ProSoft Technology IHNFC WIFI HOTSPOT User Manual RLX2 IHx
ProSoft Technology, Inc WIFI HOTSPOT RLX2 IHx
Users Manual
RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Configuring a Radio - Detailed Configuration User Manual Parameter Description IGMP Query Interval Specifies the number of seconds between queries (if the timer is not pre-empted by a query from another device). By RFC specification, only one device on a network should generate IGMP queries. As such, the radio only sends an IGMP query if another device has not sent a query within the radio's IGMP QUERY INTERVAL setting, even if IGMP QUERY GENERATION is enabled. Multicast State Count Specifies the number of queries the radio generates before a device is removed from the multicast group on this radio if no response is received from the device. 4.6.2 STP Settings You use the parameters in the STP SETTING group in the Radio Configuration / Diagnostic Utility to specify the Spanning Tree Protocol parameters of your RLX2-IHx series radio. ProSoft Technology, Inc. October 30, 2017 Page 101 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Parameter Description Enable Spanning Tree Select this check box to enable Spanning Tree Protocol (STP). If you enable Spanning Tree (recommended), the radio blocks redundant connections. Additionally, the radio flushes the Ethernet switch table when the network topology changes. See Rapid Spanning Tree Functionality (page 103). If you disable Spanning Tree (clear the check box), there can be redundant connections if the radio creates multiple radio links in parallel with each other. This also disables the other parameters in the STP SETTINGS group. All RLX2-IHx series radios support the Rapid Spanning Tree Protocol (RSTP), and default to this mode when you enable Spanning Tree. Ethernet Edge Port Select this check box to enable the Ethernet Edge Port function (recommended) when no RSTP device is connected to the Ethernet port. This allows immediate communication through the Ethernet port. Because RSTP is an active protocol, it depends on communication between RSTP devices. If no RSTP device is connected to the radio’s Ethernet port, the handshake cannot take place. In this case, RSTP reverts to STP. This means that the Ethernet port is forced to adhere to the timer based transition protocol of STP. Therefore on network transitions and power up, communications are not allowed over the Ethernet port for 30 to 45 seconds unless you enable ETHERNET EDGE PORT. This setting specifies that no redundant connections exist out the Ethernet port and communication can start immediately. If for some reason the radio receives a BPDU (bridge protocol data unit) on this port, the RSTP protocol negotiates properly and handles any possible redundant paths. Note: You can select ETHERNET EDGE PORT without selecting ENABLE SPANNING TREE. Bridge Times Configures the timing intervals to use. Priority Determines which device is the root of the RSTP. The RSTP device with the lowest priority becomes the root bridge. The accepted standard value for this is 32768. If wired switches exist in the network that support RSTP, they should always be allowed to be the root. For Master radios, set this value to 32769 to prevent the radio from being the root over a wired switch. For Repeater radios, set this value to 32770. This specifies that if the network only has RLX2-IHx series radios, the Master radio becomes the root. Hello Time Specifies the rate at which the radio sends out BPDUs. The recommended industry standard is 2 seconds. Max Age Specifies the age limit for protocol information for a port. The radio measures the age of the received protocol information recorded for a port and discards it when the information's age limit exceeds this value. The timeout value for this timer is the maximum age parameter of the root. Forward Delay Specifies the timeout for time spent by a port in the learning and listening states. The timeout value is the forward delay parameter of the root. Path Costs Page 102 of 227 RSTP and STP algorithms use a cost to determine which connections should be used in the Spanning Tree. The radio forms the Spanning Tree by determining the lowest cost paths from any RSTP device back to the root. ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Parameter Configuring a Radio - Detailed Configuration User Manual Description Wireless Gives preference to a wired connection, set the Wireless cost to 200. Ethernet Gives preference to a wired Ethernet connection, set the Ethernet cost to 100. Rapid Spanning Tree Functionality Rapid Spanning Tree Protocol (RSTP) is an advanced networking function that shuts off ports as necessary to prevent data packet loops when more than one network path is available. If loops exist in an Ethernet network, the devices can circulate packets endlessly, consuming all the bandwidth and making the network unusable. RSTP allows the radios to create truly redundant connections between any two points in the network, but use only one path at a time. The radios detect the redundant paths and use only one primary connection for communications. If the primary connection fails, the radios quickly change to the secondary connection to a state to forward packets, allowing the network to adapt itself to handle problems without requiring your intervention. RTSP uses active communications between network devices to quickly propagate changes and transitions in the network. Because RTSP is an IEEE standard, RLX2-IHx series radios work in conjunction with wired Ethernet switches to form a redundant network. Each RSTP device (RLX2-IHx series radio or Ethernet switch) communicates with other RSTP devices in the network using packets called Bridge Protocol Data Units (BPDUs). Each device sends BPDUs out each of the devices ports. In a wired switch, this is from each of the Ethernet ports. In an RLX2-IHx series Radio, this is from both the Ethernet port and each wireless link. BPDUs allow each RSTP device in the network to make sure that the proper connections still exist. The Port Status dialog box shows a list of all ports and their state. In the Radio Configuration / Diagnostic Utility, on the BASIC SETTINGS tab, click PORT STATUS. See Viewing the Radio Port Status (page 67). In this example, the RLX2-IHx series radio has 4 RSTP "ports": Ethernet port (1) A port for its parent connection (2) A port for each of its two child connections (11 and 12) ProSoft Technology, Inc. October 30, 2017 Page 103 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots BPDUs are sent out the port at a rate called the Hello Time set in the Radio Configuration / Diagnostic Utility on the ADVANCED NETWORK SETTINGS tab. The accepted standard value for this parameter is 2 seconds. If a radio (or any other RSTP device) does not get a BPDU from a device for a time period equal to two Hello Times, the radio assumes the RSTP device is no longer available. The radio can then open a redundant path if one is available. This process is much like the STP process. If other devices on the network are not operating in Rapid Spanning Tree mode, the radio reverts to normal Spanning Tree operation on the ports connected to those devices. RSTP provides a performance enhancement over STP. A radio using the STP algorithm reverts its port to the listening state, and then to the learning state, before returning to the forwarding state. Each of these states takes at least 15 seconds, during which the STP devices are listening for BPDUs to re-negotiate the network topology. A radio using the RSTP algorithm uses active handshaking between adjacent RSTP devices to re-negotiate the network topology. This process takes only one to two seconds. Each RLX2-IHx series radio contains a switch table that tells the radio how to forward Ethernet packets to get them to their correct destination. When the network topology changes, the radio immediately flushes its Ethernet switch table. This allows the radio to pass traffic immediately over the new network topology and learn the configuration in the process. Until the radio completely learns the new topology, it broadcasts the packets to their destination. As the radios see each packet and rebuilds the Ethernet switch table, the radios return to directing packets to their destinations. Page 104 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Configuring a Radio - Detailed Configuration User Manual 4.6.3 SNMP Agent You use the parameters in the SNMP AGENT group in the Radio Configuration / Diagnostic Utility to specify the Simple Network Management Protocol parameters of your RLX2-IHx series radio. SNMP is a network management protocol that is often used with TCP/IP and Ethernet. It offers an alternative to using the Radio Configuration / Diagnostic Utility, and allows you to use an SNMP manager application to change radio settings and view diagnostics. Parameter Description Enable Select this check box to enable the following SNMP agent. Allow Any Manager Specifies that any user can change the radio configuration from any computer using SNMP. Allow IP Specifies that only an SNMP manager with a particular IP address can change the radio configuration. You must enter the IP address. Community String Specifies a community string (similar to a password) that an SNTP manager must use to access the radio’s SNMP agent. Permission Specifies the permission level to assign to this radio. READ ONLY - The SNMP manager can view, but cannot change the radio configuration. READ/WRITE - The SNMP manager can view and make changes to the radio configuration. ProSoft Technology, Inc. October 30, 2017 Page 105 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots The RLX2-IHx series radio's SNMP agent supports SNMP protocol version 1.4 and 2. MIBs: o RFC12133-MIB (partial; internet.mgmt.MIB-2.system, .interfaces, .snmp) o ROMAP-MIB (internet.private.enterprises.romap) It also supports a selection of standard SNMP traps, including Cold Start, which the radio sends when it initializes. 4.6.4 Cable Break Detection One common application interconnects a line of RLX2-IHx Masters with Radiating Cable, allowing mobile platforms to move down the line roaming from Master to Master. The radiating cable between the Masters allows them to receive each other's packets, in particular each other's Beacon frames. It is therefore possible for a Master to detect if the Radiating Cable between itself and the next or previous Master is broken or damaged. When enabled, this feature will produce an SNMP Trap whenever it detects an RSSI drop to one of its Monitored Peers. A cable break is defined as a change in RSSI greater than the Cable Break Threshold. The RLX2-IHx will automatically determine the closest Peers and will adopt a baseline RSSI from each Peer when it is first picked to be monitored. Page 106 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.7 Configuring a Radio - Detailed Configuration User Manual Parameter Description Enable Select this check box to enable the Cable Break Detection feature Threshold Configures the RSSI change (in dB) observed while monitoring a neighboring RLX2-IHx Master that will trigger a cable break indication via an SNMP Trap. Configuring Serial Settings You use the SERIAL SETTINGS tab in the Radio Configuration / Diagnostic Utility to specify the serial communication parameters for a RLX2-IHx series radio. Serial Settings includes four groups: SERIAL ENCAPSULATION MODE REMOTE IP SETTINGS PACKET DELINEATION PORT SETTINGS ProSoft Technology, Inc. October 30, 2017 Page 107 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.7.1 Serial Encapsulation Mode Setting You use the SERIAL ENCAPSULATION MODE parameter in the Radio Configuration / Diagnostic Utility to specify the serial encapsulation parameter of your RLX2IHx series radio. Parameter Description Serial Encapsulation Mode Specifies the serial encapsulation that the radio uses in serial communication. NONE - No serial data encapsulation. UDP - You can use programs on networked computers to send short messages or Datagrams. The radio uses the serial port to transmit and receive packets. Note: In UDP mode if you enter a multicast group address in the REMOTE IP SETTINGS group parameters, then packets are sent to that address or addresses. TCP SERVER - Only connections from this address will be accepted. Once the session is established, the serial port is enabled to transmit and receive packets. Note: To accept connections from any IP address the parameter should be set to 0.0.0.0. TCP CLIENT - In TCP Client mode, a TCP connection will be established with this address. When the session is established, the serial port is enabled to transmit and receive packets. Page 108 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Configuring a Radio - Detailed Configuration User Manual 4.7.2 Remote IP Settings You use the REMOTE IP SETTINGS parameters in the Radio Configuration / Diagnostic Utility to specify the address and port information for the remote radios for serial communication of your RLX2-IHx series radio. Parameter Description Single IP/URL Address Specifies the IP address or URL of the radio to receive encapsulated serial protocol packets from this radio. Range of IP Addresses Specifies up to 4 IP Address ranges for radios to receive encapsulated serial protocol packets from this radio. Rmt Port Specifies the remote UDP port number to use for encapsulated serial data transmission. Loc Port Specifies the local UDP port number to use for encapsulated serial data transmission. ProSoft Technology, Inc. October 30, 2017 Page 109 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.7.3 Packet Delineation Settings You use the PACKET DELINEATION parameters in the Radio Configuration / Diagnostic Utility to specify the way the radio separates serial packets for serial communication of your RLX2-IHx series radio. Parameter Description Delineation Method Specifies the packet separator. TIME GAP - The radio uses a minimum time gap between characters that that the radio interprets as a delineator for a packet. This uses the EOL TIME GAP parameter. NONE - The radio sends all data received between packet delineation events to the remote radio in a single network frame. CHARACTER - The radio uses a character sequence in the stream of characters that indicates the delineator for the packet. This uses the EOL DELINEATOR parameter. Page 110 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots EOL Delineator Configuring a Radio - Detailed Configuration User Manual Specifies the type of delineator the radio uses between packets when you select CHARACTER for DELINEATION METHOD. Type Decimal Hex Use Text Description Any string of characters. Enter the string of characters in the EOL Delineator box. CR 13 0D Carriage Return ESC 27 1B Escape LF 10 0A Line Feed (New Line / nl) Null 00 00 Null Spacebar 32 20 Space Tab 09 09 Horizontal Tab EOL Time Gap (milliseconds) Specifies the time gap the radio uses between packets when you select TIME GAP for DELINEATION METHOD. This is the length of time that must elapse after a character is received (from the local attached device) before the radio marks the end of a packet. The smallest valid value for this parameter is limited by the device and is platform dependent. Packet Rate (milliseconds) Specifies the minimum time gap that the radio interprets as an inter-packet space. When the radio detects this time gap, it defines the characters received up to that point as a single packet and sends it to the remote radio. Valid values are 1,000 to 500,000. ProSoft Technology, Inc. October 30, 2017 Page 111 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.7.4 Port Settings You use the PORT SETTINGS parameters in the Radio Configuration / Diagnostic Utility to specify the serial port settings of your RLX2-IHx series radio. Parameter Definintion Baud Rate Specifies the baud rate for the serial port on the radio. This must match the baud rate setting on the connected serial device. Data Bits Specifies the number of data bits for the serial port on the radio. This must match the data bits setting on the connected serial device. Values: 5, 6, 7 or 8 Parity Specifies the parity for the serial port on the radio. This must match the parity setting on the connected serial device. Values: None, Even, Odd, 1 or 0 Flow Control Specifies the flow control (handshaking) mode for the serial port on the radio. This must match the handshaking mode setting on the connected serial device. Values: None or Hardware Stop Bits Specifies the stop bits for the serial port on the radio. The stop bits on the radio must match the stop bits setting on the connected serial device. Values: 1 or 2 Page 112 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.8 Configuring a Radio - Detailed Configuration User Manual Configuring Quality of Service (QoS) Settings You use the QOS settings tab in the Radio Configuration / Diagnostic Utility to specify the packet priority value parameters for a RLX2-IHx series radio. RLX2-IHx series radios always prioritize frames using QoS for packets received already marked with a priority value. The QOS tab allows you to set the default priority for frames that the radio receives without any priority markings. In addition, you can map a priority value to packets received without priority markings according to a set of matching criteria. Parameter Description QoS Map Enable Specifies whether the the RLX2-IHx series radio uses the priority mapping function. ENABLED - The radio uses the priority mapping table to prioritize packets without a priority value. You must select Enabled before you can edit the QoS Map table. DISABLED - The radio does not set priority values for packets without a priority value. Default Priority Specifies the default priority for packets received on the Ethernet interface without a priority value (default is 0 - no priority). ProSoft Technology, Inc. October 30, 2017 Page 113 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Parameter Description QoS Map Table Specifies up to eight separate match criteria to identify and assign priority values to received Ethernet packets. Each filter has several parameters that you can enable by selecting the check box to the left of each parameter. When you enable multiple parameters in a row, all enabled parameters in that row must match before the radio assigns the specified PRIORITY value to a packet. PRIORITY - The priority value the radio assigns to the received Ethernet frame if it was not already marked with a priority value and if all enabled parameters in the same row match. SOURCE IP ADDRESS - A parameter match occurs for all packets received from the device with this source IP address. DESTINATION IP ADDRESS - A parameter match occurs for all packets received addressed to the device with this destination IP address. SOURCE PORT NO. - A parameter match occurs for all IP packets received with this source port value. DEST PORT NO. - A parameter match occurs for all IP packets received with this destination port value. PROTOCOL NO. - A parameter match occurs for all IP packets received with this protocol number. PACKET LENGTH - A parameter match occurs for all iP packets received with the correct packet length. You must enter a packet length threshold You must select the match criteria: Select < to match if the length of the received packet is LESS THAN the threshold. Select to match if the length is GREATER THAN OR EQUAL TO the threshold. Select both < and to match ALL PACKET LENGTHS. Page 114 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 4.9 Configuring a Radio - Detailed Configuration User Manual Configuring VLAN Settings You use the VLAN tab in the Radio Configuration / Diagnostic Utility to specify the Virtual Local Area Network parameters of a RLX2-IHx series radio. When the radio sends a packet, it includes the selected VLAN packet ID. RLX2-IHx series radios support port based VLANs. Each RLX2-IHx series radio can be