User’s Guide Digi One & PortServer TS Families Digi One SP, Digi One IA, Digi One IAP, PortServer TS MEI Family, PortServer TS W MEI Family, PortServer TS 8/16, PortServer TS 8/16 MEI, and PortServer TS 16 48V Dual Feed visit www.digi.
Digi International Inc. 2004. All Rights Reserved. The Digi logo, Making Device Networking Easy logo, PortServer TS, Connectware, Digi One, and RealPort are trademarks or registered trademarks of Digi International, Inc.
Contents Chapter 1 Introduction About This Guide................................................................................... 9 Purpose .............................................................................................................. 9 Audience............................................................................................................. 9 Scope .................................................................................................................
Port Profiles ......................................................................................... 23 RealPort............................................................................................................ 23 Console Management ...................................................................................... 23 TCP Sockets..................................................................................................... 24 UDP Sockets ................................................
Locating Setup Information............................................................................... 46 DF1 Profile: Serial-Connected Master................................................. 46 About This Profile ............................................................................................. 46 Configuration Options ....................................................................................... 47 Locating Setup Information..........................................................
Initial Configuration Using Ethernet .................................................................. 57 Chapter 6 Special Features: Software Selectable MEI About MEI Settings.............................................................................. 61 Configure the MEI Switches ................................................................ 61 Table for Pin Outs.............................................................................................
Chapter 11 Configuration Management Upgrading the Firmware ...................................................................... 89 TFTP Upgrade Procedure ................................................................................ 89 Copying the Configuration to and from a Remote Host....................... 89 When To Use Remote Configuration................................................................ 89 Download Procedure ..........................................................................
Contents
Introduction Chapter 1 About This Guide Purpose This user guide provides the following: • Configuration and administration procedures • Configuration examples Audience This guide is intended for the person responsible for configuring and administering the Digi device. It assumes that this person has experience configuring network devices and is familiar with networking concepts. Scope This guide provides step-by-step instructions for configuring and administering your Digi device’s main features.
Online Help for the Web UI (User Interface)* This context-sensitive online help provides information on configuration fields used with web browser configuration interface. *This information is part of the user interface and not an actual document on the CD. Setup Overview The Following is an overview of the process for setting up a device in the Digi TS family. The rest of this guide provides details on each step of the process.
Step F: Configure Other Features as Required See the following for information on setting up other features: • "Security Configuration" on page 34 • "PPP Settings" on page 35 • "About Autoconnection" on page 38 Supported Devices This manual provides information on the following Digi devices: • Digi One IA and Digi One SP • Digi One IAP • PortServer TS 1/2/4 MEI, PortServer TS 1/2/4 H MEI, and PortServer TS 1/2/4 W MEI • PortServer TS 1/3 M MEI • PortServer TS 8/16, PortServer TS 16 Rack, PortServer TS 16 D
Downloading a Configuration File With this method, you configure a Digi device and then do the following: 1. Download an existing configuration file to a host system. 2. Edit the file with specific configuration using a text editor. 3. Upload the file to the device server. This an excellent method for maintaining highly similar configuration files for multiple Digi devices.
Feature Chapter 1 Introduction Digi Devices Supported Configuration Overview Access Control Digi TS Family User > New User > determine access AutoConnection Digi TS Family Serial Port > Port Profile >TCP Sockets DNS Digi TS Family System > System Name Embedded Modem PortServer TS 1 M MEI PortServer TS 3 M MEI Serial Port > Port Profile > Internal Modem Industrial Automation (IA) Digi TS Family* The TS Family supports the IA port profile but only the PortServer TS 1/2/4 MEI support Modbus R
Chapter 1 Introduction
Configuring the IP Address Chapter 2 The next step in the device configuration process is to configure an IP address and access the device for more advanced configurations. You must set the initial IP before you can use the web interface. Once the IP is set, the device can be accessed through the web interface and any changes made including changing the IP address.
IP Address with Digi Port Authority-Remote Use this section to configure an initial IP address, subnet mask, and default gateway using Digi Port Authority-Remote. This procedure cannot be used to change the IP address, but only to assign the initial IP address. It also cannot be used if a DHCP server is active. Assumptions This procedure assumes the following: • That your Digi device is connected to the Ethernet network. • That the Digi device has DHCP client turned on.
following is an example of how this is done on a Windows NT 4.0 system: arp -s 191.168.2.2 00-00-9d-22-23-60 4. Ping the Digi device using the IP address just assigned. The following is an example: ping 191.168.2.2 The ping will probably time out before there is a response from the Digi device. 5. Wait 30 seconds and then ping the Digi device again. The Digi device replies to the ping, indicating that the IP address has been configured.
button in the upper right corner is also available. From the web interface, you make any changes you need for your configuration. Remember to click Apply to save your changes and Reboot when you are ready for the changes to take effect.
