NPort 6000 Series User`s Manual
Contents
1. allow cookies that are stored on your computer or allow per session cookies 5 2 NPort 6000 Series Configuration with the Web Console Trusted Site Settings For Windows 2003 users you may need to add the NPort 6000 s IP address to your browser s list of trusted sites 1 If you see the following window while attempting to view the web console click on Add to modify the list of trusted sites x Content from the Web site listed below is being blocked by the Internet Explorer Enhanced Security Configuration http 192 168 127 254 Learn more about Internet Explorer s Enhanced Security Configuration If you trust this Web site you can lower security settings for Add the site by adding it to the Trusted sites zone If you know this Web site is on your local intranet review help for instructions on adding the site to the local intranet zone instead Important adding this web site to the Trusted sites zone will lower the security settings for all content from this web site for all applications including Internet Explorer You may also directly access the list of trusted sites through I nternet Options in the Tools menu of Internet Explorer Select the Security tab then click on the Trusted Sites icon and on the Sites button Internet Options ax General Security Privacy Content Connections Programs Advanced Select a Web content zone to specify its security sett2. cocccccccccccccccncnnncncnn nn nn nr 9 13 Certuiicate Key Delete aaa 9 14 SS A 9 14 Serial to Network CONNECTIONS cc cece cece nn cnn cra 9 14 sertal POPE Stats id eet E T E id diia dali 9 15 Seral POE Error COUNT AAA A q EENS 9 15 BS del Ete Se UNS aio ad iaa iaa iaa aint tecate 9 16 Selita Cloner Usage Sa DOS na nats aaa Gate uate ete aCe aa T aaa Cats aaa Seen Ga aCe ata T eG ae eGa motets 9 16 Er ae o mreti a E T 9 17 Networks tattoo E E E Smtr meen mtn ir rent i metres 9 17 Network MoOdiU een eT en en 9 18 Seral Data A as 9 19 System Logie ressaat errr re a a a a aa een cere 9 20 ROUEN OEE AAAA AA 9 20 PP MM E A ns 9 21 DoutState TOr 6430 60600 usa 9 21 SAVE CO UN Ea 9 22 A en ee eR A RR A ITN 9 22 Resta SV Stele ad dla E a idad nidad dia idiandiandiendia TE EE 9 22 A OFS araara a aA AAA A AA a a a a a 9 23 10 Software I nstallation Configuration sssssssssssnnnnunnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn nn 10 1 OVEVIe Wisin 10 2 NPOFRCWINGOWS DINS Manage aires sui airis 10 2 Installing NPort Windows Driver Manager ee ei eee 10 2 Using NPOr Wind ows Driver Manada a 10 4 NPO ES Ss lt ls td Edda 10 12 Metalno NIP ORES Car Cin UEY min annem ence in mann 10 12 Configuring NPOr Search A a E NES 10 14 EAU ReaL TIY De Ss e E e a e e o e a o e e e a a le a 10 15 Ba C ROCO o aaas a ar e PO ete e De fon OS POO een ONT Dro tO PO aOR OO eho ee 10 15 Hardware Sets ati tweets in EAS e E E
3. EY Maintenance E a Console Settings E Ping fa Firmware Upgrade al Configuration Import i Configuration Export a Load Factory Default Total Solution for Industrial Device Networking Configuration Export Configuration Export Download To export a configuration go to System Management Maintenance Configuration Export and click Download A standard download window will appear and you will be able to download the configuration into a file name and location of your choice Load Factory Defaults Main Menu I Overview I Basic Settings ae Network Settings 5 Serial Port Settings 53 System Management ae Misc Network Settings la Auto Warning Settings 53 Maintenance Total Solution for Industrial Device Networking Load Factory Default Click on Submit to reset all settings including the console password to the factory default values To leave the IP address netmask gateway and WLAN profile settings unchanged make sure that Keep IP Settings is enabled Reset to Factory Default M Keep IP settings 9 Console Settings _Submit 1m Ping 1 Firmware Upgrade Im Configuration Import fa Configuration Export Load Factory Default FA Channa Dacewrrd 9 12 NPort 6000 Series System Management Settings This function will reset all of NPort 6000 s settings to the factory default values All previous settings including the console password will be lost If you wish to keep th
4. Module Settings industrial cellular modem such as the NM GPRS GSM module makes it relatively easy to prepare the product for shipment to different parts of the world The GSM GPRS band of NM GPRS GSM module is configured to 900 1800 MHz by default Additional settings for each of the three modes are described in the following subsections MOXA lt 3 Main Menu Overview 9 Basic Settings 53 Network Settings LJ Basic Network Settings Advanced Network Set A Module H Serial Port Settings 4 1 System Management System Monitoring Save Configuration H Restart GSM Operation Mode GSM GPRS Settings Type SIM PIN Band GSM Mode Destination IP address Source IP address IP netmask TCP IP Compression Inactivity time cGcsm OGPRS Osms 900 1800 MHz ppp OPPPD O Enable Disable 0 65535 ms Total Solution for Industrial Device Networking Link quality report Enable Disable Username Authentication type None v Try next type on authentication denied Enable Disable Dial out number Initial string Connection control Always On None v Connection interval 5 65535 min Ping remote host PPP Mode PPP provides standard PPP dial out service PPPD Mode PPPD PPP Daemon is used for dial in services since it provides PPP services only when receiving a request from a remote PC Destination I P address Source IP address IP netmask If you do not configure these three paramet
5. Secure default Disable If you select Enable data sent through the Ethernet will be encrypted with SSL Destination address 1 through 4 default None Specifying an IP address allows the NPort 6000 to connect actively to the remote host At least one destination must be provided TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 ATTENTION Up to 4 connections can be established between the NPort 6000 and hosts The connection speed or throughput may be low if any one of the four connections is slow since the one slow connection will slow down the other 3 connections ATTENTION The Destination IP address parameter can be the IP address domain name or the name defined in the host table For some applications the user may need to send the data actively to the remote destination domain name Designated local port 1 through 4 default 5010 through 5013 Use these fields to specify the designated local ports Connection control default Startup None This setting determines the parameters under which a TCP connection is established or disconnected The different options are given in the following table In general both the Connect condition and Disconnect conditions are g
6. Secure default No If you select Yes data sent through the Ethernet will be encrypted with SSL ATTENTION If your NPort 6000 serial port is in Real COM mode and configured for SSL encryption make sure the Real COM driver is configured the same way This is done through NPort Windows Driver Manager which is installed with the driver Please refer to Chapter 10 Software Installation Configuration for more information Connection goes down default always high You can configure what happens to the RTS and DTR signals when the Ethernet connection goes down For some applications serial devices need to know the Ethernet link status through RTS or DTR signals sent through the serial port Use goes low if you want the RTS and DTR signal to change their state to low when the Ethernet connection goes down Use always high if you do not want the Ethernet connection status to affect the RTS or DTR signals 7 3 NPort 6000 Series Configuring Serial Port Operation Modes Command by command operation default Disable Command by command mode can only E Lp support one request and one response from each w host When the NPort 6000 receives a command Host A COM3 Host a COMS from any host on the Ethernet the NPort 6000 will store the command in the buffer Commands will be sent to the serial ports on a FIFO first in first out basis See the diagram below Once the PLC responds the NPort 6000 will save that response to i
7. Standard Accessories for the NPort 6610 and NPort 6650 e 1 NPort 6600 device server e CBL Rj45M9 150 8 pin RJ45 to DB9 male connection cable 150 cm e Power Cord AC models only e 2 rack mount ears e Documentation and software CD e Quick installation guide printed 1 2 NPort 6000 Series Introduction e Warranty card Cable Accessories for the NPort 6610 and NPort 6650 can be purchased separately CBL RJ 45M9 150 8 pin RJ 45 to male DB9 cable 150 cm CBL RJ 45F9 150 8 pin RJ 45 to female DB9 cable 150 cm e CBL RJ45M25 150 8 pin RJ 45 to male DB25 cable 150 cm CBL RJ 45F25 150 8 pin RJ 45 to female DB25 cable 150 cm Extension Modules for the NPort 6450 and NPort 6600 can be purchased separately e NM TXO1 NM TXO1 T Network module with one 10 100BaseTX Ethernet port RJ 45 connector supports cascade redundancy e NM TX02 NM TX02 T Network module with two 10 100BaseTX Ethernet ports RJ 45 connector supports cascade redundancy e NM FX01 S SC NM FX01 S SC T Network module with one 100BaseFX single mode fiber port SC connector supports cascade redundancy e NM FX02 S SC NM FX02 S SC T Network module with two 100BaseFX single mode fiber ports SC connectors supports cascade redundancy e NM FX01 M SC NM FX01 M SC T Network module with one 100BaseFX multi mode fiber port SC connector supports cascade redundancy e NM FX02 M SC NM FX02 M SC T Network module with two 100BaseFX multi mode fiber ports SC
8. 0 5 KV surge EN61000 4 5 Standards and Certifications 1 9 NPort 6000 Series Introduction Safety UL 60950 1 EN 60950 1 EMC CE FCC EMI EN 55022 Class A FCC Part 15 Subpart B Class A EMS EN 55024 EN 61000 4 2 ESD Level 2 3 EN 61000 4 3 EN 61000 4 4 EFT Level 2 EN 61000 4 5 Surge Level 2 EN 61000 4 6 CS Level 2 EN 61000 4 8 Level 1 EN 61000 4 11 Freefall EC 68 2 6 EC 68 2 34 EC 68 2 32 Vibration EC 68 2 6 EC 68 2 34 Green Product RoHS CRoHS WEEE Reliability Alert Tools Built in buzzer and RTC real time clock E RS Level 2 E iON _ mm Automatic Reboot Trigger Built in WDT watchdog timer MTBF meantime between failures 120354 hrs Warranty Warranty Period 5 years Details See www moxa com warranty NPort 6610 6650 Ethernet I nterface Number of Ports 1 Speed 10 100 Mbps auto MDI MDIX Connector 8 pin RJ 45 Magnetic Isolation 1 5 KV built in Optical Fiber Interface with network module Fiber Port 100BaseFX SC connector Distance Multi mode 0 to 4 km 1300 nm 62 5 125 um 500 MHz km Single mode O to 40 km 1310 nm 9 125 um 3 5 PS nm km Min TX Output Multi mode 20 dBm Single mode 5 dBm Max TX Output Multi mode 10 dBm Single mode 0 dBm Sensitivity Multi mode 34 to 30 dBm Single mode 36 to 32 dBm Serial I nterface Number of Ports 8 16 or 32 Serial Standards NPort 6610 RS 232 NPort 6650 RS 23
9. 9 9 NPort 6000 Series System Management Settings SNMP Trap E Console Microsoft Internet Explorer loj x File Edit View Favorites Tools Help back X 7 x B A DO Search 52 Favorites gt LJ 3 VANA gt Total Solution for Industrial Device Networking a Manaan SNMP Trap Y Overview Basic Settings SNMP Trap 9 Network Settings Ac Serial Port settings SNMP trap receiver IP ES System Management Trap version v1 vac HE Misc Network Settings Trap community public a Auto Warning Settings Event Settings s i Submit Y Serial Event Settings 1 E mail Alert E E SNMP Trap a MW inem anan SNMP trap server IP Use this field to indicate the IP address to use for receiving SNMP traps Trap version default v1 Use this field to select the SNMP trap version Trap community default public Use this field to designate the SNMP trap community Maintenance Console Setting Main Menu x Console Settings Overview s Basic Settings HTTP console O Enable O Disable ibe Re HTTPS console O Enable Disable ji a iii Telnet console O Enable O Disable 53 System Management 5 G3 Misc Network Settings SSH console Enable O Disable H Auto Warning Settings Console authentication type Local v EHS Maintenance Try next type on authentication denied Enable Disable Console Settings Reset button Always Enable Disable after 60 sec XA Ping LCM read
10. Always on None Always on after power on Periodically Periodically connect based on the Inactivity time is up connect inactivity time setting of connection interval to GSM after power on Remote host fail remote Remote Ethernet host has failed The When the remote host recovered NPort 6000 will keep pinging the Ethernet host returns to remote host over the Ethernet every 3 normal data will revert seconds after powering on After failing to being sent over to connect 5 times in a row the data Ethernet after 5 from the serial device will be sent continuous successful through the GSM connection pings Connection interval default 5 min The time interval of Periodically connect function Ping remote host Key in the IP address or Domain name of the remote host GPRS Operation Mode MOXA 3 Main Menu 9 Overview CI Basic Settings Type Ocsm cprs Osms 43 Network Settings Basic Network Settings gt J Advanced Network Set Module GPRS Total Solution for Industrial Device Networking GSM GPRS Settings Band 900 1800 MHz 1 3 Serial Port Settings TCP IP Compression O Enable Disable H System Management Inactivity time 0 65535 ms HE E System Monitoring Link quality report OEnable Disable J Save Configuration 8 Initial string S Restart Username Password APN Connection control Always On None v Connection interval 5 65535 min Ping remote host TCP IP compression
11. Moxa Americas Toll free 1 888 669 2872 Tel 1 714 528 6777 Fax 1 714 528 6778 Moxa Europe Tel 49 89 3 70 03 99 0 Fax 49 89 3 70 03 99 99 www moxa com su ort Moxa China Shanghai office Toll free 800 820 5036 Tel 86 21 5258 9955 Fax 86 21 5258 5505 Moxa Asia Pacific Tel 886 2 8919 1230 Fax 886 2 8919 1231 Table of Contents To INTO CIO Ni e A A A A A A dt 1 1 A eGo bee teeing A tekelelr bi bebe Gels I Gece irbeke lu or A A T 1 2 Package CHeECKIISE ussacanisasasiri anidan ed ee ee ee eee 1 2 sa Os taste tent E O a a a O O O OO AO 1 2 NPort 6150 NPort 6250 ana POR 6450 ca T a 1 3 Product Features sara onene nai OA AE EO O AAS 1 3 Product Selection Cha a ea a Oe 1 4 Product nn eae eee eee ee ee ee TENKANEN KNENS 1 4 PP ete OLO Oirer ionita a ata ct agape ii dea dua veda arate eed idos 1 4 NPOrt 6 2501625085 9 CE 0Z290 MESC tanta aaa ae a ate dota agate na es bee ale ded ae ae ats donate eae nate eee Shes 1 6 NPO cyto ater ere hh nr hn hn nnn se ee er rr rer 1 8 A 1 10 Ze a e Stal Gee saceeuesaeensecue seen cea E due sanenaeenaceiewee 2 1 Panel Layout sssnnsicanasanare osado lapa e e elie i aoe bes pia Pere tees eee ee eee 2 2 NROrC OTSO 2 Oar eet te ewan a ce aon alin aa ete ee a a uel aa ulin name aa a A 2 2 ele gael cris tee er ere ee eC eer eT Tce eRe O ON 2 2 og AA A A A 2 3 Panel DUN2 Rall andRack MONENG tacita ts il el 2 4 Connecting the nll ck ee te te ee ee ee eT 2 5 Winnog ICU
12. STP will determine which path between each bridged segment is most efficient and then assign a specific reference point on the network When the most efficient path has been identified the other paths are blocked In the above 3 figures STP first determined that the path through Bridge C was the most efficient and as a result blocked the path through Bridge B After the failure of Bridge C STP re evaluated the situation and opened the path through Bridge B How STP Works When enabled STP determines the most appropriate path for traffic through a network The way it does this is outlined in the sections below STP Requirements Before STP can configure the network the system must satisfy the following requirements e Communication between all the bridges This communication is carried out using Bridge Protocol Data Units BPDUs which are transmitted in packets with a known multicast address e Each bridge must have a Bridge Identifier that specifies which bridge acts as the central reference point or Root Bridge for the STP system bridges with a lower Bridge Identifier are more likely to be designated as the Root Bridge The Bridge Identifier is calculated using the MAC address of the bridge and a priority defined for the bridge The default priority of the NPort 6000 series is 32768 NPort 6000 Series Module Settings e Each port has a cost that specifies the efficiency of each link The efficiency cost is usually determined by
13. This will take you to the web console where you can make all configuration changes Please refer to Chapter 5 Configuration with the Web Console for information on how to use the web console Linux Real TTY Drivers Basic Procedures To map an NPort 6000 serial port to a Linux host s tty port follow these instructions L Set up the NPort 6000 After verifying that the IP configuration works and you can access the NPort 6000 by using ping telnet etc configure the desired serial port on the NPort 6000 to Real COM mode Install the Linux Real tty driver files on the host Map the NPort serial port to the host s tty port Hardware Setup Before proceeding with the software installation make sure you have completed the hardware installation Note that the default IP address for the NPort 6000 is 192 168 127 254 NOTE After installing the hardware you must configure the operating mode of the serial port on your NPort 6000 to Real COM mode I nstalling Linux Real TTY Driver Files NOTE The newest information please refer to readme txt on Linux Real TTY Friver EA A Obtain the driver file from the included CD ROM or the Moxa website at http www moxa com Log in to the console as a super user root Execute cd to go to the root directory Copy the driver file npreal2xx tgz to the directory Execute tar xvfz npreal2xx tgz to extract all files into the system Execute tmp moxa mxinst For RedHat AS ES WS and Fe
14. Yes all of the required protocols are on this list No need to add protocols Back Cancel Pstart a k E Routing and Remote A Ez 2 01 BM F 6 RADIUS Server NPort 6000 Series 6 Specify your IP address as shown on the following screens Routing and Remote Access Im P 5 Lo ae a Cn I sT Routing and Remote Access Server Setup Wizard Action IP Address Assignment ou can select the method for assigning IP addresses to remote clients How do you want IF addresses to be assigned to remote clients C Automatically IF you use a DHCP server to assign addresses confirm that itis configured properly IF You do not use a DHCP server this server will generate the addresses lt Back Cancel Start ers E Routing and Remote A KE 2 03 PM Routing and Remote Access Me x ro A eee aa Chil Routing and Remote Access Server Setup Wizard Address Range Assignment ie You can specify the address ranges that this server will use to assign addresses to gt remote clients En New Address Range Ei the Action Type a starting IP address and either an ending IP address or the number of Ad addresses in the range F Start IF address 55 End IF address Humber of addresses Cancel lt Back Herts Cancel i Start E kt E Routing and Remote A fe 2 05 PM F 7 RADIUS Server NPort 6000 Series RADIUS Server 7 Select Yes want to use a RADIUS se
15. fi flan y System Log Settings 10 T J a A lan E i Auto Warning Settings 11 II po po i flan i El Maintenance O 12 E A 7 fi flan y aA System Monitoring Q Save Configuration 13 fa lan E Restart 14 p flan y 15 fi flan y 16 p lan y 17 p flan y 18 i lan 7 Generally connections to the Internet are handled by assigning a gateway server in the network settings rather than through the route table 5 11 NPort 6000 Series Configuration with the Web Console Configuring Routes to the Intranet Ea 203 67 6 1 Ethernet 203 67 6 m TCPAP 203 67 6 252 AF Router maul Router 203 67 6 253 NPort 6000 203 67 6 254 Series 202 65 66 2 P Router E Ethernet gt E gt gt 202 65 66 Internet Modem m i F 202 65 66 4 202 65 66 5 a In this example dial in users can make requests to Intranet hosts 202 65 66 4 or 202 65 66 5 which are on Notebook network 202 65 66 xxx located outside network 203 67 6 xxx You will need to add a route entry for the next hop router 203 67 6 252 that delivers requests to network 202 65 66 xxx The metric hop in this case is 2 route hops Total Solution for Industrial Device Networking S Main Menu Route Table CO Overview a Ease Saranga No Gateway Destination Netmask Metric Iface aj Network Settings E 1 203 67 6 252 202 65 66 0 255 255 2595 0 2 flan y A Serial Port S
16. gt Configuring NPort Search Utility O Linux Real TTY Drivers gt Basic Procedures gt Hardware Setup gt Installing Linux Real TTY Driver Files gt Mapping TTY Ports gt Removing Mapped TTY Ports gt Removing Linux Driver Files O The UNIX Fixed TTY Driver gt Installing the UNIX Driver gt Configuring the UNIX Driver NPort 6000 Series Software I nstallation Configuration Overview The Documentation amp Software CD included with your NPort 6000 is designed to make the installation and configuration procedure easy and straightforward This auto run CD includes NPort Windows Driver Manager for COM mapping NPort Search Utility to broadcast search for all NPort 6000 s accessible over the network the NPort 6000 User s Manual and the NPort firmware upgrade utility NPort Windows Driver Manager Installing NPort Windows Driver Manager NPort Windows Driver Manager is intended for use with NPort 6000 serial ports that are set to Real COM mode The software manages the installation of drivers that allow you to map unused COM ports on your PC to serial ports on the NPort 6000 These drivers are designed for use with Windows 98 ME 2000 XP 2003 When the drivers are installed and configured devices that are attached to serial ports on the NPort 6000 will be treated as if they were attached to your PC s own COM ports 1 Click the INSTALL COM Driver button in the NPort Installation CD auto run window to install the NPort Win
17. s user s manual to determine the appropriate serial communication parameters Baud rate default 115200 bps This field configures the port s baudrate Select one of the standard baudrates from the dropdown box or select Other and then type the desired baudrate in the input box ATTENTION If the port requires a special baudrate that is not listed such as 500000 bps you may can select the Other option and enter the desired baudrate into the text box The NPort 6000 will automatically calculate the closest supported baudrate The margin for error will be less than 1 7 for all baudrates under 921600 bps Data bits default 8 This field configures the data bits parameter Note If data bits is set to 5 bits stop bits will automatically be set to 2 bits Stop bits default 1 This field configures the stop bits parameter Note If data bits is set to 5 bits stop bits will automatically be set to 1 5 bits Parity default None This field configures the parity parameter Flow control default RTS CTS This field configures the flow control type FIFO default Enable This field enables or disables the 128 byte FIFO buffer The NPort 6000 provides FIFO buffers for each serial port for both the Tx and Rx signals Note however that you should disable the port s FIFO setting if the attached serial device does not have a FIFO buffer of its own This is because a Serial device that does not have its own buffer may not be abl
18. DSR DCD GND RS 422 Tx Tx Rx Rx GND RS 485 4w Tx Tx Rx Rx GND RS 485 2w Data Data GND Memory Expansion Slot Slot Type SD socket supports up to 2 GB Software Network Protocols ICMP IP TCP UDP DHCP BOOTP Telnet DNS SNMP V1 V2c V3 HTTP SMTP ARP PPPoE Security Protocols DES 3DES AES SSH SSL Configuration Options Web Console Serial Console Telnet Console Windows Search Utility Windows Real COM Drivers Windows 95 98 ME NT 2000 Windows XP 2003 Vista 2008 7 8 x86 x64 2012 x64 Embedded CE 5 0 6 0 XP Embedded Fixed TTY Drivers SCO Unix SCO OpenServer UnixWare 7 UnixWare 2 1 SVR 4 2 QNX 4 25 QNX 6 Solaris 10 FreeBSD AIX 5 x Linux Real TTY Drivers Linux kernel 2 4 x 2 6 x 3 x Management SNMP MIB II IP Routing Static RIP 1 RIP I Operation Modes Standard Real COM TCP Server TCP Client UDP Pair Connection RFC2217 Terminal Reverse Telnet Ethernet Modem Printer PPP Disabled Secure Secure Real COM Secure TCP Server Secure TCP Client Secure Pair Connection SSH Reverse SSH Applications Terminal Sessions 8 sessions per port Physical Characteristics Housing Metal Weight 730 g Dimensions Without ears 77 x 111 x 28 mm 3 30 x 4 37 x 1 1 in With ears 89 x 111 x 28 mm 3 50 x 4 37 x 1 1 in Environmental Limits Operating Temperature 0 to 55 C 32 to 131 F Storage Temperature 40 to 75 C 40 to 167 F Ambient Relative Humidity 5 to 95
19. IP compression default No The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Disconnect by default None If this field is set as DCD off the connection will be disconnected when the DCD signal is off If this field is set as DSR off the connection will be disconnected when the DSR signal is off 7 29 NPort 6000 Series Configuring Serial Port Operation Modes Dynamic Mode Total Solution for Industrial Device Networking 3 Main Menu 2 Overview 1 Basic Settings Operation Modes i Port 1 HE Network Settings 5 S Serial Port Settings Application Dial in out v ES port 1 Mode Dynamic A Operation Modes TERM_BIN mode O Enable O Disable 3 Communication P PPPD mode O Enable O Disable 1 Data Buffering Lo SLIPD mode Enable Disable o Modem Settings Authentication type None L cel Settings id so type on authentication Diciis alla 43 Port 3 Pi Or2 Or3 Ora Ops OP6 p7 Lips E Port 4 Apply the above settings to Ores Orio Opi Ori Or1i3 Oria Opis Cpi6 a Port 5 CJ All ports E Port 6 EH Port 7 3 Port 8 Dynamic mode integrates PPPD SLIPD and Terminal dial in services Dynamic mode automatically detects which remote connection mode is being used and provides c
20. Max Age Step 3 Assign a value to Forwarding Delay that satisfies the conditions in Eq 3 and Eq 4 Configuring Turbo Ring The Turbo Ring Concept Moxa developed the proprietary Turbo Ring protocol to optimize communication redundancy and achieve a faster recovery time on the network The Turbo Ring and Turbo Ring V2 protocols identify one NPort 6000 as the master of the network and then automatically block packets from traveling through any of the network s redundant loops In the event that one branch of the ring gets disconnected from the rest of the network the protocol automatically readjusts the ring so that the part of the network that was disconnected can reestablish contact with the rest of the network Initial setup of a Turbo Ring or Turbo Ring V2 ring 1 Select any two ports as redundant ports 2 Connect the redundant ports to form the Turbo Ring 6 8 NPort 6000 Series Module Settings The user does not need to configure any of the NPort 6000 units as the master to use Turbo Ring or Turbo Ring V2 If none of the NPort 6000 in the ring is configured as the master then the protocol will automatically assign master status to one of the NPort 6000 units In fact the master is only used to identify which segment in the redundant ring acts as the backup path In the following subsections we explain how the redundant path is selected for rings configured for Turbo Ring and Turbo Ring
21. Network router Enable this network to communicate with other networks Manually configured server Start the server with default settings lt Back Cancel Start a Routing and Remote A ae 1 15 PM F 5 NPort 6000 Series 4 Select Set up an advanced remote access server and click Next to continue Routing and Remote Access fal X imee ee ee ee ee Routing and Remote Access Server Setup Wizard Action Remote Access Server Setup You can Use a basic configuration or more advanced options to set up this remote ACCESS Server Select a configuration type based on the complexity of your network Setup a basic remote access server Select this option to create a standalone server that will have simplified administrative contral sg Setup an advanced remote access server Select this option to create a server that will have advanced administrative features such as remote access policies or if you plan to add this server to a domain lt Back Cancel start as E Routing and Remote A 5 Select TCP IP protocol then click Next to continue Routing and Remote Access i a aa Te l Routing and Remote Access Server Setup Wizard Action Remote Client Protocols The protocols required for remote client access must be available on this server Verify that the protocols required on this server for remote clients are listed below Protocol
22. Setup will install NPort Search Utility into the following folder To continue click Nest IF you would like to select a different folder click Browse C Program FilesSMPortS earch Browse Alt least 1 0 MB of free disk space is required lt Back Cancel 4 Click Next to install the program s shortcuts in the appropriate Start Menu folder 5 Setup NPort Search Utility Select Start Menu Folder Where should Setup place the program s shortcuts r Setup will create the program s shortcuts in the following Start Menu folder To continue click Next IF you would like to select a different folder click Browse MPort Search Utility Browse Back Cancel 5 Click Next to proceed with the installation The installer then displays a summary of the installation options ig Setup NPort Search Utility Ready to Install Setup le now ready to begin installing NPort Search Utility on your computer Click Install to continue with the installation or click Back if you want to review or change any settings Destination location C Program Files N Ports earch Start Menu folder NFort Search Utility 10 13 NPort 6000 Series Software I nstallation Configuration 6 Click Install to begin the installation The setup window will report the progress of the installation To change the installation settings click Back and navigate to the previous screen 7 Click Finish
23. Sun Remote Procedure Call Sunrpc Network News Transfer Protocol NNTP Network Time Protocol NTP SNMP Simple Network Mail Protocol SNMP Traps IPX used for IP Tunneling Well Known Port Numbers SNMP Agents with MIB II amp RS 232 Like Groups The NPort 6000 has built in SNMP Simple Network Management Protocol agent software that supports SNMP Trap RFC1317 and RS 232 like groups and RFC 1213 MIB II The following table lists the standard MIB II groups as well as the variable implementation for the NPort 6000 The following topics are covered in this appendix O RFC1213 MIB II Supported SNMP Variables O RFC1317 RS 232 Like Groups O Moxa NP6000 MIB NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups RFC1213 MIB 11 Supported SNMP Variables System MIE imtertaces min ipm remera P_ ifaaminstatus_ ipinbiscards empingchos LT roperstatas _ ipinbelvers iempingchoReps mastamamge ipoutRequests Jrempintimestamps motes ipoutDiscards iempTimestampReps Coo inue ipOutnoRoutes iempinadarmasks o inue _ ipReasmrimeout__ _ iempinadarMaskReps o iimoiscaras ipreasmregas iempoutmsgs Oooo ineo o ipreasmos iempoutErors C imuntmommneratos ipReasmrais JrempOutDestunreachs routes ipres O JrempoutTimetrcs A oi owes ierragras O iempoutParmprobs TT routnucastrkts ipFragcreates JrempoutSreQuenchs LT rroutoiscaras _fipadentadcr Jre