considered to have 3 different ports or interfaces; the Ethernet interface, the local applications stack of the radio itself, and the 802.11 BSS created by each radio, allowing client devices to associate. You can configure the VLAN settings for the Ethernet interface on all RLX2-IHx series radios. You can configure the VLAN for the Local and SSID ports on the Master radio. The Master radio pushes these settings to each connected Repeater radio. This allows the VLAN settings for a bridged network rooted at a Master radio to have common settings for these two ports. This ensures, for example, that if the Local interface is set to a management VLAN, the all Repeater radios are accessible from a Management PC. For more information, see Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality (page 175). You can think of the Ethernet ports for the Master radio and its associated Repeater radios as a smart switch. Transporting tagged frames to the appropriate remote Ethernet port is automatic and does not require any settings. ProSoft Technology, Inc. October 30, 2017 Page 115 of 227 Configuring a Radio - Detailed Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Parameter Description VLAN Enable Select this check box to enable the VLAN function of the radio. When enabled, packets received by the radio on an interface that are not VLAN tagged are assigned to the VLAN as set by the PVID parameter of the respective interface. When disabled, the radio still bridges received Ethernet packets that are VLAN tagged but does not act on the VLAN ID of the frame or add or remove any VLAN tags. Ethernet (ingress) PVID SSID (ingress) PVID Local/Mgmt (ingress) PVID Specifies the PVID setting representing the VLAN ID to assign to nontagged ingress frames from each interface (Ethernet, SSID, Local/Mgmt). Access Local from all VLANs Select this check box to allow the Mgmt interface to be accessible from all VLANs and interfaces (supported by the Local/Mgmt interface). VLAN Settings Specifies the details for each VLAN. You use the VLAN Table to make each of the interfaces a member of a particular VLAN ID, and specify whether frames sent from the Ethernet interface should be tagged or untagged for a particular VLAN. You can configure up to 10 different VLAN ID's. VLAN ID - The ID of the VLAN to be assigned to the radio’s interfaces. Valid VLAN ID's range from 1 to 4096. Note that VLAN ID's 1956 and 1957 are reserved and cannot be used. ETHERNET MEMBER - Select this check box to make the Ethernet interface of the radio a member of the VLAN indicated by the row’s VLAN ID. ETHERNET EGRESS ACTION - Specifies whether frames belonging to the row’s VLAN ID are sent out the Ethernet port as TAGGED or UNTAGGED. SSID MEMBER - Select this check box to make the SSID (BSS) of the RLX2-IHx series a member of the VLAN indicated by the row’s VLAN ID. LOCAL/APP MEMBER - Select this check box to make the radio's Local/App interface is a member of the VLAN indicated by the row’s VLAN ID. Page 116 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual Using the IH Browser to Manage your Radios In This Chapter Viewing the Radios in the IH Browser ................................................. 118 Viewing the Radio Properties .............................................................. 126 Setting the Radio IP Address in the IH Browser .................................. 128 Assigning a Temporary IP Address ..................................................... 129 Viewing Additional Data in the IH Browser .......................................... 130 Connecting to the Radio Configuration Utility ...................................... 130 Updating the Radio Firmware .............................................................. 132 Pinging Devices on the Network .......................................................... 133 Viewing Network Data in the IH Browser ............................................. 135 The RadioLinx Industrial Hotspot Browser (IH Browser) finds RLX2-IHx series radios connected to the network. It displays the radio’s status and basic settings. You can use the IH Browser to perform a number of tasks, including: View all the radios connected through the network to your PC in either a list (table) or topology view. Open the Radio Configuration / Diagnostic Utility in a web browser on your PC to configure or check diagnostics for your radio. Assign a temporary IP address to a radio. Show the Event Log with a history of events that occurred on the radio. Update the firmware in the radio. Send a ping command to a radio or other IP address. View a list of client radios. View a list of wired Ethernet nodes connected to the network. View a list of all the access points detected on the network (including those from other vendors) View a list of all the active interface ports on the radio. View the radio’s properties. View the radio’s Event Log. ProSoft Technology, Inc. October 30, 2017 Page 117 of 227 Using the IH Browser to Manage your Radios User Manual 5.1 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Viewing the Radios in the IH Browser Start the IH Brower: see Starting the IH Browser (page 24). If the radio is powered up and connected, it appears in the IH Browser. Note that the MAC address is the same address as that of the label on the radio. The List view (shown in the image below) displays the RLX2-IHx series radios (or previous generation RLXIB radios, except the RLCIB-IHN) on the same network as the computer running the IH Browser. Note: You can perform many common tasks by right-clicking on the radio and choosing a command. 5.1.1 Refreshing the Display in the IH Browser To refresh the display If you have made changes to a radio's configuration, refresh the IH Browser by clearing and scanning the display using the buttons on the toolbar. The Erase button clears the radios from display (or from the FILE menu choose CLEAR). The Scan button rescans the network for RLX2-IHx series radios (or from the FILE menu choose SCAN). 5.1.2 Defining the Scan Parameters in the IH Browser You use the Scan Setup dialog box to specify how the IH Browser refreshes the display when scanning the network. By default, the program sends a broadcast Scan message to all the radios at the same time, then waits for them to respond. Broadcasts are limited to a local network, and will not be passed through a router. If there is a router between the PC running the IH Browser and the radio, enter the IP address of a single radio or the range of IP addresses of multiple radios. This adds them to the IP addresses the IH Browser scans. Page 118 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual To define the scan parameters, from the FILE menu, choose SCAN SETUP. Parameter Description Local network scanning interval Specifies how often the IH Browser scans the network before updating the display. Enter zero to disable automatic scanning. You can still scan the network manually. See Refreshing the Display in the IH Browser (page 42). Additional IP addresses Displays the IP addresses the IH Browser scans at the scanning interval. Remove Removes the selected IP address or range. Click on an IP address or address range to select it. New Address / Range Enter the new IP address (in FROM) or range of IP addresses (in FROM and TO) and then click ADD. 5.1.3 Freezing the Display in the IH Browser Freezing the display in the IH Browser prevents it from updating with new data. To freeze the display The Freeze button on the IH Browser toolbar prevents the display from updating (or from the FILE menu choose FREEZE). Click the Freeze button again to start updating the display. ProSoft Technology, Inc. October 30, 2017 Page 119 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.1.4 Changing IH Browser Columns in List View You can change the columns that appear in the IH Browser main window in List View. To change the columns in the IH Browser window From the VIEW menu, click SELECT COLUMNS. In the Select Columns dialog box, click the check boxes for the columns you want to appear in the window. To reset the columns in the IH Browser window to the default From the VIEW menu, click RESET COLUMNS. 5.1.5 Switching between List and Topology Views You can switch between the List and Topology Views in the IH Browser main window. The List View is the default view, and shows a list of all the connected radios in a grid, similar to a spreadsheet. The Topology View shows a diagram of the network’s wireless connections. If a radio does not appear in the view, it is not connected to the network. The Topology View is display-only. If you want to change the way a radio is linked to the network, see Configuring Parent Link Settings (page 94). To switch between the List and Topology views The List View button switches to the List View (or from the VIEW menu choose LIST VIEW). For a description of the available columns, see List View Columns (page 121). The Topology View button switches to the Topology View (or from the VIEW menu choose TOPOLOGY VIEW). For a description of the Topology View, see Topology View Description (page 124). To change the columns in the List View To resize a column, click between column headers and drag to the left or right. To re-order the columns, click a column header and drag it to the left or right. To sort the radios, click a column header to change the sort order To change the displayed columns, from the VIEW menu choose SELECT COLUMNS. To zoom in and out in the Topology View The Zoom In button magnifies the Topology View (or from the VIEW menu choose ZOOM IN). The Zoom Out button shrinks the Topology View (or from the VIEW menu choose ZOOM OUT). Page 120 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual The Zoom to Fit button resizes the Topology View to fit the window (or from the VIEW menu choose ZOOM TO FIT). To sort radios alphabetically in the Topology View The Sort Alphabetically button sorts the radios in the by name Topology View (or from the VIEW menu choose SORT ALPHABETICALLY). To change a radio's configuration in either view Double-click a radio to start the Radio Configuration / Diagnostic Utility for the radio. See Connecting to the Radio Configuration Utility (page 44). List View Columns This topic describes the available columns in the List View. See Switching between List and Topology Views (page 120) for more information on the List View columns. Note: You can display most of the same information for the radio in the Detailed Information dialog box the IH Browser. See Viewing the Radio Properties (page 126). Column Name Description Name Displays the devices in the IH Browser. Names appear in a nested tree order. The icons on some entries help identify the type of device. Computer Wired Network Interface Master Radio Repeater Radio Client Radio Bridging Client Radio Mode Displays a text description of the devices in the IH Browser. THIS UTILITY - This instance of the IH Browser. UTILITY - Other instances of IH Browsers running on other systems on the same network. LOCAL INTERFACE - A network interface detected on the computer running this instance of the IH Browser. MASTER - A radio on the network in Master mode. ETHERNET CLIENT - A radio on the network in Client mode BRIDGING CLIENT - A radio on the network in Bridging Client mode. REPEATER - A radio in the network in Repeater mode. MAC Displays the physical Media Access Control (MAC) address of the devices. All ProSoft Technology devices have a MAC address in the form 00:0D:8D:XX:YY:ZZ. ProSoft Technology, Inc. October 30, 2017 Page 121 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots IP Displays the IP addresses assigned to the devices. Mask Displays the network mask for the device. Gateway Displays the IP address of the network gateway for the device. SSID Displays the Service Set Identifier (SSID). This is a name assigned to a wireless network device. Repeater and Client radios must be configured with the same SSID to connect. Note that Master radios typically broadcast their SSID. However, you can disable SSID broadcasting so that other wireless devices cannot detect the Master radio, If a Master is not broadcasting its SSID, this field includes the word HIDDEN along with the SSID of the radio; for example ProSoft/hidden. Connection Displays the connection state for a Repeater radio. SCANNING - The radio is searching for a Master radio. CONNECTED - The radio is linked to a Master radio. Signal (dBm) Displays the signal strength, in dBm of a Repeater or Client radio’s link to a Master device. Master devices do not report signal strength. Hops Displays the number of wireless connections from the device to the wired connection of a Master. This value is always 1 for a Master radio. For Repeater radios, the value is at least 2, but can be higher if there are more hops to the Master radio. Client radio do not display a hop value. Parent Displays the MAC address of the Parent radio to which this Repeater or Client radio is linked. This is blank for Master devices. Associations Displays the number of non-bridge wireless connections to this radio. Client or Bridging Client radios that are connected always show 1 in this column (and 0 in the Bridges column). Bridges Displays the number of non-bridge wireless connections to this radio. Client or Bridging Client radios that are connected always show 1 in this column (and 0 in the Bridges column). Tx (kbits/sec) Displays a moving average of transmit throughput in kilobits/second. It does not count packet overhead, and only counts payload data. For Repeater radios, this shows the throughput only for the radio link to the Parent radio. For Master radios, this is the throughput sum of all the Master's radio links. Rx (kbits/sec) Displays a moving average of receive throughput in kilobits/second. It does not count packet overhead, and only counts payload data. For Repeater radios, this shows the throughput only for the radio link to the Parent radio. For Master radios, this is the throughput sum of all the Master’s radio links. FW Ver Displays the firmware version number. For IH Browser entries, this is the version of the IH Browser itself. For radios, this is the version of the firmware code in the radio. This is not the version of the image file installed into the radio (for that information see IMAGE VER described below). Boot Ver Displays the boot loader code version number. For IH Browser entries, this is the version of the network communication engine in the IH Browser (e.g. WinXP, WinVista). For radios, this is the version of the boot loader code in the radio. Image Displays the type of the firmware image that the radio is currently running (PRIMARY or SECONDARY). Each radio has two copies of operating firmware installed, and the radio will automatically switch from one to the other if one of them becomes corrupted. Page 122 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual Compression Displays the compression state of the firmware images in the radio (COMPRESSED or UNCOMPRESSED). Ethernet Displays the Ethernet status for the radio. ATTACHED - The radio is connected to a wired Ethernet network. DETACHED - The radio is not connected to a wired Ethernet network. Channel/Width Displays the operating channel and channel width. The width value is always 20MHz except on 802.11n devices where it can be 20MHz or 40MHz. Example: 48, 20 MHZ for channel 48 with a 20 MHz channel width. Security Displays the encryption type setting for the radio. Some valid settings are AES, TKIP, AES&TKIP, WEP128 TKIP, WEP128, WEP64. Misses Displays the number of times the IH Browser has failed to receive a response from the device after a scan. Ideally this number should always be zero. RSTP Displays the setting for RSTP in the radio (ENABLED, DISABLED, and STP). The STP state is a legacy "non-rapid" Spanning Tree mode that the radio automatically uses if it detects a peer wired bridge in STP mode. All radios on a network must have the same RSTP state to link properly. Link Time Displays the link time of the device; for example 24d,13h,10m,32s. This time resets to zero on a Roam, or if the link is dropped and re-established with the same Parent radio. TX Rate Displays the current modulation data rate that the radio is using for transmission. This may be slower than the configured nominal rate because of retries or other environmental factors. For 802.11a/b/g devices, the data rate is expressed in kilobits or megabits per second (for example, 54Mb/s). For 802.11n devices, the data is expressed in MCS rates from 0 to 15 (for example, MCS7). Temperature Displays the internal temperature of the radio as measured on the circuit board in degrees Celsius. Note that internal measured temperature always exceeds the ambient external temperature. Retries(%) Displays the ratio of packet re-transmission to total packet transmissions during the last five-second interval for the radio. Uptime Displays the amount of time the radio has been running since the last power cycle or reset; for example, 1d,4h,13m,25s. Product Displays the model number of the RLX2 radio; for example RLX2-IHA, RLX2-IHG, RLX2-IHFN, RLX2-IHFN-W, or RLX2-IHW. Image Ver Displays the name of the image file loaded into the radio; for example, RLX2_V0036_R. It matches the Firmware label displayed for the radio in the Radio Configuration / Diagnostic Utility. ProSoft Technology, Inc. October 30, 2017 Page 123 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Topology View Description This topic describes the Topology View. See Switching between List and Topology Views (page 120) for more information on the Topology View. Indicates the Master radio; always shown at the top, Indicates a radio linked to the network Indicates a radio not linked to to a Parent radio, but on the same network as the computer hosting the IH Browser. Indicates that an Ethernet connection exists to the radio, but does not indicate the number of devices on the connection Indicates that wireless clients (such as laptops and tablet computers) are linked to this radio. The number of clients linked is indicated by the number of boxes and/or a number. Indicates signal strength between radios. The width of the line is not calibrated, but a wider line indicates a relatively stronger signal strength. Indicates links to alternate Parent radio candidates that could be chosen if the current Parent link drops or degrades. Page 124 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual 5.1.6 Printing the View in the IH Browser You can print the current view in the IH Browser. To print the current view, from the FILE menu choose PRINT. To define the page orientation, paper source, and size, from the FILE menu choose PRINT SETUP. To preview the printed view, from the FILE menu choose PRINT PREVIEW. This can help you adjust the view in the IH Browser so it does not break across pages when printed. In the Topology View, to display a border around the area to be printed, do one of the following: o From the VIEW menu, choose PRINT AREA. o On the IH Browser toolbar click the Show Page Outline button. 5.1.7 Importing and Exporting IH Browser Data You can export data from, and import data into, the IH Browser. Exporting data creates and saves an XML file containing the current configuration and status of all radios discovered by the IH Browser. You can use this command under the direction of ProSoft Technical Services, for troubleshooting purposes. Importing data brings in the data from a previously created IH Browser XML file. To export data from the IH Browser, from the FILE menu choose EXPORT. You can choose to include the data from the current Wireless Client, Ethernet Nodes, Scan List, and Port Table tables. See Viewing Additional Data in the IH Browser (page 130) for information about those tables. To import data from an export file created in the IH Browser, from the FILE menu choose IMPORT. ProSoft Technology, Inc. October 30, 2017 Page 125 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.1.8 Hiding the Toolbar and Status Bar in the IH Browser You can hide and display the Toolbar and Status bar in the IH Browser window. To hide and show the Toolbar (1 in the image below), from the VIEW menu choose TOOLBAR. To hide and show the Status Bar (2 in the image below), from the VIEW menu choose STATUS BAR. 5.2 Viewing the Radio Properties The Detailed Information dialog box shows information about the currently selected radio. 