Configuration Chapter 3 The next step in the device setup process is to configure the network and serial port settings. In order to access the web interface an IP address must be assigned. It is assumed you have logged onto the web interface using the username, root and password, dbps in order to make any changes or additional configuration assignments. However, it is important to note that if you have used the wizard, your configuration is complete and you do not need additional changes.
Telnet port = Base Socket + Serial Port Number Raw port = Base Socket + 100 + Serial Port Number Service telnet raw (TCP or UDP) Base Socket 2000 2000 Network Port 2001 2101 6. Click Apply. 7. Click Reboot for changes to take effect. Advanced Network Settings WARNING!!!!! changing the Advanced Network Settings could cause you to ‘lose’ your device on the Network. If you alter these settings - you may need to reset your device with the reset button and reconfigure your device as if it were new.
2. Click the port number that you want to configure. 3. Click Change Profile and select a profile based on the device you have connected to your port. Note: Chapter 3 Configuration If this is the first profile assigned or if the unit has been restored to factory defaults, the interface will take you directly to the port profile page. The following section shows the settings available for each profile.
Note: The ‘More’ link will describe the profiles with additional information. Note: Profiles are available based on the features supported by your device. Naturally, if you do not have a device capable of a specific profile such as Power Management or Wireless, you will not see that particular profile. Check the "Quick Find Feature Support Table" on page 12 to verify if your device supports a particular feature. 4. Click Apply to save the profile.
Port Profiles Each port profile determines the settings needed. The following screenshots of each profile show the port settings. For a complete description of each profile click the Help button. RealPort Installed on a network-based PC, RealPort emulates a serial port. That is, the application “thinks” it is working with a real serial port, such as COM1.
off. If port sharing is enabled for 2 and then disabled, the change will not take effect until everyone is off. The default value when port sharing is disabled is one. TCP Sockets The Digi One IA/SP and the Digi TS Family devices support TCP socket communication. TCP socket communication enables serial devices to communicate with each other over an Ethernet network as though they were connected by a serial cable.
Note: The serial parameters for two connecting devices must match meaning if one device is set for 9600 bps, the other device must be set for the same rate. Serial Bridging The Digi One IA/SP and the Digi TS Family devices support serial bridging (sometimes referred to as ‘tunneling’). A serial bridge is a network connection between two serial devices, each of which uses a device server.
Printer This profile allows you to connect a printer to a serial port. Use this profile if you intend to print using the lpd protocol on your UNIX system. Note: Refer to your UNIX User Guide for tips on configuring the print spooler on your UNIX system. Terminal This profile allows you to connect a terminal to the serial port. Also allows you to automatically establish TCP connections, enabling the connection to a system or a device on the network when data arrives.
Industrial Automation Note: Before you decide you use the Industrial Automation profile consider the recommended IA Wizard. (Select Industrial Automation under Applications then click IA Wizard.) The IA Wizard will guide you through common IA scenarios and configure your device. The Industrial Automation (IA) Profile allows you to connect IA devices and PLCs (programmable logic controller) to the serial port in order to networkenable the devices.
5. Use the Help button for additonal information. 6. Click Apply. Note: Configure the serial port for the serial communication parameters (baud rate, data bits, parity and stop bits) required by the connected IA device. If you configure the port for a slave, you do not have to configure a network-based master. Communication with the master just works. (If the master is connected to a serial port, it must be configured, however.
• profile use the Help button in the upper right corner on the profile page of the web interface. Internal Modem The Internal Modem profile (not listed in the graphic) is specific to the PortServer TS 1/3 M MEI devices. The fully functioning modem is embedded in port one and uses the standard AT command set. See the Documentation on the Digi CD for the complete AT Command Reference. Modem Emulation Modem Emulation allows you to configure the serial port to act as a modem.
page 35 for more information about PPP settings. . Internal Modem Used for the serial ports that contains the embedded modem. This profile allows you to configure the modem port. This profile configures the internal modem for PPP connections. Power Management The Power Management feature allows you to connect the serial port to a power controller. The Digi device will monitor the power controller to provide the status and control of power outlets.
controller for AC power control. Note: Power controller settings can be automatically detected or configured manually. Custom This profile allows you to see all settings and set them accordingly.
profiles. User Configuration Although it is not required, the device server is often configured to accommodate the requirements of particular users. Typical configurable user attributes include: • Whether the user is required to supply a password. • Autoconnection attributes, such as the system to which the user should be automatically connected at login. • The interface the device presents the user, such as a menu or command line. • Whether the user has access to outbound ports.