24. and Pair Connection mode Data transmitted on the Ethernet will be well protected Guide to NPort 6000 Modes On the NPort 6000 each serial port is independently configurable for a different mode with different settings For example on the NPort 6450 an administrator can easily configure two ports for Real COM mode one port for Ethernet Modem mode and one port for Reverse Telnet mode Please refer to Chapter 7 Configuring Serial Port Operation Modes for detailed information and configuration instructions Device Control Applications For device control applications the NPort 6000 offers the following modes Real COM Secure Real COM mode and RFC2217 mode 4 2 NPort 6000 Series Introducing Serial Port Operation Modes Real COM and Secure Real COM Modes COMS3 IP Port z a gt TCP IP gt Ethernet Driver Mode RS 232 422 485 7 Mi Device Mi a The NPort 6000 comes bundled with Real COM drivers for Windows systems and TTY drivers for Linux systems Real COM mode includes optional data encryption using SSL In Real COM mode the bundled drivers are able to establish a transparent connection between a host and a serial device by mapping the serial port on the NPort 6000 to a local COM TTY port on the host computer Real COM mode supports up to 8 simultaneous connections that enable multiple hosts to simultaneously collect data from the same serial device One of the major conveniences of using Real COM
25. connectors supports cascade redundancy e NM GPRS GSM GPRS GSM modem module e NM Modem NM Modem T 56K V 92 modem module NPort 6150 NPort 6250 and NPort 6450 One model of the NPort 6150 three models of the NPort 6250 and one model of the NPort 6450 are available Model Name Number of Serial Ports Power Requirements 100 240 VAC adaptor NPort 6250 a NPort 6250 M SC 2 NPort 6250 S SC 2 100 240 VAC adaptor Standard Accessories for the NPort 6150 and NPort 6250 IS e Document and Software CD e Quick Installation Guide e Power adaptor e Product Warranty Statement e 2 attachable wall mount ears DI N Rail Accessories for the NPort 6150 NPort 6250 and NPort 6450 can be purchased separately e DK 35A DIN rail mounting kit 35 mm e DIN rail power supply Product Features All models in the NPort 6000 series have the following features e Secure data access modes including Secure Real COM Secure TCP Server Secure TCP Client and Secure Pair Connection e Versatile socket operating modes including TCP Server TCP Client UDP and Real COM driver e Port buffering function to prevent loss of serial data when communication is disrupted e Enhanced remote configuration with HTTPS and SSH 1 3 NPort 6000 Series Introduction e Port speeds of up to 921 6 Kbps e Redundant Ethernet Ring capability STP RSTP Turbo Ring and Turbo Ring 2 e GSM GPRS or V 92 Modem backup capability e Any Baudrate feature for ea
26. non condensing Altitude Up to 2000 m Note Please contact Moxa if you require products guaranteed to function properly at higher altitudes Power Requirements Input Voltage 12 to 48 VDC Power Consumption NPort 6250 333 mMA 12V 173mA O 24 V NPort 6250 M SC 428 mA O 12 V 219 mA O 24 V NPort 6250 S SC 376 mA 12 V 193 mA O 24 V Alarm Contact Relay output with current carrying capacity of 1 A 24 VDC Power Line Protection 1 KV burst EN61000 4 4 EFT B 0 5 KV surge EN61000 4 5 1 7 NPort 6000 Series Introduction Standards and Certifications Safety UL 60950 1 EN 60950 1 EMC CE FCC EMI EN 55022 Class A FCC Part 15 Subpart B Class A EMS EN 55024 EN 61000 4 2 ESD Level 2 3 E EN 61000 4 3 RS Level 2 EN 61000 4 4 EFT Level 2 EN 61000 4 5 Surge Level 2 EN 61000 4 6 CS Level 2 EN 61000 4 8 Level 1 EN 61000 4 11 Freefall EC 68 2 6 EC 68 2 34 EC 68 2 32 Vibration EC 68 2 6 EC 68 2 34 Green Product RoHS CRoHS WEEE Reliability Alert Tools Built in buzzer and RTC real time clock Automatic Reboot Trigger Built in WDT watchdog timer MTBF meantime between failures NPort 6250 226128 hrs NPort 6250 M SC 225762 hrs NPort 6250 S SC 225762 hrs Warranty Warranty Period 5 years Details See www moxa com warranty NPort 6450 Ethernet I nterface Number of Ports 1 Speed 10 100 Mbps auto MDI MDIX Connector 8 pin RJ 45 Magnetic Isolation 1
27. terminalTcpAliveCheck reverseTerminalTcpAliveCheck terminall nactivityTime reverseTerminall nactivityTime terminalAutoLinkProtocol reverseTerminalTcpPort terminalPrimaryHostAddress terminalSecondHostAddress reverseTerminalMapKeys fterminalfenetTepPoe T terminalSsTepRorE OOOO temna SSS S terminalMaxSessions terminalChangesession S temno SSS S terminalBreak terminalimterape SSS S terminalauthenticaionType oOo S terminalautolognerom S S S teminalPassworarom S teminatogmusername S terminaltoginBassword oS asoupas O porters mit ooo CATIA AE etarra compresstan O IE CET AOS IO CEIC AOS IE CETTAATT O A NS Ld A A dialPAPPassword diallncomingPAPCheck portSerialDataLoggingEnable ed portDataBits E 5 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups portStopBits portParity portFlowControl portFl FO snmpcontactName a snmpContactName snmpLocation A A A Se maca O sae PJ esseerddess pt SHostame S O O ETT T aer ost O rte SSS SSCs oteTabicindex gatewayRouteTable TS JoestinationRouterable OOOO O O COo emoe Coo O oeae T po fusertableindex o O Coo o i rerametsermable O Coo o soseo Coo o hineNumberusertabie SSS Coo see e Coo oo poratne O Coo 7777 E SS pf networktocattog o O e e SSS O Waminsi O Coo o o mnow S Coo oO Wae Coo o Simaitwarninglpchanged maitwarningPasswordChanged SSS O OS Coo o seves O Coo Jrs S e re Coo oo oo lar ServerthernetLinkDown O
28. the NPort 6000 will still pack and send the data when the amount of data exceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received e Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received following the delimiter 7 6 NPort 6000 Series Configuring Serial Port Operation Modes e Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter e Strip Delimiter Data in the buffer is first stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing the serial data in its internal buffer for network transmission As data is received through the serial port it is stored by the NPort 6000 in the internal buffer The NPort 6000 transmits data stored in the buffer via TCP IP but only when the internal buffer is full or as specified by the force transmit time When set to O the force transmit time is disabled and transmission is determined solely by the data in the internal buffer At 1 to 65535 t
29. 192 168 34 84 Port 6150 00 30 E8 08 739 40 192 168 34 82 Port 6610 5 00 30 8 10 08 01 192 168 35 93 CN2610 16 240 00 30 E8 26 70 35 192 168 32 20 00 30 E5 26 70 36 17210 1 1 Port 6650 32 00 30 E8 50 32 01 192 168 35 145 a se CH 2650 16 240 O00 30 69 26 50 33 192 168 34 83 00 30 E5 26 50 34 172 16 34 83 HE 4110A O00 30 6 8 04 41 04 192 168 34 85 DE 311 00 30 E8 04 79 86 192 168 34 61 10 14 NPort 6000 Series Software I nstallation Configuration 2 When the search is complete all NPort 6000 servers that were located will be displayed in the NPort Search Utility window F NPort Search Utility MB Eile Function iew Help FL Fe pa E Tar y E Exit Search Search IF Locate Console i LANT MAC Address LAN IP Address LANZ MAC Address LANZ IP Address 1 NPort 5610 8 DT 00 90 E8 05 61 04 192 168 34 123 E E 2 Port 5610 16 00 90 E8 04 52 F2 192 168 35 155 3 NPort 5610 8 00 90 E amp 0E EB 8A4 192 168 34 84 4 NPaort 6150 00 90 E8 DE 79 40 192 168 34 82 5 NPort 6610 8 00 90 E8 10 08 01 192 168 35 93 m 6 CN2610 16 2AC 00 30 E9 26 10 35 192 168 32 20 00 30 E9 26 10 36 172 10 1 1 NPort 6650 32 00 90 E8 50 32 01 192 168 35 145 7 8 CN2650 16 24C 00 90 E9 26 50 33 192 168 34 63 00 90 68 26 50 34 172 16 34 83 g NE 41104 00 90 E8 04 41 04 192 168 34 65 i 10 DE 311 00 30 E9 04 73 86 192 168 34 61 To modify the configuration of the highlighted NPort 6000 click on the Console icon to open the web console
30. 5 KV built in Optical Fiber Interface with network module Fiber Port 100BaseFX SC connector Distance Multi mode 0 to 4 km 1300 nm 62 5 125 um 500 MHz km Single mode O to 40 km 1310 nm 9 125 um 3 5 PS nm km Min TX Output Multi mode 20 dBm Single mode 5 dBm Max TX Output Multi mode 10 dBm Single mode 0 dBm Sensitivity Multi mode 34 to 30 dBm Single mode 36 to 32 dBm Serial Interface Number of Ports 4 Serial Standards RS 232 422 485 Connector DB9 male RS 485 Data Direction Control ADDC Automatic Data Direction Control NPort 6000 Series Introduction Serial Line Protection 15 KV ESD protection for all signals Console Port Serial port 1 doubles as RS 232 console port Serial Communication Parameters Data Bits 5 6 7 8 Stop Bits 1 1 5 2 Parity None Even Odd Space Mark Flow Control RTS CTS DTR DSR XON XOFF Baudrate 50 bps to 921 6 Kbps supports non standard baudrates Pull High Low Resistor for RS 485 1 KQ 150 KQ Serial Signals RS 232 TxD RxD RTS CTS DTR DSR DCD GND RS 422 Tx Tx Rx Rx GND RS 485 4w Tx Tx Rx Rx GND RS 485 2w Data Data GND Memory Expansion Slot Slot Type SD socket supports up to 2 GB Software Network Protocols ICMP IP TCP UDP DHCP BOOTP Telnet DNS SNMP V1 V2c V3 HTTP SMTP ARP PPPoE Security Protocols DES 3DES AES SSH SSL Configuration Options Web Console Serial Console
31. 6600 RS 232 422 485 male RJ 45 O Cable Wiring Diagrams Ethernet Cables Serial Cables RS 232 Serial Cables RS 422 4 Wire RS 485 Serial Cables 2 wire RS 485 Pin Assignments for DB9 and DB25 Connectors Y VV WV NPort 6000 Series Pinouts and Cable Wiring Port Pinout Diagrams NPort 6150 6250 6450 RS 232 422 485 male DB9 12345 6789 RS 422 RS 485 2W RS 485 4W 1 pco pow COC poe AA s o oore oaa e pr pow foem NPort 6600 RS 232 422 485 male RJ 45 RS 485 2W Data NPort 6000 Series Cable Wiring Diagrams Ethernet Cables RJ45 Plug Pin 1 RJ45 Plug Pin 1 Straight Through Cable Cable Wiring Cross Over Cable Cable Wiring Serial Cables RS 232 RJ 45 8 pin to Female DB9 RJ45 Port NPort 6000 8 pins DSR RTS GND TxD DCD CTS DTR RJ45 Connector oa 0 on amp Ww AP Cable Wiring y Me e i es Female DB9 MH Y A w oo k Male DBS RS 232 Device 9 pins DTR CTS GND gt RxD TxD DCD RTS DSR Pinouts and Cable Wiring NPort 6000 Series RJ 45 8 pin to Male DB9 R45 Port RJ45 Connector Male DBS NPort 6000 a I 8 pins Cable Wiring DSR RTS GND TxD RxD DCD CTS DTR 0 310 on amp amp M LE Oo A fo th oO RJ 45 8 pin to Female DB25 RJ45 Port RJ45 Connector Female DB25 NPort 60
32. COM Mode N 8 1 Hi Performance HW flow control on NPort 6450 and doing the burn in test for 8 hours Implement NPort 6000 in the Turbo Ring Enable Switch back bone may low dwon the recover time to hundred mini second due to the different operation behavior of NPort 6000 The STP RSTP Concept NOTE Spanning Tree Protocol STP was designed to help reduce link failures on a network and provide protection from loops Networks that have a complicated architecture are prone to broadcast storms caused by unintended loops on the network The Moxa NPort 6000 s STP feature is disabled by default To be completely effective you must enable RSTP STP on every NPort 6000 connected to your network Rapid Spanning Tree Protocol RSTP implements the Spanning Tree Algorithm and Protocol defined by IEEE Std 802 1w 2001 RSTP provides the following benefits e The topology of a bridged network will be determined much more quickly compared to STP e RSTP is backwards compatible with STP making it relatively easy to deploy For example gt Defaults to sending 802 1D style BPDUs if packets with this format are received gt STP 802 1D and RSTP 802 1w can operate on different ports of the same NPort 6000 This feature is particularly helpful when the NPort 6000 ports are connected to older equipment such as legacy NPort 6000s You get essentially the same functionality with RSTP and STP To see how the two systems differ see the Differences
33. Desktop Adapter x Interface Index for 4ddrezz 2 x Cancel 6 To save the configuration to a text file select Export from the COM Mapping menu You will then be able to import this configuration file to another host and use the same COM Mapping settings in the other host NPort Windows Driver Manager Ea tx File COM Mapping Configuration View Help Cth Ep EA E Cih App Undo Setting ac Address 2 168 127 254 950 966 Portl AAA eas Cris 168 127 254 391 367 Port ChE 168 127 254 954968 Ports 2 Ab 127 204 953369 Port NPort Search Utility Installing NPort Search Utility 1 Click the INSTALL UTILITY button in the NPort Installation CD auto run window to install NPort Search Utility Once the program starts running click Yes to proceed 2 Click Next when the Welcome screen opens to proceed with the installation A Setup NPort Search Utility Welcome to the NPort Search Utility Setup Wizard This will install MPort Search Utility Wer 1 on your computer Itis recommended that you close all other applications before Continuing Chek Next to continue or Cancel to exit Setup 10 12 NPort 6000 Series Software I nstallation Configuration 3 Click Next to install program files to the default directory or click Browse to select an alternate location A Setup NPort Search Utility Select Destination Location Where should NPort Search Utility be installed y
34. E tesa teew teen taeda teem tees tesa ieee ines pedaso tee rtace tae 10 15 AStalagLIAIEREITTA DO es ee 10 15 Mapa T IPO area te 10 16 Mapping tly ports automaticallY sitos nal 10 16 Mapping Ry ports Manually eer a e eer Gees eos CEEE ees ees eee Ger Cees eds Gees Cees Gees a Gear eae es OCN els 10 16 REMOVING Mapped TTY POmts cccccccecccee cece eee e eee nn 10 16 Removing LNC DAVE FHES oee a ve se value vebe bela os 10 17 The UNI FeO TE GI Or aaa 10 17 Installing The UNIX Driver acid 10 17 Slds tre UNIX DEVET rok Bee ec korskua ioe tea ees kia ae ee ee kia ee eee aa ie ie ae ee aken EGS 10 17 A PIRQUES and Cable WinliNn 6 A aa A 1 ROrEPINOUE DISO aN O creian tad A 2 NPort 6150 6250 6450 R5 232 422 485 male DBI customs pauta des A 2 NPOrt 6600 RS 232 422 485 Male RJ 45 cia A AAA A 2 Cable Wining Dogra S rineh eienen nrn anaana aeiaai aani a ANNANN A 3 Ad AAA eo et ee ee eee ee es eee ees CG A 3 Serial Cables hn ts htc Senn i ee ee ee A 3 Serial Cables R5 422 4 Wire RS 4 635 asta boys ate bake bale bebe babe bales bebe buke bales bobs bobs bebe boas bebe bebe bee ptas A 5 Serial Cabes 2 Wil Gs RS 4B 5 sc aaa a Taaa a a aaa Ed A 6 Pin Assignments for DBO and DB25 ConnectorS s ssssrsesrrresrrererrrrerrrrrsrrrrerrrrernrrrsrrrrerrrrernrresrrn A 7 Bi RFEG221 J esnean EEEE E EEE E E E E a A O aid ica B 1 Gy Dyhamic DOMAIN Name Serv r a a aaa C 1 Setting up the DDNS and Port Forwarding on NAS 000ccccccccc
35. EY System Management de i 3 1152008 1 None ON OFF OFF Enable RS 232 Pm Misc Network Settings 4 1152008 1 None ON OFF OFF Enable RS 232 EQ Auto Warning Settings 5 1152008 1 None ON OFF OFF Enable RS 232 EJ Maintenance 6 1152008 1 None ON OFF OFF Enable RS 232 BG certificate 7 1152008 1 None ON OFF OFF Enable RS 232 ee eee 8 1152008 1 None ON OFF OFF Enable RS 232 Piste eae tain bare 9 1152008 1 None ON OFF OFF Enable RS 232 _ ES Serial Status 10 1152008 1 None ON OFF OFF Enable RS 232 ii E Serial to Network Con 11 1152008 1 None ON OFF OFF Enable RS 232 El Sardi porn status 12 1152008 1 None ON OFF OFF Enable RS 232 i i 13 1152008 1 None ON OFF OFF Enable RS 232 3 Serial Port Error Coun i i 14 1152008 1 None ON OFF OFF Enable RS 232 Serial Port Settings 15 1152008 1 None ON OFF OFF Enable RS 232 9 Cipher Usage Status 16 1152008 1 None ON OFF OFF Enable RS 232 Serial Cipher Usage Status Serial Status Cipher Usage Status 3 Main Menu 1 Overview Total Solution for Industrial Device Networking Cipher Usage Status a Basic Settings Port OP Mode Connections Cipher ae Network Settings 1 Device Control RealCOM 5 Serial Port Settings 2 Device Control RealCOM Bey System Management Device Control RealCOM i Device Control RealCOM 3 ye i Ea Misc Network Settings 5 Device Control RealCom E Auto Warning Settings 6 Device Control RealCOM amp Maintenance 7 Device Control RealCOM E ay oriei Device Con
36. LED indicators on the front panel of the NPort 6000 are described in the following table LED Name LED Color LED Function PWR Red Power is being supplied to the power input P1 to P16 in use LED P1 P2 P3 P4 6150 6250 6450 P1 to P16 Tx 6610 6650 P1 to P16 Rx 6610 6650 Steady on Power is on and the NPort 6000 is booting up Blinking There is an IP conflict or the DHCP or BOOTP server did not aa respond properly Green Steady on Power is on and the NPort 6000 is functioning normally ae Blinking The device server has been located by NPort Search Utility The NPort 6450 and 6650 models have additional LEDs for the alarm and optional network modules 2 6 NPort 6000 Series Getting Started LED Name LED Color LED Function Module The fiber optic network module is plugged in and has been detected 6450 6610 6650 The fiber optic network module is not present Link on optional Steady on The NPort 6000 device server is connected to an Ethernet network modules fiber connection but the port is idle NM FXO1 M SC Blinking The fiber port is transmitting or receiving data NM FX01 S SC Alarm Red The relay output DOUT is open exception 6450 6610 6650 The relay output DOUT is short normal condition GSM NM GPRS GSM GSM Connection GPRS NM GPRS GSM GPRS Connection GPRS GSM More LEDs indicates better signal 4 LEDs indicates maximum signal Signal Strength strength NM GPRS GSM Green Mo
37. Oro Orio Ori Ora Opis Oria Opis P16 HE Port 12 Dall ports EG Port 13 E Port 14 i NPort 6000 Series Configuring Serial Port Operation Modes PPP provides standard PPP service for both dial in and dial out Destination I P address This is the IP address of the remote dial in dial out server Source IP address The Source IP address is IP address assigned to this serial port IP netmask The IP netmask defines the netmask also known as the subnet mask for the PPP connection TCP IP compression default Disable The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Link quality report default Disable Setting this field to Enable allows the NPort 6000 to disconnect a connection if the link noise exceeds a certain threshold Username This is the dial out user ID account Password This is the dial out user password Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CON TACACS Verify the ID against the external TACACS server TACACS Local TACACS authentication is tried first switching to Local if unsuccessful Local TACACS Authentication is performed locally first switching to Radius if unsuccessful None Authentication is n
38. Public License GPL which means that it is free to download and install FreeRADIUS can be downloaded from the following website http www freeradius com Setting up Windows NT Hosts 1 Install Windows NT OPTION PACK 4 0 on the Windows NT server 2 Open Start gt Programs gt Windows NT 4 0 Option Pack gt Microsoft I nternet Information Server gt Management Console Manger Accessories Intemet Explorer Favorites NPort Server Pro Startup Ey Documents EBooks Online BB Command Prompt Eh settings gt Windows NT Explorer A a Administrative Tools Common S HyperSnap DX Help S Startup a Windows NT 4 0 Option Pack fc Internet Connection Services for RAS gt Eg fii Internet Service Man ager fS Microsoft Internet Information Server gt S Microsoft NNTP Service S Microsoft Transaction Server S Microsoft SMTP Service Product Documentation Intemet Service Manager HTML Release Notes Al Windows NT 4 0 Option Pack Setup A a A a v b Y v v 4 Run Log Off Administrator R Shut Down Windows NT Server 3 Goto Console Root gt I nternet I nformation Server in the left pane Your computer s name should be visible F 3 NPort 6000 Series RADIUS Server 4 Find your computer s name in the left panel and click on it after which you will see RADIUS in the right information window Tt EMICEOS On man EA Console iis Console Rootilnt
39. SC NM FX02 S SC gt Using Ethernet Redundancy gt The STP RSTP Concept gt Differences between RSTP and STP gt STP Example O Configuring Turbo Ring gt The Turbo Ring Concept gt Configuring Turbo Ring 2 O NM GPRS GSM gt GSM Operation Mode gt GPRS Operation Mode gt SMS Operation mode O NM Modem NPort 6000 Series Module Settings NM TX01 NM TX02 NM FX01 M SC NM FX01 S SC NM FX02 M SC NM FX02 S SC Using Ethernet Redundancy Setting up Ethernet Redundancy on your NPort 6000 network helps protect critical links against failure protects against network loops and achieve the Ring topology and keeps network downtime at a minimum The Ethernet Redundancy function allows the user to implement several NPort 6000 units into a Ring topology to provide a backup data transmission route in the event that a cable is inadvertently disconnected or damaged This is a particularly important feature for industrial applications since it could take several minutes to troubleshoot such as locating the disconnected or severed cable Several minutes of downtime could cause a big loss in production and revenue The NPort 6000 supports three different protocols for this Ethernet redundancy function Rapid Spanning Tree Protocol I EEE 802 1w Turbo Ring and Turbo Ring 2 ATTENTION The Ethernet redundancy function can be used with NPort 6450 and NPort 6600 units that have a network expansion slot and are equipped with any of the network e
40. STA VIN S ease caesar a a aa e E A E E E E ATA 2 5 Connecting the NPort 6600 32 16 8 48V S POWTF ocooocccccccconnncccnccnnnnnnnccn nr nnn rra nr nn rra ara rnn naar rrnnnnanns 2 5 Grounding the NPOrt0600 32 1083 48 oir 2 5 CONNECTING to the INGUWONIK A A AA Ada 2 6 Gonfectng to a erlal DEVICE rretsi rra 2 6 LE DANNO ACON oraaa a aaa a a AAA A ARA A A AAA A AAA AAA A eet nu RRA 2 6 Adjustable Pull High Low Resistors for the RS 485 Port sssssssssssrrnsrrrrnrrrrrsrrrrsrrrrsrrrrerrrrrerrrrsrrrrne 2 7 3 Initial P Address Configuration s s 2s1221 1122211ss2212s10nan2nnnnnnnnnnnn aa 3 1 Static and Dynamic IP Address eS ica 3 2 Factory Defatit IP Address td anto 3 2 Configuration O PLIONS cermin eae a Eeen Eiir e 3 2 POTES SANT AAA AAAA AAAA AANA AAA AAT 3 2 E DEG II O EE E E rr e 3 2 LCM Console Front Panel NPort 6610 6650 and 6450 only ssssssssssrrsssrrrrsrrrrerrrrnesrrrrsrrrrerrrresrrne 3 2 O RR 3 3 VEIS E CORSO arrasa OD E ee ex exe 3 4 EA ad 3 6 4 Introducing Serial Port Operation Modes 0ccccccoococccoconnnncconnnnnnncrnnnn rana nn rra rra 4 1 OV El MW caco 4 2 Guide to NPort 6000 MOdESiccccnictedadadadncccncucncsancuanaudecnamananesananancsancuanonescnemananenanoRUnenGnanananeaanunaneseedecadneeds 4 2 Device Control ADPIC Starr cet brillaba cid ie ee ee ee cae 4 2 Reali COM and Secure Real COM MOS ssp 4 3 Reverse CLC OM MOG 0 add 4 3 REC22 E7 MO en a E E 4 4 Socket ADPIC HONS a a ada A 4 4 TCP Server
41. Software I nstallation Configuration For more configuration information view the file moxattyd cf which contains detailed descriptions of the various configuration parameters NOTE The Device Name depends on the OS See the Device Naming Rule section in README TXT for more information To start the moxattyd daemon after system bootup add an entry into etc inittab with the tty name you configured in moxattyd cf as in the following example ts 2 respawn usr etc moxattyd moxattyd t 1 Device naming rule For UnixWare 7 UnixWare 2 1 x and SVR4 2 use pts n For all other UNIX operating systems use ttyp n Starting moxattyd Execute the command init q or reboot your UNIX operating system Adding an additional server 1 Modify the text file moxattyd cf to add an additional server User may use vi or any text editor to modify the file For more configuration information look at the file moxattyd cf which contains detailed descriptions of the various configuration parameters 2 Find the process ID PID of the program moxattyd ps ef grep moxattyd 3 Update configuration of moxattyd program kill USR1 PID e g if moxattyd PID 404 kill USR1 404 This completes the process of adding an additional server 10 18 A Pinouts and Cable Wiring The following topics are covered in this appendix O Port Pinout Diagrams gt NPort 6150 6250 6450 RS 232 422 485 male DB9 gt NPort
42. Standard Real COM TCP Server TCP Client UDP Pair Connection RFC2217 Terminal Reverse Telnet Ethernet Modem Printer PPP Disabled Secure Secure Real COM Secure TCP Server Secure TCP Client Secure Pair Connection SSH Reverse SSH Applications Terminal Sessions 8 sessions per port Physical Characteristics Housing Metal IP30 protection Weight NPort 6600 8 3460 y NPort 6600 16 3580 g NPort 6600 32 36009 Dimensions Without ears 440 x 195 x 44 mm 17 32 x 7 68 x 1 73 in With ears 480 x 195 x 44 mm 18 9 x 7 68 x 1 73 in Environmental Limits Operating Temperature Standard Models O to 55 C 32 to 131 F Wide Temp Models 40 to 75 C 40 to 167 F Storage Temperature 40 to 75 C 40 to 167 F Ambient Relative Humidity 5 to 95 non condensing Altitude Up to 2000 m Note Please contact Moxa if you require products guaranteed to function properly at higher altitudes 1 11 NPort 6000 Series Introduction Power Requirements Input Voltage AC Models 100 to 240 VAC DC Models 48 VDC 20 to 72 VDC 20 to 72 VDC Power Consumption AC Models 285 mA 100 VAC 190 mA 240 VAC DC Models 293 mA 48 VDC Alarm Contact Relay output with current carrying capacity of 1 A 24 VDC Power Line Protection 1 KV burst EN61000 4 4 EFT B 0 5 KV surge EN61000 4 5 Standards and Certifications Safety UL 60950 1 EN 60950 1 EMC CE FCC EMI EN 55022 Class A FCC Part 15 Subpart
43. TCP alive check time Inactivity time Max connection Ignore jammed IP Allow driver control Secure TCP port Cmd port Connection goes down Command by comman d operation Response timeout Non requested serial data Data Packing Packet length Delimiter 1 Delimiter 2 Delimiter process Force transmit Apply the above settings to Socket v TCP Server 0 99 min 0 0 65535 ms iv Enable Disable Enable Disable OEnable Disable 4001 966 RTS O always low always high DTR O always low always high Enable Disable 0 65535 ms 0 0 1024 00 Hex C Enable 00 Hex Enable Do Nothing Y Processed only when Packing length is 0 0 0 65535 ms p1 Op2 JAN ports 7 8 Opa Opa Drs NPort 6000 Series Configuring Serial Port Operation Modes TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the k
44. Telnet Console Windows Search Utility Windows Real COM Drivers Windows 95 98 ME NT 2000 Windows XP 2003 Vista 2008 7 8 x86 x64 2012 x64 Embedded CE 5 0 6 0 XP Embedded Fixed TTY Drivers SCO Unix SCO OpenServer UnixWare 7 UnixWare 2 1 SVR 4 2 QNX 4 25 QNX 6 Solaris 10 FreeBSD AIX 5 x Linux Real TTY Drivers Linux kernel 2 4 x 2 6 x 3 x Management SNMP MIB II IP Routing Static RIP 1 RIP I Operation Modes Standard Real COM TCP Server TCP Client UDP Pair Connection RFC2217 Terminal Reverse Telnet Ethernet Modem Printer PPP Disabled Secure Secure Real COM Secure TCP Server Secure TCP Client Secure Pair Connection SSH Reverse SSH Applications Terminal Sessions 8 sessions per port Physical Characteristics Housing Metal IP30 protection Weight 1020 g Dimensions Without ears 158 x 103 x 35 mm 6 22 x 4 06 x 1 38 in With ears 181 x 103 x 35 mm 7 13 x 4 06 x 1 38 in Environmental Limits Operating Temperature 0 to 55 C 32 to 131 F Storage Temperature 40 to 75 C 40 to 167 F Ambient Relative Humidity 5 to 95 non condensing Altitude Up to 2000 m Note Please contact Moxa if you require products guaranteed to function properly at higher altitudes Power Requirements Input Voltage 12 to 48 VDC Power Consumption 730 mA E 12 V 330 mA 24 V Alarm Contact Relay output with current carrying capacity of 1 A 24 VDC Power Line Protection 1 KV burst EN61000 4 4 EFT B
45. The firmware will only send data back to the driver on the host Data will be sent first in first out when data comes into the NPort 6000 from the Ethernet interface ATTENTION When Max connection is greater than 1 the NPort 6000 will use a multi connection application i e 2 to 8 hosts are allowed access to the port at the same time When using a multi connection application the NPort 6000 will use the serial communication parameters as defined here in the web console and all hosts connected to the port must use identical serial settings If one of the hosts opens the COM port with different serial settings data will not be transmitted properly Ignore jammed IP default No This option determines how the port will proceed if multiple hosts are connected and one or more of the hosts stops responding as the port is transmitting data If you select No the port will wait until the data has been transmitted successfully to all hosts before transmitting the next group of data If you select Yes the port will ignore the host that stopped responding and continue data transmission to the other hosts Allow driver control default No This option determines how the port will proceed if driver control commands are received from multiple hosts that are connected to the port If No is selected driver control commands will be ignored If Yes is selected control commands will be accepted with the most recent command received taking precedence
46. V2 Determining the Redundant Path of a Turbo Ring Ring In this case the redundant segment i e the segment that will be blocked during normal operation is determined by the number of EDS units that make up the ring and where the ring master is located When the number of NPort 6000 units in the Turbo Ring is even If there are 2N NPort 6000 units an even number in the Turbo Ring then the backup segment is one of the two segments connected to the N 1 st NPort 6000 i e the NPort 6000 unit directly opposite the Master When the number of NPort 6000 units in the Turbo Ring is odd Turbo Ring Settings Redundancy Protocol Master 1st Redundant Port 2nd Redundant Port Submit Master If there are 2N 1 NPort 6000 units an odd number in the Turbo Ring with NPort 6000 units and segments labeled counterclockwise then segment N 1 will serve as the backup path For the example shown here N 1 and therefore N 1 2 Turbo Ring O Enable Disable Enable Disable Enable or Disable this NPort 6000 as the Master NPort 6000 Series Module Settings Redundant Ports 1st Redundant Port Select any LAN port of the NPort 6000 to be one of the Port 1 redundant ports 2nd Redundant Port Select any LAN port of the NPort 6000 to be one of the Port 2 redundant ports Configuring Turbo Ring 2 Turbo Ring Settings Redundancy Protocol Turbo Ring V2 Master O Enable Disable ist Redundant Port 2nd R