1 In the IH Broswer, select (click) a radio in either the List View or Topology View. 2 From the DIALOGS menu choose PROPERTIES, or right-click the radio and choose PROPERTIES. Page 126 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual Click MORE to display more information. Note: You can display most of the same information in the List View in the IH Browser. See List View Columns (page 121). Parameter Description MAC Displays the MAC address of the selected radio. IP Displays the IP address of the selected radio. Mode Displays the mode of the selected radio (MASTER, REPEATER, CLIENT, BRIDGING CLIENT) SSID Displays the SSID of the selected radio. TX Rate Displays a green bar when there is transmit activity. RX Rate Displays a green bar when there is receive activity. Master Displays the MAC address of the radio's current Master radio. Signal Displays a green bar when there is a signal. More / Less Click MORE to expand the dialog box and display more information. Click LESS to reduce the dialog box and display less information. Mask Displays the network mask for the current radio. Gateway Displays the network gateway IP for the current radio. Connection Displays the connection state for a Repeater radio. SCANNING - The radio is searching for a Master radio. CONNECTED - The radio is linked to a Master radio. Software Version Displays the version of the firmware code in the radio. This is not the version of the image file installed into the radio (for that information see IMAGE described below). ProSoft Technology, Inc. October 30, 2017 Page 127 of 227 Using the IH Browser to Manage your Radios User Manual 5.3 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Parameter Description Boot Version Displays the boot loader code version number. This is the version of the boot loader code in the radio. Image Displays the type of the firmware image that the radio is currently running (PRIMARY or SECONDARY). Each radio has two copies of operating firmware installed, and the radio will automatically switch from one to the other if one of them becomes corrupted. Compression Displays the compression state of the firmware images in the radio (COMPRESSED or UNCOMPRESSED). Associations Displays the number of non-bridge wireless connections to this radio. Client or Bridging Client radios that are connected always show 1 in this column (and 0 in the Bridges column). Bridges Displays the number of non-bridge wireless connections to this radio. Client or Bridging Client radios that are connected always show 1 in this column (and 0 in the Bridges column). Hop Count Displays the number of wireless connections from the device to the wired connection of a Master. This value is always 1 for a Master radio. For Repeater radios, the value is at least 2, but can be higher if there are more hops to the Master radio. Client radio do not display a hop value. Channel Displays the operating channel for radio. Ethernet Displays the Ethernet status for the radio. ATTACHED - The radio is connected to a wired Ethernet network. DETACHED - The radio is not connected to a wired Ethernet network. Security Displays the encryption type setting for the radio. Some valid settings are AES, TKIP, AES&TKIP, WEP128 TKIP, WEP128, WEP64. Missed Responses Displays the number of times the IH Browser has failed to receive a response from the device after a scan. Ideally this number should always be zero. Setting the Radio IP Address in the IH Browser To set the radio IP address If the radio is on a network with a DHCP server, it gets an IP address through DHCP. If the radio is not on a network with a DHCP server, the radio appears with an IP address of 0.0.0.0. You can assign a temporary IP address to assist with configuring the radio. See Assigning a Temporary IP Address (page 42). Page 128 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.4 Using the IH Browser to Manage your Radios User Manual Assigning a Temporary IP Address A temporary IP address allows you to access and configure a radio using the IH Browser and the Radio Configuration / Diagnostic Utility. 1 In the IH Browser, right-click the radio and then click ASSIGN IP. This opens the Assign Temporary IP Address dialog box. The UNUSED IP’S list are the IP addresses that are currently available on the network. The IH Browser suggests the network parameters for the temporary IP address. It queries the IP addresses, and displays them if it does not receive a response. Click one of the unused IP's, or enter an unused IP address, and click OK. The IH Browser warns you that the IP address is temporary. Click OK and refresh the display in the IH Browser. Your radio should now appear in the IH Browser window with the temporary IP address. To set a permanent IP address for the radio, see Configuring a Radio Getting Started (page 44). ProSoft Technology, Inc. October 30, 2017 Page 129 of 227 Using the IH Browser to Manage your Radios User Manual 5.5 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Viewing Additional Data in the IH Browser Start the IH Brower (see Starting the IH Browser (page 24)). If the radio is powered up and connected, it appears in the IH Browser. Note that the MAC address is the same address as that of the label on the radio. The List view (shown in the image below) displays the RLX2-IHx series radios (or previous generation RLXIB radios, except the RLCIB-IHN) on the same network as the computer running the IH Browser. Note: You can perform many common tasks by right-clicking on the radio and choosing a command. 5.6 Connecting to the Radio Configuration Utility This section describes how to connect to the Radio Configuration / Diagnostic Utility using a web browser such as Internet Explorer or Firefox on your PC or other network-enabled device. To connect to the Radio Configuration / Diagnostic Utility Important: Your computer or other device must be connected to the same network as the RLX2IHx series radio. Open the Radio Configuration / Diagnostic Utility for the radio. You can do this in any of three ways: o In the IH Browser List view or Topography view, right-click the radio and then click CONNECT. o In the IH Browser List view or Topography view, double-click the radio. o Open a web browser on your PC, and then in the address bar, type http://, followed by the IP address for the radio, and then press ENTER. For example, http://192.168.6.10. Page 130 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual The login screen appears in the web browser. Enter the password and then click LOGIN. The default password is password. If you have lost the password for the radio, you can reset the radio to its default settings. See Resetting a RLX2-IHx series Radio (page 148). This opens the Radio Configuration / Diagnostic Utility for the radio. Note that some parameters may be different from the image depending on your specific radio model. ProSoft Technology, Inc. October 30, 2017 Page 131 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Tip: You can display the help topic for any parameter in the Radio Configuration / Diagnostic Utility by clicking the parameter name. The parameter name turns blue when you move the cursor over a parameter with a help topic. There is also a short description of the cursored control at the bottom of the window. 5.7 Updating the Radio Firmware From time to time, ProSoft Technology may release new firmware for the RLX2IHx series radio that may include new features and corrected anomalies. We recommend that all RLX2-IHx series radios in a network use the same firmware version. If your network has a mix of RLX2-IHx series models, you can load the same firmware image file into each of them. To update the firmware in the radio Download the radio firmware image from the Prosoft Technology web site at www.prosoft-technology.com and save it to a known location (such as the Windows Desktop). Start the IH Browser and click on an RLX2-IHx series radio to select it. From the OPERATIONS menu choose UPDATE FIRMWARE. You can also rightclick the radio and choose UPDATE F/W. Enter the password for the radio. This is the same password that you use to log into the radio when you start the Radio Configuration / Diagnostic Utility. See Connecting to the Radio Configuration Utility (page 44). Click BROWSE to locate the firmware image file to load. Click UPDATE to begin copying the new firmware to the radio. Important: Do not turn off power to the radio during this operation. Page 132 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.8 Using the IH Browser to Manage your Radios User Manual Pinging Devices on the Network You can use the Ping command to test the latency of the network link between the PC running the IH Browser and any other PC that is also running the IH Browser (called Ping Stations). Note: Currently there is no location information when a ping station responds to an IH Browser scan, therefore, all Ping stations are shown connected to the top main network. It is also possible to select an RLX2-IHx series and start a Ping Session with it. Start the IH Browser on your computer. To start the ping session, do one of the following: o From the VIEW menu choose SHOW PING STATIONS. Click the Show Browsers button on the toolbar. Click (highlight) one of the other computers visible in the IH Browser. From the OPERATIONS menu choose PING DEVICE to open the Ping Results Dialog box. ProSoft Technology, Inc. October 30, 2017 Page 133 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots This dialog box displays statistics on the minimum, maximum and average latency between two points on the network. Click SHOW OPTIONS to change the Ping parameters. See Ping Options Dialog Box (page 134). Note: If there is no PC with an IH Browser behind a remote RLX2-IHx series radio, you can select and ping the radio itself to text its wireless link. 5.8.1 Setting the Ping Parameters Use the Ping Options dialog box to choose Ping parameters, logging options, and response to other stations. For more information, see Pinging Devices on the Network (page 133). Parameter Description Send Interval Specifies the time between ping signals in milliseconds. The minimum interval is 10 ms. Buffer Size Specifies the buffer size in bytes (the number of bytes sent on the ping). Start and Stop Pinging Select this check box to log the beginning and ending of the ping session. Every Send Select this check box to log every ping signal sent. Every Receive Select this check box to log every ping response received. Missed Responses Select this check box to log every missed ping response (when a device does not respond to a ping signal. Page 134 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual Respond when another utility pings you Select this check box to reply to a ping request from another device. Log these responses Select this check box to log each ping response sent to another device. When applied, Select this check box to use these settings for all future ping sessions with these become the any device. default for all new ping sessions 5.9 Viewing Network Data in the IH Browser The IH Browser DIALOGS displays four dialog boxes that allow you to monitor the network connections for the selected radio in either the List View or Topology View. The four dialog boxes show: The Wireless clients attached to the radio. The Information about devices detected via the Ethernet interface of the radio. The 802.11 Access Points that are detected by this particular radio. The active ports on the radio. You can display two or more of the dialog boxes at the same time. You can display all four dialog boxes with one command: from the DIALOGS menu choose All 4 DIALOGS. You can also close all the open dialogs boxes: from the DIALOGS menu choose CLOSE ALL. ProSoft Technology, Inc. October 30, 2017 Page 135 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.9.1 Viewing Wireless Clients in the IH Browser The Client List dialog box shows information about wireless clients connected to the currently selected radio. 1 In the IH Broswer, select (click) a radio in either the List View or Topology View. 2 From the DIALOGS menu choose WIRELESS CLIENTS, or right-click the radio and choose WIRELESS CLIENTS. Parameter Description Refresh Specifies the data refresh interval in seconds or minutes. Select MANUALLY to prevent the IH Browser from automatically updating the data. Now Click NOW to manually update the data. IP Displays the IP addresses of the wireless clients connected to the selected radio. MAC Displays the MAC addresses of the wireless clients connected to the selected radio. Signal (dBm) Displays the strength of the signal from the wireless clients connected to the selected radio. Age (sec) Displays the age of the connection to the wireless clients connected to the selected radio (the amount of time since a packet has been received from that device). Page 136 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual 5.9.2 Viewing Ethernet Nodes in the IH Browser The Ethernet Node List dialog box shows information about devices detected by the Ethernet interface to the currently selected radio. 1 In the IH Broswer, select (click) a radio in either the List View or Topology View. 2 From the DIALOGS menu choose ETHERNET NODES, or right-click the radio and choose ETHERNET NODES. Parameter Description Refresh Specifies the data refresh interval in seconds or minutes. Select MANUALLY to prevent the IH Browser from automatically updating the data. Now Click NOW to manually update the data. IP Displays the IP addresses of the wireless clients connected to the selected radio. MAC Displays the MAC addresses of the wireless clients connected to the selected radio. Age (sec) Displays the age of the connection to the wireless clients connected to the selected radio (the amount of time since a packet has been received from that device). ProSoft Technology, Inc. October 30, 2017 Page 137 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.9.3 Viewing the Scan List in the IH Browser The Scan List dialog box shows all 802.11 Access Points known to the selected radio on this channel (through beacons), even if the Access Point is not linked to the radio (has a different SSID or uses different encryption). See Detecting 802.11 Access Points (page 32). Note: This list shows some of the same information available in the Available Parents table in the Radio Configuration / Diagnostic Utility. See Viewing Available Parents for a Radio (page 65). In the IH Broswer, select (click) a radio in either the List View or Topology View. From the DIALOGS menu choose SCAN LIST, or right-click the radio and choose SCAN LIST. List entries marked with an asterisk * indicate that the entry is an alternate path, which you can also see if you select the Parents button from the toolbar in the Topology view (blue lines link the radio to its alternate parents). Parameter Description Refresh Specifies the data refresh interval in seconds or minutes. Select MANUALLY to prevent the IH Browser from automatically updating the data. Now Click NOW to manually update the data. BSS ID Displays the Basic Service Set Identifier. This is the MAC addresses of the wireless clients known to the selected radio. (name) The name for RLX2-IHx series radios. Page 138 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual Parameter Description Cost Displays the calculated parent selection cost. The radio evaluates the link it has to its parent once per second to determine if this link is the best parent to use. The radio calculates the cost for each entry. The cost calculation is based not only on the strongest signal, but on several other factors to provide optimum network communication. Channel The radio channel on which the device is transmitting. The channel list indicates the channel number as well as the frequency (2.4 GHz or 5 GHz bands). Important: The RLX2-IHx series radio is supplied with a dual-band antenna that supports both frequency ranges. If you use a different antenna with the RLX2-IHx series radio, you must choose a channel and frequency range supported by the antenna. See Appendix G Antenna Configuration (page 185). SSID Displays the network name (Service Set Identifier) of the Ethernet device to which the radio is connected. The radio name appears for RLX2-IHx series radios. Signal (dBm) Displays the strength of the signal from the wireless clients connected to the selected radio. Hop Count Displays the number of hops to the Master device. A value of 0 (zero) appears for non-ProSoft Technology devices. Age (sec) Displays the age of the connection to the wireless clients connected to the selected radio (the amount of time since a packet has been received from that device). ProSoft Technology, Inc. October 30, 2017 Page 139 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 5.9.4 Viewing the Port Table in the IH Browser The Port List dialog box shows all active ports on the selected radio. 1 In the IH Broswer, select (click) a radio in either the List View or Topology View. 2 From the DIALOGS menu choose PORT TABLE, or right-click the radio and choose PORT TABLE. The port table is a list of all the active ports on the radio.Each RLX2-IHx series radio has up to 34 active ports: one Ethernet wired port, one parent radio frequency link, and up to 32 child radio frequency links. Parameter Description Refresh Specifies the data refresh interval in seconds or minutes. Select MANUALLY to prevent the IH Browser from automatically updating the data. Now Click NOW to manually update the data. Port # Displays the selected radio's port number. Type Displays the type of the port (ETHERNET PORT, PARENT RF LINK, CHILD RF LINK). Designated Bridge The next bridge toward the Spanning Tree root for this port. State Displays the current Spanning Tree state of the port (BLOCKING, LEARNING, LISTENING, and FORWARDING). Forwarding packets can be transferred. Peer Name Displays the name of the Master radio if the current radio is a Repeater radio. Peer MAC Displays the MAC address of the Master radio if the current radio is a Repeater radio. Page 140 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual 5.9.5 Viewing the Radio Event Log in the IH Browser The Event Log dialog box displays the history of events that have been recorded by the currently selected radio. This can be useful for troubleshooting problems. 