• Terminal/Terminal Emulation -using a terminal or terminal emulation program to connect to the serial port and needs to automatically connect to a device available on the network. • Custom - using a terminal or terminal emulation program to connect to the serial port and needs to automatically connect to a device available on the network. Note: For information on configuring PPP users, see "PPP Settings" on page 35.
4. Select the Ports to manage or the Autoconnect function if needed and click Next. 5. Review settings and click Finish. Note: The Advanced tab under User allows you to set Escape characters for Connect, Telnet, Rlogin, and Kill as well as an SSH Public Key. 6. Click Apply to save the settings. 7. Click Reboot for changes to take effect. Note: User attributes can be changed after the user is set up. Click User > the User’s name.
Procedure 1. Click Security > and enter a new password for the root administrator. 2. Enter the confirmation password and click Apply. 3. Click Network Security and select the security level appropriate to your environment and click Apply. Note: Secure Access Levels Secure: SSH is the only service available to inbound users. High: SSH, HTTP, SNMP, and RealPort services are available to inbound users. Normal: all services are available. Custom, which means you can select services to turn off.
2. If you are using PPP select Enable Dynamic IP Address Pool for Incoming Connections. 3. Enter the first reserved IP address of the incoming connections and the number of addresses to use and click Apply. 4. Click Incoming Connections > New Connection 5. Enter the appropriate parameters and click Apply. 6. Click Reboot for changes to take effect. For outgoing connections, CHAP or PAP authentication, or password configuration, use the following procedure. 1.
3. Click Reboot for changes to take effect. For dynamic routing or proxy ARP settings follow the procedure for Advanced PPP settings. 4. Click Advanced PPP settings. Note: 5. 6. 7. 8. 9. Use the Help button for more information about configuring Advanced PPP settings. Select Enable Dynamic Routing (RIPv1) Select the passive or active route setting. Select the Process ARP requests if appropriate. Click Apply. Click Reboot for changes to take effect. SNMP 1. Click System > SNMP 2. Select Enable SNMP. 3.
4. Select the type or types of traps you wish to enable. 5. Click Apply. MEI This setting only applies to EIA-422/485 Half-Duplex (2 wire) ports. For more information see "Special Features: Software Selectable MEI" on page 61. 1. Select System > MEI. 2. Select Baud rate from the drop down box. 3. Select apply to all ports if appropriate. 4. Click Apply for configuration to take effect.
• • By port, where all port users are automatically connected to the same host. The device server is completely transparent to them. By user, where a user is required to log on and may be required to supply a password. Once the user is authenticated, an automatic connection to a host is made. Configuring a Port for Autoconnection 1. Select Serial Ports under Configuration. 2. Click the TCP Sockets Port Profile. Note: TCP Sockets is the Autoconnection profile. 3. Click Apply. 4.
Chapter 3 Configuration
IA Profiles and Procedures Chapter 4 In This Chapter Use this chapter for the following purposes: • To identify configurations that work for your industrial automation (IA) application • To complete configuration tasks required to use the device server in an IA environment Before using these profiles, we recommend that you use the IA wizard to configure your device. The wizard will configure most IA scenarios quickly and easily.
• • "Other Serial Port Protocol Profile: Serial-Connected Slave" on page 48 "Other Serial Port Protocol Profile: Serial-Connected Master" on page 49 Procedures • • • • • • "Configuring a Serial-Connected Slave: Generic Procedure" on page 49 "Configuring a Serial-Connected Master: Generic Procedure" on page 50 "Configuring a Serial-Connected Master: TCP/UDP Sockets" on page 50 "Configuring a Serial-Connected Slave: Other IA Protocol" on page 51 "Configuring a Serial-Connected Master: Other IA Protocol" on
TCP socket (or TCP socket service) type of network service that uses TCP to ensure reliability. When this manual discusses TCP sockets, it means that IA protocol messages are encapsulated in network packets and transported across the network using a standard network service. Many applications support connections to devices using TCP socket. TCP tunnel TCP socket connection in which a master is connected to the serial port of one device server and a slave to the serial port of another Digi One IAP.