47. View LED Indicators NPort 6450 Rear View DOUT Reset LAN Module O RJ45 Power Jack om Top View a CU SD slot LED Indicators Front View Getting Started NPort 6250 Rear View Power Reset LAN Jack o J i Top View LED Indicators SD Slot Front View aa ip Pt P2 Optional Network Modules RJ45 Ethernet Fiber Ethernet Fiber Ethernet GPRS GSM NPort 6000 Series Getting Started NPort 6610 6650 Rear Views Network Module AC Power Serial Ports Console LAN DOUT Input 48 VDC Power Input Top View Standard Temperature Model Front Views LCM Display LED Indicators SD Connector i nal LED Indicators Push Buttons Reset Button internal Wide Temperature Model Front Views LED Indicators SD Connector internal LED Indicators Reset Button NPort 6000 Series Getting Started Panel DIN Rail and Rack Mounting Wall or Cabinet Mounting The NPort 6150 6250 and 6450 device servers have built in ears for attaching i E the device server to a wall or the inside of a cabinet We suggest using two screws per ear to attach the device servers to a wall or the inside of a cabinet The heads He of the screws should be less than 6 0 mm in diameter and the shafts should be 0 less than 3 5 mm in diameter as shown in the figure at the right NPort 6150 NPort 6250 NPort 6450
48. and Secure TCP Server MoOdeS occoccccccccncccccnccnnnncnn cra nr rr rr 4 4 TCP Chen alid Secure TP CHEAt MO dE S snoot apro Nepas 4 5 EB all MOOG maeno rt an N Sree RIS ene ea gar nr ERD eR aT ane ae nT Reena ne 4 5 Pair Connection and Secure Pair Connection Modes wicca ave ae a a ae ea ae a aaa ee ee 4 6 Ethernet Mo den MOdeS ert at ne ne ee ee en re er ee ere re 4 6 Terminal ADDN CATIONS tsiaie stan tio on oie orton alinean eras 4 7 Terminal AS CIEMI aora O gant E E ina AR aGaIRT SE RRR SIE RTS 4 7 TENNIS as 4 7 SI ONO 4 7 Reverse Terminal AHDINGON S astanira aa dada ida ic tallada ditadina dada data EEN EREA EAN EERE EE llanos 4 8 Reverse Teme aromas cute lueitas tedolacalosolede tuna hace tena tees ieee eee ula celia lado teen eee deen E eee teen teen een do ds 4 8 REVElSE S o tea yea yen en en bwin een win awn wn ea wn a nn ns 4 8 Pronto MOS A ANO EE E 4 9 Diaki OUE MOES cias 4 9 Disabled Mode e e ld 4 10 5 Configuration with the Web Console 0ocmmccccccconnncccccnnnnnccnnnnnnnnrnnnnnn rn 5 1 Usno WY OUP Web BroOWSeTunenisiniciinic ona cana aaa NR EE R E RIRAIRNa O A A reia 5 2 BOWSER Cookie eS SINO ea 5 2 TES CCSS CLINGS aeaa a EEE cand E EEEE aa 5 3 Openthig the Web Cono st A 5 4 MiS 1 lla lo A A tela ane te ca tada eee E E 5 5 o greeter enteric a tee rere tees tea artes tote eee State erties ieee Ieeeee te esate tes 5 5 SERVER O os 5 5 TIMES CUEING car 5 5 NetWork Stand Stato 5 6 BASIC NEWS ANS O 5 6 Advanced Ne
49. be specified Please refer to the Product Selection Chart section in this chapter for details on differences between models in the series The following topics are covered in this chapter O Overview O Package Checklist gt NPort 6610 6650 gt NPort 6150 NPort 6250 and NPort 6450 O Product Features a Product Selection Chart O Product Specifications NPort 6150 NPort 6250 6250 S SC 6250 M SC NPort 6450 NPort 6610 6650 Vv Y WV NPort 6000 Series Introduction Overview The NPort 6000 can be used to connect any serial device to an Ethernet network and supports many different operation modes In particular the NPort 6000 also supports Secure TCP Server Secure TCP Client Secure Pair Connection and Secure Real COM modes for security critical applications such as banking telecom access control and remote site management The NPort 6000 s Any Baudrate feature which is based on Moxa s UART IC allows the use of non standard baudrates For example a 500 Kbps baudrate may be required for some special applications Many device servers could only be configured for a baudrate of 460 8 Kbps resulting in an error rate of 7 84 For serial communication the acceptable margin of error is only 3 The NPort 6000 allows you to configure the baudrate more accurately and can be configured to transmit serial data at the rate of 491 5 Kbps This is only a 1 7 margin of error which is well within the acceptable margin for serial
50. between RSTP and STP section in this chapter The STP protocol is part of the IEEE Std 802 1D 1998 Edition bridge specification The explanation given in the following section uses bridge instead of NPort 6000 What is STP STP 802 1D is a bridge based system that is used to implement parallel paths for network traffic STP uses a loop detection process to e Locate and then disable less efficient paths e paths that have a lower bandwidth e Enable one of the less efficient paths if the most efficient path fails The figure below shows a network made up of three LANs separated by three bridges Each segment uses at most two paths to communicate with the other segments Since this configuration can give rise to loops the network will overload if STP is NOT enabled LAN 1 Bridge B Bridge A Bridge C 6 3 NPort 6000 Series Module Settings If STP is enabled it will detect duplicate paths and prevent or block one of them from forwarding traffic In the following example STP determined that traffic from LAN segment 2 to LAN segment 1 should flow through Bridges C and A because this path has a greater bandwidth and is therefore more efficient LAN 1 Bridge B Bridge A Bridge C What happens if a link failure is detected As shown in next figure the STP process reconfigures the network so that traffic from LAN segment 2 flows through Bridge B LAN 1 Bridge B Bridge A Bridge C
51. data For some applications data must be delivered reliably even if communication is disrupted The NPort 6000 provides a powerful function to ensure that data is buffered in case of a communication failure When a communication failure occurs the data is stored in the NPort 6000 Upon resumption of communication the buffered data will be sent to the destination The default size of the port buffer is 64 KB for each port For the NPort 6610 NPort 6250 NPort 6450 and NPort 6650 users may increase the buffer size by using an external SD card for the buffer Package Checklist Each NPort 6000 serial device server is shipped in a separate box with a number of standard accessories In addition several optional accessories can be ordered separately When you receive your shipment please check the contents of the box carefully and notify your Moxa sales representative if any of the items are missing or appear to be damaged NPort 6610 6650 Six models of the NPort 6610 and eight models of the NPort 6650 are available NPort 6610 8 8 RS 232 100 240 VAC Power Cord NPort 6610 8 48V 8 RS 232 48 VDC 20 to 72 VDC 20 to 72 VDC terminal NPort 6610 16 48V block NPort 6610 32 48V NPort 6650 8 RS 232 422 485 100 240 VAC Power Cord NPort 6650 8 T NPort 6650 16 16 NPort 6650 16 T ll NPort 6650 32 NPort 6650 8 48V E RS 232 422 485 48 VDC 20 to 72 VDC 20 to 72 VDC terminal NPort 6650 16 48V block NPort 6650 32 48V
52. default Disable The setting of this field depends on whether or not the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Link quality report default Disable Setting this field to Enable allows the NPort 6000 to disconnect a connection if the link noise exceeds a certain threshold Username This is the user ID account Password This is the user password APN Before using the GPRS the APN Access Point Name must be added as a modem initialization command Detailed instructions are shown below Initial string Use this field to configure the initial string that the modem will use to establish the connection 6 12 NPort 6000 Series Module Settings Connection control Connect Rule Disconnect Rule GPRS Periodically connect Periodically connect based on the Inactivity time is up Trunk inactivity time connection interval setting to GPRS after powering on Remote host fail Remote Ethernet host has failed The When the remote Backup remote host recovered NPort 6000 will keep pinging the remote Ethernet host returns to host over the Ethernet every 3 seconds normal data will revert after powering on After failing to to being sent over connect 5 times in a row the data from Ethernet after 5 the serial device will be sent through continuous successful t
53. enter the file name and click Submit The latest firmware can be downloaded at www moxa com Configuration I mport Export The NPort 6000 can share or back up its configuration by exporting all settings to a file which can then be imported into another NPort 6000 9 11 NPort 6000 Series System Management Settings E Main Menu Oo Overview 8 Basic Settings aE Network Settings aE Serial Port Settings E System Management Ea Misc Network Settings E Auto Warning Settings ne Maintenance E Console Settings i Ping a Firmware Upgrade a Configuration Import a Configuration Export i m Total Solution for Industrial Device Networking Configuration Import Configuration Import Select configuration file Browse IP configuration l Import all configurations including IP configurations Submit To import a configuration go to System Management gt Maintenance gt Configuration I mport Enter the configuration file path name and click Submit The NPort 6000 s configuration settings will be updated according to the configuration file If you also wish to import the IP configuration i e the NPort 6000 s IP address netmask gateway etc make sure that Import all configurations including IP configurations is checked off Main Menu E Overview fa Basic Settings 6 Network Settings 6 Serial Port Settings ee System Management 6 Misc Network Settings 6 Auto Warning Settings
54. from the remote Ethernet Modem or PC Here IP is the IP address of the remote Ethernet modem or PC and TCP port is the TCP port number of the remote Ethernet modem or PC Once the remote unit accepts this TCP connection the NPort 6000 will send out the CONNECT baud signal via the serial port and then enter data mode Disconnection request from local site NOTE When the NPort 6000 is in data mode the user can initiate disconnection by sending from the local serial port to the NPort 6000 Some applications allow you to directly set the DTR signal to off which will also initiate disconnection The NPort 6000 will enter command mode and after 1 second you can then enter ATH to shut down the TCP connection The NPort 600 O will return a NO CARRIER via the serial port The command cannot be divided The character can be changed in register 52 and the guard time which prefixes and suffixes the in order to protect the raw data can be changed in register S12 Disconnection request from remote site After the TCP connection has been shut down by the remote Ethernet modem or PC the NPort 6000 will send the NO CARRIER signal via the serial port and then return to command mode AT Commands The NPort 6000 supports the following common AT commands as used with a typical modem No ar command Description remar ATD lt IP gt lt Port gt Dial up the IP address Port No Ls 3 ATE
55. information on to its closest neighbor and so on until all hosts within the network have the same routing path information This state is known as network convergence RIP uses a hop count as a way of determining network distance Other protocols use more sophisticated algorithms that also include timing After receiving a packet headed for a specific destination a network host with a router uses the routing table information to determine the next host to route the packet to RIP is considered an effective solution for small homogeneous networks For larger more complicated networks transmitting the entire routing table every 30 seconds can bog down the network with a lot of extra traffic 5 9 NPort 6000 Series Configuration with the Web Console RIP 2 is an extension of RIP Its purpose is to expand the amount of useful information contained in RIP packets and to add security elements RIP 2 has become the standard version of RIP and the original RIP is no longer used Routing Protocol You may select which routing protocol if any your network will employ Gratuitous ARP In some applications you may need the NPort 6000 to send broadcast packets to update the ARP table on the server If you enable this function and set the send period the NPort 6000 will send periodically send broadcast packets at the specified time interval Configuring the Route Table You can access the Route Table by expanding System Management and then Mi
56. initiates contact with the NPort 6000 establishes the connection and receives data from the serial device This operation mode also supports up to 8 Simultaneous connections enabling multiple hosts to collect data from the same Serial device at the same time As illustrated in the figure data transmission proceeds as follows 1 The host requests a connection from the NPort 6000 which is configured for TCP Server mode 2 Once the connection is established data can be transmitted in both directions between the host and the NPort 6000 TCP Server mode supports optional data encryption using SSL 4 4 NPort 6000 Series Introducing Serial Port Operation Modes TCP Client and Secure TCP Client Modes 4 Request a connection Proceed with data transmission RS 232 422 485 Device In TCP Client mode the NPort 6000 can actively establish a TCP connection to a pre defined host computer when serial data arrives After the data has been transferred the NPort 6000 can automatically disconnect from the host computer by using the Inactivity time settings As illustrated in the figure data transmission proceeds as follows 1 The NPort 6000 configured for TCP Client mode requests a connection from the host 2 Once the connection is established data can be transmitted in both directions between the host and the NPort 6000 TCP Client mode includes optional data encryption using SSL UDP Mode N Directly proceed w
57. is useful if you do not have an external RADIUS server for authentication The NPort 6000 User Table stores up to 64 entries with fields for User Name Password and Phone Number Authentication Server Total Solution for Industrial Device Ne 3 Main Menu 1 Overview 1 Basic Settings E Network Settings Authentication Server RADIUS RADIUS server h Serial Port Settings 53 System Management RADIUS key Misc Network Settings UDP port 1645 y 3 Accessible IP List RADIUS accounting C Enable Disable 2 SNMP Agent TACACS A DONS TACACS server 9 Host Table TACACS secret J Route Table pa P TACACS ti Di Url accounting Enable Disable 2 Authentication Server 9 System Log Settings Submit H Auto Warning Settings 0 Maintenance RADIUS server IP If you are using a RADIUS server for user authentication enter its IP address here RADIUS key If you are using a RADIUS server for user authentication enter its password here UDP port default 1645 If you are using a RADIUS server enter its UDP port assignment here RADI US accounting Use this field to enable or disable RADIUS accounting TACACS server If you are using a TACACS server for user authentication enter its IP address or domain name here TACACS secret If you are using a TACACS server for user authentication enter its password here TACACS accounting Us
58. names and passwords as well as configuration of information that details the type of service to deliver to the user e g SLIP PPP Telnet and rlogin The NPort 6000 supports the RADIUS protocol which requires only one database for remote user management The following topics are covered in this appendix O What is RADIUS gt Definition gt Client Server Architecture O Setting up the NPort 6000 gt Setting up the RADIUS Server IP Address gt Serial Port Configuration Setting up UNIX Hosts Setting up Windows NT Hosts Setting up Windows 2000 Hosts Setting up Windows 2003 Hosts 0000 NPort 6000 Series RADIUS Server What is RADIUS Definition Remote Authentication Dial up User Service or RADIUS is the standard for centralizing the authentication authorization and accounting of remote access users Here is a brief description of how RADIUS works When a user dials in to a remote access device that device communicates with the central RADIUS server to determine if the user is authorized to connect to the LAN The RADIUS server performs the authentication and responds with the result either accept or reject If the user is accepted the remote access server routes the user onto the network if not the server will terminate the user s connection The RADIUS server also provides accounting services if supported by the remote access server With RADIUS a network manager or ISP only needs to maintain a single central datab
59. ports mapped to the NPort 6000 perform markedly slower than when using a native COM port try to verify if PurgeComm functions are used in your application If so try enabling the Fast Flush function and see if there is a significant improvement in performance 10 10 NPort 6000 Series Software I nstallation Configuration 3 The Serial Parameters window in the following figure shows the default settings when the NPort 6000 is powered on However the program can redefine the serial parameters to different values after the program opens the port via Win 32 API COM Port Setting Port Humber 1 Port s are Selected Basic Settings Advanced Settings Seral Parameters Security IPv6 Settings m These options will be saved on registry and used on few applications such as seral printer diver ln general cases you can ignore these settings Baud Rate 9600 Parity Mone Data Bits E Stop Bits ie Flow Control Mone v x Cancel 4 Click the Security tab to configure security settings Select the Enable Data Encryption option to enable data to be encrypted when transmitted over the COM ports After selecting the encryption option select the Keep connection option to start encrypting COM port communications immediately without restarting the COM ports If your application will open close COM ports frequently and the NPort 6000 is only for one host you can enable this option to speed up the opening closing time Howeve
60. the Add icon A Windows Driver Manager File COM Mapping Configuration View Help 5D Exit Add COM Pott Address 1 Address 2 Total COM Port 0 3 Select Input Manually and click Reverse Real COM tab then manually enter the NPort MAC Address 1st Mapping Port Index and Total Ports Click OK to proceed to the next step Add WNPort f Select From List a MAC 1 Address 1 MAC 2 Address 2 w input Manually RealCOM Redundant COM Reverse RealCOM MAC Address of NPort EXA 1st Mapping Port Index 1 1 32 Total Ports 1 The Port Indes means the NPort senal port index E g for a 32 port NPort the port index should be 1732 IF your NFort ts a dual L4N model please input the MAC address of LON x Cancel Depending on your application it could be that only some ports will be set up for Reverse Real COM mode The user should assign which ports of which NPorts will be mapped in Reverse RealCOM mode 10 7 NPort 6000 Series Software I nstallation Configuration Example If you want to map port 15 only for NPort 6000 A the configuration will be as follows MAC Address of NPort The MAC address of NPort A for identification 00 90 18 18 f1 36 lst Mapping Port Index Index or port 15 a5 Total Number of Ports Only port 15 will be mapped and the total 1 number of ports should be 1 Example If you want to map ports 3 to 15 for NPort 6000 A the configuration will be as follows MAC Address of NPort
61. the following window Internet Authentication Service File Action View Help csm 215 Een Welcome to Internet Authentication H E Rem Service Hl Se Remi H E Con Ee Use Internet Authentication Service 145 to authenticate authorize and account For dial up YPN wireless and Ethernet connections to your network You can also configure 145 to forward authentication requests to any access server that is compatible with Remote Authentication Dial In User Service RADIUS To configure 145 to read the remote access properties of user accounts in Active Directory on the Action menu click Register Server in Active Directory For more information about setting up 145 deployment scenarios and troubleshooting see Help Mew Cent 5 Select New RADIUS Client to add a new RADIUS client You will then be able to begin using this function F 9
62. then be easily imported back into the NPort 6000 if you need to reset the NPort 6000 due to a forgotten password or for other reasons Please refer to the section on Configuration Import Export earlier in this chapter for more details Certificate Ethernet SSL Certificate Import Total Solution for Industrial Device Networkin J Main Menu E Overview 1 Basic Settings H Network Settings Ethernet SSL Certificate Import Installed Certificate pue Issued to 192 168 127 254 e Serial Port Settings Issued by 192 168 127 254 She System Management Valid from 2027 4 3 to 2037 4 2 H Misc Network Settings E Auto Warning Settings Select SSL HA Maintenance certificate key file _ Browse ES Certificate i Ethernet SSL Certifica SUBE Certificate Key Delete EA System Mnnitnrinn The certificate key imported here will be used for HTTPS SSH Secure OP modes and will only accept PEM format 9 13 NPort 6000 Series SUL DY GAN J Main Menu a Overview 2 Basic Settings al Network Settings HE Serial Port Settings ey System Management E aS Misc Network Settings A Auto Warning Settings AS Maintenance Certificate lt Q Ethernet SSL Certifica i E Certificate Key Delete Ea System Monitoring es 1 Certificate Key Delete Certificate key Delete SSL certificate Submit System Monitoring Delete keep Serial to Network Connections System Management Settin
63. time that you last opened or refreshed the browser To set the local time for the NPort 6000 click on the Modify button then submit your changes in the screen as shown below ain x Modify time settings Date yy mm dd Time hh mm ss 2006 5 f10 fa fas fas Submit Close Time server The NPort 6000 uses SNTP RFC 1769 for auto time calibration You may enter a time server IP address or domain name in this optional field Once the NPort 6000 is configured with the correct time server address it will request time information from the time server every 10 minutes Network Settings Basic Network Settings Network Settings Basic IPv4 Configeration IPv4 configuration Static v IPv4 address 192 168 127 254 Netmask 1255 255 255 0 Gateway IPv4 DNS server 1 IPv4 DNS server 2 PPPOE user account PPPoE password WINS function Enable O Disable WINS server IPv6 Configeration IPv6 configuration Auto M IPv6 address Prefix IPv6 Gateway IPv6 DNS server 1 IPv6 DNS server 2 Connection priority IPV6 first RFC 3484 IPva4 first Configeration LAN1 speed Auto Y 5 6 NPort 6000 Series Configuration with the Web Console You can access Basic Network Settings by expanding the Network Settings item in the navigation panel Basic Network Settings is where you assign the NPort 6000 IP address netmask Gateway and other IP para
64. to uninstall the driver This program will perform the following actions oe A Unload the driver Delete all files and directories in usr lib npreal2 Delete directory usr lib npreal2 Modify the system initializing script file The UNIX Fixed TTY Driver NOTE The newest information please refer to readme txt on Fixed TTY Driver Installing the UNI X Driver l Log in to UNIX and create a directory for the Moxa TTY To create a directory named usr etc execute the command mkdir p usr etc Copy moxattyd tar to the directory you created If you created the usr etc directory above you would execute the following commands cp moxattyd tar usr etc cd usr etc Extract the source files from the tar file by executing the command tar xvf moxattyd tar The following files will be extracted README TXT moxattyd c source code moxattyd cf an empty configuration file Makefile makefile VERSION TXT fixed tty driver version FAQ TXT Compile and Link For SCO UNIX make sco For UnixWare 7 make svr5 For UnixWare 2 1 x SVR4 2 make svr42 Configuring the UNIX Driver Modify the configuration The configuration used by the moxattyd program is defined in the text file moxattyd cf which is in the same directory that contains the program moxattyd You may use vi or any text editor to modify the file as follows ttyp1 192 168 1 1 950 10 17 NPort 6000 Series
65. vere cree cree reer errs fame rane rene ere cerns eee 7 11 UDE MOOG rune eeeeswae sean iu duty aa dude Meta dude Sedu lete Sedu tein duty Meta sude tude lute tude tein dude eta sude vay sats 7 13 Par CONNect n MOOS cnet eee ieee eee ee eee 7 14 Palr CONNECHONM Masten Mode cacas dotada ri eens meen nena EEEa EEEE Ea 7 14 Pal COMMeCtiOn Slave MOde sn a cea 7 15 Boi We ala ol Modern Mode tant a a a io ta ds leia da ide da ios iba dada 7 16 Terminal Application isis bein ae eae a aa ee sae 7 19 SS ET ASAS e es 7 19 Perma BIN TERMS scctnaian ua neue eee rra tao 7 20 O A ON 7 22 Reverse Terminal ADDlCa ton Suse rene ncn ewe dd bo eel 7 23 Reverse Telnet Mode siii drei 7 23 Reverse SSA I OS IN 7 24 Pie ADD TEI Specteein arc taal T E E T E E ada adesatenatewetenatauectenaanasnnes 7 25 RAW PRN MOG cocos ta en A EE 7 25 LPERARN MO tail adidas 7 26 Dial INFQUE AD OUCATIONS teorema IRTE DOE AO 7 26 PPE MOO A E AEE EEEE AE EENE AENEON EA EENE EAEE 7 26 PPP ICG Seater Se r e ii 7 27 SHIP MOGE aaa A 7 28 A A RR 7 29 Dynamic Mod TOS 7 30 Disabled MOE E A A E A A ieee 7 30 Sx Additional Serial POPE Settings iii Aa 8 1 POR COMMUMICAHONer ar aiNGlels tarada 8 2 se al Parameters cada daa alada A 8 2 POrtiData BUMESNNa Odd dd AAA AA AAA Add 8 3 POr rele S CING AAA 8 3 POR CIONES aa 8 4 Welcome Message 0 A AAA AAA A 8 4 9 System Management Steins sic se cccaiecweeeaterweswiewnineweessianweeeetesiweswiew nines esseewedeaseanws 9 1 MISE Netw
66. 00 8 pins Cable Wiring Data l 5 2 Data 6 8 GND SN RJ 45 8 pin to Male DB25 RJ45 Port RJ45 Connector Male DB25 NPort 6000 8 pins Cable Wiring DSR 1 6 RTS 22 ns 4 GND 3 _ 7 TD 4 Hr RxD 5 A 3 DCD 6 Y cts 7 5 DTR 1 8 20 Female DB9 RS 232 Device 9 pins DTR CTS GND RxD TxD DCD RTS DSR Male DB25 2 wire RS 485 Device 25 pins Data Data GND Female DB25 RS 232 Device 25 pins DTR CTS GND RxD TxD DCD RTS DSR Pinouts and Cable Wiring NPort 6000 Series Serial Cables RS 422 4 Wire RS 485 RJ 45 8 pin to Female DB9 RJ45 Port RJ45 Connector Device NPort 6000 8 pins TxD TxD RxD RxD GND wan amp NM Female DB9 Male DB9 RS 422 4 wire RS 485 9 pins RJ 45 8 pin to Male DB9 RJ45 Port NPort 6000 RJ45 Connector Cable Wiring 8 a 4 3 5 Male DB9 8 pins Data Data GND a 3 Cable Wiring 6 E 5 1 RxD RxD TxD TxD GND Female DBS wire RS 485 Device 9 pins 2 a RJ 45 8 pin to Female DB25 RJ45 Port NPort 6000 8 pins TxD TxD RxD RxD GND RJ45 Connector 2 3 Cable Wiring 4 3 e __ BB 5 w F Female DB25 Male Data Data GND DB25 RS 42
67. 08 30 2 Eon J LULL Hexateruer 12 00 2 SR A RS A A SS SS E SSS SS SG SS OS SS GS Info CEM Host_teble Route_table User_table Quit Exaninenodify aeyne eeruer advance configuration ESE b ck to menu Enter select RADIUS server IP 192 168 205 187 RADIUS key 1230 UDP port 1 1645 2 1512 1 Enable RADIUS accounting yes SHHP community name public SNAP trap server IP address Ethernet IP forwarding no Routing protecol Hone TCP retransmission timeout ZIO data transfer timeout 8 Click Apply 9 Right click RADIUS in the left information window and select Start You will now see that RADIUS is running Setting up Windows 2000 Hosts Open Start gt Programs gt Administrative Tools gt Routing and Remote Access Right click Server Local and select Configure and Enable Routing and Remote Access Click Next to continue 3 Select Remote access server and click Next to continue Routing and Remote Access fi A ee a bh Action i Routing and Remote Access Server Setup Wizard Common Configurations You can select from several common configurations Internet connection server Enable all of the computers on this network to connect to the Internet Remote access server Enable remote computers to dial in to this network C Virtual private network VPN server Enable remote computers to connect to this network through the Internet
68. 2 4 wire RS 485 Device 25 pins 5 T RxD RxD TxD TxD GND Pinouts and Cable Wiring NPort 6000 Series Pinouts and Cable Wiring RJ 45 8 pin to Male DB25 RJ45 Port NPort 6000 B pins TxD TxD RxD RxD GND RJ45 Connector Male DB25 Female DB25 RS 422 4 wire RS 485 Device 25 pins RxD RxD TxD TxD GND Serial Cables 2 wire RS 485 RJ 45 8 pin to Female DB9 RJ45 Port NPort 6000 8 pins Data Data GND RJ45 Port RJ45 Connector Female DBS Male DB9 wire RS 485 Device 9 pins Cable Wiring 5 6 1 3 5 RJ 45 8 pin to Male DB9 RJ45 Connector Male DBS NPort 6000 Eil 8 pins Data Data GND a 3 Cable Wiring 6 SC Data Data GND Female DB9 2 wire RS 485 Device 9 pins 2 5 RJ 45 8 pin to Female DB25 RJ45 Port NPort 6000 E 8 pins Data Data GND RdJ45 Connector 5 Cable Wiring E G Female DB25 Data Data GND Male DB25 2 wire RS 485 Device 25 pins 2 Data Data GND NPort 6000 Series Pinouts and Cable Wiring RJ 45 8 pin to Male DB25 RJ45 Port RJ45 Connector Male DB25 Female DB25 2 wire RS 485 NPort 6000 Device 8 pins Cable Wiring 25 pins Data 5 3 Data Data 6 8 Da
69. 2 422 485 Connector 8 pin RJ 45 RS 485 Data Direction Control ADDC Automatic Data Direction Control Serial Line Protection 15 KV ESD protection for all signals Console Port Dedicated RS 232 console port on rear panel 8 pin RJ 45 1 10 NPort 6000 Series Introduction Serial Communication Parameters Data Bits 5 6 7 8 Stop Bits 1 1 5 2 Parity None Even Odd Space Mark Flow Control RTS CTS DTR DSR XON XOFF Baudrate 50 bps to 921 6 Kbps supports non standard baudrates Pull High Low Resistor for RS 485 1 KQ 150 KQ Terminator for RS 485 120 Q Serial Signals RS 232 TxD RxD RTS CTS DTR DSR DCD GND RS 422 Tx Tx Rx Rx GND RS 485 4w Tx Tx Rx Rx GND RS 485 2w Data Data GND Memory Expansion Slot Slot Type SD socket supports up to 2 GB Software Network Protocols ICMP IP TCP UDP DHCP BOOTP Telnet DNS SNMP V1 V2c V3 HTTP SMTP ARP PPPoE Security Protocols DES 3DES AES SSH SSL Configuration Options Web Console Serial Console Telnet Console Windows Search Utility Windows Real COM Drivers Windows 95 98 ME NT 2000 Windows XP 2003 Vista 2008 7 8 x86 x64 2012 x64 Embedded CE 5 0 6 0 XP Embedded Fixed TTY Drivers SCO Unix SCO OpenServer UnixWare 7 UnixWare 2 1 SVR 4 2 QNX 4 25 QNX 6 Solaris 10 FreeBSD AIX 5 x Linux Real TTY Drivers Linux kernel 2 4 x 2 6 x 3 x Management SNMP MIB II IP Routing Static RIP 1 RIP I Operation Modes