1 In the IH Broswer, select (click) a radio in either the List View or Topology View. 2 From the DIALOGS menu choose EVENT LOG, or right-click the radio and choose EVENT LOG. The Event Log shows the history of a particular radio. You can save the Event Log to a text file for troubleshooting purposes. Note: The filter conditions that you set in the Event Log Filter dialog box affect both the display of events in the Event Log dialog box, and the events in the file you create when you click SAVE. See Setting the Event Log Filter (page 142). Parameter Description Refresh Specifies the data refresh interval in seconds or minutes. Select MANUALLY to prevent the IH Browser from automatically updating the data. Now Click NOW to manually update the data. Save Click SAVE to save the Event Log to a file for troubleshooting or sending to ProSoft Technology Technical Support. Filter Dialog Click FILTER DIALOG to change the Event Log filtering to show or hide certain events. See Setting the Event Log Filter (page 142). ProSoft Technology, Inc. October 30, 2017 Page 141 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Setting the Event Log Filter The Event Filter dialog box allows you to include or exclude specific event types from the Event Log. The filter conditions that you set in this dialog box affect both the display of events in the Event Log dialog box, and the events in the file you create when you click SAVE in the Event Log dialog box. Note: The filter conditions are reset to the default state (include all events) when you close the Event Log dialog box. In the IH Broswer, click on a radio in either the List View or Topology View. From the DIALOGS menu choose EVENT LOG, or right-click the radio and choose EVENT LOG. In the Event Log dialog box, click FILTER. Double-click on an event in the EVENT LIST to add it to the SELECTED EVENTS list. An asterisk (*) appears next to the event types in the Selected Events list. You can double-click on the event in the EVENT LIST a second time to remove it from the SELECTED EVENTS list. Use the EVENTS SHOULD BE parameters to include only the selected events, or exclude the selected events. Parameter Description Event List Displays a list of different types of events in the log, sorted by EVENT ID. By default, this list only includes events types that are in the radio's Event Log. Double-click an event type to add it to the Selected Events list. Double-click the event type again to remove it from the Selected Events list. Show all events Select this check box to show all event types, even if the type is not in the radio's Event Log. Selected Events Displays the list of selected event types. Events should be Specifies whether to include only the selected events, or exclude them. INCLUDED - Show only the selected events in the Event Log. EXCLUDED - Show all events in the Event Log except the selected events. Page 142 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Using the IH Browser to Manage your Radios User Manual 5.9.6 Viewing Parent Radios in the IH Browser You can show the current Parent radio or all possible alternate Parent radios for the Repeater radios in the Topology View. The Show Selected Parents button (or from the VIEW menu choose SHOW PARENTS - ONE) shows the link from Repeater radios to their current Parent radio in red. ProSoft Technology, Inc. October 30, 2017 Page 143 of 227 Using the IH Browser to Manage your Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots The Show All Parents button (or from the VIEW menu choose SHOW PARENTS - ALL) shows links to alternate Parent radios in blue (If the Repeater radios can detect other radios in the network). This gives a graphical representation of the number of alternate paths available to a radio should its parent link go down. Note: You can also display a detailed list of each of the alternate Parent radios right-clicking a radio and choosing SCAN LIST. This list shows the RLX2-IHx series radios in the same network and all 802.11 Access Points on other networks. See Viewing the Scan List in the IH Browser (page 138). Page 144 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Diagnostics and Troubleshooting User Manual Diagnostics and Troubleshooting In This Chapter Checking the Ethernet Cable............................................................... 146 LED Display......................................................................................... 146 Resetting a RLX2-IHx series Radio ..................................................... 148 Unable to scan for AP's error message ............................................... 149 Finding Missing Radios ....................................................................... 150 Use the IH Browser’s diagnostic and signal strength settings at the top of the Radio Settings window to make sure the network is working properly: Signal Strength: This shows the radio’s signal strength. o Master appears if this is a Master radio. o Scanning appears if the radio is scanning to find another radio to connect to. o Not Connected appear If the radio is not connected to a network and not currently scanning. Update every: Specifies the interval (in seconds) between updates to the display. The default is 15 seconds. The other parameters on this display are Read-only, and describe the radio and its current state. Tip: You can display the help topic for any parameter in the dialog box by clicking the parameter name. The parameter name turns blue when you move the cursor over a parameter with a help topic. ProSoft Technology, Inc. October 30, 2017 Page 145 of 227 Diagnostics and Troubleshooting User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots You can perform the following troubleshooting routines: Check the Ethernet cable Check the LEDs on the radio Retrieve the default password by resetting the radio View error messages in the IH Browser Find missing radios 6.1 Checking the Ethernet Cable If the radio’s Ethernet port is connected to a PC or network, and the Ethernet LED does not light on the radio, there may be a problem with the Ethernet cable. Verify that the cable is plugged into the radio at one end, and to an Ethernet hub, a PC, or a 10/100/1000 Base-T Ethernet switch at the other end. If using the PoE injector, verify that the M12 to RJ45 cable is connected between the radio and the injector and also that the Ethernet patch cable is connected between the injector and the switch. Note: The RLX2-IHx series radio auto-detects the Ethernet connection type, and does not require a crossover cable for direct connection to a PC. 6.2 LED Display The RLX2-IHx series radio front panel includes a set of LEDs that indicate the radio’s status. LED Description POWER Booting up Fully operational This two-color LED turns amber when power is first applied. After power is applied, this LED goes out completely for about four seconds while the internal hardware is initialized. After initialization the power LED turns green, indicating the radio is fully operational. RF TRANSMIT Transmitting data over the wireless interface RF RECEIVE Receiving data over the wireless interface SERIAL Receiving serial data ETHERNET Transmitting Ethernet data over the wireless interface Note that the state of the front-panel ETHERNET LED may not necessarily correspond to the state of the DATA LED on the Ethernet connector. The DATA LED on the Ethernet connector indicates traffic over the wired link, while the ETHERNET LED indicates network data sent or received through the wireless link. For example, if the radio is pinged over the wired link, the DATA LED on the Ethernet connector blinks but the ETHERNET LED does not (because the ping packet was not transmitted over the air). NET Blinks if SD card with new configuration inserted. Reserved for future additional use. MOD Blinks if SD card with new configuration inserted. Reserved for future additional use. Page 146 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots LED SIGNAL STRENGTH Diagnostics and Troubleshooting User Manual Description Blinks if SD card inserted with new configuration. This is for all radio modes. Radios in Master mode: No radios linked One or more radios linked (right LED blinking). DFS Channel Availability Check in progress (all LEDs blinking Amber) Radios in Repeater or Client mode: No Signal Radio linked, Poor Signal Radio linked, Fair Signal Radio linked, Good Signal The following LEDs should light when you connect the power and Ethernet cables to the radio. The POWER LED should turn green. The SPEED LED on the Ethernet connector should indicate a valid wired link. This LED is located at the top of the Ethernet RJ-45 connector and is marked SPEED o OFF = 10 MB o ON = 100 MB o BLINK = 1GB. The RF TRANSMIT and RF RECEIVE LEDs should start to blink occasionally. For radios in Repeater or Client mode, all three SIGNAL STRENGTH LEDs blink just after the radio links to the Master radio but before fully authenticating the link. Normally this lasts only a few seconds. If the SIGNAL STRENGTH LEDs blink for longer than a few seconds, or do not stop blinking, it usually means the encryption keys are not correct. The Wireless Security Settings on a Repeater radio must match those on the Master radio. See Configuring a Radio - Getting Started (page 44). ProSoft Technology, Inc. October 30, 2017 Page 147 of 227 Diagnostics and Troubleshooting User Manual 6.3 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Resetting a RLX2-IHx series Radio If you lose the password to a radio, you cannot change the radio settings. You can reset the radio to restore the default password, but the radio loses all the configuration settings and returns to the default settings. 6.3.1 Resetting the RLX2-IHNF-W and RLX2-IHNF-WC These steps resets the radio to its default settings, including the default password. 1 Remove power from the radio. 2 Press the Reset button. The Reset button is located on the front of the unit just under the ProSoft logo. While holding down the button, apply power to the radio and continue to hold the button down for 30 seconds. This resets the radio to its default settings. You can now log in to the Radio Configuration / Diagnostic Utility for the radio using the default password: password. Page 148 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Diagnostics and Troubleshooting User Manual 6.3.2 Resetting All Other Radios These steps reset the radio to its default settings, including the default password. 1 Remove power from the radio. 2 Locate the Reset button hole. 6.4 Insert the end of a paperclip or similar device into the hole to press the reset button. While pressing the reset button in with a paperclip, apply power to the radio, and continue to hold down the reset button for 30 seconds. This resets the radio to its default settings. You can now log in to the Radio Configuration / Diagnostic Utility for the radio using the default password: password. Unable to scan for AP's error message The Unable to scan for AP's error message may appear in the IH Browser when it attempts to scan for radios and no valid network connection exists on the PC (wired or wireless). To correct this error Confirm that the PC has at least one active network (LAN) connection. It could be a wired Ethernet connection or a wireless 802.11 connection. Confirm that the network connection has a valid IP address. The network connection might need to have a static IP address assigned to it. Check the IP address of the network connection to determine that one has been assigned. ProSoft Technology, Inc. October 30, 2017 Page 149 of 227 Diagnostics and Troubleshooting User Manual 6.5 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Finding Missing Radios If the radios are not visible in the IH Browser, try the following: 1 Refresh the IH Browser display. See Refreshing the Display in the IH Browser (page 42). The IH Browser sends scans as broadcast messages, which can be dropped in RF connections, requiring that you repeat the scan. 2 Disable any software firewall running on the PC (This is most common in Windows XP and newer). Open the Network connections folder in the Windows Control Panel, then open the Local Area Connection Properties window and verify that the check box under INTERNET CONNECTION FIREWALL is not checked. 3 If these steps do not help, verify that the PC running the IH Browser and the radios are connected to the same local network. 4 In the IH Browser, change to the Topology view. From the VIEW menu, click TOPOLOGY VIEW. Any unlinked radios may appear at the bottom of the window. Scroll down to see all the unlinked radios. If you still cannot see the radios in the IH Browser, call ProSoft Technology Technical Support. See Contacting Technical Support (page 211). Page 150 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix A - Adding a Radio to RSLogix 5000 User Manual Appendix A - Adding a Radio to RSLogix 5000 In This Chapter Adding the Radio to RSLogix 5000 ..................................................... 152 Importing the Add-On Instruction......................................................... 155 RLX2 Controller Tags .......................................................................... 159 You can use an Add-On Instruction (AOI) to add an RLX2-IHx series radio to RSLogix 5000™. You can then extract information from the radio and transfer it to the ControlLogix processor connected by EtherNet/IP™. This allows you to view and use the radio status and diagnostic information in the program on the controller. Note: You must download the RLX2-IHx series radio Add-On Instruction from the ProSoft Technology website. Go to www.prosoft-technology.com and search for your radio. From the RLX2-IHx series radio webpage, download the Add-On Instruction. There are two procedures that you must complete in order to import and use the RLX2-IHx series Add-On Instruction in RSLogix 5000. 1 Add the RLX2-IHx series radio to a project in RSLogix 5000. 2 Import the AOI into the MainRoutine ladder logic in the same project. ProSoft Technology, Inc. October 30, 2017 Page 151 of 227 Appendix A - Adding a Radio to RSLogix 5000 User Manual 7.1 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Adding the Radio to RSLogix 5000 In RSLogix 5000, open an existing project, or create a new project In the Controller Organizer, right-click 1756 BACKPLANE, 1756-A7 and then click NEW MODULE. In the Select Module Type dialog box, select the correct Ethernet card (ENBT in this example) and click OK. Page 152 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix A - Adding a Radio to RSLogix 5000 User Manual Enter a name for the card (Ethernet in this example) and the IP ADDRESS and then click OK. In the Controller Organizer, right-click the new ETHERNET module and then click NEW MODULE. ProSoft Technology, Inc. October 30, 2017 Page 153 of 227 Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots In the Select Module Type dialog box, click ETHERNET-BRIDGE GENERIC ETHERNET/IP CIP BRIDGE and then click OK. In the New Module dialog, enter the NAME (RLX2 in this example). Select the IP ADDRESS radio button and type in the IP address of the RLX2IHx series radio, and then click OK. Page 154 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 7.2 Appendix A - Adding a Radio to RSLogix 5000 User Manual In the Module Properties dialog box, click OK. The Ethernet Bridge appears in the Controller Organizer. Importing the Add-On Instruction In RSLogix 5000, in the Controller Organizer window, expand the TASKS folder until you see the MAINPROGRAM folder. Under the MAINPROGRAM folder, double-click MAINROUTINE to open the MainRoutine in the Ladder Editor. Right-click an empty rung in the routine, and then click IMPORT RUNG... ProSoft Technology, Inc. October 30, 2017 Page 155 of 227 Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Navigate to the location on your PC where you saved the Add-On Instruction (for example, Desktop). Select the .L5X file and click IMPORT. This opens the Import Configuration dialog box. Click TAGS to see the controller tags that the Add-On Instruction creates. Page 156 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix A - Adding a Radio to RSLogix 5000 User Manual Click OK to import the AOI. A progress bar appears during the import. After the import completes, the new rung with the Add-On Instruction appears in the Ladder editor. The procedure also imports new User Defined Data Types, Controller Tags, and the Add-On instruction for your project. ProSoft Technology, Inc. October 30, 2017 Page 157 of 227 Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Ensure that a communications path exists using the Who Active dialog as shown. Save the project. When ready, download the project to the processor. Page 158 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 7.3 Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2 Controller Tags You use the controller tags in RSLogix 5000 to monitor and control elements of the RLX2-IHx series radio from RSLogix 5000. You use only the RLX2.xxx controller tag structure for this purpose. 7.3.1 RLX2.CONTROL This array contains trigger bits used to request functions from the RLX2-IHx series radio. The description is "Main RLX2 Radio definition Reads status of Diagnostic data from RLX2." After execution, the bit is reset to 0 to be ready for the next execution. ProSoft Technology, Inc. October 30, 2017 Page 159 of 227 Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 7.3.2 RLX2.STATUS This array is populated when the RLX2.CONTROL.Get_Status_Data is triggered. The following is the CIP™ object definition to read the RLX2-IHx Diagnostics and Status information. CIP Data Tag Name Data Type Description RLX2.STATUS.SSID SINT[32] Service Set Identifier is a name assigned to the wireless network RLX2.STATUS.IPAddress SINT[4] IP address of RLX2-IHx radio RLX2.STATUS.MACAddress SINT[6] Physical Media Access Control (MAC) address of the device RLX2.STATUS.NetworkMode SINT RLX2 radio network mode (Master= 6 Repeater=7 Client=1) RLX2.STATUS.ConnectionState SINT Connection State of RLX2 radio found at the bitlevel (RLX2.STATUS.ConnectionState.x) Bit sequence [yyyy 0001] = 1 = Not connected Bit sequence [yyyy 0010] = 2 = Scanning Not reported = 3 = Locally connected Bit sequence [yyyy 0100] = 4 = Globally connected Where y = RLX2 radio model type: Bit sequence [0001 zzzz] = 802.11g (2.4 GHz) radio Bit sequence [0010 zzzz] = 802.11a (5 GHz) radio Bit sequence [0011 zzzz] = 802.11n radio Example: Bit sequence 0010 0100 = 36 = Globally connected 5 Ghz radio RLX2.STATUS.SignalStrength INT Current Strength of the signal in dBm RLX2.STATUS.Channel SINT Current Channel in which RLX2-IHx is transmitting RLX2.STATUS.WEP SINT WEP encryption key RLX2.STATUS.Flags DINT Flags: Flag [0/1 ]= Extension channel Flag [2] = SSIDhidden Flag [3] = Allow Children Flag [4/5] = STP/RSTP Flag [6] = TXusingGI RLX2.STATUS.MasterMACAddress SINT[6] MAC Address of Parent Radio in which Repeater or Client is linked RLX2.STATUS.HopCount SINT Number of hops to the master RLX2.STATUS.PortStatus SINT Ethernet Port Status 1 = 10 Mb/s 2 = 100 Mb/s 3 = 1000 Mb/s RLX2.STATUS.Associations INT Number of network elements to which radio has wireless connection RLX2.STATUS.BridgeAssociations INT Number of devices to which radio has wireless connection Page 160 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix A - Adding a Radio to RSLogix 5000 User Manual RLX2.STATUS.TxRadioThroughput INT Transmit throughput in kilobits per second RLX2.STATUS.RxRadioThroughput INT Receive throughput in kilobits per second RLX2.STATUS.Uptime INT This is the amount of time the radio has been running since power up (Days/Hours/Minutes/Seconds) RLX2.STATUS.Linktime DINT The time the radio has been linked (Days/Hours/Minutes/Seconds) RLX2.STATUS.TxPacketRate DINT Total number of packets transmitted RLX2.STATUS.RxPacketRate DINT Total number of packets received RLX2.STATUS.ModuleName DINT The name of the radio RLX2.STATUS.ProductName SINT[32] Name of product RLX2.STATUS.ImageVerStr SINT[32] Firmware version loaded in device RLX2.STATUS.TxGood SINT[28] Number of Good Transmitted Frames RLX2.STATUS.RxGood DINT Number of Good Received Frames RLX2.STATUS.TxBad DINT Number of Bad Transmitted Frames RLX2.STATUS.RxBad DINT Number of Bad Received Frames RLX2.STATUS.TxDirectedFrames DINT Number of Transmitted Directed Frames RLX2.STATUS.TxMulticastFrames DINT Number of Transmitted Multicast Frames RLX2.STATUS.TxBroadcastFrames DINT Number of Transmitted Broadcast Frames RLX2.STATUS.RxDirectedFrames DINT Number of Received Directed Frames RLX2.STATUS.RxMulticastFrames DINT Number of Received Multicast Frames RLX2.STATUS.RxBroadcastFrames DINT Number of Transmitted Broadcast Frames RLX2.STATUS.RxCRCErr DINT Number of CRC Errors ProSoft Technology, Inc. October 30, 2017 Page 161 of 227 User Manual Page 162 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix B - Radio Hardware User Manual Appendix B - Radio Hardware In This Chapter 8.1 Radio Power Requirements (RLX2-IHNF-W) ...................................... 163 Radio Power Requirements (All other radios) ..................................... 