Page 1
™ MDS entraNET ™ MDS entraNET 2400 Access Point Remote 900 MHz and 2400 MHz Extended Range IP Networking Transceivers Firmware Code 3.0 05-4055A01, Rev. E JANUARY 2011...
Page 2
Quick Start Instructions Listed below are the basic steps for installing GE MDS entraNET transceivers. Refer to the appropriate sections in the manual for detailed information. Initial Checkout • Set the equipment up in a tabletop arrangement as described in...
Replacing Legacy Wireless Products ....................9 Supplementing a Legacy Wireless Network with IP Services............9 1.3.5 P22 Protected Network (Redundant) Configuration ..............9 1.4 GE MDS SECURITY SUITE ....................10 1.4.1 Intrusion Detection via SNMP Traps ..................11 1.5 ACCESSORIES ........................12 ...
Page 4
Set Key AP Parameters ......................... 23 STEP 4—CONFIGURE THE REMOTE RADIO ................24 Log-in and Configuration........................ 24 Set or Verify Network Address ....................... 25 STEP 5—CONNECT TERMINAL EQUIPMENT................26 Ethernet Device Connection to Remote..................26 Serial Device Connection to Remote .....................26 STEP 6—CHECK FOR NORMAL OPERATION ................
Page 5
IP-to-Serial Services ........................55 Configuration..........................56 Serial Configuration Wizard ......................56 3.6.2 Local Serial Configuration Menu ....................57 View Current Settings Screen—Serial-to-Serial Example ............. 59 View Current Settings Screen—Unicast UDP Mode Example............61 3.6.3 Remote Serial Gateway Configuration (IP-to-Remote Serial) ..........62 3.7 SECURITY CONFIGURATION...................
Page 6
4 REMOTE RADIO MANAGEMENT ....99 4.1 INTRODUCTION ......................101 4.2 Programming Methods...................... 101 4.2.1 Terminal Interface Mode ......................101 4.2.2 Remote Management via the AP ...................101 4.3 Log-in Procedure ......................
Page 7
6 INSTALLATION ......147 6.1 INSTALLATION ......................... 149 6.1.1 General Requirements ......................149 6.1.2 Site Selection .........................149 6.1.3 Conducting a Site Survey .......................150 Terrain and Signal Strength......................150 A Word About Radio Interference ....................150...
Page 8
GE MDS and our customers as we look forward to further demonstrating our abilities in new and emerging markets. As your wireless needs change you can continue to expect more from GE MDS. We'll always put the performance of your network above all. Visit us at www.gemds.com...
Page 9
FCC Rules and Regulations. Any unauthorized modification or changes to this device without the express approval of GE MDS may void the user’s authority to operate this device. Furthermore, this device is intended to be used only when installed in accordance with the instructions outlined in this manual. Failure to comply with these instructions may also void the user’s authority to operate this device.
Page 10
viii MDS entraNET Technical Manual 05-4055A01, Rev. E...
Chapter 9 are italicized on first appearance. 1.1.1 Supplemental Information Online Release notes, manual updates, and other supplemental materials are available online for many GE MDS products. For more information, visit us at online at www.gemds.com. 1.2 PRODUCT DESCRIPTION...
Page 14
U.S.A., Canada, and many other countries. Check the regulations in your country before placing the radios on the air. Network security is a vital issue in today’s wireless world. The GE MDS Security Suite MDS entraNET system provides multiple tools to help you build a network that minimizes the risk of eavesdropping or unauthorized access.
Page 15
• Robust radio communications—Designed to perform in high-interference environments • GE MDS Security Suite—Blocks common attack schemes and prevents “rogue” hardware from gaining access to or control of a network. Common attack events are logged and reported using alarms. •...
1.2.1 Model Offerings The MDS entraNET system includes two primary radio types— APs and Remotes. Table 1-1 summarizes the interface capabilities for each entraNET radio type. NOTE: A Remote can serve multiple endpoint MAC addresses if the Remote is provided an authorization code. Table 1-1.
• An AP can only talk over-the-air to Remote radios; however, two APs can communicate with each other through their Ethernet connectors when a wired LAN/WAN is utilized. Invisible place holder Ethernet Device Remote Ethernet Device Remote Remote Ethernet Device Ethernet Remote Device...
Repeater site without the need for an additional Remote radio. 1.3.3 DNP3 Protocol-Aware Networks The GE MDS implementation of Distributed Network Protocol 3 (DNP3) allows the transfer and routing of DNP3 messages between serial devices, while also supporting the conversion to an IP Ethernet network.
Millions of wireless data products have been sold in the last two decades for licensed and license-free operation, many of them manufactured by GE MDS. There are several ways that these systems can benefit from employing MDS entraNET wireless equipment, including flexible serial and Ethernet interfaces, higher data throughput, and ease of installation.
For system-level information on this product, see GE MDS publication 05-4161A01. Invisible place holder Figure 1-4. GE MDS P22 Protected Network Station (incorporates two MDS entraNET APs) 1.4 GE MDS SECURITY SUITE Today, the operation and management of an enterprise is becoming increasingly dependent on electronic information flow.
Table 1-2. Security Risk Management Security Risk The MDS entraNET Solution Denial of service, where Remote radios Remote log-in could be reconfigured with bad parameters, bringing the network down Local console log-in HTTP (Hypertext Transfer Protocol) and Telnet disabled, enabling only local management services ...
1.5 ACCESSORIES MDS entraNET transceivers may be used with the accessories listed in Table 1-3. Contact GE MDS for ordering details. Table 1-3. Accessories Accessory Description GE MDS Part AC Power A small power supply module designed for 01-3682A02 Adapter Kit continuous service.
Page 23
Table 1-3. Accessories Accessory Description GE MDS Part Flat-Surface Brackets: 2 in. x 3 in. plates designed to be 82-1753-A01 Mounting screwed onto the bottom of the radio for Brackets and surface-mounting the radio. Screws Screws: 6-32, 1/4 in. with locking adhesive.
TABLETOP SETUP AND EVALUATION 2 Chapter Counter Reset Paragraph 2.1 INTRODUCTION 2.2 CONNECTOR OVERVIEW 2.3 TEST SETUP STEP 1—CONNECT THE ANTENNA PORTS ........19 STEP 2—MEASURE AND CONNECT DC POWER......19 STEP 3—CONFIGURE THE AP ............22 Log-in and Configuration ..............22 Set Key AP Parameters..............23 STEP 4—CONFIGURE THE REMOTE RADIO .......24 Log-in and Configuration ..............24 Set or Verify Network Address............25...
2.1 INTRODUCTION Prior to installation in the field, you should set up the radio system in an office or lab and become familiar with its operation and features. This also allows tests of various network designs and configurations prior to arrival at a field site.
Invisible place holder ANTENNA 50Ω TNC +30 dBm/1W Out (Max.) –30 dBm Input (Max.) 10-Base-T IP/Ethernet Port IP Address: 192.168.0.1 PRIMARY POWER 6–30 Vdc (800 ma @ 13.8 Vdc) COM1 Negative Ground DCE (Console/Terminal only) 19,200 bps/8N1 No Handshaking RS/EIA-232 COM2 DCE (Connects to serial data equip.) 9,600 bps/8N1...
STEP 1—CONNECT THE ANTENNA PORTS Figure 2-3 is a drawing of a tabletop arrangement. Connect the antenna ports of each transceiver as shown through attenuators and an RF power divider. This provides for stable communications between each radio, while preventing interference to nearby electronic equipment. Invisible place holder Remote POWER ATTENUATORS...