70. 2 Data Buffering Log Total Solution for Industrial Device Networking Operation Modes Port 1 TCP alive check time 7 0 99 min Inactivity time 0 0 99 min Auto link protocol Telnet Y E El E PS AA eS ET 3 Modem Settings 2 Cipher Settings A Port 2 Port 3 Port 4 H Ports Port 6 A Port 7 Ports A Porto Port 10 2 Port 11 A Port 12 Port 13 Port 14 Port 15 Port 16 9 Welcome Message System Management Primary host address Secondary host address Telnet TCP port Terminal Terminal type Quit Authentication type Try next type on authentication denied Automatic Login Auto login prompt Password prompt Login user name Login password Apply the above settings to 23 ansi None Enable Disable login assword P1 Op2 Dro Orio Call ports Ora Or4 Ors Ops Lp Ors OPi Dr12 P13 Op14 Opis Or16 H System Monitoring Save Configuration H Restart Terminal Binary mode can be used to transfer files with XMODEM or ZMODEM You are only allowed to open one terminal session at a time when in Terminal Binary mode TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the
71. 24 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will clear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to indicate when data should be sent ATTENTION In order to enable a delimiter packet length must be set to 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled the NPort 6000 will still pack and send the data when the amount of data exceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received e Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received following the delimiter e Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter e Strip Delimiter Data in the buffer is fi
72. 26 Or27 DOr28 Dr2s Drs Or p32 EG Port 13 CAI ports E Port 14 aE nmr Destination address 1 through 4 default None In UDP mode you may specify up to 4 ranges of IP addresses for the serial port to connect to At least one destination range must be provided 7 13 NPort 6000 Series Configuring Serial Port Operation Modes ATTENTION The maximum selectable IP address range is 64 addresses However when using multi unicast you may enter P addresses of the form xxx xxx xxx 255 in the Begin field For example enter 192 127 168 255 to allow the NPort 6000 to broadcast UDP packets to all hosts with IP addresses between 192 127 168 1 and 192 127 168 254 Local listen port default 4001 This is the UDP port that the NPort 6000 listens to and that other devices must use to contact the NPort 6000 To avoid conflicts with well known UDP ports the default is set to 4001 Packet length default 0 The Packet length setting refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of O for packet length no maximum amount is specified and data in the buffer will be sent as specified by the delimiter settings or when the buffer is full When a packet length between 1 and 1024 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will cl
73. 3 Applicati Socket y 3 Serial Port Settings an 33 Port 1 Mode TCP Client 3 Operation Modes TCP alive check time 7 0 99 min 1 Communication Par Inactivity time lo 0 65535 ms 9 Data Buffering Log Ignore jammed IP C Enable Disable A sale Secure Enable Disable Cipher Settings Destination address 1 Port 14001 iij ies Destination address 2 FO Port 4001 EH Port 4 Destination address 3 ee Port 4001 G Port 5 Destination address 4 COT Port 4001 9 Port 6 Designated local port 1 5010 i 4 Port 7 Designated local port 2 5011 ji zs dad Designated local port 3 5012 9 Port 10 Designated local port 4 5013 HQ Port 11 Connection control Startup None xy HE Port 12 Data Packing 1 Port 13 Packet length o 0 1024 jj oe Delimiter 1 00 Hex l Enable ieee Ra Delimiter 2 00 Hex l Enable TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is
74. 50 JP4 JP5 for Port 1 JP6 JP7 for Port 2 JP8 JP9 for Port 1 JP10 JP11 for Port 2 JP12 JP13 for Port 3 JP14 JP15 for Port 4 NPort 6000 Series Getting Started NPort 6650 DIP Switches Pull High Pull Low 2 9 3 Initial IP Address Configuration When setting up the NPort 6000 for the first time the first thing you should do is configure its IP address This chapter introduces the different methods that can be used Refer to Chapter 9 System Management Settings for more details about network settings The following topics are covered in this chapter O Static and Dynamic I P Addresses O Factory Default IP Address O Configuration Options gt NPort Search Utility Web Console LCM Console Front Panel NPort 6610 6650 and 6450 only ARP Telnet Console Y VV V Y Serial Console NPort 6000 Series Initial IP Address Configuration Static and Dynamic I P Addresses Determine whether your NPort 6000 needs to use a static IP or dynamic IP address either DHCP or BOOTP PPPoE application e If your NPort 6000 is used in a static I P environment you will assign a specific IP address using one of the tools described in this chapter e If your NPort 6000 is used in a dynamic IP environment the IP address will be assigned automatically from over the network In this case set the IP configuration mode to DHCP DHCP BOOTP BOOTP or PPPoE ATTENTION Consult your network administrator on how to re
75. ATEO Echo OFF ATH ATHO On hook default Taro Tom me command Sid 10 aroo anor Quiet command defauit arao 7 17 NPort 6000 Series Configuring Serial Port Operation Modes Result code type ATVO for digit code ATV1 for text code default O OK l connect 2 ring 3 No carrier 4 error Reset disconnect enter command mode and restore the flash settings 15 AT amp C Serial port DCD control AT amp CO DCD always on AT amp C1 DTE detects connection by DCD on off default 16 arar Restore manufacturers settings SSCS 20 mw ent settings O O 21 aTaw write current settings to flash for next boot up S Registers o S Register Description 6 default value Tears ang to auto answer default 0 S rasa a 3 a Escape code character default 43 ASCII a Lisa J Return charter O 5 sa tine feed character default 10 SCI 6 pag hare character default 8 ASCII Se 7 s6 Wait time for dial tone always 2 unit sec no action applied Wait time for carrier default 3 unit sec 9 Se Pause time for dial delay always 2 unit sec no action applied Carrier detect response time no action applied O PA Delay for hang up after carrier no action applied pos fi duration and spacing no action applied AO A es code guard time default 50 unit 1 50 sec to control the idle time for 7 18 NPort 6000 Series Configuring Serial Port Operation Modes Terminal Applications Termin
76. B Class A EMS EN 55024 EN 61000 4 2 ESD Level 2 3 E EN 61000 4 3 RS Level 2 EN 61000 4 4 EFT Level 2 EN 61000 4 5 Surge Level 2 EN 61000 4 6 CS Level 2 EN 61000 4 8 Level 1 EN 61000 4 11 Freefall EC 68 2 6 EC 68 2 34 EC 68 2 32 Vibration EC 68 2 6 EC 68 2 34 Green Product RoHS CRoHS WEEE Reliability Alert Tools Built in buzzer and RTC real time clock Automatic Reboot Trigger Built in WDT watchdog timer MTBF meantime between failures NPort 6610 8 135891 hrs NPort 6610 16 102373 hrs NPort 6610 32 68707 hrs NPort 6650 8 135370 hrs NPort 6650 16 101783 hrs NPort 6650 32 68177 hrs Warranty Warranty Period 5 years Details See www moxa com warranty 1 12 2 Getting Started This chapter covers the hardware installation of the NPort 6000 Software installation is covered in the next chapter The following topics are covered in this chapter O Panel Layout gt gt gt NPort 6150 6250 NPort 6450 NPort 6610 6650 O Panel DI N Rail and Rack Mounting O Connecting the Hardware gt Y VV Y V WV Wiring Requirements Connecting the NPort 6600 32 16 8 48V s Power Grounding the NPort 6600 32 16 8 48V Connecting to the Network Connecting to a Serial Device LED Indicators Adjustable Pull High Low Resistors for the RS 485 Port NPort 6000 Series Panel Layout NPort 6150 6250 NPort 6150 Rear View Power Reset LAN Jack Top
77. Basic Settings 3 Network Settings 9 Basic Network Settings J Advanced Network Settings A Module Source 1P address V 92 Modem Settings V 92 Modem Mode DpPPP OPPPD Destination 1P address HD Serial Port Settings IP netmask H System Management TCP IP Compression Enable Disable A aad System Monitoring Inactivity time 0 65535 ms J Save Configuration im Link quality report DEnable Disable Restart Username Password Authentication type None v Try next type on authentication denied Enable Disable Phone number Initial string Connection control Always On None v Connection interval 5 65535 min Ping remote host PPP mode PPP provides standard PPP service for both dial in and dial out PPPD mode PPPD PPP on demand is used for dial in services since it provides PPP services only when receiving a request from a remote PC Destination I P address This is the IP address of the remote dial in dial out server Source IP address The Source IP address is IP address assigned to this serial port IP netmask The IP netmask defines the netmask also known as the subnet mask for the PPP connection TCP IP compression default Disable The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle
78. Bey System Management POE Mail Trap E Misc Network Settings Network Event Bey Auto Warning Settings Ethernet link down l Dout 7 E Event Settings Config Event E i oe Settings EA login auth O Mail C Trap E SNMP Trap IP changed I Mail BH Maintenance Password changed 7 Mail HQ Certificate HA System Monitoring Submit Save Configuration On the Event Settings page you may configure how administrators are notified of certain system network and configuration events Depending on the event different options for automatic notification are available as shown above Mail refers to sending an e mail to a specified address Trap refers to sending an SNMP Trap Dout is only available on the NPort 6450 and 6650 and refers to changing the status of the relay output the DOUT socket at the back of the NPort 6000 and of the alarm LED Cold start This refers to starting the system from a power off state or after upgrading your firmware Warm start This refers to restarting the NPort 6000 without turning the power off Network Event These settings are only available on the NPort 6450 and 6650 Ethernetl refers to the built in Ethernet port and Ethernet2 and Ethernet3 refers to Ethernet ports that are added through optional network modules These settings configure the NPort to change the status of the relay output and alarm LED if the specified connection goes down Console web text login auth fail This field refers to a failed attem
79. CD signal is off If this field is set as DSR off the connection will be disconnected when the DSR signal is off SLIP Mode Total Solution for Industrial Device Networking 93 Serial Port Settings al Gperailon Modes EXSY Port 1 i b Operation Modes Port 1 1 Communication Parameters S a f Application Dial infout y rm Data Buffering Log 3 Modem Settings Mode Su 3 Cipher Settings Destination IP address H Port 2 Source IP address H Port 3 IP netmask H Port 4 TCP IP compression C Enable Disable E pa cias Inactivity time o 0 65535 ms HH Port 6 a ie Disconnect b None y H Port 7 ij 3 Porte Mpi p2 Tra Tra Ps Fo pe p7 Tf pe E Apply the above H Port9 settings to Tipo pio C p11 p12 p13 p14 pis C P16 EX Port 10 T All ports H Port 11 HG Port 12 195 Submit H Port 13 _Submit HA Part 14 7 28 NPort 6000 Series Configuring Serial Port Operation Modes SLIP provides standard SLIP service for both dial in and dial out Destination IP address This is the IP address of the remote dial in dial out server Source IP address The Source IP address is IP address assigned to this serial port IP netmask The IP netmask defines the netmask also known as the subnet mask for the SLIP connection TCP IP compression default No The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This fi
80. CP IP Ethernet By connecting the properly configured NPort 6000 serial port to the MS DOS computer s serial port it is possible to use legacy software to transmit data over the Ethernet when the software was originally designed to transmit data over a modem 4 6 NPort 6000 Series Introducing Serial Port Operation Modes Terminal Applications Windows NT gt a a TCP IP Telnet cons NPort 6000 CER Bl Series un n Ir RS 232 Terminal Terminal Terminal Terminal applications involve connecting terminals to UNIX or Windows servers over a network A terminal connects to the appropriately configured serial port the NPort 6000 and the NPort 6000 transmits information to and from a UNIX or Windows server over the network through its Ethernet port You may need to check with your network administrator to determine the appropriate terminal mode All terminal modes support fast keys as used in many terminal applications Please refer to Chapter 4 Introducing Serial Port Operation Modes for detailed information and configuration instructions Terminal ASCII Mode Terminal ASCII mode can handle up to 8 sessions per port with the ability to switch between sessions on the same terminal This mode is used for text based terminals with no file transfer capability or encryption Terminal BIN Mode Terminal BIN mode allows one session per port and is used for terminal applications that include file tran
81. Coo o oo lar Serverthernet2LinkDown O Coo Car Serverthernet3LinkDown O A AAA trapDCDchange mailDCDchange E 6 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups alarmDCDchange snmpTrapRecelverip snmpTrapReceiverl p trapVersion httpConsole po fresetButtonFunction S po flo adFactoryDefaultSetting SS sysStatus saveConfiguration restart monitorRemotelp PO restart monitortxcount O O monitoraxe SiS monitorTxTotalcout oO S montoran OOOO CI A A CI O A motors A A montres S moto S monitorerrorcountframe PO monitorerrorcountParty O To monitorErrorcountOverrun monitor rrorcountsre o monitorbauRate o motoros S S monitorar S monitorRTSCTSFowControl monitorxonxoFFFowConro CT A A monitorit O relayOutputethemetilinkbown etnemetttinkDownAckmomtedge relayOutputethermetauinkDown ememetzLinkDownAcimomtedge relayOutputethemetaLinkDown ememetaLinkDownAcimomtedge portpcbchangedstatas OOOO E 7 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups portDCDChangedAcknowledge F RADIUS Server Managing diverse serial lines and modem pools for large numbers of users creates the need for significant administrative support Since modem pools are links to the outside world careful attention must be paid to security authorization and accounting This can best be achieved by managing a single database of users allowing authentication verifying user
82. DI N Rail Mounting DIN rail attachments can be purchased separately to attach the NPort 6150 6250 and 6450 to a DIN rail When the snapping the attachments to the DIN rail make sure that the stiff metal springs are at the top NPort 6150 NPort 6250 NPort 6450 Rack Mounting Use four screws to attach the NPort 6610 6650 to a standard rack NPort 6610 6650 NPort 6000 Series Getting Started Connecting the Hardware This section describes how to connect the NPort 6000 to serial devices for the first time Wiring Requirements ATTENTION Disconnect the power before installing and wiring Disconnect the power cord before installing and or wiring your NPort 6000 Do not exceed the maximum current for the wiring Determine the maximum possible current for each power wire and common wire Observe all electrical codes dictating the maximum current allowable for each wire size If the current exceeds the maximum rating the wiring could overheat causing serious damage to your equipment Server may get hot use caution when handling Use caution when handling the NPort 6000 after it has been plugged in The internal components generate heat and the casing may be hot to the touch You should also heed the following guidelines e Use separate paths to route wiring for power and devices If power wiring and device wiring paths must cross make sure the wires are perpendicular at the intersection point NOTE Do n
83. Ethernet connection goes down For some applications serial devices need to know the Ethernet link status through RTS or DTR signals sent through the serial port Use always low if you want the RTS and DTR signal to change their state to low when the Ethernet connection goes down Use always high if you do not want the Ethernet connection status to affect the RTS or DTR signals Packet length default 0 The Packet length setting refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of O for packet length no maximum amount is specified and data in the buffer will be sent as specified by the delimiter settings or when the buffer is full When a packet length between 1 and 1024 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will clear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to control when data should be sent ATTENTION In order to enable a delimiter packet length must be set to 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled
84. Link quality report default Disable Setting this field to Enable allows the NPort 6000 to disconnect a connection if the link noise exceeds a certain threshold Username This is the dial out user ID account Password This is the dial out user password Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CA scription OO Try next type on authentication denied default Disable The field enables or disables the system to try Local RADIUS Authentication is performed locally first switching to Radius if unsuccessful next type on first authentication denied Phone number Use this field to configure the number that the user uses to dial out Initial string Use this field to configure the initial string that the modem will use to establish the connection 6 16 NPort 6000 Series Module Settings Connection control Connection control Connect Rule Disconnect Rule Modem Periodically Periodically re connect based on the Inactivity time is up connect inactivity time connection interval setting to Modem after power on Remote host fail remote Remote Ethernet host has failed The When the remote Ethernet host recovered NPort 6000 will check the remote host returns to normal data host connection on the Ethernet side will revert to being sent over after power on Once a connection Ethernet failure has occurred data from the serial dev
85. Listening Command Port 60966 default 60566 w Apply the Settings XK Cancel 10 8 NPort 6000 Series Software I nstallation Configuration Configure the mapped COM ports For Real COM Mode Reverse Real COM Mode to re configure the settings for a particular serial port on the NPort 6000 select the row corresponding to the desired port and then click the Setting icon NPort Windows Driver Manager Sele File COM Mapping Configuration View Help F i oF EJ Exit Add Remove Settin COM Pot Address 1 Address 2 COM Seas 2 COME 152 168 127 254 951 567 Port2 3 Coma 192 168 127 254 952 968 Port3 4 COM10 192 166 127 254 953 969 Port 1 On the Basic Setting window use the COM Number drop down list to select a COM number to be assigned to the NPort 6000 s serial port that is being configured Select the Auto Enumerating COM Number for Selected Ports option to automatically assign available COM numbers in sequence to selected serial ports Note that ports that are in use will be labeled accordingly COM Port Setting Port Humber 1 Port s are Selected Basic Settings Advanced Settings Serial Parameters Security IPyb Settings LOM Number COM current assigned x Cancel 10 9 NPort 6000 Series Software I nstallation Configuration 2 Click the Advanced Setting tab to modify Tx Mode FIFO and Flash Flush COM Port Setting Port Number 1 Port s are Selected Basic Setting
86. Log al Routing E Dout State fi Save Configuration a Restart 9 21 NPort 6000 Series System Management Settings Save Configuration Go to Save Configuration and then click Save to save the your submitted configuration changes to the NPort 6000 s flash memory The configuration changes will then be effective when the NPort 6000 is restarted If you do not save your changes before restarting they will be discarded Total Solution for Industrial Device Networking E Main Menu S Overview fa Basic Settings If you have submitted any configuration changes you must save the changes and restart SC Network Setting the server before they take effect Ck Save to save the changes in the NPort 6000 s 3 Serial Port Settings ae System Management a Misc vial Peele aes A 4uto Warning Settings ae Maintenance H Certificate aS System Monitoring a Serial Status HE System Status fa Save Configuration Save Configuration Restart Restart System Go to Restart System under Restart and then click Restart to restart the NPort 6000 Ensure that you save all your configuration changes before you restart the system or else these changes will be lost Total Solution for Industrial Device Networking 3 Main Menu Overview Basic Settings Af Network Settings ae Serial Port Settings Clicking Restart will disconnect all serial and Ethernet connections and reboot the NPort 6000 server Eu Syste
87. Module console The LCM console can be configured for read only or writeable access Read only access allows settings to be viewed but not changed Factory default settings are for writeable access where configuration is allowed through the LCM console NPort 6000 Series Initial I P Address Configuration NOTE ARP ATTENTION If a password has been enabled for the NPort 6000 console and the LCM console is configured for writeable status the LCM console will require you to enter the password before allowing you access The password will not be required if the LCM console is configured for read only access The MENU button activates the main menu It is also used to cancel a selection and return to a previous menu The UP and DOWN buttons navigate between available options The SEL button confirms a selection or enters a submenu The IP environment Static DHCP PPPoE etc is configured under Main Menu gt Network setting gt IP config The IP address is configured under Main Menu gt Network setting gt IP address After the address has been entered you will need to restart the NPort under Main Menu gt Save Restart The following instructions explain how to set the NPort 6000 s IP address through the LCM console 1 Press MENU to activate the Main Menu The first line of the display indicates the current menu and should read Main Menu The second line indicates the current selection and should read Server setting Use the
88. N AS A AN ees OS AS AS A A AS A NPort 6000 Series System Management Settings Serial Port Status Go to Serial Port Status under Serial Status to view the current status of each serial port Serial Port Status gt Buffering Total Solution for Industrial Device Networking SY Main Menu Serial Port Status 1 Overview Basic Settings Port TxCnt RxCnt TxTotalCnt RxTotalCnt DSR DTR RTS CTS DCD Buffering By Network Settings 1 0 O 0 oO MI 9 gt D H Serial Port Settings 2 0 0 0 0 o EXSY System Management l i 1 Misc Network Settings 0 0 0 Oo 0 E Auto Warning Settings 6 0 o 0 o 07 0 E Maintenance 7 0 0 0 0 y 0 E Certificate 8 0 0 0 0 9 0 ES aio a 0 0 0 0 2 0 a ystem Monitoring in O 0 o o Ta Serial Status 11 0 o 0 0 O 0 0 Serial to Network Con 12 0 0 0 0 2 0 Serial Port Status 13 0 0 0 0 0 3 Serial Port Error Cour a i n e 9 i F i 15 0 o 0 0 0 3 Serial Port Settings 16 o 0 0 0 E 33 Cipher Usage Status EH System Status Monitor port buffering usage bytes of each serial port Serial Port Error Count Go to Serial Port Error Count under Serial Status to view the error count for each serial port Total Solution for Industrial Device Networking E Main Menu Go Serial Port Error Count E verview T Basic Settings aD ErrCnt BO Network Settings Frame Parity Overrun Break H Serial Port Settings 1 Jl ll 0 0 23 System Management 1 Misc Network Se
89. NPort 6000 Series User s Manual Eighth Edition January 2013 WWwW moxa com pr t MOXA O 2013 Moxa Inc All rights reserved NPort 6000 Series User s Manual The software described in this manual is furnished under a license agreement and may be used only in accordance with the terms of that agreement Copyright Notice O 2013 Moxa Inc All rights reserved Trademarks The MOXA logo is a registered trademark of Moxa Inc All other trademarks or registered marks in this manual belong to their respective manufacturers Disclaimer Information in this document is subject to change without notice and does not represent a commitment on the part of Moxa Moxa provides this document as is without warranty of any kind either expressed or implied including but not limited to its particular purpose Moxa reserves the right to make improvements and or changes to this manual or to the products and or the programs described in this manual at any time Information provided in this manual is intended to be accurate and reliable However Moxa assumes no responsibility for its use or for any infringements on the rights of third parties that may result from its use This product might include unintentional technical or typographical errors Changes are periodically made to the information herein to correct such errors and these changes are incorporated into new editions of the publication Technical Support Contact Information
90. Networking Operation Modes Port 1 H Network Settings Serial Port Settings Application Device Control v 23 Port 1 Mode RealCOM v Operation Modes TCP alive check time 7__f0 99 min A Communication Paramete Max connection iv Data Buffering Log Ignore jammed IP Enable Disable J Modem Settings Allow driver control Enable Disable Cipher Settings Secure OEnable Disable SA Port 2 Connection goes down RTS O always low O always high sa Port 3 DTR O always low always high de Port 4 Command by command operation Enable Disable Tom Port 5 Response timeout 0 65535 ms 1 Port 6 1 port 7 Non requested serial data H Port 8 Data Packing A Welcome Message Packet length o 0 1024 H System Management Delimiter 1 00 Hex Enable 4 System Monitoring Delimiter 2 00 Hex Enable al Save Configuration Delimit Do Noth Flip d only when Packing length is 0 elimiter process o Nothing Processed only when Packing length is S Restart t pag Force transmit 0 0 65535 ms P1 P2 Or3 Opa Ops OP6 Or7 P8 Apply the above settings to DAN ports Submit lt gt Select Operation Modes in the navigation panel to select and configure the mode for each serial port For NPort 6000 models with 2 or more serial ports you may use the checkboxes at the bottom of the window to apply the settings to one or more ports Application Select an application for the serial port from among the choices Your application will de
91. OUT socket at the back of the NPort 6000 and of the alarm LED Cold start This refers to starting the system from a power off state or after upgrading your firmware Warm start This refers to restarting the NPort 6000 without turning the power off Network Event These settings are only available on the NPort 6610 6450 and 6650 Ethernetl refers to the built in Ethernet port These settings configure the NPort to change the status of the relay output and alarm LED if the specified connection goes down Console web text login auth fail This field refers to a failed attempt to log in to a password protected NPort 6000 console IP changed With this option selected the NPort 6000 will attempt to send an e mail warning before it reboots after an IP address change However the NPort 6000 will reboot with the new IP address regardless of whether or not the e mail transmission is successful Password changed With this option selected the NPort 6000 will attempt to send an e mail warning before it reboots with a new console password If the NPort 6000 is unable to send an e mail message to the mail server within 15 seconds it will still reboot without sending the e mail Serial Event Settings Total Solution for Industrial Device Netwo 3 Main Menu 1 Overview Basic Settings cs 9 Network Settings Port DCD changed DSR changed Serial Port Settings TE 3 System Management Port Event Settings Poti D mail Tr
92. Qverview Basic Ne tuork 1E a i a y sAve Hestart Exit Examine modifu the ethernet LAN port settings Enter select ol Telnet 192 168 NP6658 16 Examine modify basic network settings Enter select ESC previous menu 6 Use the arrow keys to move the cursor to IP address Use the DELETE BACKSPACE or SPACE keys to erase the current IP address and then type in the new IP address and press ENTER Note that if you are using a dynamic IP configuration BOOTP SHCP etc you will need to go to the IP configuration field and press ENTER to Select the appropriate configuration off Telnet 192 168 12 NF6650 16 B Basic IAE TEE e Examine modify basic network settings TN ESC back to menu Enter select IP configuration Static IF address i 2 168 1 Hetmask 255 255 255 0 Gateway DHS server DNS server 2 PPPoE user account PPPoE password WINS function Enable WINS server LAHI speed Enter select ESC previous menu Warning ttt You have modified the configuration without Would you save it now 7 Y 8 Press ESC to return to previous page 9 Press A or use the arrow keys to select Save and then press ENTER Press ENTER again to confirm the save command Qverview Basic Wetwork Port System Monitor LLES Restart Exit Save current configuration to Flash ROM ESC back to menu Enter select Overview Basic Hetuork Port AS NO Restart 1h ene Restart the whole s
93. Read only privacy 0 Authentication Server Read write user name 3 System Log Settings Read write 3 Auto Warning Settings authentication mode E H Maintenance Read write password Certificate Read write privacy mode SNMP Agent Settings Configuration HA System Monitoring 3 Read write privacy J Save Configuration 4 Restart z Submit l SNMP To enable the SNMP Agent function select the Enable option and enter a community name e g public Read community string default public This is a text password mechanism that is used to weakly authenticate queries to agents of managed network devices Write community string default private This is a text password mechanism that is used to weakly authenticate changes to agents of managed network devices Contact name The optional SNMP contact information usually includes an emergency contact name and telephone or pager number Location Use this optional field to specify the location string for SNMP agents such as the NPort 6000 This string is usually set to the street address where the NPort 6000 is physically located SNMP agent version The NPort 6000 supports SNMP V1 V2 and V3 Read only and Read write access control The following fields allow you to define user names passwords and authentication parameters for two levels of a