165 Ethernet Cable Specifications ............................................................. 167 Ethernet Cable Configuration .............................................................. 168 Radio Power Requirements (RLX2-IHNF-W) These cables are available for purchase from ProSoft Technology: Description ProSoft Part Number Power Cable, 3m (7 ft), M12 to un-terminated leads CULPWR-M12-010 Power Cable, 10m (33 ft), M12 to un-terminated leads CULPWR-M12-033 The RLX2-IHNF-W and WC radios accept PoE configuration. The RLX2-IHNF-W radio is equipped with a power M12 port (IEC 61076-2101). The RLX2-IHNF-WC Ethernet and PoE cable protrudes from the module. There is no M12 port. ProSoft Technology, Inc. October 30, 2017 Page 163 of 227 Appendix B - Radio Hardware User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Contact Assignment of the M12 Socket BK (Black) and BU (Blue) wires are tied together and connect to "+". BN (Brown) and WH (White) wires are tied together and connected to "-". Pin Assignment M12 Socket, 4-pos, A-coded, View Female Side Page 164 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 8.2 Appendix B - Radio Hardware User Manual Radio Power Requirements (All other radios) Note: The following instructions do not pertain to the RLX2-IHNF-W radio. The RLX2-IHx series radios accept voltages between 10 and 24 VDC, with an average power draw of less than 8 Watts. A detachable power connector comes with the radio, as shown below. The connector terminals are labeled + (positive DC connection) and - (DC ground connection). You can use the AC-to-DC power supply adapter supplied with the optional RLXIHBTK Bench Test Kit to convert the input power. The DC power wires must be less than 3 meters in length to meet regulatory requirements. Warning: When wiring the power connector supplied with the radio, be sure to observe the proper polarity markings on the power connector. Wiring the connector incorrectly can cause serious damage to the radio which is not covered under the ProSoft Technology warranty. The power connector (ProSoft Technology part number 002-0116) is shown on the left in the photo above. Note the + and – polarity markings. The wire installation tool (ProSoft part number 357-0061) shown on the right is helpful for installing wires into the spring-loaded contacts inside power connector. ProSoft Technology, Inc. October 30, 2017 Page 165 of 227 Appendix B - Radio Hardware User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots To use the installation tool, insert it into the connector as shown below. Press down on the installation tool to use it as a level to open the connector’s contacts to insert a wire. A properly-wired power connector is shown below. The RLX2-IHx series radios accept power from 802.3af Mode B or passive Power over Ethernet (PoE) sources supplying 48VDC, with an average power draw of less than 8 watts. ProSoft Technology offers the following passive PoE injectors for use with the RLX2-IHx series radios: POE-48I-AC Power over Ethernet Injector, AC input POE-48I-DC-DC Power over Ethernet Injector, 9 to 36 VDC input voltage The radio shall be installed by trained personnel only, as outlined in the installation instructions provided with each radio. The equipment shall be installed by a qualified installer/electrician. The installer/electrician is responsible for obtaining a secured ground connection between the lug terminal on the surge protector to a verified common ground point using a minimum 6 AWG gauge wire. This must be done when attaching power lines to the radio during installation. Page 166 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix B - Radio Hardware User Manual Danger: A solid ground connection should be verified using a meter prior to applying power to the radio. Failing to secure a proper ground could result in serious injury or death as a result of a lightning strike. Using Power over Ethernet (PoE) to power remote devices has several advantages: "Carrier Class" Power Over Ethernet system. Power can be supplied over long distances, up to 300 feet. Power can be available wherever network access is available. The power supply can be centrally located where it can be attached to an uninterruptible power supply. You can easily power or reset the attached equipment from a remote location. There is no need to run additional power cabling to the device as power can be supplied over the CAT5, CAT5E, or CAT6 Ethernet cable. You can save on the cost of coax cable and reduce RF losses for remote mounted radios. Built-in Ethernet surge protection to prevent equipment damage. Overload and short circuit protection. 8.3 Ethernet Cable Specifications The recommended cable is Category 5 or better. A Category 5 cable has four twisted pairs of wires, which are color-coded and cannot be swapped. The module uses only two of the four pairs when running at 10 MBit or 100 MBit speeds. All eight wires are used when running at 1000 MBit speeds. Category 5e or better cable is recommended for 1000 MBit speeds. The Ethernet port on the module is Auto-Sensing. Use either a standard Ethernet straight-through cable or a crossover cable when connecting the module to an Ethernet hub, a 10/100/1000 Base-T Ethernet switch, or directly to a PC. The module detects the cable type and uses the appropriate pins to send and receive Ethernet signals. Ethernet cabling is similar to U.S. telephone cables, except that it has eight conductors. Some hubs have one input that can accept either a straightthrough or crossover cable, depending on a switch position. In this case, ensure the switch position and cable type agree. Refer to Ethernet Cable Configuration (page 168) for a diagram of how to configure Ethernet cables. ProSoft Technology, Inc. October 30, 2017 Page 167 of 227 Appendix B - Radio Hardware User Manual 8.4 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Ethernet Cable Configuration 8.4.1 Ethernet Cable Configuration (RLX2-IHNF-W) The RLX2-IHNF-W weatherproof radio uses cables with M12 connectors on one end and RJ45 connectors on the other. These are Power over Ethernet (PoE) cables that you can purchase directly from ProSoft Technology. Description ProSoft Part Number Network Cable, 2m (7 ft) M12 to RJ45 CURJ45-M12-007 Network Cable, 10m (33 ft) M12 to RJ45 CURJ45-M12-033 This PoE cable contains an M12 (IP65, IP67) connector on one end that attaches to the radio. The other end contains an RJ45 connector for a network connection or power injector. Pin Assignments M12 socket, 8-pos, A-coded, female RJ45 pin assignment Page 168 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix B - Radio Hardware User Manual Circuit Diagram 8.4.2 Ethernet Cable Configuration (all other radios) The RLX2-IHx series radios (except the RLX2-IHNF-W weatherproof radio) use Ethernet cable. A diagram of the pin assignments appears below. Straight-Though Cable RJ-45 Pin RJ-45 Pin 1 Rx+ 1 Tx+ 2 Rx- 2 Tx- 3 Tx+ 3 Rx+ 6 Tx- 6 Rx- Crossover Cable RJ-45 Pin RJ-45 Pin 1 Rx+ 3 Tx+ 2 Rx- 6 Tx- 3 Tx+ 1 Rx+ 6 Tx- 2 Rx- ProSoft Technology, Inc. October 30, 2017 Page 169 of 227 Appendix B - Radio Hardware User Manual Page 170 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix C - RLX2-IHx 5 GHz Radio DFS Support User Manual Appendix C - RLX2-IHx 5 GHz Radio DFS Support In This Chapter DFS Radio Operations ........................................................................ 171 Some channels in the 5 GHz band are shared with radar and must adhere to Dynamic Frequency Selection (DFS) rules. If the radio detects the presence of radar on its operating frequency, it must automatically change to another frequency. Note: This applies only to radios that can operate at frequencies in the 5 GHz band. 9.1 DFS Radio Operations If radar is detected on an operating channel, transmissions must cease within the required Channel Closing Transmission Time, and must move to a new channel within the required Channel Move Time. Before transmitting on a new DFS channel that has not been previously checked for radar, the RLX2-IHx series radio must monitor the channel for the Channel Availability Check Time before transmitting. Operations cannot return to a channel where radar was detected for at least the Non-Occupancy Period. The values for these parameters are noted in the table below: Parameter FCC Value ETSI Value ETSI Value 5.600 to 5.650 GHz (Channels 120, 124, & 128) Channel Availability Check Time 60 seconds 60 seconds 10 minutes Channel Move Time 10 seconds (12 seconds 10 seconds for "long pulse" radar 10 seconds Channel Closing Transmission Time 200 milliseconds (plus up to 60 milliseconds over 10 seconds) 1 second 1 second Non-Occupancy Period 30 minutes 30 minutes 30 minutes ProSoft Technology, Inc. October 30, 2017 Page 171 of 227 Appendix C - RLX2-IHx 5 GHz Radio DFS Support User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots If a Master radio detects radar, it issues a channel change announcement to all Client and Repeater radios in the network. It then moves to a new channel within the Channel Move Time. (Typically, this move time is 500 milliseconds or less.) If the selected channel was not previously checked for the presence of radar, the Master radio must do so for the Channel Availability Check Time before it can begin to transmit. If the newly-selected channel is not a DFS channel, or if the channel was previously monitored for radar since the radio was powered on, transmissions can begin immediately. During the Channel Availability Check Time, a radio blinks all three amber Signal Strength LEDS approximately once per second. If radar is detected on the new channel during the Channel Availability Check Time, the Master radio selects another channel and begins the process again. If a Client or Repeater radio detects radar, in addition to stopping data transmission, must notify its parent of the presence of radar. Each unit receiving a radar notification from a child unit treats it the same as if it had detected radar itself and acts accordingly. Thus radar notifications always reach the Master radio which causes a channel change order to be issued. After a Master radio successfully selects a DFS channel, Repeater or Client radios connect to the Master and scan for radar for an additional 60 seconds (Channel Availability Check Time). If a chain of Repeater radios ultimately connects to a Master radio using a DFS channel, the time to connect is 60 seconds for each Repeater radio in the chain as DFS channels are initially scanned for radar transmissions. 9.1.1 Selecting a DFS 5 GHz Channel For [ModelNumber] Master radios operating in the 5 GHz band, you can select a DFS channel, or let the radio automatically select the DFS channel. DFS channels are a 5 GHz radio parameter only, and apply to all RLX2-IHx series radios except the RLX2-IHG. Note: In some cases, the radio may select a channel in the 5 GHz Upper Band if it does not find an open channel in the 5 GHz DFS Band. Page 172 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix C - RLX2-IHx 5 GHz Radio DFS Support User Manual To Select a DFS Channel In the Radio Configuration / Diagnostic Utility, on the BASIC SETTINGS tab, in the BASIC WIRELESS SETTINGS group, select the starting DFS channel. If the radio detects a radar signal on this channel, it changes the channel as described in DFS Radio Operations (page 171). The actual channel in operation is always shown in the CURRENT CHANNEL display. ProSoft Technology, Inc. October 30, 2017 Page 173 of 227 Appendix C - RLX2-IHx 5 GHz Radio DFS Support User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots To Use DFS Auto Select In the Radio Configuration / Diagnostic Utility, on the BASIC SETTINGS tab, in the BASIC WIRELESS SETTINGS group, select the Master radio channel DFS Auto Select. With this selection the radio randomly selects a DFS channel for operation. The actual channel in operation is always shown in the CURRENT CHANNEL display. Page 174 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality User Manual 10 Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality In This Chapter Transparent Support of VLAN Tags (802.1Q) ..................................... 176 Port/Radio-based VLAN Tagging with Managed Switches .................. 177 Port/Radio-based VLAN Tagging without Managed Switches ............. 178 Virtual Local Area Networks (VLANs) are typically used to segment core network components and network access rules. A VLAN provides the equivalent of a wired patch panel through software (packet filtering) rather than hardware (physical wires). Constraining data to a particular Virtual LAN requires that the radio tag packets with a VLAN identifier. VLAN tagging simply adds extra information in the packet header of Ethernet frames so VLAN-enabled switches know how to pass along the data. The RLX2-IHx series radios (version 33 and later) provide: Transparent support of VLAN tags (802.1Q) Port/Radio-based VLAN tagging with Managed Switches Port/Radio-based VLAN tagging without Managed Switches ProSoft Technology, Inc. October 30, 2017 Page 175 of 227 Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality User Manual 10.1 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Transparent Support of VLAN Tags (802.1Q) The following provides an example of transparent communication between Managed Switches using VLAN trunking. Page 176 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 10.2 Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality User Manual Port/Radio-based VLAN Tagging with Managed Switches In this example, the network has three VLANs (capacity for 8). Each VLAN has access to a Managed Switch pre-configured to assign each VLAN to a specific port. The Radio supporting the Managed Switch passes on the 802.1Q frames. This example shows support for Radio to Radio VLANs using one or more Trunk Links. PLC, Drive, and HMI communicate on VLAN 1 and with the Control Network (same subnet). Mobile worker communicates to the SCADA network only (VLAN 2). The laptop communicates to Internet/Business Network only (VLAN 3). ProSoft Technology, Inc. October 30, 2017 Page 177 of 227 Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality User Manual 10.3 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Port/Radio-based VLAN Tagging without Managed Switches In the following example, the network has three VLANs (capacity for 8). Each VLAN has access to a specific Radio port. The Radio supporting the Managed Switch passes on the 802.1Q frames. The wireless network also supports Radio to Radio VLANs using one or more Trunk Links. PLC, Drive & HMI communicate on one VLAN on the same subnet. Mobile Worker/Laptop communicate with a fixed server on VLAN 2 (separate subnet). Page 178 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix E - EtherNet/IP and Modbus TCP/IP Support User Manual 11 Appendix E - EtherNet/IP and Modbus TCP/IP Support In This Chapter Modbus TCP/IP Server Support .......................................................... 179 EtherNet/IP™ Server Support ............................................................. 181 You can get diagnostic and status information from the RLX2-IHx series radio by querying the radio using either the Ethernet/IP or Modbus TCP/IP protocols. 11.1 Modbus TCP/IP Server Support You can use a Modbus TCP/IP client to poll the RLX2-IHx series radio for diagnostic and status information. The Modbus TCP/IP server in the radio monitors port 502 and port 2000, and responds to requests from the port eth0 (Ethernet port) or ppp0 (Point-to-Point Protocol). PPP is a data link layer protocol that establishes a connection between two nodes. The radio supports up to five concurrent Modbus TCP/IP client connections. ProSoft Technology, Inc. October 30, 2017 Page 179 of 227 Appendix E - EtherNet/IP and Modbus TCP/IP Support User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 11.1.1 Modbus Memory Map Diagnostic Information The topic lists the is the Modbus register addresses that you use to read the RLX2-IHx series radio diagnostic and status information. Name Data Type Access Modbus Register RLX2_Diag.SSID SINT[32] Read 30001 – 30016 RLX2_Diag.IPAddress SINT[4] Read 30017 – 30018 RLX2_Diag.MACAddress SINT[6] Read 30019 – 30021 RLX2_Diag.NeworkMode SINT Read 30022 RLX2_Diag.ConnectionState SINT Read 30023 RLX2_Diag.SignalStrength INT Read 30024 RLX2_Diag.Channel SINT Read 30025 RLX2_Diag.WEP SINT Read 30026 RLX2_Diag.Flags DINT Read 30027 – 30028 RLX2_Diag.MasterMACAddress SINT[6] Read 30029 – 30031 RLX2_Diag.HopCount SINT Read 30032 RLX2_DiagStatus SINT Read 30033 RLX2_Diag.NumAssociations INT Read 30034 RLX2_Diag.NumBridgeAssocs INT Read 30035 RLX2_Diag.TxRadioThroughput INT Read 30036 RLX2_Diag.RxRadioThroughput INT Read 30037 RLX2_Diag.Uptime DINT Read 30038 – 30039 RLX2_Diag.LinkTime DINT Read 30040 – 30041 RLX2_Diag.TxPktThput DINT Read 30042 – 30043 RLX2_Diag.RxPktThput DINT Read 30044 – 30045 RLX2_Diag.ModuleName SINT[32] Read 30046 – 30061 RLX2_Diag.ProductName SINT[32] Read 30062 – 30077 RLX2_Diag.ImageVerStr SINT[28] Read 30078 – 30091 RLX2_Diag.tx_good DINT Read 30092 - 30093 RLX2_Diag.rx_good DINT Read 30094 – 30095 RLX2_Diag.tx_bad DINT Read 30096 – 30097 RLX2_Diag.rx_bad DINT Read 30098 – 30099 RLX2_Diag.tx_directed_frames DINT Read 30100 – 30101 RLX2_Diag.tx_multicast_frames DINT Read 30102 – 30103 RLX2_Diag.tx_broadcast_frames DINT Read 30104 – 30105 RLX2_Diag.rx_directed_frames DINT Read 30106 – 30107 RLX2_Diag.rx_multicast_frames DINT Read 30108 – 30109 RLX2_Diag.rx_broadcast_frames DINT Read 30110 – 30111 RLX2_Diag.rx_crc_error DINT Read 30112 - 30113 Modbus Function Code 4 (Read Input Registers(3X)) is supported. Page 180 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 11.2 Appendix E - EtherNet/IP and Modbus TCP/IP Support User Manual EtherNet/IP™ Server Support The topic lists the is the CIP™ object definition that you use to read the RLX2IHx series radio diagnostic and status information. Class ID: 0xA1 (161) Number of Instances: 1 CIP Data Tag Name Data Type Access RLX2_Diag.SSID SINT[32] Read RLX2_Diag.IPAddress SINT[4] Read RLX2_Diag.MACAddress SINT[6] Read RLX2_Diag.NetworkMode SINT Read RLX2_Diag.ConnectionState SINT Read RLX2_Diag.SignalStrength INT Read RLX2_Diag.Channel SINT Read RLX2_Diag.WEP SINT Read RLX2_Diag.Flags DINT Read RLX2_Diag.MasterMACAddress SINT[6] Read RLX2_Diag.HopCount SINT Read RLX2_Diag.Status SINT Read RLX2_Diag.NumAssociations INT Read RLX2_Diag.NumBridgeAssocs INT Read RLX2_Diag.TxRadioThroughput INT Read RLX2_Diag.Uptime INT Read RLX2_Diag.Linktime DINT Read RLX2_Diag.TxPktThput DINT Read RLX2_Diag.RxPktThput DINT Read RLX2_Diag.ModuleName DINT Read RLX2_Diag.ProductName SINT[32] Read RLX2_Diag.ImageVerStr SINT[32] Read RLX2_Diag.tx_good SINT[28] Read RLX2_Diag.rx_good DINT Read RLX2_Diag.tx_bad DINT Read RLX2_Diag.rx_bad DINT Read RLX2_Diag.tx_directed_frames DINT Read RLX2_Diag.tx_multicast_frames DINT Read RLX2_Diag.tx_broadcast_frames DINT Read RLX2_Diag.rx_directed_frames DINT Read RLX2_Diag.rx_multicast_frames DINT Read RLX2_Diag.rx_broadcast_frames DINT Read RLX2_Diag.rx_crc_err DINT Read ProSoft Technology, Inc. October 30, 2017 Page 181 of 227 Appendix E - EtherNet/IP and Modbus TCP/IP Support User Manual Page 182 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix F - Master Channel-Frequency Table User Manual 12 Appendix F - Master Channel-Frequency Table The following table shows the channels/frequencies available in each RLX2-IHx series radio. Note that radios configured for FCC and ETSI regulatory domains do not have the same channels available. Also, some channels may have usage or power restrictions (for example, indoor or outdoor) in some locations. FCC RLX2-XXX-A versions Channel Number Center Frequency (MHz) IHG IHNF IHW IHNF IHW 2412 2417 2422 2427 2432 2437 2442 2447 2452 10 2457 11 2462 12 2467 13 2472 36 5180 40 5200 44 5220 48 5240 52 (DFS) 5260 56 (DFS) 5280 60 (DFS) 5300 64 (DFS) 5320 100 (DFS) 5500 104 (DFS) 5520 108 (DFS) 5540 112 (DFS) 5560 116 (DFS) 5580 5600 120 (DFS) ProSoft Technology, Inc. October 30, 2017 IHA ETSI RLX2-XXX-E versions IHA IHG Page 183 of 227 Appendix F - Master Channel-Frequency Table User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 124 (DFS) 5620 128 (DFS) 5640 132 (DFS) 5660 136 (DFS) 5680 140 (DFS) 5700 149 5745 153 5765 157 5785 161 5805 165 5825 Page 184 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix G - Antenna Configuration User Manual 13 Appendix G - Antenna Configuration In This Chapter 13.1 Antennas ............................................................................................. 