Page 30
Invisible place holder Lead Binding Screws (2) Wire Ports Figure 2-4. Power Connector (polarity: left +, right –) The transceiver must be used only with nega- CAUTION tive-ground systems. Make sure the polarity of the POSSIBLE POSSIBLE power source is correct. The radio is protected from EQUIPMENT EQUIPMENT DAMAGE...
Therefore, use a power supply that is rated appropriately for the radio if possible—avoid using power supplies that far exceed the radio’s current requirements. Direct any questions you may have about interfacing to GE MDS radios to GE MDS Technical Services at gemds.techsupport@ge.com, or telephone +1-585-241-5510.
NOTE: The exact parameters given above must be used for console terminal communication. Improper settings are a common cause of difficulty. To configure the AP using its port: Telnet Connection Using the AP LAN Port (a valid IP 1. Connect a PC Ethernet port to the AP with an Ethernet crossover address must be set) cable.
Table 2-1. Key AP Parameters and Defaults Menu Item Management System Loca- Default Values or Range tion IP Address Main Menu >> Network 192.168.1.1 Contact your Network Configuration > IP Administrator. Configuration If IP Address Mode (below) is set to Dynamic, IP Address is configured automatically.
• hardware flow control disabled • VT100 emulation NOTE: The exact parameters given above must be used for console terminal communication. Improper settings are a common cause of difficulty. Invisible place holder Invisible place holder Invisible place holder Invisible place holder Invisible place holder Figure 2-6.
4. Repeat Steps 1 through 3 for each Remote radio to be installed in the network. This concludes the basic setup of a Remote radio. A full listing of Remote programming commands is given in CHAPTER 4 REMOTE RADIO MANAGEMENT, beginning on Page With all radios connected, you are ready to connect data devices to the transceivers so that their operation can be tested over the wireless network.
Table 2-2 provides details on the LED functions for Remotes and AP radios. Table 2-2. Transceiver LED Functions LED Label Activity Indication LAN/ETH LAN or endpoint detected Blinking Data TX or RX LAN or endpoint not detected COM1 Blinking Data TX or RX (MGT System) No data activity COM2...
Serial Connections To check a serial connection, refer to Local Serial Configuration Menu on Page 57. This section contains details on establishing an IP-to-serial or serial-to-serial connection. 05-4055A01, Rev. E MDS entraNET Technical Manual...
AP MANAGEMENT 3 Chapter Counter Reset Paragraph 3.1 INTRODUCTION 3.1.1 PC-Based Configuration Software ..........31 3.1.2 Menu Structure ................32 3.1.3 Differences in the User Interfaces ..........35 3.2 ACCESSING THE MENU SYSTEM 3.2.1 Methods of Control ..............36 3.2.2 PC Connection and Log-In Procedures ........37 3.2.3 Navigating the Menus ..............42 Navigating via Terminal or Telnet Sessions Recommended for first-time users ...........42...
Page 40
3.7 SECURITY CONFIGURATION 3.7.1 Security Configuration Menu ............65 3.8 WIRELESS NETWORK MENU 3.8.1 Remote Management Submenu ..........70 Manage Selected Remote Submenu ......................71 Broadcast Remote Reprogramming Menu ......................72 Remote Database Menu..............74 Group Database Menu ..............75 Endpoint Database Menu ..............75 Access Point Database Menu ............76 3.9 STATISTICS AND EVENT LOG 3.9.1 COM1 and COM2 Data Statistics Menus ........78...
NETview MS™ software. Refer to GE MDS publication 05-2973A01 for more information on this product. For support of other SNMP software, a set of MIB files is available for download from the GE MDS Web site at www.gemds.com. The entraNET MS has the following functions: •...
The commands for Remote radios are presented separately in CHAPTER 4 REMOTE RADIO MANAGEMENT, beginning on Page NOTE: Any parameter options, ranges, or default values are displayed at the end of the field description between square brackets. The default value is always shown last in a series of items. For example: Range, Options Description;...
Page 43
Invisible place holder MAIN MENU—Diagram 1 of 2 Starting Information Screen (read-only items) Network Security Local Serial Radio Remote Serial Configuration Configuration Configuration Configuration Gateway Ethernet Address RF Output Approved Remotes Com 1/2 Serial RSG Talkback Enable Power Data Wizard IP Configuration Encryption Enable RSG Talkback Timeout...
Page 44
Invisible place holder MAIN MENU—Chart 2 of 2 Starting Information Screen (read-only items) Wireless Network Statistics/Event Log Device Maintenance/Tools Redundancy DNP3 Routing Information Reprogramming Redundancy Configuration DNP Routing Enable Database Timeout Model Number COM 1/2 Data Stats Network Event Triggers DNP Multicast Address Max Remotes Serial Number...
3.1.3 Differences in the User Interfaces There are slight differences in navigation between Telnet, terminal, and Web interfaces. Generally, the screen content is the same. There are minor differences in capabilities from limitations of the access channel. Below are samples of the Starting Information Screen as seen through a terminal session and a Web browser.
3.2 ACCESSING THE MENU SYSTEM The radio has no external controls. All configuration, diagnostics and control is performed electronically using a connected PC. This section explains how to connect a PC, log in to the radio, and access the built-in menu screens.
3.2.2 PC Connection and Log-In Procedures The following steps describe how to access the radio menu. These steps require a PC to be connected to the port on the radio, as COM 1 shown in Figure 3-5. To COM1 or LAN Port (See Text) Serial or Ethernet Crossover Cable...
Page 48
NOTE: If the radio is powered up or restarted while connected to a terminal, a series of pages of text relating to the startup of the internal microcomputer is displayed. Wait for the log-in screen before proceeding. 4. Press to receive the prompt.
Page 49
NOTE: When using a Local Area Network (LAN) to access the radio, it may be necessary to change the computer IP access to the LAN in order to be compatible with the entraNET radio (compatible subnets). You can identify or verify the radio IP address by using a Local Console session to communicate with the entraNET radio through its port and viewing the...
Page 50
Invisible place holder Figure 3-8. Starting Information Screen—Telnet Example NOTE: This method requires that you know the IP address of the radio Starting a Web Browser Session to which you are connecting. If you do not know the address, start a Local Console session (see Starting a Local Console Session (recommended for first-time users) on Page 37) and...
Page 51
Invisible place holder Figure 3-9. Log-in Page when using a Web Browser NOTE: Passwords are case sensitive. Do not use punctuation marks. You may use up to eight alphanumeric characters. 5. Click . The radio responds with a startup menu (Figure 3-10).
3.2.3 Navigating the Menus Navigating Using Terminal or Telnet Sessions Recommended for first-time users Local console and Telnet sessions use multi-layered text menu systems that are nearly identical. • To select a menu item, press the letter shown at the beginning of that item.
Log Out Using a Click in the left-hand frame of the browser window. The Logout Web Browser right-hand frame changes to a log-out page. Follow the remaining instructions on this screen. This completes the instructions for connecting to the entraNET radio for PC configuration and control.
Location radio location (40 characters maximum). • —Unique identifier for this device. It must be Serial Number provided to GE MDS when purchasing Authorization Keys to upgrade radio capabilities. See “ Authorization Codes Menu” on Page • —Elapsed time since the transceiver was powered up.
• —Places the radio in a “1+1” Redundancy redundancy-compatible mode. This mode is specifically for use with GE MDS P22 packaged model chassis. Check with your GE MDS sales representative for available configurations. See “REDUNDANCY MENU” on Page • —This selection provides access to a submenu DNP3 Routing where you can manage DNP3 routing attributes.