the attached device, which can be Modbus ASCII, Modbus RTU, DF1 FullDuplex, DF1 Half-Duplex, Omron Hostlink, Omron FINS, and Omron CompoWay/F. It can also be a serial port protocol that meets Digi’s definition of a “user defined” protocol, that is, one that has fixed header and trailer strings that bound all message packets and where each protocol request is followed by a single response.
system, and communicates only with devices on COM ports. Locating Setup Information • • To configure the serial port for Modbus ASCII or Modbus RTU, see "Configuring a Serial-Connected Slave: Generic Procedure" on page 49. To setup a PC and the device server for COM port redirection using RealPort, see "Setting Up COM Port Redirection" on page 52.
DF1 Profile: Serial-Connected Slave About This Profile Use this profile to connect a slave device (or devices if multiple slaves are connected) using DF1 Full-Duplex and DF1 Half-Duplex protocols. Configuration Options The serial port connection must be configured for the protocol required by the slave, in this case DF1 Full-Duplex or DF1 Half-Duplex. The network connection usually does not require configuration. The only exception is if the master requires COM port redirection.
Configuration Options The serial port connection must be configured for the protocol required by the master, in this case DF1 Full-Duplex or DF1 Half-Duplex. If the remote slave supports TCP socket communication, which is the case if the remote slave is connected to another device server, Digi recommends this option. For DF1 Full-Duplex users, Allen Bradley Ethernet and Ethernet/IP are other supported network options.
Omron Family Profile: Serial-Connected Master About This Profile Use this profile if you want to connect a master device to the serial port using one of the Omron serial port protocols, Hostlink, FINS, or CompoWay/F. Configuration Options The serial port connection must be configured for the protocol required by the master, in this case Hostlink, FINS, or CompoWay/F.
IA protocol. If you plan to use RealPort for COM port redirection, you simply set up the port for RealPort. If you plan to have the master access the device server using TCP or UDP sockets, you simply configure the standard serial port parameters required by the attached slave, such as line speed, number of data bits, and parity scheme. No special network configuration is required in either case.
Procedure 1. Access the web interface by entering the device server IP address in a browser’s URL window. 2. Log in to the device server as root. The default password is dbps. 3. From the main menu, choose Setup Wizards > Industrial Protocols. 4. Choose the serial port protocol required by the slave that is connected to the serial port. 5. Choose Slave as the device type. Any number of network masters can communicate with the slave.
5. Choose Master as the Mode. 6. Configure up to 8 network slaves. 7. Change the default socket number only if required.
5. If you want to configure the port to launch an automatic connection to the slave, click Advanced. 6. Choose Enable Autoconnect 7. Specify the IP address of the slave. 8. Specify a TCP port to use for this connection. If this is a connection to another device server, use 2101 as the TCP port number. 9. If you want the autoconnection to launch immediately, choose Force DCD. 10. Choose Binary Mode. 11.
3. Configure the port on the RealPort PC. See the PC’s documentation for information on configuring serial ports. Procedure: Configuring the Serial Port for RealPort Use this topic for information on configuring the Digi One IAP. 1. Access the Digi One IAP configuration from a web browser by entering the device’s IP address in the browser’s URL window. 2. Log on to the Digi One IAP as the root user as shown. The default password is dbps. 3.
port mode, remove the TS-9 loopback. #1 #9 Screw Terminal Connector Pin 1 Pin 2 Pin 3 Pin 4 Pin 5 Pin 6 Pin 7 Pin 8 Pin 9 232 RTS DTR Tx RI GND Rx DSR CTS DCD 485 RTS+ RTSTx+ TxGND Rx+ RxCTS+ CTS- 232 Loopback for screw terminal Connect Pin 1 to 8 Connect Pins 2,4,7,9 Connect Pin 3 to 6 485 Loopback for screw terminal Connect Pin 1 to 8 Connect Pin 2 to 9 Connect Pin 3 to 6 Connect Pin 4 to 7 Updating POST Code This procedure shows you how to upgrade POST code from a file or TFTP.
From the dropdown menu, select Boot/POST. 5. Click Browse to select the Boot/Post image. 6. Click Update. 4.
RealPort Decision Guide 56 Chapter 4 IA Profiles and Procedures
Special Features: Wireless Chapter 5 Use this chapter for the initial configuration of your Digi Wireless device. After the initial configuration, the device can be configured using the same methods as the other Digi TS family products. Configuration Considerations The Digi wireless devices work ONLY with the antennae provided. You can use the wizard available on the Software and Documentation CD to configure your wireless device.