185 Antenna Types .................................................................................... 189 RLX2-IHx series Approved Antennas .................................................. 191 Antenna Location, Spacing, and Mounting .......................................... 194 Antennas There are several important electrical characteristics that you must consider when selecting antennas for a RLX2-IHx series radio. Antenna pattern Antenna gain Antenna polarity Antenna location, spacing, and mounting ProSoft Technology, Inc. October 30, 2017 Page 185 of 227 Appendix G - Antenna Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 13.1.1 Control Drawing Page 186 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix G - Antenna Configuration User Manual 13.1.2 Antenna Pattern Wireless devices transfer Information using electromagnetic energy radiated by one antenna and received by another antenna. The power radiated by most antennas is not uniform in all directions and has varying intensities. The power radiated by the antenna in various directions is called the pattern of the antenna. Mount each antenna so that the direction of strongest radiation points toward the other antenna or antennas with which it will exchange signals. Complete antenna patterns are three-dimensional. Often only a two-dimensional slice of the pattern is shown when all the antennas of interest are located in roughly the same horizontal plane instead of above or below one another. A slice taken in a horizontal plane through the center (or looking down onto the pattern) is called the azimuth pattern. A slice taken in a vertical plan from the side is called the elevation pattern. ProSoft Technology, Inc. October 30, 2017 Page 187 of 227 Appendix G - Antenna Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots An antenna pattern with equal or nearly equal intensity in all directions is called omnidirectional. In two dimensions, an omnidirectional pattern appears as a circle (in three dimensions, an omnidirectional antenna pattern is a sphere, but no antenna has a true omnidirectional pattern in three dimensions). An antenna is considered omnidirectional if one of its two dimensional patterns, either azimuth or elevation pattern, is omnidirectional. Beamwidth is an angular measurement of how strongly the power is concentrated in a particular direction. Beamwidth is a three dimensional quantity but can be broken into two-dimensional slices just like the antenna pattern. The beamwidth of an omnidirectional pattern is 360 degrees because the power is equal in all directions. 13.1.3 Antenna Gain Antenna gain is a measure of how strongly an antenna radiates in its direction of maximum intensity compared to the strength of the radiation if the same power were applied to an omnidirectional antenna (one that radiated all of its power equally in all directions). In the antenna pattern, the gain is the distance to the furthest point on the pattern from the origin. For an omnidirectional pattern, the gain is 1, or equivalently 0 dB. The higher the antenna gain, the narrower the beamwidth, and vice versa. The amount of power received by the receiving antenna is proportional to the transmitter power multiplied by the transmit antenna gain, multiplied by the receiving antenna gain. Therefore, you can make trade-offs between the antennas' gain and transmitting power. For example, doubling the gain of one of the antennas has the same effect as doubling the transmitting power. Doubling the gain for both antennas has the same effect as quadrupling the transmitting power. 13.1.4 Antenna Polarity Antenna polarization refers to the direction in which the electromagnetic field lines point as energy radiates away from the antenna. In general, the polarization is elliptical. The simplest and most common form of this elliptical polarization is a straight line, or linear polarization. An antenna only receives the portion of the transmitted power that has the same polarization as the receiving antenna polarization. For example: If the transmitting antenna polarization is in the vertical direction (vertical polarization), and the receiving antenna also has vertical polarization, the maximum amount of power possible is received. On the other hand, if the transmit antenna has vertical polarization and the receiving antenna has horizontal polarization, no power should be received. If the two antennas have linear polarizations oriented at 45° to each other, only half of the possible maximum power is received. Page 188 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 13.2 Appendix G - Antenna Configuration User Manual Antenna Types Antenna types used with a RLX2-IHx series radio include whip, collinear array, yagi array, and parabolic reflector. See the RLX2-IHx series Approved Antennas (page 191) section for other types of approved antennas. 13.2.1 Whip Antennas For RLX2-IHx series radios, use a 1/2 wave straight whip antennal or a 1/2 wave articulating whip (2 dBi) antenna. These antennas are the most common type in use today. They are approximately 5 inches long, and are likely to be connected directly to the client radio enclosure. These antennas do not require a ground plane. Articulating antennas and non-articulating antennas work in the same way. An articulating antenna bends at the connection as shown in the image below. 13.2.2 Collinear Array Antennas A collinear array antenna is typically composed of several linear antennas stacked on top of each other. The more stacked elements it has, the longer it is, and the more gain it has. The signal is connected at one end. ProSoft Technology, Inc. October 30, 2017 Page 189 of 227 Appendix G - Antenna Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots The antenna pattern is torroidal. Its azimuthal beamwidth is 360° (omnidirectional). Its vertical beamwidth depends on the number of elements/length, and more elements produce a narrower beamwidth. The antenna gain also depends on the number of elements/length, and more elements produce a higher gain. The typical gain for this antenna is 5 to 10 dBi. The antenna polarity is linear, or parallel to the length of the antenna. 13.2.3 Yagi Array Antenna A yagi array antenna is composed of an array of linear elements, each parallel to one another and attached perpendicular to, and along the length of, a metal boom. The signal is connected to only one of the elements. Elements on one side of the connected element are longer and act as reflectors; elements on the other side are shorter and act as directors. This causes the antenna to radiate in a beam out of the end with the shorter elements. The pattern depends on the overall geometry, including the number of elements, element spacing, element length, and so on. Sometimes the antenna is enclosed in a protective tube hiding the actual antenna geometry (as shown in the image below). The antenna pattern is a beam pointed along the boom toward the end with the shorter elements. The beamwidth varies with antenna geometry but generally is proportional to the length (where longer length produces a narrower beam). The antenna gain varies with antenna geometry but generally is proportional to the length (where longer length produces higher gain). Typical values are 6 to 15dBi. The antenna polarity is Linear (parallel to the elements, perpendicular to the boom). Page 190 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix G - Antenna Configuration User Manual 13.2.4 Parabolic Reflector Antennas A parabolic reflector antenna consists of a parabolic shaped dish and a feed antenna located in front of the dish. The feel antenna radiates power toward the reflector. Due to the parabolic shape, the reflector concentrates the radiation into a narrow pattern, resulting in a beam with high gain. 13.3 The antenna pattern is a beam pointed away from the concave side of the dish. Beamwidth and antenna gain vary with the size of the reflector and the antenna construction. Typical gain values are 15 to 30 dBi. The antenna polarity depends on the feed antenna polarization. RLX2-IHx series Approved Antennas If you are located In the U.S. and Canada, use antennas that are specifically approved by the U.S. Federal Communications Commission (FCC) and Industry Canada for use with the RLX2-IHx series radios. Contact ProSoft Technology or visit www.prosoft-technology.com for a current list of approved antennas. Antenna selection depends on whether the bi-directional amplifier is being used or not. For each approved antenna, there is a specified minimum distance the antennas must be separated from users for safe exposure limits, according to FCC part 2.1091. ProSoft Technology, Inc. October 30, 2017 Page 191 of 227 Appendix G - Antenna Configuration User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 13.3.1 Approved Antenna Table Use the following approved antennas when the RLX2-IHx series radio module is connected directly to an antenna. See Approved Antennas with Power Amp (page 193) for a table of approved antennas with bi-directional power amplifiers. Type Pattern Gain Connector Size (cm) Min. distance from Body 1/2 Wave Omni 2 dB SMA-RP 7H x 1.5 20 cm 1/2 Wave art. Omni 2 dB SMA-RP 10H x 1.0 20 cm Collinear Array Omni 3 dB SMA-RP 6H x 3.0 20 cm Collinear Array, art. Omni 5 dB SMA-RP 19H x 1.0 20 cm Collinear Array Omni 5 dB SMA-RP 19H x 1.0 20 cm Collinear Array Omni 8 dB N-RP 43H x 1.6 20 cm Collinear Array Omni 9 dB N-RP 43H x 1.6 20 cm Collinear Array Omni 12 dB N-RP 106H x 4.0 25 cm Patch Directional 8 dB SMA-RP 15.0H x 15.0 20 cm Patch Directional 11 dB SMA-RP 22H x 12.7 22 cm Patch Directional 13 dB N-RP 22H x 22 28 cm Patch* Directional 19 dB N-RP 15.5 x 15.5 57 cm Yagi Directional 14 dB N-RP 81L x 9.0 28 cm Parabolic* Directional 15 dB N-RP 40H x 51W x 25D 36 cm Parabolic* Directional 19 dB N-RP 58H x 66W x 26D 57 cm Parabolic* Directional 24 dB N-RP 78H x 96W x 29D 100 cm * Only allowed in a point-to-point network. 13.3.2 Approved Antennas in Europe/CE In Europe/CE, the gain of the antenna connected to the RLX2-IHx series radio main antenna port, minus the antenna cable loss, must be less than 4 dB to stay below the 100-mW EIRP transmit power limit. The AUX port on the radio is only used to receive; it never transmits. Note: In France, the user is responsible for ensuring that the selected frequency channels comply with French regulatory standards. At the time of this printing, only channels 10 through 13 can be used in France. Page 192 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix G - Antenna Configuration User Manual 13.3.3 Approved Antennas in Mexico The gain of the antenna connected to the RLX2-IHx series radio main antenna port, minus the antenna cable loss, must be less than 12 dB to stay below the 650-mW EIRP transmit power limit. Note: In Mexico, the user is responsible for ensuring that the selected frequency channels comply with Mexican regulatory standards. At the time of this printing, only channels 9 through 11 can be used outdoors (1 through 8 cannot); however, channels 1 through 11 can all be used indoors. 13.3.4 Approved Antennas with Power Amp When the RLX2-IHx series radio is used in conjunction with the amplifier, the antennas are limited to antennas listed in the following table. Type Pattern Gain Connector Size (cm) Min. distance from Body 1/2 Wave Omni 2 dB SMA-RP 7H x 1.5 20 cm 1/2 Wave art. Omni 2 dB SMA-RP 10H x 1.0 20 cm Collinear Array Omni 3 dB SMA-RP 6H x 3.0 20 cm Collinear Array, art. Omni 5 dB SMA-RP 19H x 1.0 20 cm Collinear Array Omni 5 dB SMA-RP 19H x 1.0 20 cm Collinear Array Omni 8 dB N-RP 43H x 1.6 20 cm Collinear Array Omni 9 dB N-RP 43H x 1.6 20 cm Collinear Array* Omni 12 dB N-RP 106H x 4.0 25 cm Patch Directional 8 dB SMA-RP 15.0H x 15.0 20 cm Patch* Directional 11 dB SMA-RP 22H x 12.7 20 cm Patch* Directional 13 dB N-RP 22H x 22 28 cm Yagi* Directional 14 dB N-RP 81L x 9.0 28 cm * Only allowed in a point-to-point network. ProSoft Technology, Inc. October 30, 2017 Page 193 of 227 Appendix G - Antenna Configuration User Manual 13.4 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Antenna Location, Spacing, and Mounting Consider the following points regarding RLX2-IHx series radio antenna location, spacing, and mounting: When placing antennas, ensure a clear line of sight between the Master radio's antenna and all of the other radio antennas. If the site contains obstructing terrain or structures, mount the antenna on a tower or rooftop to provide a line-of-sight path. This line-of-sight consideration becomes more important as the transmission path becomes longer. Mount the antennas as high off the ground as is practical for greater range. Mount the antennas away from massive structures. For example, radio signals bounce off metal walls, which can compromise a clear signal. Mount the antennas and install radios away from sources of RF interference. Use the shortest possible antenna cable length. Signals lose power over the length of the cable. Choose antennas that are appropriate for the network's intended function. If antennas are on radios on the same network, mount them with matching polarity. If the antennas are on separate networks, mount them with different antenna polarity; for example, mount one antenna vertically and the other horizontally. Space radios at least three feet (one meter) apart so they do not overload each other. If radio antennas must be near each other: o Mount omnidirectional antennas directly above each other. o Position directional antennas so they do not point at nearby antennas: place antennas side by side if they point in the same direction; place antennas back to back if they point in opposite directions. Page 194 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix H - FCC Emission Regulations User Manual 14 Appendix H - FCC Emission Regulations In This Chapter 2.4 GHz Band, Point-To-Multipoint ...................................................... 195 2.4 GHz Band, Point-To-Point ............................................................. 196 5 GHz Bands, Point-To-Multipoint ....................................................... 196 5 GHz Bands, Point-To-Point .............................................................. 197 The charts in this section show the maximum emissions allowed for the FCC in the United States. These data should only be considered guidelines. Consult official FCC documents for the latest official regulations. In the 2.4 GHz band, the maximum Equivalent Isotropically Radiated Power (EIRP) is 4W for multipoint links: that is, radios with omnidirectional antennas. Point-to-Point links using directional antennas are allowed higher EIRP. 14.1 2.4 GHz Band, Point-To-Multipoint Maximum Power From Radio Maximum Antenna Gain Maximum EIRP dBm mW dBi dBm 30 1000 36 27 500 36 24 250 12 36 21 125 15 36 18 63 18 36 15 32 21 36 12 16 24 36 ProSoft Technology, Inc. October 30, 2017 Page 195 of 227 Appendix H - FCC Emission Regulations User Manual 14.2 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 2.4 GHz Band, Point-To-Point Maximum Power From Radio Maximum Antenna Gain Maximum EIRP dBm mW dBi dBm 30 1000 36 4.0 29 800 38 6.3 28 630 12 30 10.0 27 500 15 42 16.0 26 400 18 44 25.0 25 316 21 46 39.8 24 250 24 48 63.0 23 200 27 50 100.0 22 160 30 52 158.0 The FCC states that for every 1 dBi power reduction in the radio’s transmitter output, the antenna gain may be increased by 3 dB. 14.3 5 GHz Bands, Point-To-Multipoint 5 GHz Band Frequency Channels Range (GHz) Permitted Location Maximum Power from Radio Maximum EIRP dBm mW dBm mW UNII 5.15 – 5.25 36, 40, 44, 48 Indoor Only 16 40 22 160 UNII-2 5.25 – 5.35 52, 56, 60, 64 Indoor or Outdoor 23 200 29 800 UNII-2 Extended 5.470 – 5.725 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140 Indoor or Outdoor 23 200 29 800 UNII-3 5.725 – 5.825 149, 153, 157, 161, 165 Typical Outdoor 29 800 35 3200 Page 196 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 14.4 Appendix H - FCC Emission Regulations User Manual 5 GHz Bands, Point-To-Point 5 GHz Band Frequency Range (GHz) Channels Permitted Location Maximum Power from Radio Maximum EIRP dBm mW dBm mW UNII 5.15 – 5.25 36, 40, 44, Indoor 48 Only 16 40 22 160 UNII-2 5.25 – 5.35 52, 56, 60, Indoor or 64 Outdoor 23 200 29 800 UNII-2 Extended 5.470 – 5.725 100, 104, 108, 112, 116, 120, 124, 128, 132, 136, 140 Indoor or Outdoor 23 200 29 800 UNII-3 5.725 – 5.825 149, 153, 157, 161, 165 Typical Outdoor 30 1000 53 200,000 ProSoft Technology, Inc. October 30, 2017 Page 197 of 227 User Manual Page 198 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix I - Compatibility with ProSoft RLXIB Series Radios User Manual 15 Appendix I - Compatibility with ProSoft RLXIB Series Radios The RLX2-IHx series radios are 100% functionally compatible with ProSoft’s legacy RLXIB-IHA, RLXIB-IHG, and RLXIB-IHW radio models. This allows customers with RLXIB series radios to add RLX2-IHx series radios to their existing networks without any reconfiguration of existing assets or problems with obsolescence. The main differences in the RLX2-IHx series radios are the following improvements: Different enclosure size for more efficient heat dissipation Faster, more efficient electronics that consume less power Gigabit Ethernet MicroSD memory cards for configuration data storage Internal temperature sensor The RLX2-IHx series radios will acquire additional functionality as new firmware features are added. These new features will not be added to the RLXIB radios, but the RLX2-IHx series radios will continue to work with RLXIB radios using their existing functionality. The RLX2-IHNF is an 802.11n device that does not have an RLXIB series equivalent. It cannot function as a Repeater or Master radio to ProSoft’s RLXIBIHxN series radio products. Specific differences by product are noted in the following table. Specifications that have not changed between the RLXIB and RLX2-IHx series radio products are not listed. ProSoft Technology, Inc. October 30, 2017 Page 199 of 227 Appendix I - Compatibility with ProSoft RLXIB Series Radios User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots RLXIBIHA RLX2IHA RLXIBIHG RLX2-IHG RLXIBIHW RLX2-IHW RLX2-IHNF Dimensions 4.5/115 Wx 4.6/117 Hx 1.75/45 (inches/ mm) 5.82/14 8W x 4.64/11 8H x 1.48/38 (inches/ mm) 4.5/115W x 4.6/117H x 1.75/45 D (inches/ mm) 5.82/148W 4.64/118H x 1.48/38D (inches/ mm) 4.5/115W x 4.6/117H x 1.75/45 D (inches/ mm) 5.82/148W 4.64/118H x 1.48/38D (inches/ mm) 5.82/148W x 4.64/118H x 1.48/38D (inches/mm) Weight 1.1 lbs (499g) 1.1 lbs (499g) 1.1 lbs (499g) 1.1 lbs (499g) 1.06 lbs (479g) 1.06 lbs (479g) 1.1 lbs (499g) Typical Power Consumption < 9W 5.7W < 9W 4.5W <6W 4.5W 7.1W Max Power Consumption 9W 10W 9W 8W 6W 8W 9W Active antenna ports 1 Tx/Rx, 1 1 Tx/Rx, 1 optional optional Rx only Rx only 1, 2, or 3, MIMO or independent antennas 10/100 MBit 10/100/ 1000 MBit 10/100/ 1000 MBit Ethernet Speeds 10/100 MBit 10/100/ 10/100 MBit 1000 MBit 10/100/ 1000 MBit NET and MOD Status LEDs Fast Roaming MicroSD card Onboard temperature sensor 5 GHz band DFS channels Use RLXIB Firmware Image Use RLX2-IHx series Firmware Image Page 200 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix J - Detailed Radio Specifications User Manual 16 Appendix J - Detailed Radio Specifications In This Chapter 16.1 RLX2-IHA Detailed Specifications ....................................................... 