Mobility Configuration • —Details that control the operation of the SNMP Configuration Simple Network Management Protocol (SNMP). SNMP is used in conjunction with GE MDS NETview MS software. See publication 05-2973A01 for details. • —Specialized parameters for the operation Bridge Configuration of Ethernet bridging, including priority and forward delay settings.
Page 57
Figure 3-14. IP Configuration Menu When static IP addressing is used, the user must manually configure the IP address and other parameters. When dynamic addressing is used, the radio uses a Dynamic Host Configuration Protocol (DHCP) Client process to obtain an IP address from a DHCP Server, along with other parameters such as a net mask and a default gateway.
• —Displays the IPv4 address of the default Current IP Gateway gateway device, typically a router. NOTE: The radio is not a router, so all IP parameters access local management only and have no effect on the routing of system data.
3.4.4 Mobility Configuration Menu Invisible place holder Figure 3-16. Mobility Configuration Menu Invisible place holder • —This parameter controls intra-cell BSP Routing Enable transmission and routing of Basic Serial Protocol packets.[ Enabled Disabled Disabled • —This parameter enables the Inter-Access Point IAPP Enable Protocol (IAPP), which allows APs to pass payload data over the Ethernet LAN.
—The alphanumeric string that appears in the SNMP V3 Agent ID upper right-hand corner of the screen. The entry of this string is required in non-GE MDS SNMP manager programs (for example, SNMPc). Refer to program documentation for details. •...
• —Current state of the authentication traps. Auth Trap Enable Disabled/Enabled; Disabled • —Determines whether v3 passwords are SNMP v3 Password Mode managed locally or using an SNMP Manager. The different behaviors of the Agent, depending on the mode selected, are described in above.
3.5 CONFIGURING RADIO PARAMETERS There are two primary data layers in the MDS entraNET network—radio (RF) and data. The data layer is dependent on the radio layer to work properly. The Radio Configuration Menu is the primary menu used to set radio parameters. This screen includes the Skip Zone Options Submenu.
• —Sets the maximum number of attempts Unicast Retry Count made to deliver point-to-point messages. Higher values are more reliable, but increase over-the-air congestion. [ 0-14; 10 • —Displays the current use of (editable at AP only) Skip Zones frequency zones. Each zone consists of 16 RF channels. See “Skip Zones Menu”...
Table 3-1 shows the frequency range covered by each zone for 900 MHz radios. Table 3-2 shows the same information for 2400 MHz radios. Table 3-1. Frequency Zones (900 MHz systems) ZONE 1 ZONE 2 ZONE 3 ZONE 4 ZONE 5 ZONE 6 ZONE 7 ZONE 8...
Invisible place holder Figure 3-21. Conceptual Views of Radio System Usage The AP includes an embedded terminal server that provides access to Remote serial ports using an IP or serial connection at the AP. In this capacity, it acts as a gateway between IP and remote serial devices (thus the name “serial gateway”), or a transparent over-the-air serial-to-serial connection.
provides the needed multidrop operation by means of multicast addressing, where multiple remote devices receive and process the same poll message. On the other hand, TCP services are best suited for applications that do not have a recovery mechanism and must have the guaranteed delivery that TCP provides despite its extra overhead.
3.6.2 Local Serial Configuration Menu Figure 3-22. COM1/2—Local Serial Configuration Menu • )—Defines whether the specified COM1 COM2 Port Status port is enabled or disabled to pass payload data. COM1 typically disabled to allow it to be used for console terminal control.
Page 68
Figure 3-23. Serial Configuration Wizard (Initial Screen) To start the Serial Configuration Wizard, choose . The Begin Wizard Wizard presents an opening screen (Figure 3-24) where you select the method the host computer uses to connect to the radio. Invisible place holder Figure 3-24.
View Current Settings Screen—Serial-to-Serial Example If you choose from the Serial Configuration Wizard View Current Settings Menu, you see a summary screen (Figure 3-25) showing the serial configuration settings. This is the same screen that is also shown at the end of the configuration process.
Page 70
• —Set the method the host uses to connect to the radio. Mode Serial, Network; Network • —Specify the Remote(s) to which Remote UnitID transmissions are directed. Enter “broadcast” to send transmissions to all Remotes, or enter the Unit ID number of a particular Remote for unicast (directed) data.
View Current Settings Screen—Unicast UDP Mode Example Figure 3-26 shows a sample View Current Settings Screen for a system configured for Unicast UDP mode. The selections shown are similar to the serial-to-serial example above, but some items are UDP specific. Invisible place holder Figure 3-26.
address and port number of the host to send data to (at the remote end). • —A dynamically assigned software port used by TX IP Port external applications such as HMI interfaces, host polling programs, and so on. • —Used to enable or disable Talkback mode. Talkback Enable Enabled, Disabled;...
Page 73
Invisible place holder Figure 3-27. Remote Serial Gateway Menu—Initial Screen • (UDP IP-to-Serial)—When Talkback is RSG Talkback Enable enabled and the RSG is set up for UDP mode, a message from a Remote radio (usually a reply to a poll) is sent to the last IP address or port from which a message was received.
Invisible place holder Figure 3-28. Remote Serial Gateway (RSG) Entries Menu (TCP configuration; UDP is similar) • —Enter , or enter the Unit ID of the Remote Unit ID Broadcast for unicast (directed) data. The Unit ID defaults to the last four digits of the radio serial number, but can be set to any 32-bit integer.
remote access to the network using Telnet, Web browser, and SNMP. Other areas include multiple levels of encryption and MD5-level security for HTTP connections. The Security Configuration Menu (Figure 3-29) contains all of the settings related to these functions. NOTE: Security enhancements entraNET 2.3.0...
Page 76
Approved Remotes List Menu below. • —Allows management of the Approved Remote Access Manager Remotes List using optional GE MDS Remote Access Manager software (Part Number 06-4490A01). Set the Remote multicast address to use with the setting (listed below). Remote Access IP Enabled, Disabled;...
Page 77
Making the password as long as possible (up to the full eight characters) also improves its security. • —Remote multicast address to use when Remote Access IP running optional GE MDS Remote Access Manager software (see above). [ Remote Access Manager Default=239.254.1.10 05-4055A01, Rev.
Page 78
Approved Remotes List Menu Figure 3-31. Approved Remotes List Menu The AP restricts communication to only those Remotes included in the Approved Remotes List. Messages received from Remotes that are not in this list are discarded. • —Enter the Remote serial number. This Add Approved Remote entry must consist of seven or more characters.
3.8 WIRELESS NETWORK MENU The Wireless Network Menu (Figure 3-32) monitors the operation of Remote radios in the network, regardless of the type of data they are passing (Ethernet or serial) from the perspective of the AP. This information is stored in a local database at the AP, and is not sent to the Remotes.
• —This selection is used to specify whether EndPoint Logging endpoint logging is enabled or disabled. [ Enabled, Disabled; Enabled 3.8.1 Remote Management Menu The Remote Management Menu (Figure 3-33) allows selection of a particular Remote to manage, based on the radio Unit ID number (generally the last four digits of its serial number).
Manage Selected Remote Menu Figure 3-34. Manage Selected Remote Menu • —Selecting this item brings up a submenu Device Information (Figure 3-36) where you can change a Remote radio Owner , and . Hardware and software version information, Name Location including the bootloader version, is also displayed.
Figure 3-35. Remote Reprogramming Menu (Single Remote) Invisible place holder • —This field shows the Unit ID of the Remote Remote to Manage to be managed. • —There are two available firmware Package (Image) to Transmit images in the AP. This allows selection of either image to be transmitted to the remote.