94. Sent 299 HE System Management TCP ErrHeader 0 ErrPorts 0 FeSent 2 CurrEstab 1 Opens 10 ay System Monitoring ef Serial Status ay System Status i Network Connecti 7 I Network Statistic ta tallos Ethernet statistics Sent Total number of output datagram packets delivered to the Ethernet Received Sent 9 17 Total number of input datagram packets received from the Ethernet Total number of output datagram packets delivered to the Ethernet NPort 6000 Series System Management Settings PPP statistics Received Received IP datagram packets RDiscard Received but discarded IP datagram packets ErrSum Checksum error packets Sent Sent IP datagram packets S Discard Sent but discarded IP datagram packets IP statistics Received Received IP datagram packets RDiscard Received but discarded PPP datagram packets ErrHeader Received but discarded IP datagram packets due to errors in IP headers SNoRoute Received IP datagram packets for wrong route ErrProto Locally addressed IP datagram packet received successfully but discarded for not matching one of TCP UDP ICMP protocols offered by CN2500 Sent Sent IP datagram packets S Discard Sent but discarded IP datagram packets ErrAddr Sent datagram packet discarded for invalid destination IP address ICMP statistics Received Received packets of ICMP messages Sent Sent packets of ICMP messages REchoReq Received packets from remote Ping requ
95. Serial Data Log sl Bla System Managemer E System Monitoring i 63 Serial Status 2 Fy system Status 2 A Network Conn A Network Statis T Serial Data Loc 3 system Log Select all Clear log Refresh 1 Routing 2 Dout State i Save Configuration EJ Restart 9 19 NPort 6000 Series System Management Settings System Log This option displays the system log You may click Select all to select the entire log if you wish to copy and paste the contents into a text file System Log System Log 2008 03 26 07 00 21 System System Cold Start 2008 03 26 07 00 47 Network Etherneti Link Down 2008 03 26 07 01 20 Config Config Changed 2008 03 26 07 01 28 System System Warm Start 2008 03 26 07 02 08 Config Config Changed 2008 03 26 07 02 17 System System Warm Start 2008 03 26 07 02 33 Network Get IP Fail IPv6 Select all Clearlog Refresh Routing Go to Routing under System Status to display the routing information Total Solution for Industrial Device Networking A AUTE Routing EM Port mg Porta Current Routing i Port 3 Iface Destination Gateway HA Netmask Metric Flag Use E Ai Port 10 ethd 192 168 127 0 192 168 127 254 255 255 255 0 1 361 A Portil EQ Port 12 E Portas EA Port 16 1 Welcome Messag ag System Managemer ES System Monitoring 2 eo Serial Status ES System Status A Network Conne fa Network Statis a Serial Data Loc fo Sys
96. TEN a System Monitoring TCP 0 O 192 168 127 254 955 o LISTEN dies as TCP 0 O 192 168 127 254 956 LISTEN Eia TCP 0 O 192 168 127 254 957 LISTEN EH System Status TCP 0 O 192 168 127 254 958 LISTEN 33 Network Connecti TCP 0 O 192 168 127 254 959 LISTEN Lea Network caute TCP 0 O 192 168 127 254 960 LISTEN TCP 0 O 192 168 127 254 961 LISTEN rill Serial Data Log TCP 0 O 192 168 127 254 962 LISTEN 1 System Log TCP 0 O 192 168 127 254 963 LISTEN Routing TCP 0 O 192 168 127 254 964 LISTEN 3 Dout state TCP 0 O 192 168 127 254 965 LISTEN La Save Configuration TCP 0 O 192 168 127 254 966 LISTEN kk REED TCP 0 O 192 168 127 254 967 LISTEN TCP 0 O 192 168 127 254 968 LISTEN TCP 0 O 192 168 127 254 969 LISTEN TOD n n 109 149 197 954 07N 4 ok LISTEN Y Network Statistics Go to Network Statistics under System Status to view network statistics gt Total Solution for Industrial Device Networking 0 pos Network Statistics E Port H Porte ETHERNET Received 235 sent 321 ele Port a nF Recelved 0 sent 0 ag Port 10 RDiscard 0 ErrSum 0 SDiscard 0 Received 226 Sent 310 E Q Port 11 IP RDiscard 0 SNoRoute 0 SDiscard 0 EME Port 12 ErrHeader 0 ErrProto 0 Err ddr 0 EME Port 13 Received D Sent D E Port 14 ICMP REchoReq 0 SEchoReq 0 F REchoRpl 0 SEchoRpl 0 EJ Port 15 ts ply E UDP Received de Sent 9 mg Port 16 ErrHeader 0 ErrPorts 0 7 Welcome Message Received 169
97. The MAC address of NPort A for identification 00 90 18 18 f1 36 1st Mapping Port Index Index the port 3 Total Number of Ports From port 3 to port 15 will be mapped and the 13 total number of ports should be 13 4 Ports that have been activated will appear in black NPort Windows Driver Manager EJE Fille COM Mapping Configuration View Help El E sit Add Ho COM Port Address 1 Address 2 1 COM 00 90 8 12F4 42 Port 2 COMS 00 90 E8 12F4 42 Porte 3 COMO 00 90 E8 12F4 42 Ports 4 COM11 00 90 8 12F4 42 Port 5 For Reverse Real COM mode users should assign the TCP port number for the Remote Host Server Click the Configuration tab to modify the port number NPort Windows Driver Manager File COM Mapping Configuration View Help fal i Revers RealCOM Exit No COM Part Address 1 Address 2 1 COM 00 90 8 12F4 42 Port 2 COMS 00 90 E8 14 FA 42 Port2 3 COM 00 90 8 12 F4 42 Porta 4 COMO 00 90 8 12F4 42 Port This is the TCP port number assignment for the remote host server It is the port number that the serial port of the NPort 6000 uses to establish the connections with Remote Host Server To avoid conflicts with well known TCP ports the default is set to 60950 Reverse RealCOM Settings Settings Please CLOSE all Reverse Real 0M ports before modifing the value Othenwise the setting will not be applied Listening Data Port 60950 default 60950
98. The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the 7 15 NPort 6000 Series Configuring Serial Port Operation Modes NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Secure default Disable If you select Enable data sent through the Ethernet will be encrypted with SSL TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Make sure the port numbers match on both the Pair Connection Master and Slave Ethernet Modem Mode Total Solution for Industrial Device Networking J Main Menu 9 Overview 9 Basic Settings Operation Modes a Port 1 Network Settings al Seral Port Settings ea Ethernet Modem y 5 Port 1 oe check F o 99 min 0 Operation Modes TCP port 4001 9 Communication Parameters Re Mpif p2 Tra p4 Ps rpe Fp Foes 1 Dat
99. To 192 168 268 108 Could not open connection to the host on port 6 HHH Connect Failed Dos 5 After the NPort 6000 reboots its IP address will assigned to the new address and you can reconnect using Telnet to verify that the update was successful Telnet Console Depending on how your computer and network are configured you may find it convenient to use network access to set up your NPort 6000 s IP address This can be done using Telnet ATTENTION Figures in this section were taken from the NPort 6650 s Telnet console 1 From the Windows desktop select Start gt Run and type the following in the Run window telnet 192 168 127 254 If your IP address is different from the default setting use your IP address instead Click OK Run i ES Type the name of a program folder document or Internet resource and Windows will open it for you Oper telnet 192 168 127 254 Cancel Browse 2 The console terminal type selection is displayed as shown Enter 1 for ansi vt100 and press ENTER to continue 3 The following page will only appear if the NPort 6000 is password protected Enter the console password if you are prompted to do so and press ENTER cs Telnet 192 168 177 254 Serial Ho Aiti 3 4 NPort 6000 Series Initial IP Address Configuration 4 Press N or use the arrow keys to select Network and then press ENTER i Telnet 192 168 127 254 TAA NP665B 16 A EEE ery
100. UP and DOWN buttons to select Network setting Press SEL to enter the Network setting menu 3 In the Network setting menu select IP config Don t forget to press SEL to confirm your selection In the IP config menu use the UP and DOWN buttons to select the option that matches your IP environment static DHCP etc Press SEL to confirm your choice You may also press MENU to cancel your selection and return to the previous submenu 5 You should be back in the Network setting menu From the Network setting menu select I P address 6 Use the UP and DOWN buttons to modify the digit currently selected by the blinking cursor Press SEL to move to the next digit Continue modifying the IP address until all digits have been entered If you make a mistake press MENU to cancel all changes and return to the Network setting menu You cannot go back one digit 7 Once you have finished modifying the IP address your changes are saved but not in effect In order for your changes to take effect you will need to restart the NPort You may view and modify your changes by selecting IP address at the Network setting menu again 8 Press the menu button to exit out of the Network setting menu and return to the Main Menu Use the UP and DOWN buttons to select Save Restart and press SEL Use the UP and DOWN buttons to select Yes and press SEL to restart Only standard temperature models come with an LCM console You may use the ARP Address Resolution Protoc
101. When the accessible IP list is enabled a host s IP address must be listed in order to have access to the NPort 6000 You may add a specific address or range of addresses by using a combination of IP address and netmask as follows To allow access to a specific IP address Enter the IP address in the corresponding field enter 255 255 255 255 for the netmask To allow access to hosts on a specific subnet For both the IP address and netmask use O for the last digit e g 192 168 1 0 and 255 255 255 0 To allow unrestricted access Deselect the Enable the accessible IP list option Refer to the following table for more configuration examples 192 168 0 1 to 192 168 255 254 192 168 0 0 255 255 0 0 192 168 1 1 to 192 168 1 126 192 168 1 0 255 255 255 128 192 168 1 129 to 192 168 1 254 192 168 1 128 255 255 255 128 9 2 NPort 6000 Series System Management Settings SNMP Agent Settings Total Solution for Industrial Device Networking Port 9 A Port 10 Port 11 Port 12 E Port 13 SNMP Enable Disable A Port 14 Read community string pubic gt Q Port 15 ppt community ES rome Contact name FT LJ Welcome Message Location OO 3 System Management a Misc Network Settings SNMP agent version Myvi My2 My3 9 Accessible IP List Read only user name Read only e AEn authentication mode 1 DDNS 4 Read only password Host Table is Read only privacy J Route Table mode User Table
102. a Buffering Log Apply the above Cpo C pio p11 rie Moria Opis pis Mpais 3 Modem Settings settings to 3 Cipher Settings All ports na Port g Please note that in Ethernet Modem mode DTR RTS and DCD signals are Port 3 disabled for ports that are using RS 422 or RS 485 41 Port 4 pul Port S Submit 1 Port 6 H Pnrt 7 The NPort 6000 accepts the AT command ATD IP address TCP port for example IPv4 ATD 192 127 168 1 4001 IPv6 ADT fe80 290 e8ff feOd bOfb 65500 from the serial port and then requests a TCP connection from the remote Ethernet Modem or PC Here IP address is the IP address of the remote Ethernet modem or PC and TCP port is the TCP port number of the remote Ethernet modem or PC Once the remote unit accepts this TCP connection the NPort 6000 will send out the CONNECT baud signal via the serial port and then enter data mode TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the
103. a list of well known port numbers that may cause network problems if you set the NPort 6000 to one of these ports Refer to RFC 1700 for well known port numbers or to the following introduction from the IANA The port numbers are divided into three ranges the Well Known Ports the Registered Ports and the Dynamic and or Private Ports The Well Known Ports range from O through 1023 The Registered Ports range from 1024 through 49151 The Dynamic and or Private Ports range from 49152 through 65535 The Well Known Ports are assigned by the IANA and on most systems can only be used by system processes or by programs executed by privileged users The following table shows famous port numbers among the listed well known port numbers For more details please visit the IANA website at http www iana org assignments port numbers Discard F 13 15 20 21 23 25 TCP Socket Application Service 37 42 43 49 53 79 20 NPort 6000 Series UDP Socket 0 2 7 9 11 13 35 39 42 43 49 53 69 70 79 80 107 111 119 123 161 162 213 Application Service Reserved Management Utility Echo Discard Active Users systat Daytime Any private printer server Resource Location Protocol Host name server names server Whois nickname Login Host Protocol login Domain Name Server domain Trivial Transfer Protocol TETP Gopher Protocol Finger Protocol World Wide Web HTTP Remote Telnet Service
104. ace Number of Ports 1 Serial Standards RS 232 422 485 Connector DB9 male RS 485 Data Direction Control ADDC Automatic Data Direction Control Serial Line Protection 15 KV ESD protection for all signals Console Port Serial port doubles as RS 232 console port Serial Communication Parameters Data Bits 5 6 7 8 Stop Bits 1 1 5 2 Parity None Even Odd Space Mark Flow Control RTS CTS DTR DSR XON XOFF Baudrate 50 bps to 921 6 Kbps supports non standard baudrates Pull High Low Resistor for RS 485 1 KQ 150 KQ Serial Signals RS 232 TxD RxD RTS CTS DTR DSR DCD GND RS 422 Tx Tx Rx Rx GND RS 485 4w Tx Tx Rx Rx GND RS 485 2w Data Data GND Software Network Protocols ICMP IP TCP UDP DHCP BOOTP Telnet DNS SNMP V1 V2c V3 HTTP SMTP ARP PPPoE Security Protocols DES 3DES AES SSH SSL Configuration Options Web Console Serial Console Telnet Console Windows Search Utility Windows Real COM Drivers Windows 95 98 ME NT 2000 Windows XP 2003 Vista 2008 7 8 x86 x64 2012 x64 Embedded CE 5 0 6 0 XP Embedded Fixed TTY Drivers SCO Unix SCO OpenServer UnixWare 7 UnixWare 2 1 SVR 4 2 QNX 4 25 QNX 6 Solaris 10 FreeBSD AIX 5 x Linux Real TTY Drivers Linux kernel 2 4 x 2 6 x 3 x Management SNMP MIB II IP Routing Static RIP 1 RIP I Operation Modes Standard Real COM TCP Server TCP Client UDP Pair Connection RFC2217 Terminal Reverse Telnet Ethern
105. al ASCII TERM_ASC El Game Soong 20 Meteor Getinge Sy Tue PA ga 5 Opera TEP alive dl Commerecation For smati Inartleiiy Lim CJ Cta Muller og Avio link EAH Song m Maden Setiengs Primary heed direia Jg Sette Y Totar baibngi eee Pld Petz O Porta inci TOP pori 20 Ponti Terminal SU Port 4 Termina lp Shel Peto Han seal Ea E Fi n Por Changs arisia TEJ tg qua Ly Miriam Marrey 1103 System Management jo 4s U Srbom Moreton iii iini a D Sare Configuration Authentication type hm D Rett Tey neri trir a il ica denied Enabis mabig Az2nmadir i agin dato bagi phot BE PJ Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CON Local RADIUS Authentication is performed locally first switching to Radius if unsuccessful TACACS Verify the ID against the external TACACS server TACACS authentication is tried first switching to Local if unsuccessful Authentication is performed locally first switching to Radius if unsuccessful None Authentication is not required Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection
106. al Event Settings Port 6 mail I Trap T Mail I Trap 0 E mail Alert Port 7 M mail Trap C mail I Trap 2 SNMP Trap Port 8 M mail I Trap Mail I Trap HO Maintenance Port 9 TF mail Trap Mail Trap E certificate HE System Monitoring Port 10 mail I Trap mail I Trap Port 11 mail Trap mail Trap Port 12 mail Trap mail I Trap Port 13 Mail Trap Mail C Trap Port 14 mail O Trap mail I Trap Port 15 mail O Trap mail I Trap Port 16 Mail I Trap Mail Trap All ports mail Trap mail I Trap 1 Save Configuration Restart Submit On the Serial Event Settings page you may configure how administrators are notified of each serial port s DCD and DSR changes Mail refers to sending an e mail to a specified address Trap refers to sending an SNMP Trap Dout is only available on the NPort 6450 and 6650 and refers to changing the status of the relay output the DOUT socket at the back of the NPort 6000 and of the alarm LED DCD changed A change in the DCD Data Carrier Detect signal indicates that the modem connection status has changed For example if the DCD signal changes to low it indicates that the connection line is down When the DCD signal changes to low the NPort 6000 will automatically send a warning to the administrator as configured on the Serial Event Settings page For the NPort 6450 and 6650 after the relay output status has been changed administrators may reset
107. ap C Dout C sms D mail Trap F Dout D sms om EE BA Misc Network Settings Pot2 Mail Trap Dout sms D Mail Trap l Dout sms Ey Auto Warning Settings Pot3 mail Trap L Dout sms D mail l Trap FU Dout sms Y Event Settings Port4 7 Mail Trap l Dout sms I Mail Trap l Dout M sms A Serial Event Settings Pot5 Mail C Trap C Dout C sms D Mail L Trap C Dout FU sms E mail Alert Port6 7 Mail 7 Trap 7 Dout O sms I Mail Trap C Dout M sms 1 SNMP Trap Port Mail Trap I Dout sms I mail Trap I Dout MU sms E SMS Alert l TE e Pot8 Mail Trap Dout sms D Mail I Trap Dout sms E aintenance POSEE res Pot9 D mail Trap C Dout sms D mail Trap L Dout sms EHH Certificate Y Aca Mannan Port 10 Mail l Trap L Dout sms TF Mail l Trap Dout sms Save Configuration Port 11 Mail l Trap L Dout sms D mail D Trap L Dout D sms al Restart Port 12 mail Trap I Dout f sms D Mail Trap I Dout I sms Port 13 Mail Trap L Dout sms D mail E Trap L Dout D sms Port 14 Mail Trap Dout sms M mail F Trap Dout ff sms Port 15 Mail Trap L Dout sms D mail E Trap L Dout D sms Port 16 mail Trap L Dout sms mail Trap l Dout sms All ports mail Trap L Dout sms E mail l Trap L Dout D sms 6 14 NPort 6000 Series Module Settings On the Serial Event Settings page you may configure how administrators are notified of each serial port s DCD and DSR changes Mail refers to send
108. ase against which all remote user authentications take place This greatly eases the management burden associated with administering a large number of dial in users Client Server Architecture RADIUS is a type of client server software Communication servers such as the NPort 6000 play an active role whereas RADIUS servers are passive When a remote host is connected to the NPort 6000 the host is prompted to enter a user ID and password After receiving the user ID and password the NPort 6000 sends the information to a defined RADIUS server Up to this point the remote user is still unable to access the network The RADIUS server compares the user ID and password with its internal database and responds through the network either accepting or rejecting the connection attempt If the NPort 6000 receives the accept message from the RADIUS server the remote user is allowed to access the network Otherwise the NPort 6000 will either terminate the connection or attempt to connect again after a specified duration of time Setting up the NPort 6000 Setting up the RADIUS Server IP Address Total Solution for Industrial Device Networking Authentication Server HE Port 9 al L G Port 10 Authentication Server ra oe Configuration H Port 12 ey Port 13 RADIUS server IP 9 Port 14 RADIUS key 4 Port 15 UDP port 1645 7 2 Port 16 RADIUS accounting C Enable D
109. ata sent through the Ethernet will be encrypted with SSL ATTENTI ON When establishing a Pair Connection between two serial ports on two different NPort 6000 servers make sure that if one side is configured for data encryption the other side is also set up for data encryption i e both are yes or both are no Destination IP address The Pair Connection Master will contact the network host that has the specified IP address The port will default to 4001 Make sure the port numbers match on both the Pair Connection Master and Slave Pair Connection Slave Mode Total Solution for Industrial Device Networking 3 Main Menu 3 Overview Basic Settings Operation Modes Bs i Port 1 Network Settings i pe Applicati Pair Connection El 23 Serial Port Settings ee connection EASY Port 1 Mode Pair Connection Slave y A Operation Modes TCP alive check time 7 0 99 min 3 Communication Parame Secure C Enable Disable A Data Buffering Log TCP port 4001 AiR semna Mp1 Mr Mp3 Mrs Mes Mpa Mp7 Mes 1 Cipher Settings 2 Apply the above settings Mpg pio Mpi1 Mpi2 Mpi3 Mpi4 Mepis Mepis H Port 2 to 7 9 Port 3 All ports HCD Port 4 YG Ports Submit EX Port 6 2 Port TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection
110. band networks such as xDSL or cable modem users must enter the username and password that they received from their ISP to establish a network connection If a serial port on the NPort 6000 will be using PPPoE enter the account name and password in these fields WINS function default enable Enable or disable the WINS Windows Internet Naming Service server WINS server If a WINS Server is connected to the network enter the WINS Server s IP address in this field TCP IP uses IP addresses to identify hosts but users often use symbolic names such as computer names The WINS Server which uses NetBIOS over TCP IP contains a dynamic database to map computer names to IP addresses What is I Pv6 IPv6 stands for Internet Protocol version 6 It is the second version of the Internet Protocol introduced after the first version which is Pv4 The difference between the two versions is the length of the IP address IPv4 uses 32 bit IP addresses and IPv6 uses 128 bit IP addresses Pv4 is still the predominant protocol used over most of the Internet IPv6 Configuration default Static You can choose from three possible IP configuration modes IPv6 router assigned prefix Step 1 NPort generates the Link local address automatically Step 2 NPort sends the Router solicitation to the router to apply for an IP address 2 1 Router assigns an IP address to NPort gt Step 4 2 2 Router assigns the DHCPv6 Server to offer an IP address gt St
111. ccccccnnncccn cnc cnn C 1 A a A a eee nee C 2 D Well Known POFE NUMDEES A A a A A AER A D 1 E SNMP Agents with MIB II RS 232 Like GroupS omcccccconnnccccnnnnnnncnnnnnnnncnnnnnnn rn nana E 1 RECTZIS MIBA Supported SNMP VarabDlES uaina aasa teide ideales E 2 RFCILSITARS 232 LIS ols SAA E 3 MOxa NP OOOO MIB bebe o ue ois E 4 F RADIUS SETVE a a E E a a EE E a E a E a E a ES F 1 What SRADLUS ete F 2 PI e A e o O beaded eenaieeiaedsere oaaideisaeeaaiess F 2 chent GF Ver Arene UFS CANA OO gn ve helube va valu be ve seve bele be eebelube ve bebwbets bebetele bevebobeteneias F 2 Serena UP ENFO SOON EE F 2 Setting up the RADIUS Server IP AddresSS sssssressrrrrerrrrnsrrrrsrrrrerrrrerrrrrsrrrrerrrrerrrrrrrrrrsrrrrerrrrerne F 2 sertal POR CO Mm Ural OW iso Gace la aeree errre rur arrer ae ae ee ee ee a ee eee F 3 feel aro mill om UNIX HOS Sort F 3 SEENT Le VARIOUS NT OS ES adela datada F 3 Setting up Wind ws 2000 OSEA ate eae ne ale deel E E aa F 5 Setting Up WINdOWS 2003 HOSTS aia F 8 1 Introduction The NPort 6000 series of secure serial device servers have many exceptional features There are currently seventeen models in the NPort 6000 series of secure serial device servers The main differences between the models are the number of ports and the type of network connection employed All instructions and information presented for the NPort 6000 apply to all models in the series Any differences between models will
112. ccess read only and read write The name of the field will indicate which level of access it refers to For example Read only authentication mode allows you to configure the authentication mode for read only access whereas Read write authentication mode allows you to configure the authentication mode for read write access For each level of access you may configure the following User name Use this optional field to identify the user name for the specified level of access Authentication mode default Disable Use this field to select MD5 or SHA as the method of password encryption for the specified level of access or to disable authentication Privacy mode default Disable Use this field to enable to disable DES_CBC data encryption for the specified level of access Password Use this field to set the password for the specified level of access Privacy Use this field to define the encryption key for the specified level of access 9 3 NPort 6000 Series DDNS System Management Settings Please refer to Appendix C Dynamic Domain Name Server for information on setting up DDNS on your NPort 6000 Host Table AZ Port 9 EA Port 10 HA Port 11 B Port 12 EA Port 13 E Port 14 BA Port 15 EA Port 16 i 3 Welcome Message ES System Management ea Misc Network Settings E a Accessible IP List E SNMP Agent A DDNS fa Host Table fa Route Table fa User Table i Authentication Server E 33 System Log Settings ae Auto War
113. ceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received e Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received following the delimiter e Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter e Strip Delimiter Data in the buffer is first stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing the serial data in its internal buffer for network transmission Socket Applications TCP Server Mode Total Solution for Industrial Device Networking SJ Main Menu amp Operation Modes J Overview Basic Settings H Network Settings Port 1 J4 Serial Port Settings 3 Port 1 GJ Operation Modes LJ Communication Paramete Data Buffering Log Modem Settings A Cipher Settings H Port 2 213 Port 3 PE Port 4 HE Port 5 3 Port 6 HA Port 7 H Ports Welcome Message H System Management H System Monitoring 9 Save Configuration H Restart Application Mode
114. click on the Submit button to keep your configuration changes The Submit button will be located at the bottom of every page that has configurable settings If you navigate to another page without clicking the Submit button your settings will not be retained Changes will not take effect until they are saved and the NPort is restarted You may complete this in one step by clicking on the Save Restart option after you submit a change If you need to make several changes before restarting you may save your changes without restarting by selecting Save Configuration in the navigation panel If you restart the NPort 6000 without saving your configuration the NPort 6000 will discard all submitted changes Basic Settings You may access Basic Settings in the navigation panel Server Settings Total Solution for Industrial Device Networkin J Main Menu i Overview T Basic Settings Server Settings H Network Settings a Serial Port Settings A ia NP6150 16 i aooo 3 Susan Maese Server location ca System Monitoring Time Settings G Save Configuration Time zone 24 hour GMT Greenwich Mean Time Dublin Edinburgh Lisbon London EJ Restart Local time 2007 4 fio fi 28 44 Modify Time server A Basic Settings Submit Server name This is an optional free text field for your own use it does not affect operation of the NPort 6000 It can be used to help differentiate one NPort 6000 server from another Server locat
115. connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Dial in The NPort 6000 listens for a TCP IP connection request from the remote Ethernet modem or host The NPort 6000 s response depends on the ATSO value as follows ATSO 0 The NPort 6000 will temporarily accept the TCP connection and then send the RING signal out through the serial port The serial controller must reply with ATA within 2 5 seconds to accept the connection request after which the NPort 6000 enters data mode If no ATA command is received the NPort 6000 will disconnect after sending three RING signals 7 16 NPort 6000 Series Configuring Serial Port Operation Modes ATSO 1 The NPort 6000 will accept the TCP connection immediately and then send the CONNECT baud command to the serial port in which baud represents the baudrate of the NPort 6000 s serial port After that the NPort 6000 immediately enters data mode Dial out The NPort 6000 accepts the AT command ATD P TCP port from the serial port and then requests a TCP connection
116. d to the NPort 6000 With this option enabled calling the Win32 Comm function will result in the error return code STATUS NETWORK_UNREACHABLE when a connection cannot be established to the NPort 6000 This usually means that your host s network connection is down perhaps due to a cable being disconnected However if you can reach other network devices it may be that the NPort 6000 is not powered on or is disconnected Note that Auto Network Re Connection must be enabled in order to use this function Fast Flush only flushes the local buffer For some applications the user s program will use the Win32 PurgeComm function before it reads or writes data After a program uses this PurgeComm function the NPort driver continues to query the NPort s firmware several times to make sure no data is queued in the NPort s firmware buffer rather than just flushing the local buffer This design is used to satisfy some special considerations However it may take more time about several hundred milliseconds than a native COM1 due to the additional time spent communicating across the Ethernet This is why PurgeComm works significantly faster with native COM ports on the PC than with mapped COM ports on the NPort 6000 In order to accommodate other applications that require a faster response time the new NPort driver implements a new Fast Flush option By default this function is enabled If you have disabled Fast Flush and find that COM
117. d as a root the devices will renegotiate to set up a new Spanning Tree topology Enable STP per Port Enable Disable Select to enable the port as a node on the Spanning Tree Disabled topology NPort 6000 Series Module Settings Configuration Limits of RSTP STP The Spanning Tree Algorithm places limits on three of the configuration items described above Eq 1 1 sec Hello Time lt 10 sec lt Eq 2 6 sec lt Max Age lt 40 sec lt Eq 3 4 sec Forwarding Delay lt 30 sec These three variables are further restricted by the following two inequalities Eq 4 2 x Hello Time 1 sec lt Max Age lt 2 x Forwarding Delay 1 sec The NPort 6000 s firmware will alert you immediately if any of these restrictions are violated For example setting Hello Time 5 sec Max Age 20 sec and Forwarding Delay 4 sec does not violate Eqs 1 through 3 but does violate Eq 4 since in this case 2 x Hello Time 1 sec 12 sec and 2 x Forwarding Delay 1 sec 6 sec You can remedy the situation in any number of ways One solution is simply to increase the Forwarding Delay value to at least 11 sec HINT Take the following steps to avoid guessing Step 1 Assign a value to Hello Time and then calculate the left most part of Eq 4 to get the lower limit of Max Age Step 2 Assign a value to Forwarding Delay and then calculate the right most part of Eq 4 to get the upper limit for