201 RLX2-IHG Detailed Specifications ....................................................... 202 RLX2-IHNF, -W, -WC Detailed Specifications ..................................... 204 RLX2-IHW Detailed Specifications ...................................................... 206 RLX2-IHA Detailed Specifications RLX2-IHA Radio Frequency Band (Varies by country) 802.11a 5.150 GHz to 5.250 GHz (FCC/ETSI) 5.725 GHz to 5.850 GHz (FCC) Wireless Standards 802.11a, 802.11i Transmit Power (Programmable) 23 dBm (200 mW) (varies by country) Channel Data Rates (Modulation) 802.11a: 54, 48, 36, 24, 18, 12, 9, 6 Mbps (OFDM) Receiver Sensitivity (Typical) -92 dBm @ 6 Mbps -84 dBm @ 24 Mbps -72 dBm @ 54 Mbps Channel Selection 36, 40, 44, 48, 149, 153, 157, 161, 165 Security WPA2 - 802.11i with 128 bit AES-CCM Legacy WPA TKIP, WEP support MAC ID filter, Admin password Physical Enclosure Extruded aluminum with DIN and panel mount Size (H x W x D) 14.8 x 11.8 x 3.8 cm 5.82 x 4.64 x 1.48 in Shock IEC 60068 2-6 (20g, 3-Axis) Vibration IEC 60068 2-27 (5g, 10Hz to 150Hz) Ethernet Ports (1) 10/100/1000 Base-T, RJ45 connector Serial Port (1) DB9 female (serial tunneling & encapsulation) Antenna Port (1) RP-SMA connector Weight 1.1 lbs (499g) ProSoft Technology, Inc. October 30, 2017 Page 201 of 227 Appendix J - Detailed Radio Specifications User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Environmental Operating Temperature -40°C to +75°C (-40°F to +167°F) Humidity Up to 100% RH, with no condensation External Power Power over Ethernet 10 VDC to 24 VDC 802.3af Compliant Peak Power Consumption < 7W 16.1.1 Agency Approvals & Certifications Wireless Approvals Visit www.prosoft-technology.com for current wireless approval information. Hazardous Locations Regulatory UL/cUL; Class1, Div 2 CSA/CB Safety Ex Certificate (ATEX Directive, Zone 2) CE Mark FCC/IC ETSI 16.2 RLX2-IHG Detailed Specifications Radio Frequency Band (Varies by country) 802.11g: 2.412 GHz to 2.462 GHz (FCC) 2.412 GHz to 2.472 GHz (ETSI) Wireless Standards 802.11b, 802.11g, 802.11i Transmit Power (Programmable) Up to 24 dBm (250 mW) (varies by country) Channel Data Rates (Modulation) 802.11g: (OFDM) Mbps 54, 48, 36, 24, 18, 12, 9, and 6 802.11b: (DSS) Mbps 11, 5.5, 2, and 1 Receiver Sensitivity (Typical) -94 dBm @ 1 Mbps -92 dBm @ 11 Mbps -84 dBm @ 24 Mbps -72 dBm @ 54 Mbps Channel Selection 802.11g: 1 to 11 (FCC), 1 to 13 (ETSI) Security WPA2 Enterprise – 802.11i AES w/RADIUS [PEAP, TTLS, TLS, EAP] WPA2 Personal – 802.11i AES w/Passphrase Legacy WPA TKIP, WEP support Page 202 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix J - Detailed Radio Specifications User Manual Physical Enclosure Extruded aluminum with DIN and panel mount Size (H x W x D) 14.8 x 11.8 x 3.8 cm 5.82 x 4.64 x 1.48 in Shock IEC 60068 2-6 (20 g, 3-Axis) Vibration IEC 60068 2-27 (5 g, 10 Hz to 150 Hz) Ethernet Ports (1) 10/100/1000 Base-T, RJ45 connector Serial Port (1) DB9 female (serial tunneling & encapsulation) Antenna Port (1) RP-SMA connector Environmental Operating Temperature -40°C to +75°C (-40°F to +167°F) Humidity Up to 100% RH, with no condensation External Power Power over Ethernet 10 VDC to 24 VDC 802.3af Compliant Peak Power Consumption < 7W 16.2.1 Agency Approvals & Certifications Wireless Approvals Visit www.prosoft-technology.com for current wireless approval information. Hazardous Locations Regulatory UL/cUL; Class1, Div 2 CSA/CB Safety Ex Certificate (ATEX Directive, Zone 2) CE Mark FCC/IC ETSI ProSoft Technology, Inc. October 30, 2017 Page 203 of 227 Appendix J - Detailed Radio Specifications User Manual 16.3 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots RLX2-IHNF, -W, -WC Detailed Specifications Radio Specification Frequency Channel Frequency Band (Varies by country) 2.412 GHz to 2.462 GHz (FCC) 2.412 GHz to 2.472 GHz (ETSI) 1 to 11 1 to 13 5.150 GHz to 5.250 GHz (FCC/ETSI) 5.260 GHz to 5.580 GHz (FCC/ETSI)* 5.660 GHz to 5.700 GHz (FCC/ETSI)* 5.725 GHz to 5.850 GHz (FCC/ETSI Series C only) * DFS channels with RADAR detection 36 to 48 52 to 116* 132 to 140* 149 to 165 Wireless Standards 802.11n, 802.11a, 802.11g, 802.11h (DFS), 802.11i (Security), 802.11e (QoS) 802.112Q (VLAN), 802.113af (PoE), IGMPv2 Transmit Power (Programmable) *Subject to Regional Regulatory Limits 22 dBm @ MCS0, MCS8 (802.11an/gn) 17 dBm @ MCS7, MCS15 (802.11an/gn) 22 dBm @ 6 Mbps (802.11a/g) 17 dBm @ 54 Mbps (802.11a/g) Antenna Impact: 3 Antennas/MIMO: Use values above 2 Antennas: Subtract 2 dB from values above 1 Antenna: Subtract 5 dB from values above Channel data rates (802.11n) MCS0 through MCS15, 1 Channel or 2 Channels with 1 Stream or 2 Streams 1 Channel 2 Channels Rate Streams 6.5 Mbps 13.5 Mbps MCS0 1 Stream 65 Mbps 150 Mbps MCS7 13 Mbps 27 Mbps MCS8 130 Mbps 300 Mbps MCS15 802.11b 802.11a/g 11, 5.5, 2, 1 Mbps 54, 48, 36, 24, 18, 12, 11, 9, 6, 5.5, 2, 1 Mbps Receiver Sensitivity (Typical) -92 dBm @ MCS0, MCS8 (802.11an/gn) -70 dBm @ MCS7, MCS15 (802.11an) -74 dBm @ MCS7, MCS15 (802.11gn) -92 dBm @ 6 Mbps (802.11an/gn) -74 dBm @ 54 Mbps (802.11a) -78 dBm @ 54 Mbps (802.11g) Security WPA2 Personal/Enterprise – 802.11i AES WPA2 Personal – 802.11i AES w/ Passphrase Legacy WPA TKIP, WEP support MAC ID filter Page 204 of 227 2 Streams ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix J - Detailed Radio Specifications User Manual Physical Enclosure Extruded aluminum with DIN rail mount (RLX2-IHNF) Die-cast Aluminum with Pole Mount (RLX2-IHNF-W and RLX2-IHNF-WC) Size (H x W x D) 14.8 x 11.8 x 3.8 cm (RLX2-IHNF) 5.82 x 4.64 x 1.48 in 29.2 x 17.8 x 7 cm (RLX2-IHNF-W and WC) 11.5 x 7 x 2.75 in Shock IEC 60068 2-6 (20G, 3-Axis) Vibration IEC 60068 2-27 (5G, 10 to 150 Hz) Ethernet Port (1) 10/100 Base-T connector, shielded RJ45 IEEE 802.3, 802.3u, 802.3x Water/Dust Tight M12 Connector (RLX2-IHNF-W) 10/100/1000 Base-T connector, shielded RJ45 IEEE 802.3, 802.3u, 802.3x, 802.3af, Passive PoE Not 802.3at/PoE+ compatible Water/Dust Tight (RLX2-IHNF-WC) 10/100/1000 Base-T connector, shielded RJ45 IEEE 802.3, 802.3u, 802.3x, 802.3af Antenna Port (3) RP-SMA connector (3) N-Type Connectors (RLX2-IHNF-W and WC) Personality Module Industrial SD Memory Module No Personality Module on RLX2-IHNF-W or WC Weight 1.1 lbs (499 g) (RLX2-IHNF) 3 lb 9 oz, 1.6Kg – less cables and pole mounting bracket (RLX2-IHNF-W or WC) Environmental Operating Temperature -40°F to +167°F (-40°C to +75°C) -40°F to +158°F (-40°C to +70°C), RLX2-IHNF Series B and C only Humidity Up to 100% RH, with no condensation External Power PoE Injector 10 to 24 VDC 802.3af PoE Powered Device The RLX2-IHNF-WC has a 6-foot attached cable and a 6foot attached CAT6 cable for PoE applications Peak Power Consumption ProSoft Technology, Inc. October 30, 2017 < 9W (Series B), < 8W (Series C) Page 205 of 227 Appendix J - Detailed Radio Specifications User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots 16.3.1 Agency Approvals & Certifications Wireless Approvals Visit www.prosoft-technology.com for current wireless approval information. Hazardous Locations Regulatory ANATEL (Brazil) UL/cUL; Class I, Div 2 CSA/CB Safety Ex Certificate (ATEX Directive, Zone 2) CE Mark FCC/IC ETSI MIC (Japan) NCC (Taiwan) NTRA (Egypt) 16.4 RLX2-IHW Detailed Specifications Radio Frequency Band (Varies by country) 2.412 GHz to 2.462 GHz (FCC) 2.412 GHz to 2.472 GHz (ETSI) 5.150 GHz to 5.250 GHz (FCC/ETSI) 5.725 GHz to 5.850 GHz (FCC) Wireless Standards 802.11a, 802.11b, 802.11g, 802.11i Transmit Power (Programmable) (varies by country) 2.4 GHz: Up to 100 mW (20 dBm) 5 GHz: Up to 64 mW (18 dBm) Channel data rates (Modulation) 802.11b:11, 5.5, 2,1 Mbps (DSSS,BPSK,QPSK,CCK) 802.11g: 54, 48, 36, 24, 18, 12, 9, 6 Mbps (OFDM) 802.11a: 54, 48, 36, 24, 18, 12, 9, 6 Mbps (OFDM) Receiver Sensitivity (Typical) -90 dBm @ 1 Mbps -85 dBm @ 11 Mbps -82 dBm @ 24 Mbps -75 dBm @ 54 Mbps Channels Selection 1 to 13 (802.11b/g) 36, 40, 44, 48, 149, 153, 157, 161, 165 (802.11a) Security WPA2 - 802.11i with 128 bit AES-CCM Legacy WPA TKIP, WEP support MAC ID filter, Admin password Physical Enclosure Extruded aluminum with DIN and panel mount Size (H x W x D) 14.8 x 11.8 x 3.8 cm 5.82 x 4.64 x 1.48 in Shock IEC 60068 2-6 (20g, 3-Axis) Vibration IEC 60068 2-27 (5g, 10Hz to 150Hz) Ethernet Ports (1) 10/100/1000 Base-T, RJ45 connector Page 206 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix J - Detailed Radio Specifications User Manual Serial Port (1) DB9 female (serial tunneling & encapsulation) Antenna Ports (2) RP-SMA connectors (1 trans/rec, 1 rec only) Environmental Operating Temperature -40°C to +75°C (-40°F to +167°F) Humidity Up to 100% RH, with no condensation External Power PoE (Power over Ethernet) 10 to 24 VDC 802.3af Compliant Peak Power Consumption < 6W 16.4.1 Agency Approvals & Certifications Wireless Approvals Visit www.prosoft-technology.com for current wireless approval information. Hazardous Locations Regulatory UL/cUL; Class1, Div 2 CSA/CB Safety Ex Certificate (ATEX Directive, Zone 2) CE Mark FCC/IC ETSI ProSoft Technology, Inc. October 30, 2017 Page 207 of 227 User Manual Page 208 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Appendix K - Application Examples User Manual 17 Appendix K - Application Examples This chapter provides example applications using RLX2-IHx series radios. ProSoft Technology, Inc. October 30, 2017 Page 209 of 227 Appendix K - Application Examples User Manual Page 210 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Support, Service & Warranty User Manual 18 Support, Service & Warranty In This Chapter 18.1 Contacting Technical Support ............................................................. 211 Warranty Information ........................................................................... 212 Contacting Technical Support ProSoft Technology, Inc. is committed to providing the most efficient and effective support possible. Before calling, please gather the following information to assist in expediting this process: 1 Product Version Number 2 System architecture 3 Network details If the issue is hardware related, we will also need information regarding: 1 Module configuration and associated ladder files, if any 2 Module operation and any unusual behavior 3 Configuration/Debug status information 4 LED patterns 5 Details about the serial, Ethernet or Fieldbus devices interfaced to the module, if any. Note: For technical support calls within the United States, ProSoft’s 24/7 after-hours phone support is available for urgent plant-down issues. Detailed contact information for all our worldwide locations is available on the following page. ProSoft Technology, Inc. October 30, 2017 Page 211 of 227 Support, Service & Warranty User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Internet Website: www.prosoft-technology.com E-mail address: support@prosoft-technology.com Asia Pacific (location in Malaysia) Tel: +603.7724.2080 E-mail: asiapc@prosoft-technology.com Languages spoken include: Chinese, English Asia Pacific (location in China) Tel: +86.21.5187.7337 x888 E-mail: asiapc@prosoft-technology.com Languages spoken include: Chinese, English Europe (location in Toulouse, France) Tel: +33 (0) 5.34.36.87.20 E-mail: support.EMEA@prosoft-technology.com Languages spoken include: French, English Europe (location in Dubai, UAE) Tel: +971-4-214-6911 E-mail: mea@prosoft-technology.com Languages spoken include: English, Hindi North America (location in California) Tel: +1.661.716.5100 E-mail: support@prosoft-technology.com Languages spoken include: English, Spanish Latin America (Oficina Regional) Tel: +1-281-2989109 E-Mail: latinam@prosoft-technology.com Languages spoken include: Spanish, English Latin America Tel: +52-222-3-99-6565 (location in Puebla, Mexico) E-mail: soporte@prosoft-technology.com Languages spoken include: Spanish Brasil (location in Sao Paulo) 18.2 Tel: +55-11-5083-3776 E-mail: brasil@prosoft-technology.com Languages spoken include: Portuguese, English Warranty Information For complete details regarding ProSoft Technology’s TERMS & CONDITIONS OF SALE, WARRANTY, SUPPORT, SERVICE AND RETURN MATERIAL AUTHORIZATION INSTRUCTIONS, please see the documents at: www.prosoft-technology/legal Documentation is subject to change without notice. Page 212 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual 19 Glossary of Terms Symbols & Numeric 802.11 A group of wireless specifications developed by the IEEE. It details a wireless interface between devices to transport packet traffic. 802.11a Operates in the 5 GHz frequency range with a maximum 54 Mbit/sec signaling rate. 802.11b Operates in the most commonly used 2.4 GHz Industrial, Scientific, and Measurement (ISM) band. Provides signaling rates of up to 11 Mbit/sec using CCK modulation. 802.11g Similar to 802.11b but supports signaling rates of up to 54 Mbit/sec using OFDM modulation. Operates in the heavily used 2.4 GHz ISM band. 802.11i Sometimes called Wi-Fi Protected Access 2 (WPA 2). WPA 2 exclusively uses the 128-bit and above Advanced Encryption Standard (AES), along with 802.1x authentication and key management features. 802.11n Uses higher modulation rates and packet aggregation to raise effective WLAN throughput to more than 100 Mbit/sec. Access Point A generic term for an 802.11 radio that "attaches" other 802.11 (clients) to a wired network. Some access points (APs) can also bridge to other APs. Ad hoc Mode Wireless network framework in which devices can communicate directly with one another without using an accesspoint or a connection to a regular network. RLX2-IHx series radio products do not support Ad hoc mode. AES Advanced Encryption Standard. New standard for encryption adopted by the U.S. government for secure communications. Amplifier A device connected to an antenna that increases the signal strength and amplifies weak incoming signals. ProSoft Technology, Inc. October 30, 2017 Page 213 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Antenna A device connected to a wireless transceiver that concentrates transmitted and received radio waves to increase signal strength and thus the effective range of a wireless network. ASCII American Standard Code for Information Interchange. A communication mode in which each eight-bit byte in a message contains one ASCII character code. ASCII characters (or hexadecimal characters) are sometimes used as a key to encrypt data and ensure its secure transmission. Association Process whereby two 802.11 radios establish communications with each other. Requirements for communication include the same SSID (network names) and encryption settings. Authenticate The process of confirming the identity of someone connecting to a network. Authentication Server A back-end database server that confirms the identity of a supplicant to an authenticator in an 802.1x-authenticated network. Band Another term for spectrum used to indicate a particular set of frequencies. Wireless networking protocols work in either the 2.4 GHz or the 5 GHz bands. Bandwidth (see Throughput) Bridging Client, Radio Mode A radio in Bridging Client mode can connect to any Access Point, and can support one multiple Ethernet device but can only bridge IP-based traffic. See also Repeater, Radio Mode. CACT CACT is an acronym for Channel Availability Check Time, a parameter used in DFS channel selection. During DFS when a radio changes channels, it must listen for the CACT on the new channel before beginning operations. For most channels the CACT is 60 seconds. Channel One portion of the available radio spectrum that all devices on a wireless network use to communicate. Changing the channel on the access point/router can help reduce interference. Page 214 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual dBi Decibels referenced to an ideal isotropic radiator in free space; frequently used to express antenna gain dBm Decibels referenced to one milliwatt (mW); an absolute unit used to measure signal power (transmit) power output or received signal strength) DCE Data communications equipment. A modem, for example. Decibel (dB) A measure of the ratio between two signal levels; used to express gain (or loss) in a system. Default Gateway The IP address of a network router where data is sent if the destination IP address is outside the local subnet. The gateway is the device that routes the traffic from the local area network to other networks such as the Internet. Device-to-Device Network (Peer-to-Peer Network) Two or more devices that connect using wireless network devices without the use of a centralized wireless access point. Also known as a peer-to-peer network. DFS DFS stands for Dynamic Frequency Selection, a requirement for operation on certain frequencies in the 5 GHz band in many countries. When a radio operates on a DFS frequency, it must sense the presence of radar and automatically change to another channel if radar is detected. DHCP The dynamic host configuration protocol is an Internet protocol, similar to BootP, for automating the configuration of computers that use TCP/IP. DHCP can be used to automatically assign IP addresses, to deliver IP stack configuration parameters, such as the subnet mask and default router, and to provide other configuration information, such as the addresses for printer, time, and news servers. Direct Sequence Spread Spectrum A modulation mechanism that spreads the signal for a wide band, allowing reception even for overlapping data signals. 802.11b uses DSSS modulation. Directional Antenna Transmits and receives radio waves in a single direction. Diversity Antenna An antenna system that uses multiple antennas to reduce interference and maximize reception and transmission quality. ProSoft Technology, Inc. October 30, 2017 Page 215 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots DTE Data Terminal Equipment, for example, a computer or terminal. Dual Band A device that is capable of operating in two frequency bands. On a wireless network, dual-band devices are capable of operating in both the 2.4 GHz (802.11b/g) and 5 GHz (802.11a) bands. EAP Extensible Authentication Protocol. A protocol that provides an authentication framework for both wireless and wired Ethernet enterprise networks. EIRP Equivalent isotropically radiated power (EIRP) is the amount of power that would have to be emitted by an isotropic antenna (that evenly distributes power in all directions and is a theoretical construct) to produce the peak power density observed in the direction of maximum antenna gain. Encryption Method of scrambling data so that only the intended viewers can decipher and understand it. Firmware Firmware is the embedded software code that that runs in hardware containing a CPU (similar to the BIOS in a personal computer). This is distinguished from the IH Browser software that is installed on the Configuration PC. Fresnel Zone An elliptical area on either side of the straight line of sight that must also be clear for a long-range wireless network to work. Full-Duplex A communications circuit or system designed to simultaneously transmit and receive two different streams of data. Telephones are an example of a full-duplex communication system. Both parties on a telephone conversation can talk and listen at the same time. If both talk at the same time, their two signals are not corrupted. Gain, Antenna The amount by which an antenna concentrates signal strength in a wireless network. Gateway In wireless terms, a gateway is an access point with additional software capabilities such as providing NAT and DHCP and access to a Wide Area network (WAN), Internet or other main network. Page 216 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Guard Interval (GI) An interval of time between data symbols during transmission. The guard interval time for 802.11a/b/g systems is fixed at 800 microseconds. 