Page 83
Broadcast Broadcast reprogramming is used to upgrade the firmware of all radios reprogramming with in a network. If your network contains a mix of radios with 2.x and 3.x different firmware version firmware, it is normal to see the status message “Some Remotes versions on a Failed Programming”.
Remote Database Menu The Remote Database Menu (Figure 3-37) shows several parameters related to the associated Remotes. It is updated about once every 8 sec. Invisible place holder Figure 3-37. Remote Database Menu • —The unit ID of the associated remote. UnitID •...
Group Database Menu The Group Database Menu (Figure 3-38) shows the remotes associated with this AP that belong to the specified Group ID. Invisible place holder Figure 3-38. Group Database Menu • —Allows the selection of a particular group and displays the Group ID remote radios defined for the group.
Invisible place holder Figure 3-39. Endpoint Database Menu (Lists all equipment attached to Remote transceivers in the network) • —Ethernet address of the endpoint device. MAC Address • —Number of minutes until the device (address) is removed AgeOut from the table. Each transceiver maintains a table with the addresses of the devices it communicates with.
Invisible place holder Figure 3-40. Access Point Database • —Factory-assigned serial number for the AP. Serial Number • —IP Address of the AP. IP Address • —Current number of Remotes connected to Number of Remotes the AP. • —Lists all Remotes (by Unit ID number) that are List of Remotes currently connected to the AP.
• —These screens show in and out bytes COM1/COM2 Data Statistics for the ports. COM1 COM2 • —Shows Unit ID, status, and Remote Serial Gateway Statistics throughput data for associated Remotes. • —Shows vital data on packets, in and out Ethernet Packet Statistics bytes, errors detected, and lost Ethernet carriers.
3.9.2 Remote Serial Gateway Statistics Menu The Remote Serial Gateway Statistics menu (Figure 3-43) summarizes port activity for Remote Serial Gateway entries that have been set up for IP-to-Remote serial data. These values are reset to zero when a radio is restarted.
3.9.3 Ethernet and Wireless Packet Statistics Menu The Ethernet/Wireless Packet Statistics menu (Figure 3-44) shows vital data on packets and bytes sent or received, and errors detected. The screen is updated approximately every 3 sec. Figure 3-44. Sample Packet Statistics Menu Ethernet Packet Statistics •...
• —Packets that do not pass a Cyclic Redundancy Receive errors Check (CRC). This may be due to transmissions corrupted by RF interference. • —Resets the statistics counter. Clear Statistics 3.9.4 Radio Packet Statistics Menu The previous screen dealt with Ethernet-related information. The Radio Packet Statistics screen (Figure 3-45) contains statistics that relate...
3.9.5 Event Log Menu The microprocessor within the transceiver monitors many operational parameters and logs them. Events are classified into four levels of importance, which are described in Table 3-3. Some of these events result from a condition that prevents the normal operation of the radio; these are “critical”...
Page 93
Invisible place holder Figure 3-47. View Event Log Screen Invisible place holder • —Purges the log of all stored events. Clear Event Log TIP: Save your Event Log before clearing it to retain poten- tially valuable troubleshooting information. See USING CONFIGURATION SCRIPTS on Page 181 for an over- view of how to transfer files from the transceiver to a com-...
3.10 DEVICE INFORMATION MENU The Device Information menu (Figure 3-48) displays basic administrative data on the radio to which you are connected. It also provides a date and time display, Console Baud Rate setting, and customer-specific parameters under the Device Names selection. Invisible place holder Figure 3-48.
Device Names Menu Figure 3-49. Device Names Menu • —Device Name, used by the transceiver as the Device Name realm name for network security and menu headings. • —Customer defined; appears on this screen only. Contact • —Customer defined; appears on this screen only. Location •...
• Authorization Codes (Keys)—Alter the radio capabilities by enabling the built-in resources using purchased keys. See “ Authorization Codes Menu” on Page 91 • Transmitter Test—Diagnostic commands for RF transmitter. See “ Transmitter Test Menu” on Page Figure 3-50. Maintenance/Tools Menu 3.11.1 Reprogramming Menu The AP transceiver has two copies of the firmware (microprocessor code) used for the operating system and applications.
Figure 3-51. Reprogramming Menu • —IP address of the host computer from which TFTP Host Address to get the file. [ Any valid IP address • —Name of file to be received from the TFTP Firmware Filename server. Verify that this string corresponds to the TFTP directory location.
Page 98
configuration file (data file). However, only a few essential parameters need to be reviewed and altered to use the file with another transceiver. A configuration file makes it easy to apply your unique settings to any transceiver(s) you wish. Configuration files also provide you with a tool to restore parameters to a known working set, in the event that a parameter is improperly set and performance is affected.
3.11.3 RSG Configuration Scripts Menu The RSG Configuration Scripts Menu (Figure 3-53) is used to manage the download of configuration script files for the transceiver. Invisible place holder Figure 3-53. RSG Configuration Script Menu • —This is the IP address of the host RSG Config Host Address computer.
Page 100
PING Utility Menu Use the PING Utility Menu (Figure 3-54) to verify IP connectivity with LAN nodes or Ethernet endpoints. Figure 3-54. PING Utility Menu • —Address to send a Address to Ping PING Any valid IP address • —Number of packets to be sent.
At the time of publication, available features include GE MDS NETview MS and DNP3 Handling. In the examples shown, GE MDS NETview MS is shown as an authorized and enabled feature, and DNP3 Handling is disabled. NETview MS software helps you monitor system performance,...
3.11.5 Transmitter Test Menu This screen (Figure 3-56) allows testing of the radio transceiver RF transmitter section (power amplifier). Selections of specific frequencies and key duration, as well as transmit key behavior, can be modified from this screen. This function is useful for troubleshooting specific radio amplifier issues.
Redundancy Menu contains selections and settings that are used to manage redundancy functions. NOTE: Redundancy functions require the presence of a supervisory board (GE MDS Part No. 03-6061Axx). Ask your GE MDS representative for details. Invisible place holder Figure 3-57. Redundancy Menu •...
Page 104
Invisible place holder Figure 3-58. Network Event Triggers Menu • —This selection presents a submenu (see Hardware Event Triggers Figure 3-59) with parameters related to local alarm conditions. Figure 3-59. Hardware Event Triggers Menu • —This selection presents a Redundancy Configuration Options submenu (see Figure 3-60 on Page 95) for network event...
Page 105
Figure 3-60. Redundancy Configuration Options Menu • —This selection invokes an immediate Force Switchover switchover from the active to the standby radio. Invisible place holder • —This selection is used to enable or Network Interface Error disable redundancy switchover on the occurrence of a Network Interface Error.
Invisible place holder Figure 3-61. Lack of Associated Remotes Exceeded Threshold Menu • —This selection shows Packet Receive Errors Exceeded Threshold another screen (see Packet Rx Errors Exceeded Threshold Menu below) where you can specify the number of packet errors that must be exceeded in a given time frame before a redundant AP considers itself to be malfunctioning.
Invisible place holder Figure 3-62. Packet Rx Errors Exceeded Threshold Menu These configuration settings are intended for data-intensive applications and must be customized for your specific application. —Specify the number of packet errors that must Maximum Receive Errors be exceeded before a redundant AP considers itself to be malfunctioning.
Page 108
Figure 3-63. DNP3 Routing Menu • —Enables or disables the DNP3 routing DNP Routing Enable function. [ Enabled, Disabled; Disabled • —Specifies the group address with which DNP Multicast Address to exchange UDP-encapsulated messages with other IP devices that are DNP3 aware. This includes PCs, endpoint devices, and other APs.