118. d wire routing help limit the effects of noise due to electromagnetic interference EMI Run the ground connection from the ground screw to the grounding surface prior to connecting devices 2 5 NPort 6000 Series Getting Started The Shielded Ground sometimes called Protected Ground contact is the second contact from the right of the 5 pin power terminal block connector located on the rear panel of the NPort 6600 32 16 8 48V Connect the SG wire to the Earth ground ATTENTION This product is intended to be mounted to a well grounded mounting surface such as a metal panel Connecting to the Network Connect one end of the Ethernet cable to the NPort 6000 s 10 100M Ethernet port and the other end of the cable to the Ethernet network If you are using a fiber port version of the NPort 6000 connect the fiber cable from the Ethernet network to the NPort 6000 s fiber port If the cable is properly connected the NPort 6000 will indicate a valid connection to the Ethernet as follows e The Ethernet LED glows a solid green when connected to a 100 Mbps Ethernet network e The Ethernet LED glows a solid orange when connected to a 10 Mbps Ethernet network e The Ethernet LED flashes when Ethernet packets are being transmitted or received Connecting to a Serial Device Connect the serial data cable between the NPort 6000 and the serial device Serial data cables are available as optional accessories LED Indicators The
119. dem connection link up NM Modem The modem port is transmitting data NM Modem Off Data is not being transmitted through the modem port The modem port is receiving data NM Modem No data is being received through the modem port Adjustable Pull High Low Resistors for the RS 485 Port In some critical environments you may need to add termination resistors to prevent the reflection of serial Signals When using termination resistors it is important to set the pull high low resistors correctly so that the electrical signal is not corrupted The NPort 6000 uses jumper settings or DIP switches to set the pull high low resistor values for each serial port To set the pull high low resistors to 150 KQ make sure that the two jumpers assigned to the serial port are not shorted by jumper caps For the NPort 6650 make sure both of the assigned DIP switches are in the OFF position This is the default setting To set the pull high low resistors to 1 KQ make sure that the two jumpers assigned to the serial port are shorted by jumper caps For the NPort 6650 make sure both of the assigned DIP switches are in the ON position ATTENTION Do not use the 1 KQ setting on the NPort 6000 when using the RS 232 interface Doing so will degrade the RS 232 signals and shorten the maximum allowed communication distance NPort 6000 Series NPort 6150 6250 6450 Jumpers NPort 6150 2 8 Getting Started NPort 62
120. des TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Packet length default 0 The Packet length setting refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of O for packet length no maximum amount is specified and data in the buffer will be sent as specified by the delimiter settings or when the buffer is full When a packet length between 1 and 1024 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will clear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to indicate when data should be sent ATTENTION In order to enable a delimiter packet length must be set to 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled the NPort 6000 will still pack and send the data when the amount of data ex
121. dex rs232InSigName rs2320utSigName rs232InSigState rs2320utSigState E 3 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups Moxa NP6000 MIB overview basicsetting networkSetting opModeSetting viewLanModuleS peed upTime winsFunction winsFuncti n frota arar ss faratwitousArpSendPerios PTS ENECOECHADAMARTS A ForctrepServerconnectionDownbTR A rcetrepcientDestinatlonAddressE A ForcttepciientDestinationora A ForctrenclientDestinationadcress2 A ForctrepclientDestinationror2 A rcetrepcientDestinatlonAddress A rcetrepcientDestinatoPOrta A rcetrepcientDestinationAddressd A retrepcenDestinatOPOrtE ForctrepctientDesignatedocairont ForctrepctientDesignatedocalron2 FrcetepctientDesignatedocalrons PT ForcttepctientDesignatedocalrorta Forcttrepctientconnectioncontrol Pp Forccetucpdestinationadcressipegin Foret ucpDestinationaddressiend PD EEE OOOO Force ucpdestinationaddress2Begin PD Forcetucpestinationaddress2ind PForcctetucpbestinationporta OOOO Pp Forccetucpestinationaddress3 egin PD Forccetucpdestinationaddress3ind Po Forctetucpbestinationports OOOO ForcetucpdestinationaddressaBegin __ pppoeUserAccount E de La LL PPpoePassword E E 4 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups socketUdpDestinationAddress4End pairConnectionDestinationAdaress patrComnectionDestinationPort o o pairConnectionTepRrt terminal Mode reverseTerminal Mode
122. ditional serial port settings on the NPort 6000 The same configuration options are also available through the telnet and serial console The following topics are covered in this chapter O Port Communication Parameters O Serial Parameters O Port Data Buffering Log O Port Modem Settings O Port Cipher Settings O Welcome Message NPort 6000 Series Additional Serial Port Settings Port Communication Parameters Total Solution for Industrial Device Networking EM Serial Port Settings a Communication Parameters 23 Port 1 9 Operation Modes Port 1 3 Communication Parameters Data Buffering Log Port alias 3 Modem Settings Serial Parameters Cipher Settings Baud rate Hint 115200 y E Port 2 Data bits s y H Port 3 Stop bits li 7 i 4 ae Parity None y ii pone Flow control RTs cTs y aes FIFO Enable Disable Ga Porte Interface RS 232 y 4 Port 9 Mpi C pP Pra Pres Crs Cre Fe Fes 3 Port 10 ou the above settings Opo Opio Mpi1 Mpi2 p13 Mpi4 Opis Mepis Port 11 All ports H Port 12 Port 13 H Port 14 Port alias This optional field allows you to assign an alias to a port for easier identification Serial Parameters ATTENTION The serial parameters for the each serial port on the NPort 6000 should match the parameters used by the connected serial device You may need to refer to your serial device
123. dora Corel append an extra argument as follows tmp moxa mxinst SP1 The shell script will install the driver files automatically After installing the driver you will be able to see several files in the usr lib npreal2 driver folder 10 15 NPort 6000 Series Software Installation Configuration gt mxaddsvr Add Server mapping tty port gt mxdelsvr Delete Server un mapping tty port gt mxmknod gt mxloadsvr Reload Server Create device node tty port gt mxrmnod Remove device node tty port gt mxuninst Remove tty port and driver files At this point you will be ready to map the NPort serial port to the system tty port Mapping TTY Ports Make sure that you set the operation mode of the desired NPort 6000 serial port to Real COM mode After logging in as a super user enter the directory usr lib npreal2 driver and then execute mxaddsvr to map the target NPort serial port to the host tty ports The syntax of mxaddsvr is as follows mxaddsvr NPort IP Address Total Ports Data port Cmd port The mxaddsvr command performs the following actions 1 Modifies npreal2d cf 2 Creates tty ports in directory dev with major minor number configured in npreal2d cf 3 Restarts the driver Mapping tty ports automatically To map tty ports automatically you may execute mxaddsvr with just the IP address and number of ports as in the following example cd usr lib npreal2 dr
124. dows Driver Once the installation program starts running click Yes to proceed 2 Click Next when the Welcome screen opens to proceed with the installation 19 Setup NPort Windows Driver Manager ioj xj Welcome to the NPort Windows Driver Manager Setup Wizard This will install NPort Windows Driver Manager Ver1 2 on your computer tis recommended that you close all other applications before continuing Click Neat to continue or Cancel to exit Setup Select Destination Location Where should NPort Windows Driver Manager be installed O Setup will install NPort Windows Driver Manager into the following folder To continue click Neat F you would like to select a different folder click Browse C Program Files Port Drv Manager Browse At least 1 4 MB of free disk space is required lt Back 10 2 NPort 6000 Series Software Installation Configuration 3 Click Next to install the program s shortcuts in the appropriate Start Menu folder 12 Setup NPort Windows Driver Manager Select Start Menu Folder Where should Setup place the program s shortcuts fT Setup will create the program s shortcuts in the following Start Menu folder To continue click Next fF you would like to select a different folder click Browse NPor Windows Driver Manager Browse rani as a Setup NPort Windows Driver Manager Ready to Install Setup is now ready to begin installi
125. e 7 21 NPort 6000 Series SSH MOXA 3 Main Menu 1 Overview 2 Basic Settings 2 Network Settings EI Serial Port Settings E3 Port 1 A Operation Modes 2 Communication Pare Data Buffering Log 2 Modem Settings 2 Cipher Settings A Port 2 Port 3 G Port 4 A Ports A Port 6 A Port 7 BG Port 8 A Port 9 2 Port 10 G Port 11 EXA Port 12 H a cS ia Go Port 15 4 Port 16 Welcome Message Operation Modes Port 1 Application Mode TCP alive check time Inactivity time Primary host address Secondary host address SSH TCP port Terminal Quit Break Authentication type Try next type on authentication denied Automatic Login Login user name Login password Configuring Serial Port Operation Modes Total Solution for Industrial Device Networking Terminal v SSH v 7 0 99 min 0 0 99 min 22 E None v Enable Disable P1 Or2 Or3 Or4 Ops Or6 Or7 Ops iim ij pomas Apply the above settings to Oro Opio Opi1 Op12 Op13 Orp14 Opis Op16 EX Port 14 i O All ports Curtam hlanannmant TCP alive check time default 7 min The TCP connection will be closed if there is no TCP activity for the specified amount of time If this is set to 0 the TCP connection will remain open even if the connection remains idle For socket and device control modes the NPort 6000 will start listening for another TCP connection from another host after the connection is closed for b
126. e You can disable any port on the NPort 6000 by setting the operation mode to Disabled 4 10 gt Configuration with the Web Console The web console is the most user friendly method available to configure the NPort 6000 With a standard web browser you have easy and intuitive access to all settings and options In this chapter we introduce the web console and go through the basic configuration options The same configuration options are also available through the Telnet and serial console The following topics are covered in this chapter O Using Your Web Browser gt Browser Cookie Settings gt Trusted Site Settings gt Opening the Web Console O Web Console Navigation O Basic Settings gt Server Settings gt Time Settings O Network Settings gt Basic Network Settings gt Advanced Network Settings gt Configuring the Route Table NPort 6000 Series Configuration with the Web Console Using Your Web Browser Browser Cookie Settings Verify that cookies are enabled for your browser If the cookies are disabled you will not be able to use the web console Cookies are only used for password transmission 1 For Internet Explorer enable cookies by selecting Internet Options from the Tools menu General Security Privacy Content Connections Programs Advanced Home page A fou can change which page to use for your home page Address nfisapifredir dllrpro ietpyrer 68 ar msnhome Use Current Us
127. e Default Use Blank Temporary Internet files ll Pages you view on the Internet are stored m a special folder for quick viewing later Delete Cookies Delete Files Settings History S The History folder contains links to pages you ve visited for 89 quick access to recently viewed pages Davs to keep pages in history 20 Clear History Colors Fonts Languages Accessibility coca a 2 Select the Privacy tab There are six levels of privacy setting Block All Cookies High Medium High Medium Low and Accept All Cookies Users must select Medium High as the image shows or below to access the NPort 6000 web console General Security Privacy Content Connections Programs Advanced Settings Fa Move the slider to select a privacy setting for the Internet Sw zone E Medium High j Blocks third party cookies that do not have a compact privacy policy i Blocks third party cookies that use personally identifiable information without your explicit consent ie Blocks first party cookies that use personally identifiable information without implicit consent Sikes Import Advanced Default Pop up Blocker Prevent most pop up windows from appearing i Block pop ups Settings a ae ATTENTION If you are not using Internet Explorer cookies are usually enabled through a web browser setting such as
128. e NPort 6000 IP address netmask and other IP settings make sure Keep IP settings is checked off before loading the factory defaults Change Password Total Solution for Industrial Device Networking 3 Main Menu E Overview 3 Basic Settings Change Password m Password Network Settings oe Old password H Serial Port Settings 23 System Management New password gt Misc Network Settings Confirm password 3 Auto Warning Settings Dee E Maintenance y 2 Submit yd Console Settings 3 Ping Firmware Upgrade 3 Configuration Import 3 Configuration Export 2 Load Factory Default 2 Change Password HO Certificate For all changes to the NPort 6000 s password protection settings you will first need to enter the old password Leave this blank if you are setting up password protection for the first time To set up a new password or change the existing password enter your desired password under both New password and Confirm password To remove password protection leave the New password and Confirm password boxes blank ATTENTION If you forget the password the ONLY way to configure the NPort 6000 is by using the reset button on the NPort 6000 s casing to load the factory defaults Before you set a password for the first time it is a good idea to export the configuration to a file when you have finished setting up your NPort 6000 Your configuration can
129. e external RADIUS server 7 24 NPort 6000 Series Configuring Serial Port Operation Modes RADIUS Local Radius authentication is tried first switching to Local if unsuccessful Local RADIUS Authentication is performed locally first switching to Radius if unsuccessful TACACS Verify the ID against the external TACACS server TACACS Local TACACS authentication is tried first switching to Local if unsuccessful Local TACACS Authentication is performed locally first switching to Radius if unsuccessful Authentication is not required Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Map keys lt CR LF gt default CR LF This specifies how the ENTER key is mapped from the Ethernet port through the serial port Option Description OO lt CR LF gt carriage return line feed i e the cursor will jump to the next line and return to the first character of the line Carriage return i e the cursor will return to the first character of the line lt LF gt line feed i e the cursor will jump to the next line but not move horizontally Printer Applications RAW PRN Mode Total Solution for Industrial Device Networking 23 Serial Port Settings 2 2 Operation Modes 3 Port 1 Operation Modes Port 1 Communication Parameters E Ap
130. e figure send requests to hosts on another network such as 202 6 6 xxx or 201 2 2 xxx the corresponding NPort 6000 delivers the request to the another NPort 6000 on the remote end 202 6 6 254 or 201 2 2 254 as the next hop router For this example assume that Modem 1 is connected to serial port 1 Modem 2 is connected to serial port 2 and PPP source and destination IP addresses of modems 1 2 3 and 4 are as follows 203 67 6 250 202 6 6 250 202 6 6 250 203 67 6 250 Modem 2 203 67 6 249 201 2 2 249 Modem 4 201 2 2 249 203 67 6 249 In this case you will need to add two entries to the routing table as shown in the following figure Total Solution for Industrial Device Networking El 2 Main Menu Route Table a Overview a Basic Settings No Gateway Destination Netmask Metric 6 Network Settings tS Serial Port Settings S System Management ae Misc Network Settings E Accessible IP List 1 SNMP Agent 1 202 6 6 250 202 6 6 0 255 255 255 0 2 201 2 2 249 201 2 2 0 255 255 255 0 art jJhbh jp e E AO ES sf De ET TATT 5 13 6 Module Settings In this chapter we describe additional settings related to the NM TX01 NM FX01 M SC NM FX01 S SC NM FX02 M SC NM FX02 S SC and NM GPRS GSM modules The same configuration options are also available from the Telnet and serial consoles The following topics are covered in this chapter O NM TX01 NM TX02 NM FX01 M SC NM FX01 S SC NM FX02 M
131. e the specific cause for the alarm To reset the Dout state click on Acknowledge Event Note that the alarm LED will remain unchanged until the actual event has been resolved Total Solution for Industrial Device Networking EQ porte E Port E Port 8 Dout Status BO reli Ethernet1 link down Acknowledge Event its E i Ethernet link down Acknowledge Event E a Ethernet3 link down Acknowledge Event 3 Port 13 DCD changed Port 1 Acknowledge Event ES Port 14 DSR changed Port 1 Acknowledge Event Dout State AG Port 15 DCD changed Port 2 Acknowledge Event Eg Fort 16 DSR changed Port 2 eee Acknowledge Event o E Welcome Messag DCD changed Port 3 Acknowledge Event DSR changed Port 3 Acknowledge Event DCD changed Port 4 Acknowledge Event DSR changed Port 4 Acknowledge Event DCD changed Port 5 Acknowledge Event DSR changed Port 5 Acknowledge Event DCD changed Port 6 Acknowledge Event DSR changed Port 6 Acknowledge Event DCD changed Port 7 Acknowledge Event DSR changed Port 7 Acknowledge Event DCD changed Port 8 Acknowledge Event DSR changed Port 8 Acknowledge Event DCD chanood fOnoet 04 ae fAclkaowlodae Ewant aE System Managemer Bey System Monitoring i 93 Serial Status o ES system Status o fi Network Conne gm Network Statis al Serial Data Loc E System
132. e this field to enable or disable TACACS accounting System Log Settings System Log Settings Event Group Local Log Remote Log Summary System O O System Cold Start System Warm Start ad O O DHCP BOOTP PPPoE Get IP Renew NTP Mail Fail NTP Connect Fail IP Conflict Network Link Down Confi O O Login Fail IP Changed Password Changed Config Changed Firmware g Upgrade SSL Certificate Import Config Import Config Export OpMode O O Connect Disconnect Authentication Fail Restart System Log Settings allow the administrator to customize which network events are logged by the NPort 6000 Events are grouped into four categories known as event groups and the administrator selects which groups to log under Local Log The actual system events that would be logged for each system group are listed under summary For example if System was enabled then System Cold Start events and System Warm Start events would be logged Local Log Keep the log into the flash of NPort 6000 up to 512 items Remote Log Keep the log into the remote defined Log Server You will need to assign a remote Log Server in the System Management Misc Network Settings Remote Log Settings if remote log is checked 9 5 NPort 6000 Series System Management Settings System System Cold Start NPort 6000 cold start System Warm Start NPort 6000 warm start Network DHCP BOOTP PPPoE Get IP of the NPort 6000 is refreshed IP Renew T Time synchronization
133. e to keep up with data sent from the NPort s FIFO buffer Interface default RS 232 You may configure the serial interface to RS 232 RS 422 RS 485 2 wire or RS 485 4 wire 8 2 NPort 6000 Series Additional Serial Port Settings Port Data Buffering Log Total Solution for Industrial Device Networking EJ Main Menu A Data Buffering L 1 Overview 9 Log a Basic Settings Port 1 sA Network Settings Port buffering O Enable Disable Ta Pa Port Settings Port buffering location Memory 64K SD Card al Port 1 Port buffering SD file size 1 Mbytes 1 2048 Operation Modes i pos lt A Serial data logging 64K O Enable Disable 1 Communication P a Data Buffering Lo Pi Op Drs Cipa Clips Ores Dr Ups G Hodam A Apply the above settings to lp9 Opio Opi Clpiz2 Oria Opi4 Clpis P16 aE Port 2 LJ All ports 2 Port 3 HA Porta The NPort 6000 supports port buffering to prevent the loss of serial data when the Ethernet connection is down Port buffering can be used in TCP Server mode TCP Client mode and Pair Connection mode For other modes the port buffering settings will have no effect Port buffering enable default Disable You may enable port buffering by setting this field to Enable Port buffering location default Memory 64K If port buffering is desired use this setting to configure whether the buffer is located in the system memory or in an optional installed SD card Install and use an SD card
134. ear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to indicate when data should be sent ATTENTION In order to enable a delimiter packet length must be set to 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled the NPort 6000 will still pack and send the data when the amount of data exceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received e Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received following the delimiter e Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter e Strip Delimiter Data in the buffer is first stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing t
135. ed in by the NPort 6000 and cannot be set by the user The host uses this value to determine the Group to which the printer attached to this serial port belongs Groups 01 to 06 are mapped to ports 2048 to 2063 respectively 7 25 NPort 6000 Series Configuring Serial Port Operation Modes LPD PRN Mode Total Solution for Industrial Device Networking 53 Serial Port Settings El ES Port 1 ee Operation Modes Operation Modes Port 1 3 Communication Parameters lia Print j ication rinter y ul Data Buffering Log En Po PRN E A a Cipher Settings TCP alive check time 7 0 99 min 5 Port2 Queue name RAW Ea Port 3 Queue name ASCII it Port 4 Append from feed Enable Disable E Ports 2 Mpi p2 Fra p4 Ps Fo pe Pop Tope PU Port 6 Apply the above Dro Mpio Cpi Mpi2 Moria Meis pis Meis HE Port 7 settings to ee Porta T All ports E Portg eo Port 10 Panne a Port 11 TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the c
136. edundant Port Master Enable Disable Enable or Disable this NPort 6000 as the Master Redundant Ports lst Redundant Port Select any LAN port of the NPort 6000 to be one of the Port 1 redundant ports 2nd Redundant Port Select any LAN port of the NPort 6000 to be one of the Port 2 redundant ports NM GPRS GSM This section applies to NPort 6000 server s that have the NM GPRS GSM module installed From the left navigation panel click Network Settings gt Module to configure GSM GPRS Settings The various configuration items are described in detail below the figure Total Solution for Industrial Device 3 Main Menu y GSM GPRS Settings LJ Overview j as Type Gsm GPRS sms H43 Network Settings a i 7 l SIM PIN J Basic Network Settings i pe Ba 900 1800 MHz y LJ Advanced Network Settings 3 Module GSM FLA Corial Dart Satinne Mindan f nnan Manne Type The NM GPRS GSM module supports 3 types of operation modes The choices are GSM GPRS and SMS SIM PIN This is a pin code that locks the SIM card until you enter the correct code This protects your account The default code is set by the Service Provider Note that a cell phone must be used to change the PIN Selecting the Radio Band Although GSM 900 and GSM 1800 are used in most parts of the world operators in United States Canada and many other countries in the Americas use GMS 850 or GSM 1900 A quad band 6 10 NPort 6000 Series
137. eep alive packets Inactivity time default 0 ms This field specifies how long the NPort 6000 will wait for incoming and outgoing data through the serial port before closing the TCP connection The TCP connection is closed if there IS no incoming or outgoing data through the serial port for the specified Inactivity time If this field is set to O the TCP connection is kept active until a connection close request is received ATTENTION If used the Inactivity time setting should be greater than the Force transmit time To prevent the unintended loss of data due to the session being disconnected it is highly recommended that this value is set large enough so that the intended data transfer is completed Max connection default 1 This field is used if you need to receive data from different hosts simultaneously When set to 1 only a single host may open the TCP connection to the serial port When set to 2 or greater up to the specified number of hosts may open this port at the same time When multiple hosts establish a TCP connection to the serial port at the same time the NPort 6000 will duplicate the serial data and transmit it to all the hosts Ethernet data is sent on a first in first out basis to the serial port when data comes into the NPort 6000 from the Ethernet interface Ignore jammed IP default Disable This option determines how the port will proceed if multiple hosts are connected and one or more of the hosts stops respo
138. eing idle I nactivity time default 0 min This field specifies how long the NPort 6000 will wait for incoming and outgoing data through the serial port before closing the TCP connection The TCP connection is closed if there is no incoming or outgoing data through the serial port for the specified I nactivity time If this field is set to O the TCP connection is kept active until a connection close request is received ATTENTION Inactivity time should at least be set larger than that of Force transmit time To prevent the unintended loss of data due to the session being disconnected it is highly recommended that this value is set large enough so that the intended data transfer is completed Primary and Secondary host address If specified the fields designate permanent hosts to which the terminal will always be connected SSH TCP port default 22 By default the SSH TCP port number is set to 22 which is the default SSH port number Quit default E 0x05 This field configures the quick key used to disconnect the link between the current terminal session and the remote host For binary communication it is unnecessary to define the quit key Break This field defines the Host key for sending the break signal For binary communication it is unnecessary to define the break key Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization option pe
139. eld specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Disconnect by default None If this field is set as DCD off the connection will be disconnected when the DCD signal is off If this field is set as DSR off the connection will be disconnected when the DSR signal is off SLIPD Mode Total Solution for Industrial Device Networking a Serial Port Settings E in iatlaMod s E Port 1 f 9 Operation Modes Port 1 Communication Parameters La i Application Dial infout x r Data Buffering Log E Modem Settings mace stiro y Cipher Settings Destination IP address Fo a fea Port 2 Source IP address HE Port 3 IP netmask O a Port 4 TCP IP compression C Enable Disable ji ie Inactivity time o 0 65535 ms E o Disconnect by None y 29 Port 8 Mpifop2 p3 Pra Tprs Cpe Foe Foes HE Port 9 deere Pa Drs Perro Meri Mera Meis Mera Mepis Mepis E Port 10 T All ports HE Port 11 H Port 12 tee as Submit HE Port 14 SLIPD SLIP on demand is used for dial in services since it provides SLIP services only when receiving a request from a remote PC Destination I P address This is the IP address of the remote dial in dial out server Source IP address The Source IP address is IP address assigned to this serial port IP netmask The IP netmask defines the netmask also known as the subnet mask for the SLIP connection TCP
140. emand is used for dial in services since it provides PPP services only when receiving a request from a remote PC Destination I P address This is the IP address of the remote dial in dial out server Source IP address The Source IP address is IP address assigned to this serial port IP netmask The IP netmask defines the netmask also known as the subnet mask for the PPP connection TCP IP compression default Disable The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Link quality report default Disable Setting this field to Enable allows the NPort 6000 to disconnect a connection if the link noise exceeds a certain threshold Username This is the dial out user ID account Password This is the dial out user password Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CT scription OO TACACS Local TACACS authentication is tried first switching to Local if unsuccessful Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Disconnect by default None If this field is set as DCD off the connection will be disconnected when the D
141. emet AAA rats ML E o _ e O C _ Oo c c c _ _ _ _ _ _ _ _ _ o Bae y T Console Root mi Internet information Server oF y Adrinisiraion Web Site a 33 Default SMTP Site 8 Default NNTP Site fe ME Microsoft Transaction Server 5 Right click RADIUS in the left information window and then select Properties im Microsoft Management Console iis Console Rootilnternet Information Server rats lel ES 18 x Console Root a Internet Information Server B8 ratenta El 243 Default FTP Site IRERADIUS Stop pega al 1 8 Default Web Site B Administration W SR Him Default SMTP Sit Pavec a Default NNTP sf a i a Microsoft Transaction A A e 6 Select Service Verify that the RADIUS ports assignments match your configuration Authentication 1645 or 1812 Accounting 1646 or 1813 F 4 NPort 6000 Series RADIUS Server 7 Select Client and then click Add Enter the NPort 6000 s IP address in the IP address field Enter the NPort 6000 s RADIUS key in the password field This must match the RADIUS key that you set in the NPort 6000 console Dinernet Authentication Service Properties ratsntd Serice Logging Clients Froliles Chants are nebyork access Gewig password shared secret with es Client Information Authentication requests can be r pae fies eos feo0 Client Location a A Tolert 151