802.11n devices can also use a 400 microsecond guard interval, falling back to 800 microseconds if excessive data corruption is detected. Half-Duplex A communications circuit or system designed to transmit and receive data, but not both simultaneously. CB or walkie-talkie radios are an example of a halfduplex communication system. Either parties on a radio conversation may talk or listen; but both cannot talk at the same time without corrupting each other's signal. If one operator is sending, the other must be receiving to have successful communication. Hz Hertz. The international unit for measuring frequency equivalent to the older unit of cycles per second. One megahertz (MHz) is one million hertz. One gigahertz (GHz) is one billion hertz. The standard US electrical power frequency is 60 Hz. 802.11a devices operate in the 5 GHz band; 802.11b and g devices operate in the 2.4 GHz band. IEEE Institute of Electrical and Electronics Engineers, Inc. IEEE is a professional organization with members in over 175 countries and is an authority in technical areas such as computer engineering and telecommunications. IEEE developed the 802.11 specifications. IP Address A 32-bit identification number for each node on an Internet Protocol network. These addresses are represented as four sets of 8-bit numbers (numbers from 0 to 255), separated by periods ("dots"). Networks using the TCP/IP protocol route messages based on the IP address of the destination. Each number can be 0 to 255. For example, 192.168.0.100 could be an IP address. Each node on the network must have a unique IP address. Key A set of information (often from 40 to as much as 256 bits in size) that is used as a seed to an encryption algorithm to encrypt (scramble) data. Ideally, the key must also be known by the receiver to decrypt the data. ProSoft Technology, Inc. October 30, 2017 Page 217 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots LAN Local Area Network. A system of connecting PCs and other devices within the same physical proximity for sharing resources such as internet connections, printers, files, and drives. When Wi-Fi is used to connect the devices, the system is known as a wireless LAN or WLAN. LED Light-emitting diode. Line of Sight (LoS) A clear line from one antenna to another in a long-range wireless network. MAC ID Media Access Control address. Every device has its own MAC address which is a unique identifier used to unambiguously identify the source and destination of any packet on the network. Mbps Megabits per second, or a million bits per second. A measure of data rate. Megahertz A measure of electromagnetic wave frequency equal to one million hertz. Often abbreviated as MHz and used to specify the radio frequency used by wireless devices. MIC Message Integrity Check. One of the elements added to the TKIP standard. A signature is added by each radio on each packet it transmits. The signature is based on the data in the packet, a 64-bit value (key) and the MAC address of the sender. The MIC allows the receiving radio to verify (check) that the data is not forged or altered. MIMO Multiple Input Multiple Output refers to using multiple antennas in a Wi-Fi device to improve performance and throughput. MIMO technology takes advantage of a characteristic called multipath, which occurs when a radio transmission starts out at Point A and the reflects off or passes through surfaces or objects before arriving, via multiple paths, at Point B. MIMO technology uses multiple antennas to collect and organize signals arriving via these paths. Modbus The Modbus protocol provides the internal standard that the MODICON® controllers use for parsing messages. During communications on a Modbus network, the protocol determines how each controller knows its device address, recognizes a message addressed to it, determines the kind of action to be taken, and extracts any data or other information contained in the message. If a reply is required, the controller constructs the reply message and sends it using Modbus protocol. Page 218 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Modem MOdulator-DEModulator, a device that converts digital signals to analog signals and vice-versa. Analog signals can be transmitted over communications links such as telephone lines. Network A series of stations or nodes connected by some type of communication medium. A network may consist of a single link or multiple links. Node An address or software location on the network. Non-Occupancy Period The time during which a radio cannot return to a frequency where radar was detected. This time is typically 30 minutes. Typically a radio will not return to a channel where radar was previously detected unless absolutely necessary. Null Modem Cable A specialty cross-communication cable with female connectors on each end used for direct connection between DTE devices when no modems are present. Commonly used as a quick and inexpensive way to transfer files between two PCs without installing a dedicated network card in each PC. Panel Antenna An antenna type that radiates in only a specific direction. Panel antennas are commonly used for point-to-point situations. Sometimes called Patch antennas. Parabolic Antenna An antenna type that radiates a very narrow beam in a specific direction. Parabolic antennas offer the highest gain for long-range point-to-point situations. Peer-to-Peer Network Each radio in a Peer-to-Peer network has the ability to receive data from, and transmit data to, any other radio in the network. Point-to-Multipoint A wireless network in which one device (the access point or Master Bridge) serves multiple other devices associated to it. Point-to-Point Network A network consisting of a single Master radio and a single Remote radio. Poll A method of electronic communication. ProSoft Technology, Inc. October 30, 2017 Page 219 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Power Supply A device that supplies electrical power to the I/O chassis containing the processor, coprocessor, or other modules. Protocol The language or packaging of information that is transmitted between nodes on a network. QoS Quality of Service. Required to support wireless multimedia applications and advanced traffic management. QoS enables Wi-Fi access points to prioritize traffic and optimize the way shared network resources are allocated among different applications. Range The distance covered by a wireless network radio device. Depending on the environment and the type of antenna used, Wi-Fi signals can have a range of up to a several miles. Repeater A Repeater is a device used to extend the range of a Wi-Fi signal. Placed at the edge of signal reception, a repeater can receive and re-transmit the signal. Repeater, Radio Mode A RLX2-IHx series radio in Repeater mode can only connect to other ProSoft radios, but can bridge any number of Ethernet network devices attached to it. It also simultaneously functions as an access point, allowing other wireless devices to associate to it. See also Client, Radio Mode. RS-232 Recommended Standard 232; the standard for serial binary signals between DTE and DCE devices. Sector Antenna An antenna type that radiates in only a specific direction. Multiple sector antennas are commonly used in point-to-multipoint situations. Signal Diversity A process by which two antennas are used to send and receive, combining their results for better effect. Signal Loss The amount of signal strength that’s lost in antenna cable, connectors, and free space. Signal loss is measured in decibels (dB). Also referred to as gain loss. Signal Strength The strength of the radio waves received at a wireless device. Page 220 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Site Survey A comprehensive facility study performed by network managers to ensure that planned service levels will be met when a new wireless LAN or additional WLAN segments to an existing network are deployed. Site surveys are usually performed by a radio frequency engineer and used by systems integrators to identify the optimum placement of access points to ensure that planned levels of service are met. Site surveys are sometimes conducted following the deployment to ensure that the WLAN is achieving the necessary level of coverage. Site surveys can also be used to detect rogue access points. Spectrum A range of electromagnetic frequencies. Spread Spectrum A form of wireless communication in which a signal’s frequency is deliberately varied. This increases bandwidth and lessens the chances of interruption or interception of the transmitted signal. SSID Service Set Identifier is a sequence of characters unique to a specific network or network segment that’s used by the network and all attached devices to identify themselves and allow devices to connect to the correct network when one or more than one independent network is operating in nearby areas. Subnet Mask A mask used to determine what subnet an IP address belongs to. An IP address has two components: the network address, and the host (node or device) address; for example the IP address 150.215.017.009. Assuming this is part of a Class B network (with a subnet mask of 255.255.0.0), the first two numbers (150.215) represent the Class B network address, and the second two numbers (017.009) identify a particular host on this network. TKIP Temporal Key Integrity Protocol. A wireless security encryption mechanism in WiFi Protected Access (WPA). UART Universal Asynchronous Receiver/Transmitter WDS Wireless Distribution System. Enables access points to communicate with one another in order to extend the range of a wireless networks. Used in 802.11g based access points. ProSoft Technology, Inc. October 30, 2017 Page 221 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots WEP Wired-Equivalent Privacy protocol was specified in the original IEEE 802.11 standard to provide a WLAN with a minimal level of security and privacy comparable to a typical wired LAN, using data encryption. Wi-Fi A certification mark managed by a trade group called the Wi-Fi Alliance. Wi-Fi certification encompasses numerous standards including 802.11a, 802.11b, 802.11g, WPA, and more. Equipment must pass compatibility testing to receive the Wi-Fi mark. Wi-Fi CERTIFIED™ The certification standard designating IEEE 802.11-based wireless local area network (WLAN) products that have passed interoperability testing requirements developed and governed by the Wi-Fi alliance. Wi-Fi Interoperability Certificate A statement that a product has passed interoperability testing and will work with other Wi-Fi CERTIFIED products. Wi-Fi Protected Setup Wi-Fi Protected Setup™ (previously called Wi-Fi Simple Config) is an optional certification program developed by the Wi-Fi alliance designed to ease set up of security enabled Wi-Fi networks in the home and small office environment. Wi-Fi Protected Setup supports methods (pushing a button or entering a PIN into a wizard-type application) that are familiar to most consumers to configure a network and enable security. Wireless Gateway A term used to differentiate between an access point and a more-capable device that can share an internet connection, serve DHCP, and bridge between wired and wireless networks. Wireless Network A network of connected using a centralized wireless access point. WLAN Wireless Local Area Network. A type of local area network in which data is sent and received via high-frequency radio waves rather than cables or wires. WPA Wi-Fi Protected Access is a data encryption specification for 802.11 wireless networks that replaces the weaker WEP. It improves on WEP by using dynamic keys, Extensible Authentication Protocol to secure network access, and an encryption method called Temporal Key Integrity Protocol (TKIP) to secure data transmissions. WPA2 An enhanced version of WPA. It is the official 802.11i standard. It uses Advanced Encryption Standard instead of TKIP. AES supports 128-bit, 192-bit, and 256-bit encryption keys. Page 222 of 227 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Yagi Antenna An antenna type that radiates in only a specific direction. Yagi antennas are used in point-to-point situations. ProSoft Technology, Inc. October 30, 2017 Page 223 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots ProSoft Technology, Inc. October 30, 2017 Glossary of Terms User Manual Page 224 of 227 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Index Basic Wireless Settings • 71, 97 Before You Begin • 15 2.4 GHz Band, Point-To-Multipoint • 195 2.4 GHz Band, Point-To-Point • 196 5 GHz Bands, Point-To-Multipoint • 196 5 GHz Bands, Point-To-Point • 197 About RLX2-IHx series Industrial Hotspot Products • 16 About This Manual • 15 Access Settings • 82 Active Antennas RLX2-IHW • 85, 87 RLX-IHNF • 85, 87 Adding the Radio to RSLogix 5000 • 152 Advanced Wireless Settings • 84, 97 Agency Approvals & Certifications • 202, 203, 206, 207 Antenna Gain • 188 Antenna Location, Spacing, and Mounting • 194 Antenna Pattern • 187 Antenna Polarity • 188 Antenna Port Connections • 18, 34 Antenna Spacing Requirements for User Safety • 7 Antenna Types • 189 Antennas • 185 Appendix A - Adding a Radio to RSLogix 5000 • 151 Appendix B - Radio Hardware • 163 Appendix C - RLX2-IHx 5 GHz Radio DFS Support • 171 Appendix D - RLX2-IHx series Virtual LAN (VLAN) Functionality • 115, 175 Appendix E - EtherNet/IP and Modbus TCP/IP Support • 179 Appendix F - Master Channel-Frequency Table • 183 Appendix G - Antenna Configuration • 18, 65, 72, 139, 185 Appendix H - FCC Emission Regulations • 195 Appendix I - Compatibility with ProSoft RLXIB Series Radios • 15, 199 Appendix J - Detailed Radio Specifications • 17, 201 Appendix K - Application Examples • 209 Apply Changes • 62 Approved Antenna Table • 192 Approved Antennas in Europe/CE • 192 Approved Antennas in Mexico • 193 Approved Antennas with Power Amp • 192, 193 Assigning a Temporary IP Address • 42, 47, 48, 49, 50, 54, 128, 129 Assigning an IP address • 46, 48, 50, 53, 82 Cable Break Detection • 106 Cancelling Changes • 62 Certificate Management • 80 Changing IH Browser Columns in List View • 120 Changing Password Settings • 93 Checking the Ethernet Cable • 146 Collinear Array Antennas • 189 Configuration Help • 59 Configuring a Bridging Client Radio • 50, 73 Configuring a Client Radio • 25, 50, 53, 73 Configuring a Radio - Detailed Configuration • 44, 55, 57 Configuring a Radio - Getting Started • 43, 44, 55, 56, 129, 147 Configuring a Repeater Radio • 48, 73 Configuring Advanced Network Settings • 99 Configuring Advanced Settings • 83 Configuring Basic Settings • 70 Configuring Parent Link Settings • 89, 94, 120 Configuring Quality of Service (QoS) Settings • 113 Configuring Serial Settings • 107 Configuring VLAN Settings • 115 Connecting to the Radio Configuration Utility • 44, 46, 48, 50, 54, 57, 80, 121, 130, 132 Contacting Technical Support • 150, 211 Content Disclaimer • 2 Control Drawing • 186 Defining the Scan Parameters in the IH Browser • 118 Designer Functional Specifications • 30 Detecting 802.11 Access Points • 32, 138 DFS Radio Operations • 171, 173 Diagnostics and Troubleshooting • 145 Encryption Type • 75, 77 Enterprise Mode Settings • 75, 78 Ethernet Cable Configuration • 167, 168 Ethernet Cable Configuration (all other radios) • 169 Ethernet Cable Configuration (RLX2-IHNF-W) • 168 Ethernet Cable Specifications • 167 EtherNet/IP™ Server Support • 181 Factory Defaults • 62 Finding Missing Radios • 150 Freezing the Display in the IH Browser • 119 General Features • 17 ProSoft Technology, Inc. October 30, 2017 Page 225 of 227 Glossary of Terms User Manual RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms • 213 Hiding the Toolbar and Status Bar in the IH Browser • 126 How to Contact Us • 2 IGMP Settings • 100 IH Browser System Requirements • 23 Important Safety Information • 3 Importing and Exporting IH Browser Data • 125 Importing the Add-On Instruction • 155 Improving Signal Quality • 31 Industrial Hotspot Bench Test Kit (RLX-IHBTK) • 22 Industry Canada Requirements: • 4 Installation Questions • 27 Installing IH Browser Software • 23, 24 Installing the ProSoft Wireless Designer • 25, 26 Installing the RadioLinx Industrial Hotspot Browser • 22 IP address, Assigning • 46, 48, 50, 53, 82 LED Display • 17, 146 List View Columns • 120, 121, 127 Location Services Settings • 90 MAC Filter • 75, 76 Making Power and Data Connections • 30, 33, 34 Max Data Rate • 85, 86 Modbus Memory Map Diagnostic Information • 180 Modbus TCP/IP Server Support • 179 Network Planning • 25, 33 Package Contents • 20, 56 Packet Delineation Settings • 110 Parabolic Reflector Antennas • 191 Parent Selection Method Settings • 95 Password, Changing • 93 Personality Module Settings • 56, 62, 91 Ping Options Dialog Box • 134 Pinging Devices on the Network • 133, 134 Planning the Physical Installation • 27 Port Settings • 112 Port/Radio-based VLAN Tagging with Managed Switches • 177 Port/Radio-based VLAN Tagging without Managed Switches • 178 Preparing the Configuration Environment • 34 Printing the View in the IH Browser • 125 Product Overview • 16 ProSoft Wireless Designer • 28 Page 226 of 227 Radio Power Requirements (All other radios) • 165 Radio Power Requirements (RLX2-IHNF-W) • 163 Radio Power-Up • 41 Rapid Spanning Tree Functionality • 102, 103 Read-Only Fields • 59 Recommended Antennas • 6 Refreshing the Display in the IH Browser • 42, 48, 118, 119, 150 Remote IP Settings • 109 Repeater Parameters Settings • 96 Replacing an Existing Radio • 33, 55, 91 Resetting a RLX2-IHx series Radio • 33, 44, 58, 131, 148 Resetting All Other Radios • 149 Resetting IH Browser Columns • 120 Resetting the RLX2-IHNF-W and RLX2-IHNF-WC • 148 RLX2 Controller Tags • 159 RLX2.CONTROL • 159 RLX2.STATUS • 160 RLX2-IHA Detailed Specifications • 201 RLX2-IHA, -IHG, -IHNF, -IHW • 20 RLX2-IHG Detailed Specifications • 202 RLX2-IHNF, RLX2-IHA, RLX2-IHG, RLX2-IHW • 4 RLX2-IHNF, -W, -WC Detailed Specifications • 204 RLX2-IHNF-W • 4, 21 RLX2-IHNF-W Cables (sold separately) • 21 RLX2-IHNF-W Radio Connections • 35 RLX2-IHNF-WC • 5, 22 RLX2-IHNF-WC Radio Connections • 37 RLX2-IHW Detailed Specifications • 206 RLX2-IHW, IHNF, IHG, IHA Radio Connections • 34 RLX2-IHx series Approved Antennas • 189, 191 RLX2-IHx series Quick Setup • 33 Roam Control Settings • 88 Selecting a DFS 5 GHz Channel • 172 Serial Encapsulation Mode Setting • 108 Setting the Event Log Filter • 141, 142 Setting the Radio IP Address in the IH Browser • 42, 128 Setting Up a Master Radio • 46, 72 SNMP Agent • 105 Spanning Tree Protocol • 101 Start Here • 15 Starting the IH Browser • 24, 32, 41, 118, 130 STP Settings • 98, 101 Support, Service & Warranty • 211 Switching between List and Topology Views • 120, 121, 124 Temporary IP Address, Assigning • 42 Testing the Network Installation • 27, 30 Topology View Description • 120, 124 Transparent Support of VLAN Tags (802.1Q) • 176 ProSoft Technology, Inc. October 30, 2017 RLX2-IHx series ♦ 802.11a, b, g, n Industrial Hotspots Glossary of Terms User Manual Unable to scan for AP's error message • 149 Updating the Radio Firmware • 63, 132 Using the IH Browser to Configure Radios • 30, 41 Using the IH Browser to Manage your Radios • 24, 32, 41, 117 Viewing a Radio's Configuration • 55 Viewing Additional Data in the IH Browser • 125, 130 Viewing Available Parents for a Radio • 64, 65, 138 Viewing Ethernet Nodes in the IH Browser • 137 Viewing Network Data in the IH Browser • 135 Viewing Parent Radios in the IH Browser • 143 Viewing Radio Status • 63 Viewing the Port Table in the IH Browser • 140 Viewing the Radio Address Table • 64, 66 Viewing the Radio Event Log in the IH Browser • 141 Viewing the Radio Port Status • 64, 67, 103 Viewing the Radio Properties • 121, 126 Viewing the Radios in the IH Browser • 41, 118 Viewing the Scan List in the IH Browser • 138, 144 Viewing Wireless Clients in the IH Browser • 136 Warranty Information • 212 WEP Key • 75, 77, 78 Whip Antennas • 189 Wireless Security Settings • 74, 76, 98 Yagi Array Antenna • 190 Your Feedback Please • 2 ProSoft Technology, Inc. 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