4.1 INTRODUCTION Local configuration of Remote transceivers is performed through a PC terminal connected to the port of the radio. This section explains COM1 how to establish a console session with the Remote, and provides a complete list of commands. 4.2 Programming Methods 4.2.1 Terminal Interface Mode You can use a PC program such as HyperTerminal to establish a terminal...
2. At the prompt, enter your username ( is the default). username admin 3. At the prompt, enter your password ( is the default). Password admin 4.4 Commands Table 4-1 on Page 103 provides a quick reference to the various commands for the Remote transceiver.
Table 4-1. Remote Commands—Quick Reference COMMAND DESCRIPTION COMMAND DESCRIPTION When entered after a command in this list, HELP Lists commands supported for the logged-in (after a com- shows detailed information and allowable user. See also the command at the mand) entries.
Page 114
APLIST Configures a list of approved APs. Optional arguments: —Configures a list of approved APs. is a number from APx=<integer> 1–50, and is the serial number of an approved AP (1–99999999). integer To delete an entry, enter a serial number of 0; this indicates that the slot is not filled.
Page 115
—Sets or displays the port default mode on COM1 DEFAULT=<mode> startup. cannot be set to unless the device has been DEFAULT DATA authorized for serial payload. defaults to command-line mode. COM1 CONSOLE defaults to transparent data mode. COM1 DATA defaults to in Basic Serial Protocol mode. COM1 defaults to internal loopback mode.
Page 116
—Sets the inter-packet receive gap size in character RXDELAYCHARS= times (1-65535). —Sets the inter-packet delay in milliseconds (1-65535). The TXDELAY= minimum setting should be set to two times the TXDELAY Dwelltime setting. When is set to less than twice the setting, the TXDELAY Dwelltime...
Page 117
NOTE: You can use the CTS output from an entraNET radio for Data Carrier Detect (DCD) sense. It is always asserted (high) when flow control is set to NONE The radio asserts this line as long as it can accept CTS_CTRL: data on the serial port.
Page 118
—Sets the console port interface mode. cannot be MODE=<mode> MODE set to unless the device has been authorized for serial payload. To DATA escape from data mode, enter three consecutive + characters to COM2 with at least 100 ms between entries. —Places in command-line mode.
Page 119
—Sets or displays the radio location (1-40 ASCII characters). LOCATION —(read only) Displays the current system uptime in the format UPTIME <YY-MM-DD hh:mm:ss> —Device serial number. DIRECT Sets or displays the configuration for direct-mode operation (Remote-to-Remote). This is a special mode intended primarily for railroad applications where Remotes communicate with each other.
Page 120
—Sets or displays the network (system) address NETADDR=<netaddr> (0-30000) when in direct mode. mode, this command sets the radio power PWR=<range integer>— ROOT setting in dBm (the range depends on the radio model). —In mode, this command sets the REPEAT=<range integer> ROOT Broadbase Repeat Count.
Page 121
—Displays all settable optional arguments and their current values. You can copy this list to a text file as a record of your configuration. Sets or displays the configuration of the Ethernet port. You can set the port to a specific Ethernet address (static mode), or the address can be determined automatically based on the first received packet (autoselect mode).
Page 122
—Displays all settable optional arguments and their current values. You can copy this list to a text file as a record of your configuration. —Number of hand-offs that occurred. COUNT=<integer> —Sets or displays the hand-off configuration, or disables MODE=<mode> hand-offs. : Hand-off is deactivated.
Page 123
Bootloader mode which, if improperly used, causes an undesired state in the radio. If you are instructed to enter the Bootloader mode by GE MDS, be aware that selecting automatically changes the console baud rate to 115200 bps.
Page 124
—Bootloader Image BOOT —Firmware application image 1 APP1 —Firmware application image 2 APP2 —Tor 1 Image TOR1 —Tor 2 Image TOR2 RADIO Sets or displays the radio configuration and status. Optional arguments: —(read only) Displays the associated AP Serial Number. —(read only) Displays whether or not the Remote radio has ASSOC= been associated with an AP.
Page 125
REBOOT Restarts the radio firmware. Optional arguments: —Restarts the radio with the active firmware image. SAME —Restarts the radio with the inactive image. OTHER —Restarts the radio with Application Image 1. APP1 —Restarts the radio with Application Image 2. APP2 SLEEP Sets or displays the low-power operating mode.
Page 126
The source MAC address in the UDP packet is the MAC address from the entraNET AP. These monitoring packets are sent every time there is over-the-air traffic. This command is designed to work with the GE MDS Mobility Application available from GE MDS (Part No. 06-4157A01). MDS entraNET Technical Manual...
XSREV2= 4.6 UPGRADING REMOTE FIRMWARE You can upgrade remote radio firmware using the Remote Firmware Upgrade Utility available from GE MDS. A local PC connection to the radio is required to use this utility. 05-4055A01, Rev. E MDS entraNET Technical Manual...
Page 128
• —When checked, this saves a copy Retrieve/Restore Configuration of your configuration. GE MDS recommends that you check this box before upgrading to ensure that you have a back-up copy of your configuration. MDS entraNET Technical Manual...
SAMPLE CONFIGURATIONS 5 Chapter Counter Reset Paragraph 5.1 INTRODUCTION 5.2 IP-to-Local Serial Application Example Establishing a Connection ..............121 5.3 IP-to-Remote Serial Application Example 5.3.1 Endpoint Device Connected to the AP ........123 5.4 Point-to-Point, Serial-to-Serial Application Example 5.4.1 Step-by-step Instructions for Configuring a Point-to-Point Serial Connection ...................124 5.5 Point-to-Multipoint, Serial-to-Serial Application Example 5.5.1 Step-by-Step Instructions for Configuring a Point-to-Multipoint...
5.1 INTRODUCTION This chapter provides details of how radios should be configured and connected for specific applications, such as IP-to-serial and serial-to-serial configurations. Only the most relevant parameters are shown for the sake of simplicity. All other parameters are assumed to be set at their default values.
Table 5-1. IP-to-Local Serial Port Application Configuration IP-to-local serial connection (Local Serial Gateway) Radio Location Menu Item Setting AP (COM2) Port Status Enabled Mode RX IP Port 30011 Baud Rate 19200 Byte Format Buffer Size 256 Bytes 5.3 IP-to-Remote Serial Application Example This configuration makes any data sent or received with the AP with an IP port number appear using the serial port of a single Remote (or of all...
5.3.1 Endpoint Device Connected to the AP In this arrangement, information received using an AP Ethernet port is sent to the serial port of the Remotes and the AP local serial port. The reverse is also true, meaning that any data received from the serial port of any Remote or the AP local serial port is encapsulated into an IP packet and sent out the AP Ethernet port.
Invisible place holder Figure 5-4. Point-to-Point Serial-to-Serial Application Diagram Use the Serial Configuration Wizard (Local Serial Configuration menu) to make the settings listed in the table below. Following the table are step-by-step screen images of the Wizard. Table 5-4. Point-to-Point Serial-to-Serial Configuration MDS entraNET Menu Item Setting...
Page 135
4. From the Main Menu, press to select Local Serial Configuration. Figure 5-5. Main Menu 5. The Local Serial Configuration menu displays the status of the AP ports (enabled or disabled). Set the port to COM1 COM2 COM2 “enabled”. Press to select , then press to toggle between...