142. ent through the Ethernet will be encrypted with SSL 7 5 NPort 6000 Series Configuring Serial Port Operation Modes ATTENTION If an NPort 6000 serial port is in Reverse Real COM mode and configured for SSL encryption make sure the Reverse Real COM driver is configured the same way This is done through the NPort Windows Driver Manager which is installed with the driver Please refer to Chapter 10 Software Installation and Configuration for more information Destination address 1 through 2 default None Specifying an IP address allows the NPort 6000 to connect actively to the remote host At least one destination must be provided TCP port default 60950 This is the TCP port number assignment for the Remote Host Server It is the port number that the serial port of NPort 6000 uses to establish the connections with a Remote Host Server To avoid conflicts with well known TCP ports the default is set to 60950 ATTENTION Up to 2 connections can be established between the NPort 6000 hosts Make sure that port 60950 is not blocked by the firewall before using this port ATTENTION The destination ip address parameter can be the IP address domain name or the name defined in the host table Designated local port 1 through 2 default 7010 through 7320 Use these fields to specify the designated local ports Connection goes down default always high You can configure what happens to the RTS and DTR signals when the
143. ep3 2 3 Router has no response e g router does not exist gt Step 3 Step 3 The NPort applies for an IP address from the DHCPv6 Server Step 4 Process closed User defined IP address Prefix gateway IPv6 Address default Auto Enter the Pv6 address that will be assigned to your NPort 6000 All ports on the NPort 6000 will share this IPv6 address An Pv6 address is a number assigned to a network device such as a computer as a permanent address on the network Computers use the Pv6 address to identify and talk to each other over the network Choose a proper Pv6 address that is unique and valid in your network environment Prefix The prefix is the part of the address that indicates the bits that have fixed values or are the bits of the subnet prefix Prefixes for Pv6 subnets routes and address ranges are expressed in the same way as Classless Inter Domain Routing CIDR notation for Pv4 An Pv6 prefix is written in address prefix length notation For example 21DA D3 48 and 21DA D3 0 2F3B 64 are Pv6 address prefixes Note Pv4 implementations commonly use a dotted decimal representation of the network prefix known as the subnet mask A subnet mask is not used for IPv6 Only the prefix length notation is supported I Pv6 Gateway Gateway Enter the IPv6 address of the gateway if applicable A gateway is a network computer that acts as an entrance to another network Usually the computers that control traffic within
144. er will be sent as specified by the delimiter settings or when the buffer is full When a packet length between 1 and 1024 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will clear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to control when data should be sent ATTENTION In order to enable a delimiter packet length must be set to 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled the NPort 6000 will still pack and send the data when the amount of data exceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received 7 4 NPort 6000 Series Configuring Serial Port Operation Modes Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received f
145. ers they will be filled in automatically by the remote side of the connection TCP I P compression default Disable The setting of this field depends on whether the remote user s application requests compression Inactivity time default 0 ms This field specifies the idle time setting for auto disconnection A setting of O ms will cause the port to remain connected even if idle Link quality report default Disable Setting this field to Enable allows the NPort 6000 to disconnect a connection if the link noise exceeds a certain threshold Username This is the dial out user ID account Password This is the dial out user password Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CO AN Try next type on authentication denied default Disable The field enables or disables the system to try TACACS Local Local TACACS Local RADIUS Authentication is performed locally first switching to Radius if unsuccessful next type on first authentication denied 6 11 NPort 6000 Series Module Settings Dial out number Use this field to configure the number that the user uses to dial out Dial in number Use this field to configure the number that the user uses only to dial in Initial string Use this field to configure the initial string that the modem will use to establish the connection Connection control Connect Rule Disconnect Rule GSM
146. es are used locally or at a remote site The NPort 6000 is an external P based network device that allows you to expand the number of serial ports for a host computer on demand As long as your host computer supports the TCP IP protocol you will not be limited by the host computer s bus limitation such as ISA or PCI nor will you be limited by the absence of drivers for various operating systems In addition to providing socket access the NPort 6000 also comes with a Real COM TTY driver that transmits all serial signals intact This enables you to preserve your existing COM TTY based software without needing to invest in additional software Three different socket modes are available TCP Server TCP Client and UDP Server Client The main difference between the TCP and UDP protocols is that TCP guarantees delivery of data by requiring the recipient to send an acknowledgement to the sender UDP does not require this type of verification making it possible to offer faster delivery UDP also allows unicast or multi unicast of data to one IP or groups of IP addresses The NPort 6000 also supports console management applications including Reverse Telnet as well as Reverse SSH terminal modes Reverse terminal modes enable you to connect to a server s console port through an IP network for remote control and or monitoring of that server The NPort 6000 supports standard SSL secure data access for Real COM TTY mode TCP server mode TCP Client mode
147. esired TCP IP host specified in the packet is on the local network segment If the address is on the same network segment as the NPort 6000 a connection is established directly from the NPort 6000 Otherwise the connection is established through the given default gateway Gateway Enter the IP address of the gateway if applicable A gateway is a network computer that acts as an entrance to another network Usually the computers that control traffic within the network or at the local Internet service provider are gateway nodes The NPort 6000 needs to know the IP address of the default gateway computer in order to communicate with the hosts outside the local network environment For correct gateway IP address information consult the network administrator ATTENTION In dynamic IP environments the firmware will try to get the network settings from the DHCP or BOOTP server 3 times every 30 seconds until network settings are assigned by the DHCP or BOOTP server The first try times out after 1 second the second try times out after 3 seconds and the third try times out after 5 seconds If the DHCP BOOTP server is unavailable the firmware will use the default IP address 192 168 127 254 netmask and gateway settings IPv4 DNS server 1 This is an optional field If your network has access to a DNS server you may enter the DNS server s IP address in this field This allows the NPort 6000 to use domain names instead of IP addresses to access hos
148. ess line This is the default IP address for the NPort 6000 if a new address has been assigned enter the new address instead Press ENTER to load the page ATTENTION The examples and figures in this chapter use the NPort 6000 factory default IP address of 192 168 127 254 If you have assigned a different IP address to your NPort 6000 be sure to adjust accordingly when following these directions Please refer to Chapter 3 Initial IP Address Configuration for details on how to configure the IP address The default login username is admin with no password Note that only the user admin can upgrade the firmware Web Console Login Username admin Password Login ATTENTION If you forget your password the ONLY way to configure the NPort 6000 is by using the reset button to reset all settings and load the factory defaults If you have disabled the reset button in your NPort 6000 configuration you may still use it to load the factory defaults within the first 60 seconds that the NPort 6000 IS powered on Remember to back up your configuration by exporting it to a file Your configuration can be easily restored by importing the file to the NPort 6000 This will save time if you have forgotten the password and need to reload the factory defaults The NPort 6000 s web console will appear MOXA Total Solution for Industrial Device Main Menu TA welcome to NPort 6000 Series Ld Overview Basic Set
149. est REchoRply Responding packets to remote Ping request SEchoReq Received packets from local ping request SEchoRply Responding packets to local ping request UDP statistics Received Received UDP datagram packets ErrPorts Received UDP datagram packets with invalid destination port ErrHeader Received UDP datagram packet with incorrect header Sent Sent UDP datagram packets TCP statistics Received Total received packets of segments including error packets ErrHeader Error packets e g bad TCP checksums CurrEstab The counter of TCP connections for which the current state is either ESTABLISHED or CLOSE WAIT ErrPorts Received TCP datagram packets with invalid destination port Opens TCP connections Sent Total sent packets including those on current connections ReSent Retransmitted packets Network Module 3 Main Menu Network Redundancy 3 Overview 1 Basic Settings Y Auto refresh A Network Settings 4 Serial Port Settings Redundancy protocol None H System Management Bridge role Root Bridge ID EA System Monitoring ones that ial EC Serial Status E System Status Network Connection 1 Network Statistics Port Enable RSTP Port Role Designated Bridge ID Status No No No W N A Y Serial Data Log Check the information and status of the Network Module inserted in the NPort 6000 9 18 NPort 6000 Series System Management Settings Auto Refresh Defaul
150. et Modem Printer PPP Disabled Secure Secure Real COM Secure TCP Server Secure TCP Client Secure Pair Connection SSH Reverse SSH Applications Terminal Sessions 8 sessions per port Physical Characteristics Housing Metal Weight 700 g Dimensions Without ears 67 x 100 4 x 28 mm 2 64 x 3 95 x 1 1 in With ears 90 x 100 4 x 28 mm 3 54 x 3 95 x 1 1 in Environmental Limits Operating Temperature 0 to 55 C 32 to 131 F Storage Temperature 40 to 75 C 40 to 167 F Ambient Relative Humidity 5 to 95 non condensing Altitude Up to 2000 m Note Please contact Moxa if you require products guaranteed to function properly at higher altitudes Power Requirements Input Voltage 12 to 48 VDC Power Consumption 285 mA 12 V 150 mA 24 V Alarm Contact Relay output with current carrying capacity of 1 A 24 VDC 1 5 NPort 6000 Series Introduction Power Line Protection 1 KV burst EN61000 4 4 EFT B 0 5 KV surge EN61000 4 5 Standards and Certifications Safety UL 60950 1 EN 60950 1 EMC CE FCC EMI EN 55022 Class A FCC Part 15 Subpart B Class A EMS EN 55024 EN 61000 4 2 ESD Level 2 3 E EN 61000 4 3 RS Level 2 EN 61000 4 4 EFT Level 2 EN 61000 4 5 Surge Level 2 EN 61000 4 6 CS Level 2 EN 61000 4 8 Level 1 EN 61000 4 11 Freefall EC 68 2 6 EC 68 2 34 EC 68 2 32 Vibration EC 68 2 6 EC 68 2 34 Green Product RoHS CRoHS WEEE Reliability Alert Tools Built in b
151. ettings EXSY System Management 2 F lan 7S Misc Network Settings 3 fi flan z de I Accessible IP List 4 fi flan y E SNMP Agent sf Ya flan y ite DDNS E 6 1 lan y Host Table 1 Route Table 7 fa lan Y QA User Table e 1 flan y O Authentication Server a j flan y 1 System Log Settings 10 fi flan y E 0 A Auto Warning Settings ct If If a an Bl EJ Maintenance ee 12 jJE JE fy lan y HA System Monitoring 1 Save Configuration 13 1 flan I wy Restart 14 fi lan bd 15 fi flan y 16 fi flan y 17 fi lan y 5 12 NPort 6000 Series Configuring Multiple point Routes Web FTP Ls E mail News Server a Server Ethernet 203 67 6 TCP IP vi NPort 6000 203 67 6 253 Pieri D Router 203 67 56 254 Modem 1 gt gt Modem 2 Internet Modem 3 pe Modem 4 202 6 6 254 092 201 2 2 254 052 NPort 6000 NPort 6000 Series Series al Printer f MRP Frinter f MRP JPF Server JEL Server 202 6 6 3 gt gt 201 221 Phone Line Phone Line Ethernet i Ethernet 202 6 6 201 2 2 A w w w PC PC PC PC Configuration with the Web Console For multi location enterprises NPort 6000 servers can be placed in different branch offices and used as both multi point routers and as remote access servers When hosts e g the Web FTP and E mail News servers shown in th
152. example AT amp SO 1 for auto answer Dial up Use this field to configure the modem s Dial up AT command string Phone number Use this field to configure the number that the user uses to dial out 8 3 NPort 6000 Series Port Cipher Settings Ae Serial Port sett ES Port 1 E a Operation fa Communic a Data Buffe fa Modem Se 33 Cipher Set a Port 2 H Port 3 HA port4 81 Ports EQ Port 6 HA Port 7 51 Ports HA Porto EQ Port 10 EQ Port 11 A Port 12 8 Port 13 HA Port 14 BA Port 15 E Port 16 Y Welcome Me H system Manage ae System Monitor Cipher Settings Port 1 Use up down to sort the cipher list Secure Mode SSL Ciphers DHE RS4 4ES256 SHA AES256 SHA EDH RS4 DES CBC3 SHA DES CBC3 SHA DES CBC3 MDS SSL2 DHE RS4 4E5 128 SHA AES128 SHA RC4 SHA RC4 MDS EDH RS4 DES CBC SHA DES CBC SHA DES CBC MDS SSL2 SSH Reverse SSH Ciphers aes128 cbc 3des cbc aes192 cbc aes256 cbc twofish256 cbc twofish cbc twofish128 cbc blowfish cbe Apply the above settings to fo Save Configura Submit Additional Serial Port Settings Total Solution for Industrial Device Networking MpiTr2 rs rs Mrs Cpe Ce fps po Frio Peri p12 Fria O pi4 pis pls T All ports Serial Port Settings gt Port N gt Cipher Settings Used to choose cipher priority for SSL and SSH to build secure connections The Secure Mode SSL Ciphers are for when Secure mode is be selected The SSH Reverse SSH Ciphe
153. g for security reasons when using older generation equipment or as a backup configuration method when the network is down NPort 6000 reverse terminal modes allow the use of the NPort 6000 User Table or a RADIUS server for identity verification purposes Please refer to the Misc Network Settings section in Chapter 9 System Management Settings for instructions on setting up the NPort 6000 User Table Reverse Telnet Reverse Telnet mode is widely used for device management in telecommunication control rooms The system waits for a host on the network to initiate a connection Since TCP Server mode does not assist with conversion of CR LF commands reverse terminal applications that require this conversion should use Reverse Telnet mode Reverse SSH The NPort 6000 also offers a Reverse SSH mode so you can use SSH utilities such as PuTTY to connect to remote servers 4 8 NPort 6000 Series Introducing Serial Port Operation Modes Printer Modes TCP IP NPort 6000 Series sr a _ o a Printer pa Printer Printer Printer The NPort 6000 s Printer mode provides an excellent solution for banking and stock exchange services with huge printing demands Printer modes involve a network printer that is connected to a serial port on the NPort 6000 with a port number assigned to specify the printer s location Windows or UNIX hosts can access the printer over the network in either RAW or LPD modes Plea
154. g E Main Menu I Overview a Basic Settings Mail Server Settings Ai Network Settings l Mail server SMTP H Serial Port Settings i E mail Alert ne System Management T My server requires authentication EQ Misc Network Settings User name m EQ Auto Warning Settings Password QU Event Settings From e mail OO Y Serial Event Settings address A E mail Alert To e mail address 1 E SNMP Trap To e mail address S am Maintenance To e mail address 3 D E HE Certificate 3 System Monitoring a Save Configuration Restart To e mail address 4 The E mail Alert settings configure how e mail warnings are sent for system and serial port events You may configure up to 4 e mail addresses to receive automatic warnings ATTENTI ON Consult your Network Administrator or ISP for the proper mail server settings The Auto warning function may not work properly if it is not configured correctly The NPort 6000 s SMTP AUTH supports LOGIN PLAIN and CRAM MD5 RFC 2554 Mail server This field is for your mail server s domain name or IP address User name This field is for your mail server s user name if required Password This field is for your mail server s password if required From e mail address This is the e mail address from which automatic e mail warnings will be sent To e mail address 1 to 4 This is the e mail address or addresses to which the automatic e mail warnings will be sent
155. gs Total Solution for Industrial Device Networkin Go to Serial to Network Connections under Serial Status to view the operation mode and status of each connection for each serial port All monitor functions will refresh automatically every 5 seconds E Main Menu fa Overview fa Basic Settings a Network Settings ear Serial Port Settings ea System Management 2 Misc Network Settings BR Auto Warning Settings 5 Maintenance HE Certificate Ea System Monitoring Serial Status z fa Serial to Network Con fa Serial Port Status fa Serial Port Error Coun i Serial Port Settings po O Cipher Usage Status HG System Status fa Save Configuration H Restart 1 Port OP Mode Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Device Control RealCOM Serial to Network Connections 9 14 ed hd dd d d d d d d ed d d d d d ed ed ed ed d d ed be te hd NS MS 5 DN A ee AN O A ON A E NS A E O m m Total Solution for Industrial Device Networking Connections os ra dd d d d d d al hd ll ld hd d d hd ed led hd hd ed d d d hd m m FA AS A AS A m A
156. hat support dynamic updates Y Automatically update DHCP client information in DNS pue fF Addres Update DNS only if DHCP client requests Eno Addres LO Adore CO Always update DNS tiu Discard forward name to address lookups when lease expires OF Cancel Apoly The above screenshot shows how DHCP can be set up to update the DNS Currently the NPort 6000 supports DNS service as provided by DynDNS For detailed information on this option please visit https www dyndns com Configuration MOXA Total Solution for Industrial Device Networking HE Port 9 2 H Port 10 RERS a Pe Configuration de ER DDNS Enable Disable Hig Port 13 HE Port 14 Server address DynDns org y H Port 15 Host name A ao Port 16 Username O Welcome Message Password AS System Management EQ Misc Network Settings 1 Accessible IP List E SNMP Agent DDNS Host Table fel Manba Tahlia DDNS default Disable Use this field to enable or disable DDNS Server address default DynDns org Currently DynDns org is the only option available for Server address Host name In this field use the name that you created on www dyndns com The NPort 6000 will update the DynDNS server with this host name Username This is the user name used for update authentication Password This is the password used for update authentication C 2 D Well Known Port Numbers In this appendix we provide
157. he GPRS connection pings Connection interval default 5 min The time interval of the periodic connect function Ping remote host Key in the IP address of the remote host SMS Operation mode Short Message Service SMS is a telecommunications protocol that allows the sending of short 160 characters or less text messages It is available on most digital mobile phones and some personal digital assistants with onboard wireless telecommunications GSM technology offers the benefit of using SMS short message service as an easy way to communicate over the mobile network In this chapter we explain how to use SMS with the NM GPRS GSM Module Total Solution for Industrial Device Networking 3 Main Menu f GSM GPRS Settings LJ Overview man a Type Cosm C GPRS sms E ito Settings MEN PA LJ Basic Network Settir 3 Advanced Network Band 900 1800 MHz y 9 Module SMS 9 Serial Port Settings Format Text ASCII y a 9 System Management 9 System Monitoring submit Save Configuration Yv gt HE Restart Supports 7 bit ASCII format for alert NM GPRS GSM will automatically report system events network events config events and serial port events to the specific phone number once an event listed in the event El settings has occurred ASCII American Standard Code for Information Interchange A character encoding based on the English alphabet ASCII codes rep
158. he TCP IP protocol software will pack the serial data received after there is a gap in serial communication that exceeds the specified force transmit time The optimal force transmit time depends on your application but it must be at least larger than one character interval within the specified baudrate For example assume that the serial port is set to 1200 bps 8 data bits 1 stop bit and no parity In this case the total number of bits needed to send a character is 10 bits and the time required to transfer one character is 10 bits 1200 bits s x 1000 ms s 8 3 ms Therefore you should set the force transmit time to be larger than 8 3 ms so in this case it must be greater than or equal to 10 ms If it is necessary to send a series of characters in the same packet the serial device will need to send that series of characters within the specified force transmit time and the total length of data must be less than or equal to the NPort 6000 s internal buffer size 1 KB per port Apply the above setting to NPort 6000 models with 2 or more serial ports you may use the checkboxes at the bottom of the window to apply the settings to one or more ports RFC2217 Mode NULO Gar 23 Main Menu Overview 3 Basic Settings Total Solution for Industrial Device Networking Operation Modes a Port 1 Network Set
159. he next command Non requested serial data default discard Specifies how the NPort will handle data that is received from a serial device that is not in response to a command The NPort can either discard such data forward the data to the network host that sent the most recent request or forward the data to all open host connections e Discard Discard the data e Forward to last requester Forward non requested serial data to last requester connection e Forward to all open connections Forward non requested serial data to all open connections Packet length default 0 The Packet length setting refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of O for packet length no maximum amount is specified and data in the buffer will be sent as specified by the delimiter settings or when the buffer is full When a packet length between 1 and 1024 bytes is specified data in the buffer will be sent as soon it reaches the specified length Delimiter 1 and Delimiter 2 default None When Delimiter 1 is enabled the serial port will clear the buffer and send the data to the Ethernet port when a specific character entered in hex format is received A second delimiter character may be enabled and specified in the Delimiter 2 field so that both characters act as the delimiter to indicate when data should be sent ATTENTION In order to enable a delimiter packet length must be set t
160. he serial data in its internal buffer for network transmission Pair Connection Mode Pair Connection mode can be used to remove the 15 meter distance limitation imposed by the RS 232 interface It establishes a connection between a serial port on one NPort 6000 server and another serial port on another NPort 6000 server One of the serial ports is connected to the COM port of a PC or another type of computer such as a hand held PDA that has a serial port The other serial port is connected to the desired serial device The two NPort 6000 servers are then connected to each other with a crossover Ethernet cable and both are connected to the same LAN In a more advanced setup the two NPort 6000 servers communicate with each other over a WAN i e through one or more routers In Pair Connection Mode both data and modem control signals but not DCD signals are transparently transferred between the two NPort 6000 servers Pair Connection Master Mode When using Pair Connection mode Pair Connection Master mode must be selected as the Operation mode for one of the two serial ports involved and Pair Connection Slave mode must be selected for the other serial port 7 14 NPort 6000 Series Configuring Serial Port Operation Modes In effect the serial port that is in Pair Connection Master mode will be acting as a TCP client and the one that is Slave mode will be acting as a TCP server In practice it does not matter which port is the master and w
161. hich port is the slave Total Solution for Industrial Device Networking 3 Main Menu E Overview 9 Basic Settings Operation Modes 2 Port 1 0 Network Settings ae z E 4 Serial Port Settings Application Pair Connection y ES Port 1 Mode l Pair Connection Master y 2 Operation Modes oe check 7 0 99 min J Communication Parameters Secure C Enable Disable U Data Buffering Log Destination amp _c i m Port 4001 3 Modem Settings address 2 Cipher Settings WpiFre Fo p3 p4 rs Pro Pop Pope m Apply the above a Port 2 settings En po pio Pri Ferre Fria p14 pis Fpl6 YU Port 3 T All ports HE Port 4 HE Ports sa Port 6 Submit TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Secure default Disable If you select Enable d
162. ice will be sent out through the Modem 6 17 7 Configuring Serial Port Operation Modes In this chapter we explain how to configure the individual serial port modes The following topics are covered in this chapter O Port Setting Basics O Device Control Applications gt Real COM Mode gt Reverse Real COM Mode gt RFC2217 Mode O Socket Applications gt TCP Server Mode gt TCP Client Mode gt UDP Mode O Pair Connection Mode gt Pair Connection Master Mode gt Pair Connection Slave Mode O Ethernet Modem Mode O Terminal Applications gt Terminal ASCII TERM_ASC gt Terminal BIN TERM_BIN gt SSH O Reverse Terminal Applications gt Reverse Telnet Mode gt Reverse SSH Mode O Printer Applications gt RAW PRN Mode gt LPD PRN Mode O Dial I n Out Applications PPP Mode PPPD Mode SLIP Mode SLIPD Mode Y VV V WV Dynamic Mode O Disabled Mode NPort 6000 Series Configuring Serial Port Operation Modes Port Setting Basics Each serial port on the NPort 6000 can be configured independently To configure the operation mode and settings for a port expand Serial Port Settings in the navigation panel then expand the port that you would like to configure Individual port settings are grouped into four categories in the navigation panel Operation Modes Communication Parameters Data Buffering Log and Modem Settings MOXA SJ Main Menu Overview Basic Settings Total Solution for industrial Device
163. if a buffer size greater than 64 KB is desired Note that optional SD cards are not supported on the NPort 6150 Port buffering SD file size default 1 Megabyte Use this field to configure the size of the port buffer if you have configured it to reside on an SD card Note that optional SD cards are not supported on the NPort 6150 Serial data logging enable default Disable If this field is set to Enable the NPort 6000 will store data logs on the system RAM for all serial ports Note that this data is not saved when the NPort 6000 is powered off Each serial port is allotted 64 KB to store that port s log file Port Modem Settings Total Solution for Industrial Device Networking EY Serial Port Settings Al ae Modem Settings i E Port 1 1 Operation Modes Port 1 3 Communication Parameters a F pa sa nable modem 2 Data Buffering Log Enable Disable A Modem Settings Initial string las 2 Cipher Settings Dial up ATD BE Port 2 Phone number FO BG Port 3 E Port 4 Mpifp2 Fra Fp4 rs Cpe p7 Fee o qe Apply the above settings Hpg pig Mp1 Mpi2 Opi Opis Opis Mepis H Port 5 to HG Port 6 FT All ports E Port 7 i Aim Dart A Modem settings are used for the Dial In Out modes These settings will have no effect on ports configured for other modes Enable modem default Disable Initial string Use this field to configure the initial string that the modem will use to establish the connection For
164. in a component click Details Components O 5 Management and Monitoring Tool O 39 Other Network File and Print Services DOMB __ O I Remote Installation Services 20 MB C 4 Remote Storane 35 MA xl Descriptor Contains a variety of specialized network related services and protocols Total disk space required 17 2 MB Tasik Space available on disk 1914 9 ME Z lt Back Cancel Help F 8 NPort 6000 Series RADIUS Server 3 Select Details and then select Internet Authentication Service Continue clicking OK until the installation is complete Networking Services f x To add or remove a component click the check bos A shaded box means that only part of the component will be installed To see what s included in a component click Details Subcomponents of Networking Services O 2 Domain Name System DNS O E Dynamic Host Configuration Protocol DHCP 0 0 MB El Y intenet Authentication Service 0 0 MB O QV RPC over HTTP Proxy 0 0 MB O A Simple TCPAIP Services 0 0 MB O g windows Internet Name Service MINS 0 9 MB Enables authentication authorization and accounting of dial up and WPH users IAS supports the RADIUS protocol Total disk space required 14 6 MB Details Space available on disk 1914 9 MB Description Cancel 4 After the installation is complete click Administrative Tools and run the I nternet Authentication Service This will open
