’s technician. However if, in spite of the above-mentioned measures, a breakdown of this product occurs during the guarantee period, which makes proper utilization of the product impossible, we ask you to observe the Guarantee Claim Guidelines when asserting a guarantee claim.
GUARANTEE the exchange of the IMEI), the ownership of the original object of the guarantee claim is passed hereupon onto the seller, and the ownership of the new product, onto the buyer. A new guarantee period starts running from the date of acceptance of the new product. In the event that the seller, upon agreement with the customer, has settled the guarantee claim by exchanging the object of the guarantee claim for a faultless product, the new guarantee of the product shall expire as follows: 1.
GUARANTEE Other guarantee claim conditions The fact that the object of the guarantee claim does not correspond to parameters that have been set for other similar types of products can not be considered to be a defect. For the assessment whether a defect has occurred, the product parameters included in the technical documentation of the product are decisive.
GUARANTEE CERTIFICATE 14.
GUARANTEE CERTIFICATE 1 2 3 4 5 YES – NO YES – NO YES – NO YES – NO YES – NO Date of reception of the guarantee claim by the seller Number of the guarantee claim report Date of reception of the device into the repair shop Date of completion of the repair by the repair shop Number of the receipt form of the repair shop Guarantee repair New serial number of the device (IMEI) Comments Stamp of the repair shop 104