Page 136
6. Press to start the Serial Configuration Wizard. Figure 5-7. Begin the Serial Configuration Wizard 7. The first screen of the Serial Configuration Wizard prompts for the connection type. Press to select “Serial”. Figure 5-8. Connection Type Selection Screen MDS entraNET Technical Manual 05-4055A01, Rev.
Page 137
8. The Wizard displays a prompt to select a point-to-point or point-to-multipoint connection. Press to select “One Remote” (point-to-point). Figure 5-9. Point-to-Point Selection 9. The Wizard displays a prompt for the Unit ID of the single Remote radio. Press to set the Remote ID (generally the last four digits of the Remote serial number).
Page 138
10.The next screen prompts for the input serial data port. Press then press to toggle to . Press to accept the dis- COM2 SPACE ENTER played selection. Then press to continue. Figure 5-11. Select Remote Port 11.The next screen prompts for the baud rate and byte format. Press to set the Data Baud Rate.
Page 139
12.The next screen prompts for the data buffer size and inter-packet frame delay. Press to select Buffer Size. Press to cycle through the buf- SPACE fer size options until “256” is displayed. Press to accept the ENTER Buffer Size. Press to select Inter Frame Delay.
Page 140
13.The next screen prompts for the Port Status. Press to select Port Status. Press to toggle between “enabled” and “disabled”. SPACE Press when “enabled” is displayed. Then press to continue. ENTER Figure 5-14. Enable Port 14.The final screen displays all the previous settings for your review. The settings should be: •...
Page 141
Figure 5-15. Final Configuration Settings Display If the settings shown on screen match the ones listed above, press to commit the changes and exit the Serial Configuration Wizard. If not, press the letter of the item to change, press to cycle SPACE through the choices, and then press to accept the displayed...
5.5 Point-to-Multipoint, Serial-to-Serial Application Example The operation and data flow for this mode is very similar to a point-to-point serial-to-serial application, except that it uses multicast addressing. The primary difference is that data presented at the AP port is packetized and sent to all of the Remotes. Upon receiving the packet from all of the Remotes, the data is stripped out of the packet and sent from the port.
5.5.1 Step-by-Step Instructions for Configuring a Point-to-Multipoint Serial Connection 1. Connect a powered AP radio to a PC. 2. At the PC, open a connection with the Access Point radio using a terminal, Telnet, or Web browser session. 3. Press to display the Main Menu.
Page 144
Then press to continue. Figure 5-19. Port Configuration Setting 6. Press to start the Serial Configuration Wizard. Figure 5-20. Begin the Serial Configuration Wizard MDS entraNET Technical Manual 05-4055A01, Rev. E...
Page 145
7. The first screen of the Serial Configuration Wizard prompts for the connection type. Press to select “Serial”. Figure 5-21. Connection Type Selection Screen 8. The Wizard displays a prompt to select a point-to-point or point-to-multipoint connection. Press to select “All Remotes” (broadcast).
Page 146
9. The next screen prompts for the input serial data port. Press then press to toggle to . Press to accept the dis- COM2 SPACE ENTER played selection. Then press to continue. Figure 5-23. Select Remote Port MDS entraNET Technical Manual 05-4055A01, Rev.
Page 147
10.The next screen prompts for the baud rate and byte format. Press to set the Data Baud Rate. Press to cycle through the SPACE baud rate options until the baud rate for your equipment is dis- played. In the example below, the baud rate is 19200. Press ENTER to accept the Data Baud Rate.
Page 148
Figure 5-25. Set Buffer Size and Inter Frame Delay 12.The next screen prompts for the Port Status. Press to select Port Status. Press to toggle between “enabled” and “disabled”. SPACE Press when “enabled” is displayed. Then press to continue. ENTER Figure 5-26.
Page 149
• COM2 Remote Unit ID: broadcast • COM2 Remote COM Port: COM2 • COM2 Baud Rate: 19200 • COM2 Byte Format: 8N1 • COM2 Buffer Size: 256 Bytes • COM2 Inter Packet Delay: 4 Character lines Figure 5-27. Final Configuration Settings Display If the settings shown on screen match the ones listed above, press to commit the changes and exit the Serial Configuration Wizard.
In the future, if you need to set up another radio or make changes, you can go directly to this screen by pressing instead of in step 5 above. Figure 5-28. View Current Settings 5.6 Mixed-Mode Application Example In this configuration, the Host PC can use both TCP and serial-to-serial data paths to reach the endpoint devices.
Page 151
• All communication paths can be used simultaneously. Figure 5-29. Mixed Modes Application Diagram Table 5-6. Serial Port Application Configuration MDS entraNET Menu Item Setting radio Location AP (COM2) Port Status Enabled Mode Serial-to-Serial Remote UnitID Broadcast Remote COM Port COM2 Baud Rate 19200...
5.7 Configuring a Group Broadcast Session The following procedure demonstrates how to configure a group broadcast session with Group ID 1: 1. Select to enter the Remote Serial Wizard. Figure 5-30. Remote Serial Wizard 2. Select to choose Figure 5-31. Select TCP Host Connection MDS entraNET Technical Manual 05-4055A01, Rev.
Page 153
3. Select to choose Continue Wizard Figure 5-32. TCP Data Connection Settings 4. Select to choose Continue Wizard Figure 5-33. IP Port Settings 05-4055A01, Rev. E MDS entraNET Technical Manual...
Page 154
5. Select to choose Multicast to Some Remotes Figure 5-34. Multicast to Some Remotes 6. Select Continue Wizard Figure 5-35. Group ID 1 MDS entraNET Technical Manual 05-4055A01, Rev. E...
Page 155
7. Select Commit Changes and Exit Wizard Figure 5-36. Commit Changes and Exit Wizard 8. Enter to confirm the changes. Figure 5-37. Confirm Changes 05-4055A01, Rev. E MDS entraNET Technical Manual...
INSTALLATION 6 chapter Counter reset Paragraph 6.1 INSTALLATION 6.1.1 General Requirements ..............149 6.1.2 Site Selection ................149 6.1.3 Conducting a Site Survey ............150 Terrain and Signal Strength ............150 A Word About Radio Interference...........150 Mounting Dimensions for Radios............152 6.1.4 Antenna and Feedline Selection ..........153 Antennas ..................153 Feedlines ..................154 6.2 HOW MUCH OUTPUT POWER CAN BE USED?
6.1 INSTALLATION PLANNING This section provides tips for selecting an appropriate site, choosing an antenna system, and reducing the chance of harmful interference. 6.1.1 General Requirements There are three main requirements for installing a transceiver—adequate and stable primary power, a good antenna system, and the correct interface between the transceiver and the data device.
6.1.3 Conducting a Site Survey If you are in doubt about the suitability of the radio sites in your system, it is best to evaluate them before a permanent installation begins. This can be done with an on-the-air test (the preferred method), or indirectly using path-study software.
Page 161
This reduces the chance of causing unnecessary interference to nearby systems. If you are not familiar with these interference-control techniques, contact your GE MDS Sales Representative or the GE MDS Technical Support Department for more information. 05-4055A01, Rev. E...
Mounting Dimensions for Radios Figure 6-2 shows the dimensions of the AP transceiver with mounting brackets attached. Figure 6-3 shows the same view for a Remote transceiver. When mounting entraNET transceivers, choose a location that provides easy access to the connectors on the end of the radio and an unobstructed view of the LED status indicators.
DIN rail. To remove the radio, the end opposite the connectors.) pull down on the release tab. Figure 6-4. DIN Rail Mounting Details for GE MDS Equipment 6.1.4 Antenna and Feedline Selection Antennas The equipment can be used with a number of antennas. The antenna type used depends on the physical size and layout of a system.
