Phoenix G2 IDU User Manual WEB GUI 7) AES key status – This information line shows the status of the actual AES key, as well as CRC of entered valid key. Note that such CRC value MUST match on both local and remote respective channels. 8) AES function – This box enables or disables AES encryption function. When enabled, the whole traffic stream from packet processor is encrypted by provided AES key.
Phoenix G2 IDU User Manual WEB GUI c) Fixed primary – Hot-Swap disabled. The device role will be always 'primary'. The 'Fixed secondary' role should be set on the peer device (FO). Changing this setting will result in an immediate automatic role switch on both local devices (if interconnected). d) Fixed secondary – Hot-Swap disabled. The device role will be always 'secondary'. The 'Fixed primary' role should be set on the peer device (FO).
Phoenix G2 IDU User Manual WEB GUI 1) Device Name – the IDU name shown in the header/web page title 2) Location – location of the IDU 3) Custom Text – free field for user input Valid characters are [a-zA-Z0-9 _!@#%*()-+=:;',.?/] (including [] and without space character in device name) Config System Time&Date The section with date, time, time zone and the network time protocol settings. The date and time settings may not be available if a time limited license is in use.
Phoenix G2 IDU User Manual WEB GUI 1) Fand Configuration – the configuration of the inbuilt fans; options are following: a) on – the fan always is on b) off – the fan always is off c) auto – the fan is auto-regulated by the device (default setting) The thresholds for auto mode are following: >= 40°C to turn the fan on, <= 30°C to turn the fan off. 2) Auto Configuration – when the checkbox is selected, the start-up configuration (C0) will be loaded after 10 minutes of the continuous error state.
Phoenix G2 IDU User Manual WEB GUI Figure 3.31 “Config Access Protocols” page 1) HTTPS, SSH – it is always enabled, cannot be turned off. By default, self-signed server certificate (SC) is used. This causes a browser security warning. To avoid this warning you can upload your own server certificate (SC) and upload the appropriate client certificate (CC) to the user browser. 2) HTTPS with Client Certificate – https access is possible only if the client (browser) has installed client certificate (CC).
Phoenix G2 IDU User Manual WEB GUI Figure 3.32 “Config Access Certs&Keys” page 1) Server Certificate + Private Key (.PEM) – a tool for HTTPS server certificate import. There is also shown basic information of actual HTTPS certificate. By default a selfsigned certificate is loaded. It causes a browser security alert. 2) Certification Authority Certificate (.PEM) – it is possible to secure the access by means of a personal certificate loaded in the browser.
Phoenix G2 IDU User Manual WEB GUI number which corresponds to numbers in binary subnet mask presentation. For example, the net-mask for subnet mask 255.255.255.0 is presented as decimal number 24. Local network has its own and unique primary IP address. 2) Default Gateway IP – default Gateway IP address is used by CPU when connection outside of IP range defined in system routing table is required. Such IP address must be a member of the above defined Device IP subnet.
Phoenix G2 IDU User Manual WEB GUI 1) SNMP Enable – enables/disables the SNMP daemon in the device 2) SNMP Version – SNMP v2c & SNMP v3 or just SNMP v3 can be chosen for SNMP access to the device 3) SNMP Port – the parameter specifies which port will be used for SNMP communication. The same configuration must be set also in SNMP agent station 4) Trap Port – the parameter specifies the destination port on which SNMP traps will be sent to.
Phoenix G2 IDU User Manual WEB GUI For a specific configuration of management access it might be necessary to add or delete static routes. It is possible to an already specified route by specifying it in the Routed IP/MASK. It is not necessary to specify the Gateway IP for route deletion. When adding routes, the new configuration must be stored with initialised with the button and re- button. 1) Routed IP / MASK – IP address from the routed network and the appropriate network mask must be inserted.