7. Select the device and click Configure to launch your browser. 8. Enter the username root and password dbps and click OK. The home screen appears. 9.
10. .Enter parameters, click Apply to save. 11. Click Reboot for changes to take effect. Note: WARNING!!!!! changing the Advanced Network Settings could cause you to ‘lose’ your device on the Network.Digi International recommends that you do NOT alter the Advanced Network Settings. If you alter these settings - you may need to reset your device with the reset button and reconfigure your device as if it were new. See "Resetting Configuration to Defaults" on page 90 for instructions.
Chapter 5 Special Features: Wireless
Chapter 6 Special Features: Software Selectable MEI This chapter describes configuring MEI (Multiple Electrical Interface) settings through the web interface for the PortServer TS 8 MEI* and PortServer TS 16 MEI*. The internal MEI settings are switched to EIA-232 by default. *Except for the PortServer TS 8 MEI and PortServer TS 16 MEI devices, the remaining Digi TS Family have external DIP switches for MEI settings.
Note: Select Tx Control > Always on if this device is the only one transmitting on one wire pair, such as a single master in a master/slave configuration or if only tow devices are attached. Use Tx Control > Auto if multiple devices need to share the bus in a dual master scenario or if the device is acting as slave in a multidrop environment. See "Four-Wire Multi-Drop Network Scenarios" on page 63 for more information about multi-drop scenarios. 6. Click Apply and the settings will take effect. 7.
Pin Number 10 EIA-232 Signal Standard 10-Pin EIA-422/485 Signal (4/8 Wire) DCD Optional 8 pin EIA-422/485 Signal (Alt-4-Wire) EIA-485 Signal (2-Wire Mode) CTS- (B) Set the Supported Baud Rate for Multi-drop Support The PortServer TS 8/16 MEI requires setting a baud rate range in order to perform the automatic transmitter control. This setting does not influence the performance in EIA-232 mode or for EIA-422/485 configurations where the transmitter is always on.
MEI Configuration for a Slave: 1. Click Serial Ports > port # > MEI Serial Settings 2. Select 422/485, Tx Control > Auto. 3. Select Enable alternative pinout (altpin). This option is only enabled with 4 wire. See the "MEI Configuration for a Slave:" on page 64 for more information. 4. Click Apply for settings to take effect. Note: 64 You do not need to reboot after you click Apply for MEI settings to take effect.
Special Features: Embedded Modem Chapter 7 Embedded Modem The PortServer TS 1 M MEI and PortServer TS 3 M MEI function as both terminal server and modem. The embedded modem can be used with PPP, dial-in, dial-out, or auto answer and conforms to the standard AT command interface.
5. Enter the appropriate parameters and click Apply to save. 6. Click Reboot for changes to apply.
Special Features: Modem Emulation Chapter 8 Modem Emulation Modem emulation enables a system administrator to configure a networked Digi device to act as a modem. The Digi device emulates modem responses to a serial device and seamlessly sends and receives data over an Ethernet network instead of a PSTN (Public Switched Telephone Network).
the remote side closes the TCP connection. User Scenario-Diagram B Workstation Serial cable O NE TS #1 Digi One TS D IGI Ethernet Workstation #2 Digi One TS 192.168.25.30 D IGI O NE TS Serial cable In Diagram B, two Digi devices will replace modems on both sides of the connection. The initiation of the connection occurs with either of the Digi devices. If both ends are Digi devices, the TCP listening port number is 50001 for port 1. An example of the connection command is ATDT 192.168.25.
Incoming Modem Emulation Connection A device on the network telnets to port 50001 (50000+1 = 1st serial port). This incoming connection triggers the Digi device to generate a RING on the serial port. The device attached to the serial port will answer the RING and the connection is established. Modem Emulation Pooling This is a combination of Incoming Modem Emulation Connection and a hunt group. A device on the network telnets to port 50000.
ATDT ipaddress:tcp_port# an example is ATDT 146.135.13.5:50001 Answering Calls The Digi device listens on a pre-defined TCP port to receive data. When the Digi device receives a call notification (RING) through a serial port to begin a TCP connection, it needs to reply with an ATA or a pre-configured Auto-Answer to answer the call.
AT Command Function Result Code This command directs the Digi device to go on-line, dial according to the IP address entered as follow 191.1.2.3:12 and attempt to establish a TCP connection. If no dial string is supplied, the Digi device will respond no dial tone. Note: If the ATD command is issued before the S1 register has cleared, the modem will respond with the NO CARRIER result code. Dial Modifiers. The valid dial string parameters are described below.