Invisible place holder High-gain Type Unity-gain Type Figure 6-5. Typical Omnidirectional Antennas At remote sites, and for radios in point-to-point LANs, a directional Yagi (Figure 6-6) antenna is generally recommended to minimize interference to and from other radio systems. Antennas are available from a number of manufacturers.
Page 165
For 900 MHz systems with cable runs of less than 20 ft/6m, an inexpensive cable type such as Type RG-8A/U may be acceptable. For longer runs, or for 2400 MHz systems, GE MDS recommends using a low-loss cable type such as Andrew Corp. HELIAX cable.
6.2 HOW MUCH OUTPUT POWER CAN BE USED? (U.S.A. and Canada, 900 MHz systems) 900 MHz transceivers are normally configured from the factory for +30 dBm (1 W) RF power output. This is the maximum transmitter output power allowed under FCC and Industry Canada rules. The power must be decreased from this level if the antenna system gain exceeds 6 dBi.
Note that a gain of 6 dB or less entitles you to operate the radio at full power output of 30 dBm (1 W). Table 6-4. Antenna System Gain versus Power Output Setting (U.S.A. and Canada only) Antenna System Gain Maximum Power (Antenna Gain in dBi* Setting...
2. Subtract the antenna system gain from 27 dBm (the maximum allowable EIRP). The result indicates the maximum transmitter power (in dBm) allowed under the rules. In the example above, this is 19 dBm. 3. If the maximum transmitter power allowed is less than 27 dBm, reduce the transmit power accordingly using the radio menu system ), or introduce Main Menu>Radio Configuration>RF Output Power Setpoint...
NOTE: Some EU countries mandate lower power outputs and frequency limitations from those referenced here. For example, in France, the transceiver may only be operated in band C (2.4528-2.4782 GHz) at a power level of 10 dBm. Be sure to check the requirements for your region before placing the transmitter on the air.
6.5 OPTIMIZING PERFORMANCE After the basic operation of the radio has been established, you might wish to optimize network performance using some of the suggestions in this section. The effectiveness of these techniques varies with the design of your system and the format of the data being sent. There are two major areas for possible improvement—the radio and the data network.
Page 171
• The number of bytes they can fit into a hop, depending on hop time, is: Table 6-1. Number of bytes per hop Hop time (MS) Bytes/hop Included in the byte count is 9 bytes of overhead per packet. So, at 7 ms without FEC, a 1000 byte packet requires 1009 bytes split into 45 bytes/hop, or 23 hops.
6.5.2 Aiming Directive Antennas for Maximum RSSI The wireless network integrity depends, in a large part, on stable radio signal levels being received at each end of a data link. In general, signal levels stronger than –90 dBm provide the basis for reliable communication that includes a 15 dB fade margin.
6. View the counts at the point of maximum Radio Retries No Ack RSSI level. They should be the same or lower than the previous reading. (Main Menu > Performance Information > Packet Statistics > Wireless Packet Statistics) If the RSSI peak results in an increase in the Radio Retries No Ack counts, the antenna might be aimed at an undesired signal source.
NOTE: Reprogramming does not work over the air when the settings are used at the AP. Hop Time Encryption To Maximize Overall Data Performance • Change the for serial ports to the maximum of 1500. Buffer Size Longer packets are sent over the air, reducing overhead. On the down side, if a packet is corrupted, it takes longer to retransmit.
TROUBLESHOOTING AND RADIO TESTS 7 Chapter Counter Reset Paragraph 7.1 TROUBLESHOOTING 7.1.1 Interpreting the Front Panel LEDs ..........167 7.1.2 Troubleshooting Using the Embedded Management System ...168 Serial Port and Remote Serial Statistics Menu .......171 Diagnostic Tools ................171 7.1.3 Using Logged Operation Events ..........172 05-4055A01, Rev.
If problems cannot be resolved using the guidance provided here, review GE MDS Assistance the GE MDS Web site’s technical support area for recent software or firmware updates, general troubleshooting help, and service information. Additional help is available through the GE MDS Technical Support Department.
Table 7-1. Symptom-Based Troubleshooting Using LEDs Symptom Possible Cause and Resolution PWR LED does not a. The voltage is too low, or is the wrong polarity. Check for turn on. the proper supply voltage at the power connector (6–30 Vdc). See Figure 2-4 on Page 20 for polarity details.
Page 179
may be used remotely to provide preliminary diagnostic information, or may even provide a path to correcting the problem. Table 7-3. Troubleshooting with the Embedded Management System Symptom Possible Cause and Resolution Remote does not a. Verify that the AP has a sufficiently large number in the associate “Max Remotes”...
Page 180
Connect to the transceiver using a terminal through the forgotten. COM1 port. b. Call GE MDS. Get a password-resetting Authorization Key. c. Enter the Authorization Key at the login prompt as a password. The following is a summary of how you can use several screens in the entraNET MS as diagnostic tools.
The most significant fields are , and Retries Retry Errors Receive Errors . If the data values are more than 10% of their sent Lost Carrier Detected and received counterparts, or the value is greater Lost Carrier Detected than a few dozen, there might be trouble with interference, or a loss of the Ethernet signal.
7.1.3 Using Logged Operation Events (See Event Log Menu on Page 82) The transceiver microprocessor monitors many operational parameters and logs them as various classes of “events.” If the event is one that affects performance, it is an “alarmed” event. There are also normal or routine events such as those marking the restarting of the system, implementation of parameter changes, and external access to the entraNET MS.
Page 183
Table 7-5. MDS entraNET Event Codes Index Event Type Event Name Clear String Set String String EVENT_RAD_RX_TIMEOUT RX Timeout Cleared EVENT_RAD_NVMEM_FAULT NV Memory Cleared Fault EVENT_RAD_NOT_CALIBRATED TOR Not Cleared Calibrated EVENT_RAD_OUT_OF_LOCK Locked Out of Lock Synthesizer EVENT_RAD_AUTHORIZATION_ Authorization Cleared FAULT Fault EVENT_RAD_HARDWARE_ TOR Hardware...
Page 184
Table 7-5. MDS entraNET Event Codes Index Event Type Event Name Clear String Set String String EVENT_DHCP_ADDRESS Obtained DHCP Address EVENT_TIME_NOT_SET Date or time Not EVENT_TIME_BY_USER Date or time Changed by User EVENT_TIME_FROM_SERVER Date or time from Server EVENT_CONSOLE_LOGIN Console User Logged Out Logged In EVENT_CONSOLE_LOCKDOWN...
Page 185
Table 7-5. MDS entraNET Event Codes Index Event Type Event Name Clear String Set String String EVENT_REDUND_RECV_ERR Redundant Switchover Switchover Packet Receive EVENT_REDUND_FORCED Forced Switchover Switchover Redundant EVENT_ICOPY_STARTED Image Copy Started EVENT_ICOPY_COMPLETE Image Copy Complete EVENT_ICOPY_FAILED Image Copy Failed EVENT_ENDPOINT_ADDED Endpoint Removed Added...
Management System. • Web browser—Connect a PC directly to the transceiver port or associated network and open a Web browser on the PC. For information on downloading firmware code, visit the GE MDS Web site at www.gemds.com/service/technical/support. Upgrading the To install firmware using TFTP, you need:...
Page 190
Invisible place holder Figure 8-1. Upgrade Configuration—Option 1 (TFTP Server and Firmware File on Same CPU) Invisible place holder Figure 8-2. Upgrade Configuration—Option 2 (TFTP server and firmware file on remote server) NOTE: Transferring the radio firmware image file, which is approximately 3 MB, might take several minutes, depending on traffic between the TFTP server and the transceiver.