Phoenix G2 IDU User Manual WEB GUI activate the new setting use the and button (user will be logged out, but data will not be dropped) or the IP settings and reboot the device. 7) This sub-section diaplays the IDU's active IP Route table, NAT records and Radius Server configuration. In order to populate this table with a new configuration, the IP configuration should be re-initialised by means of button. Config Radio Parameters This section contains the most important modem and radio settings.
Phoenix G2 IDU User Manual WEB GUI from the radio part). Such displayed range is the edge to edge flat diplexer frequency scope increased/decreased by one half of the used modulation bandwidth. 7) RX Frequency – If fixed T/R spacing is selected the Receive frequency will be calculated automatically. If manual T/R spacing is selected the Receive frequency has to be calculated and specified manually.
Phoenix G2 IDU User Manual WEB GUI Figure 3.37 “Config Radio ACM” page 1) ACM Function – Adaptive Coding and Modulation. The possible modes are following: auto pX – automatic modulation switching using ACM profile number X man pX – disables the ACM function. The modulation defined in the Max RxACM Profile field on the Parameters tab will be used for transmission.
Phoenix G2 IDU User Manual WEB GUI Figure 3.38 “Config Radio Advanced” page 1) Radio Type – selection of the connected radio type.
Phoenix G2 IDU User Manual WEB GUI Figure 3.39 “Config Ports MUX” page 1) PORT sub-section contains information about available ports: a) SFP1-4 – 1G optical interface for user data or EMM card chain b) LAN1-2 – Ethernet 1G (data) interface c) LAN3 – Ethernet 1G (management) interface 2) PORT CONFIG: a) Status – status of the port as detected by the device (speed, duplex mode, link, administrative down status).
Phoenix G2 IDU User Manual WEB GUI ETHxa – high priority data channel. Speed can be limited - see field color and bubble help Firmware version 0401_01 does not allow to assign ETHxa data channel to any of SFP ports if PTP1588 feature is not licensed. It will not pass Ethernet traffic over SFP ports in this case. ETHxb – low priority data channel.
Phoenix G2 IDU User Manual WEB GUI Egress policy – frames are transmitted unchanged b) access – 802.1Q VLAN mode is enabled. VTU rules in conjunction with port group rules are applied. Such port is a member of just one VLAN ID defined in VTU table whose VID is identical with the port Default VLAN number. This port is configured in VLAN VTU record as untagged. Ingress policy – only untagged frames are accepted at entry port.
Phoenix G2 IDU User Manual WEB GUI 7) QOS PRI – when VTU override mode is selected then the QOS priority value of original frame is overridden. This configuration has influence only on the internal frame processing by means of queue controller (QPRI defined by OQPRI instead of IQPRI bits), but frames are still egressed with the initial priority assignment (FPRI is without any change). 8) LAN 1-WAN B – it defines VLAN mode for each port in configured VLAN. a) Deny – port is not a member of edited VLAN.
Phoenix G2 IDU User Manual WEB GUI frame from Q0). This approach prevents the lower priority frames from being served out with only a slight delay to the higher priority frames. b) strict 3xxx – strict priority for queue 3 and weighted round robin for queues 2,1 and 0. Queues 2,1,0 are served only when Q3 is empty. c) strict 32xx – strict priority for queues 3,2 and weighted round robin for queues 1 and 0. Queues 1,0 are served only when Q3 and Q2 are empty.
Phoenix G2 IDU User Manual WEB GUI Figure 3.43 “Config Ports EMM” ASI EMM configuration page 1) EMM Type – displays the type of connected EMM card. The 'none' type indicates that particular position is empty, the 'RELAY-SYS' indicates that the relay IDU is connected directly to the device's SFP port (relay application) or to EMM secondary SFP port (add/drop configuration). 2) EMM Enable – enables generation/reception of data frames to/from Fiber Optic stream.
Phoenix G2 IDU User Manual WEB GUI b) In Tx mode: ok - a valid inbound signal is presented and transmitted via appropriate ASI port. ok - a valid inbound signal is presented, but the port is not enabled for transmission. Idle - the low-level code is detected, but the MPEG code was lost in the service. Idle - the low-level code is detected, but the MPEG code was lost in the service, and the particular port is not enabled for traffic application. noSync - high-level MPEG code was not detected.