AT 72 Result Code Function Command ATLn Accepted but ignored. OK n=0 or 3 ERROR Otherwise ATMn Accepted but ignored. OK n=0 or 3 ERROR Otherwise ATNn Accepted but ignored. OK n=0 or 1 ERROR Otherwise ATOn Return to On-Line Data Mode. This command determines how the modem will enter the on-line data mode. If the modem is in the on-line command mode, the modem enters the online data mode. If the modem is in the off-line command mode (no connection), ERROR is reported.
AT Function Command Result Code AT&Cn DCD Option. The Digi device controls the DCD output in accordance with the parameter supplied. The parameter value, if valid is written to S21 bit 5. &C0 DCD remains ON at all times. &C1 DCD follows the state of the connection OK n=0 or 1 ERROR Otherwise AT&Dn DTR Option. This command interprets the ON to OFF transition of the DTR signal from the DTE in accordance with the parameter supplied. The parameter value, if valid, is written to S21 bits 3 and 4.
AT 74 Result Code Function Command AT&Rn RTS/CTS Option This selects how the Digi device controls CTS. CTS is modified if hardware flow control is selected (see &K command). The parameter value, if valid, is written to S21 bit2. &R0CTS reflects the ability of the modem to transmit data. For example, CTS will drop during retrains. In sync mode, CTS tracks the state of RTS; the RTS-to-CTS delay is defined by S26. In async mode, CTS is normally ON and will turn OFF only if required by flow control.
AT Function Command Result Code AT\Nn Operating Mode This command controls the preferred error correcting mode to be negotiated in a subsequent data connection. \N0 Selects normal speed buffered mode \N1 Serial interface selected - Selects direct mode \N2 Accepted but ignored. \N3 Accepted but ignored. \N4 Accepted but ignored. \N5 Accepted but ignored. OK n=0 to 5 ERROR Otherwise AT\Vn Accepted but ignored. OK n=0 or 1 ERROR Otherwise AT+MS Accepted but ignored. OK AT+MI Accepted but ignored.
S-Registers Register Function Range Units Saved S0 Rings to Auto-Answer Sets the number of rings required before the Digi device automatically answers a call. Setting this register to Zero disables autoanswer mode. 0-255 Rings S1 Ring Counter S1 is incremented each time the modem detects a ring signal on the telephone line. S1 is cleared if no rings occur over an eight second interval.
Register Function Range Units - - Saved Default S13 Reserved S14 General Bit Mapped Options Status Indicates the status of command options. Default:138 (8Ah) (10001010b) Bit 0This bit is ignored. Bit 1Command echo (En) 0 =Disabled (E0) 1 =Enabled (E1) (Default.) Bit 2Quiet mode (Qn) 0 =Send result codes (Q0) (Default.) 1 =Do not send result codes (Q1) Bit 3Result codes (Vn) 0 =Numeric (V0) 1 =Verbose (V1) (Default.) Bit 4Reserved Bit 5Tone (T)/Pulse (P) 0 =Tone (T) (Default.
Register Range Units S21 General Bit Mapped Options Status Indicates the status of command options. Default:52 (34h) (00110100b) Bit 0Set by &Jn command but ignored otherwise. 0 =&J0 (Default.) 1 =&J1 Bit 1Reserved Bit 2CTS behavior (&Rn) 0 =CTS tracks RTS (&R0) 1 =CTS always on (&R1) (Default.) Bits 3-4DTR behavior (&Dn) 0 =&D0 selected 1 =&D1 selected 2 =&D2 selected (Default.) 3 =&D3 selected Bit 5RLSD (DCD) behavior (&Cn) 0 =&C0 selected 1 =&C1 selected (Default.
Register Function Range Units Saved Default S23 General Bit Mapped Options Status Indicates the status of command options. Default:62 (3Dh) (00111110b) Bit 0Grant RDL 0 =RDL not allowed (&T5) (Default.) 1 =RDL allowed (&T4) Bits 1-3DTE Rate 0 =0 - 300 bps 1 =600 bps 2 =1200 bps 3 =2400 bps 4 =4800 bps 5 =9600 bps 6 =19200 bps 7 =38400 bps or higher (Default.) Bits 4-5Assumed DTE parity 0 =even 1 =not used 2 =odd 3 =none (Default.) Bits 6-7not action applied S24 Accepted but ignored.