Upgrade Procedure To upgrade the transceiver firmware file ( ), use the filename.gpk procedure below. 1. Launch a TFTP server on a PC connected either directly or over a LAN to the transceiver Ethernet port ( ). Configure the server to allow downloads from the directory containing the firmware image file.
same profile. Ultimately, you can upload standardized files into the transceiver to speed up the installation process. You can also upload configuration files into a transceiver to restore the settings of a radio using a previously saved configuration of the radio. This is particularly convenient after finishing a test using some experimental settings.
Page 193
Model Number: 900 The radio model number. This value is set at the factory and cannot be changed. Serial Number: 1026295 The radio serial number. This value is set at the factory and cannot be changed. Unit Name: Library Admin Office A name for this radio.
Page 194
Company Name: MDS Version Name: 06-1234567 Product Name: entraNET RF Output Power Setpoint: 30 The desired amount of RF output power, measured in dBm. Active Boot Image: 0 Skipped Hop Zone1: Active Skipped Hop Zone2: Skip Skipped Hop Zone3: Active Skipped Hop Zone4: Active Skipped Hop Zone5: Active Skipped Hop Zone6: Active...
Page 195
Auth trap enable: disabled Setting to enable SNMP authentication traps. Trap Version: v1 Traps The SNMP trap format. Package 1 Version: 1.1.0 Indicates the version of firmware in Image 1. Package 2 Version: 1.1.0 TFTP Timeout: 20 COM1 Serial Data Enable: disabled Setting to enable the data mode.
The file can then be used as a template to generate modified copies adjusted to match other devices. You can modify the configuration files using a text editor or an automated process (not provided by GE MDS). We recommend that you review and update the following parameters for each individual radio.
Table 8-1. Common User-Definable Parameters (Continued) Field Comment Range Location Used only as reference for network Any 40-character administration alphanumeric string Radio Net(work) Used to identify different groups or 1-20000 Address locations Save each resulting file with a unique name. We recommend using directories and file names that reflect the location of the radio to facilitate its identification.
• To connect the AP to an Ethernet hub or bridge, use a straight-through cable. The connector uses standard Ethernet RJ-45 cables and wiring. Use the pinout graphic and table below to construct a custom cable, if required. 1 2 3 4 5 6 7 8 Figure 8-3.
8.3.3 COM2 Port Connect a terminal device to the transceiver port (RJ-45) for COM2 payload data connection. Pinout information for the COM2 port is provided in Figure 8-5 Table 8-3. 1 2 3 4 5 6 7 8 Figure 8-5. COM2 Port (DCE) (viewed from the outside of the radio) Table 8-3.
Page 200
RADIO CHARACTERISTICS System Gain: 2400 MHz: 131 dB 900 MHz: 136 dB Carrier Power: 900 MHz: 20-30 dBm 2400 MHz: 20-27 dBm 2400 MHz ETSI: 10-20 dBm Output Impedance: 50 ohms Occupied Bandwidth: 200 kHz Modulation: Two-level CPFSK (Continuous-Phase FSK) Receiver Sensitivity: 2400 MHz: typically -104 dBm (1 x 10 BER)
Page 201
Methods Supported (AP): • HTTP (embedded Web server)—pending • Telnet • Local console using COM1 port • SNMPv1/2/3. MIB II, Enterprise MIB—pending • SYSLOG • GE MDS NETview MS —pending Methods Supported (Remote): Local console using COM1 port ENVIRONMENTAL Temperature Range: -40C to +70C (-33.8F to +158F)
Page 202
• Industry Canada RSS-210 and RSS-139 • ETSI • CSA/US Class 1, Div. 2; Groups A, B, C and D hazardous locations • Contact GE MDS for information on availability and governmental approvals in other countries MDS entraNET Technical Manual 05-4055A01, Rev. E...
8.5 dBm-WATTS-VOLTS CONVERSION CHART Table 8-4 to determine the equivalent voltage or wattage of an RF power expressed in dBm. Table 8-4. dBm-Watts-Volts Conversion—for 50 Ohm systems dBm V dBm V dBm mV dBm µV 100.0 200W .225 1.0mW 0.80 70.7 100W .200...
TERMS AND ABBREVIATIONS 9 Chapter Counter Reset Paragraph 10 Chapter Counter Reset Paragraph If you are new to wireless IP or Ethernet systems, some of the terms used in this guide may be unfamiliar. The following glossary explains many of these terms and is helpful in understanding the operation of the transceiver system.
Page 206
DCE—Data Communications Equipment. In data communications terminology, this is the “modem” side of a computer-to-modem connection. The transceiver ports are set as DCE. COM1 COM2 Decibel (dB)—A measure of the ratio between two signal levels. Frequently used to express the gain (or loss) of a system. DES—Data Encryption Standard.
Page 207
CPU. Intergap—See Inter-Packet Delay Inter-Packet Delay—A technique used in GE MDS devices that accommodates protocols that do not tolerate gaps in the middle of a frame (for example, MODBUS ASCII). In these protocols, gaps are interpreted by the connected device as an end-of-frame indication, 05-4055A01, Rev.
Page 208
Remotes within a given system should have the same network address. Network-Wide Diagnostics—An advanced method of controlling and interrogating GE MDS radios in a radio network. PHY—Physical layer of the Ethernet LAN. MDS entraNET Technical Manual 05-4055A01, Rev. E...
Page 209
PING—Packet INternet Groper. Diagnostic message generally used to test reachability of a network device, either over a wired or wireless network. Point-Multipoint System—A radio communications network or system designed with a central control station that exchanges data with a number of remote locations equipped with terminal equipment. Poll—A request for data issued from the host computer (or master PLC) to a Remote radio.
Page 210
SNR—Signal-to-Noise Ratio. A measurement of relative received signal quality. High ratios likely result in better signal detection and performance. STP—Spanning Tree Protocol Standing-Wave Ratio—See SWR. SWR—Standing-Wave Ratio. A parameter related to the ratio between forward transmitter power and the reflected power from the antenna system.
Page 211
INDEX Authorized Features 91 AC Power Adapter Kit 12 Auto Key Rotation 66 Access Point 3 Database 69 band Database Menu 76 2400 MHz 5 local console 36 900 MHz 5 menu structure 32 BAUD 104, 106 operating parameters 22 Rate 60, 62 Telnet 36 BLOCKTIME 111...
Page 212
Statistics 80, 81 DCE 9 CMD 104, 106, 108, 109, 111, 112, 113, 114, 115, 117 defined 196 COM 79 Decibel (dB), defined 195 Data Statistics 78 DEFAULT 104, 106, 109 Data Statistics Menu 78 Delete Port 64, 75 All 68 COM1 37, 39, 104, 116, 188 Approved Remote 68 port 9, 21...
Page 213
IP 6, 26 system 156 Address 22, 23, 26, 43, 76, 77 MDS entraNET models 6 Address Mode 47 GE MDS Security Suite 4, 10 Configuration 46 Good Data 81 netmask 23 Group 105, 107 Port 79 Database 69...
Page 219
IN CASE OF DIFFICULTY... GE MDS products are designed for long life and trouble-free operation. However, this equipment, as with all electronic equipment, may have an occasional component failure. The following infor- mation will assist you in the event that servicing becomes necessary.
Page 220
GE MDS, LLC 175 Science Parkway Rochester, NY 14620 General Business: +1 585 242-9600 FAX: +1 585 242-9620 Web: www.gemds.com...