Phoenix G2 IDU User Manual WEB GUI 14) Termination – displays the actual impedance matching of E1/T1 port according to Coax mode setting. 15) LLOOP – local loopback configuration, incoming data from the E1/T1 port to modem are sent to the modem and simultaneously looped back to the E1/t1 port. This is a debugging function. 16) RLOOP – remote loopback configuration, incoming data from the modem to E1/T1 port are sent to this port and simultaneously looped back to the modem. This is a debugging function.
Phoenix G2 IDU User Manual WEB GUI Figure 3.
Phoenix G2 IDU User Manual WEB GUI Figure 3.47 “Config Alarms Major” page using Split 1+1 and Split 2+2 modes 11) Pri/Sec switch – For correct protection role switching in 1+1 mode the user have to appropriately configure the Pri/Sec switch alarms marked as “yes”. Only the alarms which are enabled and listed as Pri/Sec switch will be used as criteria for protection switching.
Phoenix G2 IDU User Manual WEB GUI Figure 3.48 “Config Alarms Minor” page 1) Modem Aggr/Prot – status of the Aggregation/Protection (displayed only if 1+1 or 2+0 modes enabled) 2) Modem Data Sync – this alarm indicates actual status of the packet processor (PBPS) synchronization. 3) Modem MSE Level – the alarm indicated if MSE threshold is trespassed. Usual MSE values can be checked in the ACM profile table under menu Config Radio ACM.
Phoenix G2 IDU User Manual WEB GUI - store the actual configuration. - displays the device's stored start-up configuration as list of commands. Note that the order of commands in this list is important. This configuration is not automatically updated unless this button is pressed again. - this will execute the current start-up memory content. Note that this action will cause data loss and the loss of all unsaved configuration changes. - shows the device IP configuration as list of commands.
Phoenix G2 IDU User Manual WEB GUI Figure 3.50 “Maintenance Configuration Backup&Restore” page Maintenance Configuration Factory default In this section it is possible to restore the configuration of the device to its factory pre-set values including login credentials, radio and IP settings. The IDU will be rebooted automatically after loading factory configuration. Figure 3.
Phoenix G2 IDU User Manual WEB GUI Figure 3.52 “Maintenance Firmware Upgrade” page Basically the firmware upgrade can be done in 3 steps: Step 1 - import the “checkversion.afw” file. This will display the frame with information about the firmware parts which are needed for the upgrade. Step 2 - import all required firmware parts. Once completed the firmware upgrade frame will be displayed. Step 3 – in firmware upgrade frame initiate the upgrade by pressing or button.
Phoenix G2 IDU User Manual WEB GUI Figure 3.53 “Maintenance Firmware EMM” page This section allows to upgrade firmware in attached EMM modules. It is recommended to update EMM modules in reverse order as follows: EMM4->EMM3->EMM2->EMM1 During firmware upgrade there will be a data drop for about 15 seconds per one module. Maintenance Files Exports This section allows collect various device reports as downloadable archives for problem diagnostics/troubleshooting and backup.
Phoenix G2 IDU User Manual WEB GUI Maintenance Files Upload In this section it is possible to upgrade firmware files manually, configuration file and the license file. In this case user should select the appropriate file and press the UPLOAD AND EXECUTE button. Figure 3.55 “Maintenance Files Upload” page Examples of files are as follows: Firmware (load files in the following order): hwbase505.afw, hwbase511.afw – software for internal HW parts oskernel.afw – operating system fwbase.
Phoenix G2 IDU User Manual WEB GUI Figure 3.56 “Maintenance Logs” page 1) System – system events (for example: license action, radio configuration changes, etc.) 2) Alarms – the alarm log 3) Counter – system counter events.