Register S37 Function General Bit Mapped Options Status Telnet support for modem emulation.
Register S91 Function Range Accepted but ignored. 0-15 Units Saved Default dBm 10 (Countr y depend ent) 10 (Countr y depend ent) S92 Accepted but ignored. 0-15 dBm S95 Accepted but ignored. - - * 0 * Register value may be stored in one of two user profiles with the &W command.
Chapter 8 Special Features: Modem Emulation
Chapter 9 Special Features: Power Over the Serial Ports Serial Power Feature The Serial Power feature available for the PortServer TS MEI Series and the PortServer TS W MEI Wireless Series allow the Digi device to power a serial device (power out) or use a serial device to power the Digi device (power in). The advantage of this feature is to eliminate an external power supply. Power out is available on all ports through Ring Indicator (RI) or Data Terminal Ready (DTR).
1. Open the device case and move the black jumper to the following settings: P-6 jumper on pins 1 and 2 Note When the jumper is placed correctly for power in, the jumper will set on the pins closest to the edge of the board. The left arrow indicates the open pin and the right arrow is pointing to the jumper. 2. Close the device unit enclosure. RI Power Out Ring Indicator (RI) power out is available on all ports.
2. Open the port and set DTR high. Note Here are the pins to verify the jumper position. The default position has the jumper on the two pins furthest from the edge. DO NOT MOVE THE JUMPER FROM THE DEFAULT UNLESS USING RI POWER IN. If you are having trouble with your unit after using the Power over port feature, you may have tripped the circuit breaker in the unit.
. Quick Summary Table for Setup of Serial Power DTR Power RI Power OUT OUT IN DTR ON DTR OFF DTR OFF Switch Settings DTR setting 1*, 2, 3, 4 86 1 Ports Allowed 1, 2, 3, 4 *unless port 1 is used for power in Jumper Pin Settings P-6 jumper on pins 2&3 (Factory Default) P-6 jumper on pins 2&3 (Factory Default) P-6 jumper on pins 1&2 Power Budget 9v @ up to 100mA one watt 5v @ up to 200 mA one watt 9 -30 v @ up to 525mA (max) Chapter 9 Special Features: Power Over the Serial Ports
Special Features: SNMP Chapter 10 This chapter describes configuring SNMP, the network management protocol that governs the exchange between nodes and stations. About SNMP and the Digi Device Agent This section introduces SNMP and network management in TCP/IP networks and it describes the device server agent.
• • • • Read-write for MIB II (RFC 1213), which is an Internet-standard MIB, consisting of managed objects from the systems, interfaces, IP, ICMP, TCP, UDP, transmission, and SNMP group Read-write for the character-stream devices using SMIv2 MIB (RFC 1658) Read-write for the RS-232-like hardware devices MIB (RFC 1659) Read-write for the device server IP Network Control Protocol of the Point-to-Point Protocol MIB (RFC 1473) Message Support The SNMP agent supports the Set, Get, GetNext, and Trap messages
Configuration Management Chapter 11 This chapter describes configuration management activities, including firmware upgrades and restoring the device configuration to defaults. Upgrading the Firmware Firmware upgrades can be performed from the web interface, using TFTP. TFTP Upgrade Procedure If your hardware is connected correctly, make sure you are running the latest firmware version available. Check the Digi Support site for the latest firmware and/or POST updates for your device: http://ftp.digi.
TFTP Procedure for Backup or Restore 1. Ensure that TFTP is running on the remote host. 2. Access the web interface by entering the Digi devices’s IP address in a browser’s URL window. 3. Log on to the Digi device as root. The default password is dbps. 4. From the main menu, choose Backup/Restore > TFTP Server. 5. Enter the name of the file and the IP address of the TFTP server and click Backup (to save the file) or Restore (to apply the file).
Reference and Certifications Chapter 12 Interpreting the LEDs LEDs LED Color Green Power (labeled PWR) Power LEDs Radio Signal Strength (labeled Signal for Wireless labeled CD/ACT for Embedded Modem) Link (labeled Link) Digi One SP PWR LED is red Note: Indicates On Power detected Steady blinking Waiting for an IP address or seeking an IP address from a DHCP server Blinking 1-1-1 Starting the EOS Blinking 1-3-1 Starting the TFTP process Blinking 1-5-1 Configuration returned to factory de
PortServer TS 8/16 LEDs LED Color State Indicates On Power detected Steady blinking Power Waiting for an IP address or seeking an IP address from a DHCP server Blinking 1-1-1 Starting the EOS Blinking 1-3-1 Starting the TFTP process Blinking 1-5-1 Configuration returned to factory defaults Blinking 9-1-1 Contact Tech Support for help. 1-952-912-3444 or outside the U.S.