Phoenix G2 IDU User Manual WEB GUI Figure 3.57 “Maintenance Troubleshooting Assistant” page Maintenance Troubleshooting Detail-SYS Device status summary is displayed in this section. Additional debug information will be shown in case of error state. Figure 3.58 “Maintenance Troubleshooting Detail-SYS” page 1) Alarms stat – actual device alarm status. Only enabled alarms are considered. 2) Drivers stat – actual status of low level drivers.
Phoenix G2 IDU User Manual WEB GUI Figure 3.59 “Maintenance Troubleshooting Detail-IF” page Maintenance Troubleshooting Detail-RF This section provides summary of basic and advanced radio parameters. These values are collected directly from the ODU and reflect its actual state.
Phoenix G2 IDU User Manual WEB GUI Figure 3.60 “Maintenance Troubleshooting Detail-RF” page Maintenance Reboot Figure 3.61 “Maintenance Reboot” page - IDU’s reboot will be performed by pressing this button. This operation will cause data drop. - this section will appear only if any of AMM modules is connected to the IDU and enabled. EMM cards will be initialized when this button will be pressed. This operation will cause data drop.
Phoenix G2 IDU User Manual WEB GUI Tools Tools Terminal In this section built-in terminal window for accessing CLI (Command Line Interface) is available. Execute command '?' in order to display all available commands. In order to check available sub-commands, question mark must be typed after the main command, for example command 'show ?' will print out all available ‘show’ sub-commands. Figure 3.
Phoenix G2 IDU User Manual WEB GUI Figure 3.64 “Tools Sp. Analyser” page 1) Local TX Mute Duration – manual Tx mute setting for the local radio for the specified duration. During this period the frequency scan should be performed on the remote device. This will not invoke the frequency scanning.
Phoenix G2 IDU User Manual WEB GUI modulation schemes 1024QAM, 512QAM, 256QAM, 128QAM, 64QAM, 32QAM, 16QAM or 4QAM. It displays the signal as a two-dimensional scatter diagram in the complex plane at symbol sampling instants. Measured constellation diagram can be used to recognize the type of interference and distortion in a signal. Figure 3.65 “Tools Constellation” page For the purpose of analysing the received signal quality, some types of corruption are evident in the constellation diagram.
Phoenix G2 IDU User Manual WEB GUI 3) Phase noise is displayed as rotationally spreading constellation points: SAF Tehnika JSC 109
Phoenix G2 IDU User Manual COMMAND LINE INTERFACE Chapter 4: COMMAND LINE INTERFACE Command line interface (CLI) is available via 3 individual interfaces: - Secure Shell (SSH); Telnet; Web GUI (ToolsTerminal, partial functionality) Telnet and SSH terminal is available via Ethernet management port. CLI is also available in web GUI in Tools page. Command line management interface offers the same configuration and monitoring functionality as it is in web GUI.
Phoenix G2 IDU User Manual COMMAND LINE INTERFACE 4 The exit status of the command Possible return values are following: ok – the command was executed successfully not valid at pos:1 – the numeric value represents position of unrecognised argument of the latest command.
Phoenix G2 IDU User Manual COMMAND LINE INTERFACE Syntax used in online help [ ] required parameters { } optional parameters (?) the parameter contains nested parameters. Type ‘?’ at end of the command to see possible values and syntax Some commands allow using the online help also for their sub-parameters. Refer to the example in Figure 4.4 Most of commands can be entered in their shortened form. For example: enable = en, show = sh, write = wr, etc. Figure 4.
Phoenix G2 IDU User Manual COMMAND LINE INTERFACE Figure 4.5 PuTTY configuration 2. Press “Open”, enter login credentials (default user name is admin and password - secret). After successful login following prompt should appear: Figure 4.6 PuTTY SSH prompt Connecting to Telnet Telnet connection to Phoenix G2 IDU is carried out using Ethernet management connection. Please refer to Chapter Ethernet management connection configuration for Ethernet management port connection details.
Phoenix G2 IDU User Manual COMMAND LINE INTERFACE Figure 4.7 PuTTY confguration 2. Press “Open”, enter login credentials (default user name is admin and password - secret). After successful login following prompt should appear: Figure 4.
Phoenix G2 IDU User Manual Appendixes Chapter 5: EXAMPLES Example 1 – Configuration of SFP ports for GE traffic transmission There are two ways of SFP port configuration to transmit Gigabit Ethernet traffic: 1) SFP port interconnected with built-in switch 2) SFP port directly interconnected with data channel, bypassing built-in switch The option when SFP port is interconnected with built-in switch can be used in cases if: - It is needed to access management of the IDU via SFP port It is needed to apply V
Phoenix G2 IDU User Manual Appendixes 3) In the same web GUI page for the second WAN port (the one which is not interconnected with SFP port) choose option ETH1a in ’Channel Select’ drop-down thus interconnecting the second WAN port with data channel over the RF (refer to Figure 5.3). In order to have remote MNG access the MNG port must be in the same group with both WAN ports (refer to Figure 5.1). Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.4 Example of SFP port and data channel interconnection 2) In the same page interconnect one of WAN ports with ETH1b data channel by choosing it in ‘ Channel Select’ drop-down thus enabling remote MNG access (refer to Figure 5.5). Note that MNG port must be in the same group as chosen WAN port Figure 5.5 Example of WAN port and data channel interconnection 3) In the same page set speed limits for both ETH1a and ETH1b channels.
Phoenix G2 IDU User Manual Appendixes Figure 5.6 Example of data channel speed limit configuration 4) Configure the same settings also in the remote IDU. Save new settings by pressing button. Example 2 – Basic 1+1 HSB/SD protection scheme The basic 1+1 HSB/SD (Hot Standby/Space Diversity) protection schemes ensure the correct data transmission over the microwave link in case of specific HW block (ODU, IDU-ODU cable, modem) failure or receive conditions degradation.(multipath fading, ..).
Phoenix G2 IDU User Manual Appendixes Figure 5.8 Example of 1+1 HSB mode This concrete example describes an application where the Design Type ‘Design 505’, Functional mode ‘1+1’ and Link diversity ‘HSB/SD – hot standby’ are selected on both link sides, modulation is 32QAM in BW 60 MHz and the appropriate maximal data speed is about 227 Mbps. The management access is In-Band management described in section ‘Management channel configuration options’.
Phoenix G2 IDU User Manual Appendixes Figure 5.10 Example of basic Radio parameters configuration 3) Port group configuration must be done according to customer requirements. The requirement in this example is to have In-band management which means that the management is accessible via the same ports where user traffic is passed through. In this case management port must be allocated in the same group with traffic ports (LAN and WAN ports).
Phoenix G2 IDU User Manual Appendixes Figure 5.12 Example of port configuration 5) In case if EMM module is used, configure it according to EMM configuration description described in section ‘Config->Ports->EMM’ in both Phoenix G2 IDUs. 6) Save new settings by pressing button. The status of 1+1 configuration is displayed in the header of the web GUI: Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.14 Example of 1+1 FD mode This concrete example describes an application where the Design Type ‘Design 505’, Functional mode ‘1+1’ and Link diversity ‘FD – freq diversity’ are selected on both link sides, modulation is 32QAM in BW 60 MHz and the appropriate maximal data speed is about 227 Mbps. The management access is Out-Band management described in section ‘Management channel configuration options: Management in Separate Channel’.
Phoenix G2 IDU User Manual Appendixes Figure 5.16 Example of basic Radio parameters configuration 3) Port group configuration must be done according to customer requirements. The requirement in this example is to have Out-band management which means that the management is accessible via separated LAN port from traffic ports. In this case management port and traffic ports must be in different groups. In the example Management port (MNG) will be available only via LAN3 port.