RJ-45 Pinouts Pin Number EIA-232 Signal Standard 10-Pin EIA-422 Signal (4/8 Wire) Optional 8 pin EIA-422 Signal (Alt-4Wire) PortServer TS 8/16 MEI only EIA-485 Signal (2-Wire Mode) 01 RI TXD- (B) 02 DSR RxD- (B) RxD- (B) 03 RTS RTS+ (A) TxD+ (A) 04 CGND CGND CGND CGND 05 /TxD TxD+ (A) 06 /RxD RxD+ (A) RxD+ (A) Data+ (A) 07 SGND SGND SGND SGND 08 CTS CTS+ 09 DTR RTS- (B) 10 DCD CTS- (B) Data- (B) TxD- (B) Safety Statements PortServer TS 8/16 and PortServer TS 16
• • • • • • • Install equipment in Restricted Access Areas only (dedicated equipment rooms/closets) in accordance with Articles 110-16, 110-17, and 110-18 of the National Electrical Code, ANSI/NFPA 70. Connect equipment to a DC supply source (reliably earthed) that is electrically isolated from the AC source.
• • • Before working with existing inside wiring, check all electrical outlets for a square telephone dial light transformer and unplug it from the electrical outlet. Failure to unplug all telephone transformers can cause electrical shock. Do not place a jack where it would allow a person to use the telephone while in a bathtub, shower, swimming pool, or similar hazardous location. Protectors and grounding wire placed by the service provider must not be connected to, removed, or modified by the customer.
Typical Power Consumption (watts) Product • • Digi One SP Digi One IAP • • • • Digi One IAP PortServer TS 1 MEI PortServer TS 2 MEI PortServer TS 4 MEI • • • PortServer TS 1 H MEI PortServer TS 2 H MEI PortServer TS 4 H MEI Max Power Consumption (watts) Recommended Power Supply Input Rating (watts) Device is intended to be powered by a listed LPS or Class II power supply rated 9-30 VDC (barrel connector), 0.37 A minimum or its equivalent.. Power over Ethernet IEEE 802.
Digi One IA DB9 and Screw Terminal Pinouts DB9 Pin EIA-232 EIA-422/485 Full-Duplex EIA-485 HalfDuplex Screw Terminal 1 DCD CTS- Not used 9 2 RxD RxD+ RxD+ 6 3 TxD TxD+ TxD+ 3 4 DTR RTS- Not used 2 5 GND GND GND 5 6 DSR RxD- RxD- 7 7 RTS RTS+ Not used 1 8 CTS CTS+ Not used 8 9 NA TxD- TxD- 4 PortServer TS 1/3 M MEI • • • • • • • • • • • ITU-T V.92/V.90/56K (-92 build option) V.34/V.33.6 (-34 build option) V.32 bis/14.4K (-32 build option) V.
FCC P15 Subpart B, Class B FCC P15 Subpart B, Class A ICES-003, Class B ICES-003, Class A EN 55022 Class B EN 55022 Class A AS/NZS 3548 VCCI EN 61000-3-2 EN 61000-3-3 EN 61000-6-2 EN 301 489-3 EN 55024 UL 60950-1/ CSA C22.2 No.60950-1 UL 60950/ CSA C22.2 No.
• • Connect the equipment into an outlet on a circuit different from that to which the receiver is connected. Consult the dealer or an experienced radio/TV technician for help. Labeling Requirements (FCC 15.19) This device complies with Part 15 of FCC rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Modifications (FCC 15.
Product Name: Model Numbers: PortServer TS 1 MEI PortServer TS 1 H MEI PortServer TS 2 H MEI PortServer TS 4 H MEI PortServer TS 2 MEI PortServer TS 4 MEI PortServer TS 1 M MEI PortServer TS 3 M MEI PortServer TS 1 W MEI PortServer TS 2 W MEIPortServer TS 2 W MEI PortServer TS 4 W MEI PortServer TS 16 PortServer TS 16 Rack PortServer TS 16 DC Rack 50000836-01 50000837-01 50000837-02 50000837-03 50000836-02 50000836-03 50000836-05 50000836-06 50000836-10 50000836-11 50000836-12 50001207-01 50000854-01 500