Phoenix G2 IDU User Manual Appendixes Figure 5.18 Example of port configuration 5) In case if EMM module is used, configure it according to EMM configuration description described in section ‘Config->Ports->EMM’ in both Phoenix G2 IDUs. 6) Save new settings by pressing button. The status of 1+1 configuration is displayed in the header of the web GUI: Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.20 Example of 2+0 FD mode This concrete example describes an application where the Design Type ‘Design 505’, Functional mode ‘2+0’ and Link diversity ‘FD – freq diversity’ are selected on both link sides, modulation is 32QAM in BW 60 MHz. The appropriate maximal data speed per one ODU pair is about 227 Mbps. Total aggregated throughput is about 455 Mbps.
Phoenix G2 IDU User Manual Appendixes Figure 5.22 Example of basic Radio parameters configuration 3) Port group configuration must be done according to customer requirements. The requirement in this example is to have In-band management which means that the management is accessible via the same ports where user traffic is passed through. In this case management port must be allocated in the same group with traffic ports (LAN and WAN ports).
Phoenix G2 IDU User Manual Appendixes Figure 5.24 Example of port configuration 5) In case if EMM module is used, configure it according to EMM configuration description described in section ‘Config->Ports->EMM’ in both Phoenix G2 IDUs. 6) Save new settings by pressing button. The status of 2+0 configuration is displayed in the header of the web GUI: Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.26 Example of 2+0 XPIC mode This concrete example describes an application where the Design Type ‘Design 505’, Functional mode ‘2+0’ and Link diversity ‘XPIC’ are selected on both link sides, modulation is 32QAM in BW 60 MHz. The appropriate maximal data speed per one ODU pair is about 227 Mbps. Total aggregated throughput is about 455 Mbps. The management access is In-Band management described in section ‘Management channel configuration options’.
Phoenix G2 IDU User Manual Appendixes Figure 5.28 Example of basic Radio parameters configuration 3) Port group configuration must be done according to customer requirements. The requirement in this example is to have In-band management which means that the management is accessible via the same ports where user traffic is passed through. In this case management port must be allocated in the same group with traffic ports (LAN and WAN ports).
Phoenix G2 IDU User Manual Appendixes Figure 5.30 Example of port configuration 5) In case if EMM module is used, configure it according to EMM configuration description described in section ‘Config->Ports->EMM’ in both Phoenix G2 IDUs. 6) Save new settings by pressing button. The status of 2+0 configuration is displayed in the header of the web GUI: Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.32 Example of 1+0 Dual FD mode for link capacity increasing This concrete example describes an application where the Design Type ‘Design 505’, Functional mode ‘1+0 Dual’ and Link diversity ‘FD – freq diversity’ are selected on both link sides, modulation is 32QAM in BW 60 MHz. The appropriate maximal data speed per each physical data channel (per one ODU pair) is about 227 Mbps. Total throughput over the link is about 227Mbps + 227Mbps = 454 Mbps.
Phoenix G2 IDU User Manual Appendixes Figure 5.34 Example of basic Radio parameters configuration 3) Port group configuration must be done according to the customer requirements. The requirement in this example is to have In-band management which means that the management is accessible via the same port where user traffic is passed through.
Phoenix G2 IDU User Manual Appendixes 4) In web GUI ‘Config->Ports->MUX’ specify Data channel and port speed for WAN (radio direction) port in both Phoenix G2 IDUs. In the example WANa port is connected to high priority data channel ‘ETH1a’ of the first independent data channel and is set on full speed limit 1000 Mbps, but the WANb port is connected to high priority data channel ‘ETH2a’of the second independent data channel and is set on full speed limit 1000 Mbps. Figure 5.
Phoenix G2 IDU User Manual Appendixes Horizontal polarization, the second ODU pair works in Vertical polarization. This configuration can be used for two independent network data passing through the link, internal aggregation is not provided in this configuration. If required, external aggregation can be performed in external network devices. This scheme requires one Phoenix G2 IDU with connected two ODUs per site.
Phoenix G2 IDU User Manual Appendixes Figure 5.40 Example of basic Radio parameters configuration 3) Port group configuration must be done according to the customer requirements. The requirement in this example is to have In-band management which means that the management is accessible via the same port where user traffic is passed through.
Phoenix G2 IDU User Manual Appendixes 4) In web GUI ‘Config->Ports->MUX’ specify Data channel and port speed for WAN (radio direction) port in both Phoenix G2 IDUs. In the example WANa port is connected to high priority data channel ‘ETH1a’ of the first independent data channel and is set on full speed limit 1000 Mbps, but the WANb port is connected to high priority data channel ‘ETH2a’of the second independent data channel and is set on full speed limit 1000 Mbps. Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.44 Example of 1+0 Dual FD repeater configuration As the 1+0 Dual mode uses two independent physical data channels, the following physical data channel interconnection rule must be observed between Repeater IDU and both Endpoint IDUs: the modem output of the Repeater IDU must be linked only with the same modem output on the remote Endpoint IDUs.
Phoenix G2 IDU User Manual Appendixes Figure 5.45 Example of System configuration of Repeater IDU 2) In web GUI ‘Config->System->Mode’ choose design type ‘Design 505’, Functional mode ‘1+0 Ch1’ in Endpoint IDU 1: Figure 5.46 Example of System configuration of Endpoint IDU 1 3) In web GUI ‘Config->System->Mode’ choose design type ‘Design 505’, Functional mode ‘1+0 Ch2’ in Endpoint IDU 2: Figure 5.
Phoenix G2 IDU User Manual Appendixes 4) In web GUI ‘Config->Radio->Parameters’ configure basic radio and modem parameters of the Repeater IDU: Figure 5.48 Example of basic Radio parameters configuration of the Repeater IDU 5) In web GUI ‘Config->Radio->Parameters’ configure basic radio and modem parameters of the Endpoint IDU 1: Figure 5.
Phoenix G2 IDU User Manual Appendixes 6) In web GUI ‘Config->Radio->Parameters’ configure basic radio and modem parameters of the Endpoint IDU 2: Figure 5.49 Example of basic Radio parameters configuration of the Endpoint IDU 2 7) In the repeater IDU, port grouping must be configured in order to fill customer requirement about in-band management and to interconnect one Ethernet data stream between physical channels (Channel 1 and Channel 2).
Phoenix G2 IDU User Manual Appendixes 8) In the Endpoint IDU 1, port grouping must be configured in order to have in-band management and two separated Ethernet data streams. In the example the first Ethernet data stream will use LAN1 and WANa ports and will be grouped in Group 1, but the second Ethernet data stream will use LAN2 and WANb ports and will be grouped in Group 2. Management port (MNG) will be accessible via LAN3 port and will be added to Group 1 in order to have remote access: Figure 5.
Phoenix G2 IDU User Manual Appendixes Figure 5.53 Example of port configuration in Repeater IDU b) The second Ethernet data stream will be set as low priority Ethernet channel (ETH1b from Endpoint IDU1, and ETH2b from Endpoint IDU2). In the example in the “Channel Select” drop-down the low priority data channel ‘ETH1b’ is connected to SFP3 port and is set on Speed limit 20 Mbps, and ‘ETH2b’ is connected to the SFP4 port and also is set on Speed limit 20 Mbps.
Phoenix G2 IDU User Manual Appendixes Figure 5.54 Example of port configuration in Repeater IDU 11) In the Endpoint IDU 1, in web GUI ‘Config->Ports->MUX’ specify data channels and ports speeds. In the example the first Ethernet data stream ETH1a (high priority) is connected to WANa port and is set on speed limit 20 Mbps.
Phoenix G2 IDU User Manual Appendixes Figure 5.55 Example of port configuration in Endpoint IDU 1 12) In the Endpoint IDU 2, in web GUI ‘Config->Ports->MUX’ specify data channels and ports speeds. In the example the first Ethernet data stream ETH2a (high priority) is connected to WANa port and is set on speed limit 20 Mbps.