165. ing S Firmware Upgrade Ping Test Ping Destination E Configuration Import lA m m e A te M e e You can ping an IP address from the NPort 6000 web console in order to test the Ethernet connection Enter the IP address or domain name in the Destination field to make sure that the connection is OK Firmware Upgrade A NPort Web Console Microsoft Internet Explorer E File Edit View Favorites Tools Help Q tax X gt Me x B TN JO search 52 Favorites E B me Address http 192 168 127 254 ed Go Total Solution for Industrial Device Networking 3 Main Menu E Overview Basic Settings E E Cl Network Settings Note Upgrade firmware will discard your un saved configuration changes and restart i Serial Port Settings the system a System Management Select firmware file Browse 6 Misc Network Settings E Auto Warning Settings ag Maintenance _Submit Console Settings fa Ping fa Firmware Upgrade fa Configuration Import Firmware Upgrade 1 Warning i Configuration Export AE A The NPort 6000 s firmware can be upgraded though the web console serial console or through NPort Search Utility If you have made any changes to your configuration remember to save the configuration first before upgrading the firmware Please refer to Save Configuration later in this chapter for more information Any unsaved changes will be discarded when the firmware is upgraded To upgrade the firmware simply
166. ing an e mail to a specified address Trap refers to sending an SNMP Trap Dout is only available on the NPort 6450 and 6650 and refers to changing the status of the relay output the DOUT socket at the back of the NPort 6000 and of the alarm LED DCD changed A change in the DCD Data Carrier Detect signal indicates that the modem connection status has changed For example if the DCD signal changes to low it indicates that the connection line is down When the DCD signal changes to low the NPort 6000 will automatically send a warning to the administrator as configured on the Serial Event Settings page For the NPort 6450 and 6650 after the relay output status has been changed administrators may reset its status by selecting Acknowledge Event from the NPort 6000 console or by correcting the DCD signal Please refer to the section on System Monitoring later in this chapter for more information DSR changed A change in the DSR Data Set Ready signal indicates that the data communication equipment is powered off For example if the DSR signal changes to low it indicates that the data communication equipment is powered down When the DSR signal changes to low the NPort 6000 will automatically send a warning to the administrator as configured on the Serial Event Settings page For the NPort 6450 and 6650 after the relay output status has been changed administrators may reset its status by selecting Acknowledge Event from the NPort 6000 c
167. ings amp O Internet Local intranet Rens Cr Restricted sites Trusted sites This zone contains Web sites that you Sites trust not to damage your computer or data M Security level for this zone Custom Custom settings To change the settings click Custom Level To use the recommended settings click Default Level Custom Level Default Level Cancel Apply 2 In either case the window below should appear showing the list of sites that you have configured Internet Explorer to trust Add the IP address of your NPort 6000 here the factory default IP address is 192 168 127 254 You can add and remove Web sites from this zone All Web sites in this zone will use the zone s security settings Add this Web site to the zone http 192 168 127 254 Web sites http update microsoft com https update microsoft com http windowsupdate microsoft com https windowsupdate microsoft com http qo microsoft com htto msdn microsoft cor Y Require server verification https For all sites in this zone Close After adding the NPort 6000 s IP address as a trusted site you should be able to view the web console by entering the NPort 6000 s IP address in your browser s address bar 5 3 NPort 6000 Series Configuration with the Web Console Opening the Web Console Open your web browser and enter 192 168 127 254 in the website addr
168. ion This is an optional free text field for your own use it does not affect operation of the NPort 6000 It is useful for assigning or describing the location of a NPort 6000 In a network environment of multiple servers this can be a valuable aid when performing maintenance Time Settings The NPort 6000 has a built in Real Time Clock for time calibration functions Functions such as Auto Warning Email or SNMP Trap can add real time information to messages Before making any adjustments to the time first select the correct time zone and submit the change The console will display the real time according to the time zone To modify the real time clock click on Modify next to the Local time field Once you submit the new time the NPort 6000 s firmware will modify the GMT time according to your time zone and local time settings 5 5 NPort 6000 Series Configuration with the Web Console ATTENTION There is a risk of explosion if the real time clock battery is replaced with the wrong type The NPort 6000 s real time clock is powered by a lithium battery We strongly recommend that you do not attempt replacement of the lithium battery without help from a qualified Moxa support engineer If you need to change the battery please contact the Moxa RMA service team Time zone default GMT Greenwich Mean Time This field shows the currently selected time zone and allows you to select a different time zone Local time This field shows the
169. ion parameters The following topics are covered in this chapter O Overview O Guide to NPort 6000 Modes O Device Control Applications gt Real COM and Secure Real COM Modes gt Reverse Real COM Mode gt RFC2217 Mode O Socket Applications gt TCP Server and Secure TCP Server Modes gt TCP Client and Secure TCP Client Modes gt UDP Mode O Pair Connection and Secure Pair Connection Modes Ethernet Modem Mode a O Terminal Applications gt Terminal ASCII Mode gt Terminal BIN Mode gt SSH Mode O Reverse Terminal Applications gt Reverse Telnet gt Reverse SSH O Printer Modes Dial I n Out Modes O Disabled Mode a NPort 6000 Series Introducing Serial Port Operation Modes Overview The NPort 6000 network enables traditional serial RS 232 422 485 devices The serial device server is a tiny computer equipped with a CPU and TCP IP protocols that can bi directionally translate data between the serial and Ethernet formats Your computer can access manage and configure remote facilities and equipment over the Internet from anywhere in the world Traditional SCADA and data collection systems rely on serial ports to collect data from various kinds of instruments Since the NPort 6000 network enables instruments equipped with an RS 232 RS 422 or RS 485 communication port your SCADA and data collection system will be able to access all instruments connected to a standard TCP IP network regardless of whether the devic
170. isable 1 Welcome Message 23 System Management A Misc Network Settings _Submit EY Accessible IP List CQ SNMP Agent A DDNS Host Table Route Table A User Table a 3 System Loa Settinas RADIUS server IP This is the IP address of the RADIUS server F 2 NPort 6000 Series RADIUS Server RADIUS key This is the password that is used to access the RADIUS server IUS server UDP port This is the RADIUS server s assigned UDP port RADIUS accounting This field enables or disables RADIUS accounting Serial Port Configuration RADIUS is an effective authentication method for dial up services In addition to dial up services PPP SLIP and Dynamic the NPort 6000 supports RADIUS settings for terminal applications and console management application You will see it as an option for Authentication type when configuring the port s operation mode Please refer to Chapter 7 Configuring Serial Port Operation Modes for detailed information and configuration instructions Setting up UNI X Hosts Moxa recommends the FreeRADIUS server for UNIX users FreeRADIUS is the premiere open source RADIUS server and is one of the top five RADIUS servers in use world wide It is effective for both embedded systems with small amounts of memory and for systems with millions of users It is fast flexible and configurable and it supports more authentication protocols than many commercial servers The server is released under the GNU General
171. ith data transmission no connection required RS 232 422 485 Device p Compared to TCP communication UDP is faster and more efficient In UDP mode you can unicast or multi unicast data from a serial device to one or multiple host computers and the serial device can receive data from one or multiple host computers These traits make UDP mode especially suited for message display applications 4 5 NPort 6000 Series Introducing Serial Port Operation Modes Pair Connection and Secure Pair Connection Modes RS 232 422 485 NPort 6000 Series Slave NPort 6000 FR Series Master RS 232 422 485 In Pair Connection mode two NPort 6000 servers work together to remove the 15 meter distance limitation imposed by the RS 232 interface One server is arbitrarily designated the master and the other as the slave it does not matter which is which as long as there is one of each One server is connected from its RS 232 port to the COM port of a PC or another type of computer such as a hand held PDA that has a Serial port the other server is connected to the serial device through its RS 232 port The two servers are then connected to each other over the network Ethernet Modem Mode m ee RS 232 422 485 Ethernet Modem a Ethernet Modem RS 232 422 485 Ethernet Modem mode is designed for use with legacy operating systems such as MS DOS that do not support T
172. its status by selecting Acknowledge Event from the NPort 6000 console or by correcting the DCD signal Please refer to the section on System Monitoring later in this chapter for more information DSR changed A change in the DSR Data Set Ready signal indicates that the data communication equipment is powered off For example if the DSR signal changes to low it indicates that the data communication equipment is powered down When the DSR signal changes to low the NPort 6000 will automatically send a warning to the administrator as configured on the Serial Event Settings page For the NPort 6450 and 6650 after the relay output status has been changed administrators may reset its status by selecting Acknowledge Event from the NPort 6000 console or by correcting the DSR signal Please refer to the section on System Monitoring later in this chapter for more information ATTENTI ON SNMP indicates a change in DCD or DSR signals but does not differentiate between the two A change in either signal from to is indicated by link up and a change in either signal from to is indicated by link down 9 8 NPort 6000 Series System Management Settings E mail Alert 3 NPort Web Console Microsoft Internet Explorer alo x File Edit View Favorites Tools Help Back gt Y x B A ya Search 52 Favorites eS E E 3 MME gt Total Solution for Industrial Device Networkin
173. iven Option Description Startup None default A TCP connection will be established on startup and will remain active indefinitely Any Character None A TCP connection will be established when any character is received from the serial interface and will remain active indefinitely Any Character A TCP connection will be established when any character is received from the serial Inactivity Time interface and will be disconnected when Inactivity time is reached DSR On DSR Off A TCP connection will be established when a DSR On signal is received and will be disconnected when a DSR Off signal is received DSR On None A TCP connection will be established when a DSR On signal is received and will remain active indefinitely DCD On DCD Off A TCP connection will be established when a DCD On signal is received and will be disconnected when a DCD Off signal is received DCD On None A TCP connection will be established when a DCD On signal is received and will remain active indefinitely Packet length default 0 This field refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of 0 for packet length no maximum amount is specified and data in the buffer will be sent as specified by the delimiter settings or when the buffer is full When a packet 7 12 NPort 6000 Series Configuring Serial Port Operation Modes length between 1 and 10
174. iver mxaddsvr 192 168 3 4 16 In this example 16 tty ports will be added all with IP 192 168 3 4 with data ports from 950 to 965and command ports from 966 to 981 Mapping tty ports manually To map tty ports manually you may execute mxaddsvr and manually specify the data and command ports as in the following example cd usr lib npreal2 driver mxaddsvr 192 168 3 4 16 4001 966 In this example 16 tty ports will be added all with IP 192 168 3 4 with data ports from 4001 to 4016 and command ports from 966 to 981 Removing Mapped TTY Ports After logging in as root enter the directory usr lib npreal2 driver and then execute mxdelsvr to delete a server The syntax of mxdelsvr is mxdelsvr IP Address Example cd usr lib npreal2 driver mxdelsvr 192 168 3 4 The following actions are performed when executing mxdelsvr 1 Modify npreal2d cf 2 Remove the relevant tty ports in directory dev 3 Restart the driver 10 16 NPort 6000 Series Software I nstallation Configuration If the IP address is not provided in the command line the program will list the installed servers and total ports on the screen You will need to choose a server from the list for deletion Removing Linux Driver Files A utility is included that will remove all driver files mapped tty ports and unload the driver To do this you only need to enter the directory usr lib npreal2 driver then execute mxuninst
175. l wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks the connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to 0 the TCP connection will remain open and will not send any keep alive packets Ignore jammed IP default Disable This option determines how the Nport will proceed if multiple hosts are connected and one or more of the hosts stops responding as the port is transmitting data If you select disable the port will wait until the data has been transmitted successfully to all hosts before transmitting the next group of data If you select Enable the port will ignore the host that stopped responding and continue data transmission to the other hosts Allow driver control default Disable This option determines how the port will proceed if driver control commands are received from multiple hosts that are connected to the port If disable is selected driver control commands will be ignored If Enable is selected control commands will be accepted with the most recent command received taking precedence Secure default Disable If you select Enable data s
176. loped by Moxa It allows NPort 6000 terminal servers to achieve the same effect as Real COM mode but without needint to apply for a public IP address In other words Reverse Real COM mode chan be used even if the NPort is using a private IP address or is being used in a dynamic IP address environment In Reserve Real COM mode the NPort 6000 will actively initiate a connection to the remote host server that is listed in the destination IP field after it boots up RFC2217 Mode RFC 2217 mode is similar to Real COM mode That is a driver is used to establish a transparent connection between a host computer and a serial device by mapping the serial port on the NPort 6000 to a local COM port on the host computer RFC2217 defines general COM port control options based on the Telnet protocol Third party drivers supporting RFC 2217 are widely available on the Internet and can be used to implement Virtual COM mapping to your NPort 6000 serial port s Socket Applications For socket applications the NPort 6000 offers the following modes TCP Server Secure TCP Server TCP Client Secure TCP Client and UDP TCP Server and Secure TCP Server Modes TCP IP Ethernet l 1 Request a connection O Proceed with data transmission RS 232 422 485 Device pa _ In TCP Server mode the serial port on the NPort 6000 is assigned a port number which must not conflict with any other serial port on the NPort 6000 The host computer
177. lts Change Password O Certificate gt gt Ethernet SSL Certificate mport Certificate Key Delete System Monitoring Y VV VV VV VV VV vv Serial to Network Connections Serial Port Status Serial Port Error Count Serial Port Settings Serial Cipher Usage Status Network Connections Network Statistics Network Module Serial Data Log System Log Routing PPP Trace Dout State for 6450 6600 Save Configuration Restart gt Restart System Restart Ports NPort 6000 Series System Management Settings Misc Network Settings Accessible IP List Total Solution for Industrial Device Networking Port 9 Port 10 Port 11 Port 12 T Enable the accessible IP list Disable will allow all IP s connection request Port 13 No Active IP Address Netmask Port 14 1 Port 15 Port 16 Welcome Message Accessible IP List e a EE Peres E System Management EX Misc Network Settings Accessible IP List SNMP Agent DDNS Host Table Route Table User Table O 0 ns OD M U N Authentication Server System Log Settings E Auto Warning Settings H Maintenance E Certificate H System Monitoring 0 Save Configuration H Restart pp ppOp pOoosonoooododoOoO The NPort 6000 uses an IP address based filtering method to control access to its serial ports The Accessible IP list allows you restrict network access to the NPort 6000 Access is controlled by IP address
178. m Management LE NOTE Unsaved configuration changes will be discarded and data currently in the BH Misc Network Settings middle of transmission may be lost ae Auto Warning Settings ae Maintenance SEE E Certificate a System Monitoring ae Serial Status l H System Status 2 Save Configuration AS Restart a Restart System a et eee eet a eer Restart System 11 Warning 9 22 NPort 6000 Series System Management Settings Restart Ports Go to Restart Ports under Restart and then select the ports to be restarted Click Select All to select all the ports Click Submit to restart the selected ports Total Solution for Industrial Device Networking J Main Menu 1 Overview fa Basic Settings ae Network Settings ae Serial Port Settings Select Ports System Management sien Misc Network Settings Restart Ports Restart the selected serial ports DPiFPe Pa C4 Ps De O7 Fe j j Do Faio Pai i ia i4 as 16 AO Auto Warning Settings Af Maintenance EH Certificate select All Submit ne System Monitoring ae Serial Status HG System Status fa Save Configuration Ey Restart a Restart System Restart Ports 9 23 10 Software Installation Configuration The following topics are covered in this chapter O Overview O NPort Windows Driver Manager gt Installing NPort Windows Driver Manager gt Using NPort Windows Driver Manager O NPort Search Utility gt Installing NPort Search Utility
179. meters NOTE You must assign a valid IP address to your NPort 6000 before it will work in your network environment Your network system administrator should provide you with a unique IP address and related settings for your network First time users can refer to Chapter 3 Initial IP Address Configuration for more information IPv4 Configuration default Static You can choose from four possible IP configuration modes Option Description User defined IP address netmask gateway DHCP DHCP server assigned IP address netmask gateway DNS and time server DHCP BOOTP DHCP server assigned IP address netmask gateway DNS and time server or BOOTP server assigned IP address if the DHCP server does not respond I Pv4 Address default 192 168 127 254 Enter the IP address that will be assigned to your NPort 6000 All ports on the NPort 6000 will share this IP address An IP address is a number assigned to a network device such as a computer as a permanent address on the network Computers use the IP address to identify and talk to each other over the network Choose a proper IP address that is unique and valid in your network environment Netmask default 255 255 255 0 Enter the subnet mask A subnet mask represents all of the network hosts at one geographic location in one building or on the same local area network When a packet is sent out over the network the NPort 6000 will use the subnet mask to check whether the d
180. mode is that it allows you to use software that was written for pure serial communication applications The Real COM driver intercepts data sent to the host s COM port packs it into a TCP IP packet then redirects it through the host s Ethernet card At the other end of the connection the NPort 6000 accepts the Ethernet frame unpacks the TCP IP packet and then transparently sends the data through the serial port to the attached serial device ATTENTION Real COM mode allows several hosts to have access control over the same NPort 6000 The drivers that come with your NPort 6000 control host access by checking the host s IP address Please refer to the Accessible IP List section in Chapter 9 System Management Settings for more details Reverse Real COM Mode Real COM mode will not work when the NPort 6000 is using a private IP address as is the case with GPRS applications or if the NPort 6000 is in a dynamic IP address environment In either of these cases the remote host server will not be able to connect to the NPort 6000 Private I P address application Private IP Remote Host Server NPort 6000 actively init the connection a A GF Public IP 4 3 NPort 6000 Series Introducing Serial Port Operation Modes Dynamic IP address application Dynamic IP Remote Host Server Co NPort 6000 actively init the connection N IP address Changed frequently S Reserve Real COM mode is an innovative operation mode deve
181. mpOutRediess Oo ioeo ipani O iempoutEcnos route ipaoennermask iempoutEchoreps cie ipAdtEmtBcastadr iempoutTimestemps A FipaentreasmMaxsize JtempOutTimestampReps test rempoutadarmasts rote rempoutadarmaskReps rene a nene Ci tentes SSCS nena SSCS ten T tee SSCS nte T tee SSCS oo TT ES Ante SSCs Aneto SSCS Cf Fionetromeniattindex SS Tf Fionetromesiaphysaadress Tf Fionetromecianetaacress Cf Jonettomeciatype Cf Finroutingpiscards E 2 NPort 6000 Series SNMP Agents with MIB II RS 232 Like Groups Address TCP MIB UDP MIB SNMP MIB Translation MIB O fipa JudpoutDatagrams snmpinBadCommunityNames Trcpactiveopens udpLocaladdress snmpInBadCommunityUses C Trcppassiveopens udpLocalPort snmpInASNParseErrs icp attemptraiis E T iepestabresets OOOO MPINNOSUCANames Coo o i omes O smpimadvalues e E o i i fewss OO Tonm O r E TotalReGVars Oo o comse S smptotalSetvars O o ftepConntocaiddress enmpinGetReguests e E nGetNets o TrcpcommRemaddress smpmsetRequests C o fieconmremeo OOOO smpinaerRespomses eres E ross E BiGS COSY smortNosucnames TOCSY sm utBavalues Oise a a os snmpOutGetNexts SY JsnmputsetRequests CS FsnimputetResponses a sms OS C simp E COSC itentrops ss empres snmpProxyDrops RFC1317 RS 232 Like Groups ksam O ancora rszazportoutsignumber SOSOS S sS Input Signal MIB Output Signal MIB rs2321nSigPortl ndex rs2320utSigPortln
182. nding as the port is transmitting data If you select Disable the port will wait until the data has been transmitted successfully to all hosts before transmitting the next group of data If you select Enable the port will ignore the host that stopped responding and continue data transmission to the other hosts Allow driver control default Disable This option determines how the port will proceed if driver control commands are received from multiple hosts that are connected to the port If Disable is selected driver control commands will be ignored If Enable is selected control commands will be accepted with the most recent command received taking precedence Secure default Disable If you select Enable data sent through the Ethernet will be encrypted with SSL TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Command port default 966 The Command port is the TCP port for listening to SSDK commands from the host In order to prevent a TCP port conflict with other applications the user can set the Command port to another port if needed Connection goes down default always high You can configure what happens to the RTS and DTR signals when the Ethernet connection goes down For s
183. ng NPor Windows Driver Manager on your computer Click Install to continue with the installation or click Back if you want to review or Destination location C Program Files NPortDrvManager Start Menu folder NPort Windows Driver Manager Install Cancel 5 Click Install to begin the installation The setup window will report the progress of the installation To change the installation settings click Back and navigate to the previous screen On Windows XP the installer will display a message that the software has not passed Windows Logo testing This is shown as follows ALOl x ig Setup NPort Windows Driver Manager Plc Software Installation A The software you are installing has not passed Windows Logo testing to venty its compatibility with Windows XP Tell i this testing is important O Continuing your installation of this software may impair either immediately or in the future Microsoft strongly recommends that you stop this installation now and passed Windows Logo testing Continue Anyway STOP Installation Click Continue Anyway to finish the installation 10 3 NPort 6000 Series Software I nstallation Configuration 6 Click Finish to complete the installation of the NPort Windows Driver Manager ij Setup NPort Windows Driver Manager E jm xj Completing the NPort Windows Driver Manager Setup Wizard Setup has finished installing NPort Windows Driver Manager on y
184. ning Settings ae Maintenance HA Certificate ea System Monitoring fa Save Configuration HA Restart Host Table zZz o Host Name D oOo Y OD M fF 0 N e Total Solution for Industrial Device Networking Host IP Address The Host Table may be used to simplify IP address entry on the NPort 6000 console by assigning a Host Name to a Host IP Address When you assign a Host Name to a Host IP Address you may then use the Host Name for some fields on the console rather than entering the IP address Up to 16 entries can be stored on the Host Table User Table File Edit View Favorites E Console Microsoft Internet Explorer 3 Tools Help Q back y z x E TN JO Search Se Favorites Ol B LJ 33 EA Porta EA Port 10 EM Port 11 EA Port 12 A Port 13 E Port 14 A Port 15 EA Port 16 Welcome Message ae System Management iS Misc Network Settings o fa Accessible IP List SNMP Agent DDNS a Host Table fa Route Table fa User Table a fo Authentication Server 3 System Log Settings ae Auto Warning Settings ea Maintenance HA Certificate ae System Monitoring aa Save Configuration HE Restart User Table oo uyon tww Nee amp Rh e e pp Aa Fe Aa po pp D 0 Y Oo Oh fF U N e O User Name l0 x 9 4 NPort 6000 Series System Management Settings The NPort 6000 User Table may be used for to authenticate users for terminal or reverse terminal access and
185. nse to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Inactivity time default 0 min This field specifies the idle time setting for auto disconnection A setting of O min will cause the port to remain connected even if idle TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Each of NPort 6000 s serial ports is mapped to a TCP port To avoid conflicts with other TCP ports set port numbers to 4001 for port 1 4002 for port 2 etc Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization Option Description IO Verify the ID against the NPort 6000 User Table RADIUS Verify the ID against th
186. ntication denied Map keys lt CR LF gt default CR LF This specifies how the ENTER key is mapped from the Ethernet port through the serial port Option Description IO lt CR LF gt carriage return line feed i e the cursor will jump to the next line and return to the first character of the line carriage return i e the cursor will return to the first character of the line lt LF gt line feed i e the cursor will jump to the next line but not move horizontally Reverse SSH Mode WAL gt War YJ Main Menu A Overview 1 Basic Settings Network Settings Total Solution for Industrial Device Netwo Operation Modes Port 1 53 Serial Port Settings 63 Port 1 Application Mode Reverse Terminal y Reverse SSH y Operation Modes TCP alive check time 7 o 99 min 9 Communication P Inactivity time lo o 99 min 1 Data Buffering Lo TCP port 4001 4 Modem Settings eae J Cipher Settings HG Port 2 Authentication type a None y HG Port 3 Me ln type on authentication Enable Disable H Port 4 Map keys lt CR LF gt CR LF 7 fill Ports Mpi pe2 Tp3 l p4 ps5 l p6 pz pe i Spe Apply the above settings to Cpo D pio M Pii M p12 F P13 T P14 pis M Pi6 HGA Porte T All ports H Port 9 EH Port 10 2 Port 11 EH Port 12 9 Port 13 2 Port 14 H Port 15 iam a TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a respo
187. o 0 Delimiter 2 should only be enabled in conjunction with Delimiter 1 and never on its own otherwise there may be data errors Even when a delimiter is enabled the NPort 6000 will still pack and send the data when the amount of data exceeds 1 KB Delimiter process default Do Nothing The Delimiter process field determines how the data is handled when a delimiter is received Delimiter 1 must be enabled for this field to have effect If Delimiters 1 and 2 are both enabled both characters must be received for the delimiter process to take place e Do Nothing Data in the buffer will be transmitted when the delimiter is received 7 10 NPort 6000 Series Configuring Serial Port Operation Modes e Delimiter 1 Data in the buffer will be transmitted after 1 additional byte is received following the delimiter e Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter e Strip Delimiter Data in the buffer is first stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing the serial data in its internal buffer for network transmission TCP Client Mode MOXA Total Solution for Industrial Device Networking J Main Menu f Operation Modes Overview 1 Basic Settings Port 1 LJ Network Settings l gt
188. ol command to set up an IP address for your NPort 6000 The ARP command tells your computer to associate the NPort 6000 s MAC address with an IP address Afterwards use Telnet to access the NPort 6000 and its IP address will be reconfigured ATTENTION In order to use the ARP setup method both your computer and the NPort 6000 must be connected to the same LAN Alternatively you may use a cross over Ethernet cable to connect the NPort 6000 directly to your computer s Ethernet card Before executing the ARP command your NPort 6000 must be configured with the factory default IP address 192 168 127 254 and your computer and the NPort 6000 must be on the same subnet To use ARP to configure the IP address complete the following 1 Obtain a valid IP address for your NPort 6000 from your network administrator 2 Obtain your NPort 6000 s MAC address from the label on the bottom panel 3 3 NPort 6000 Series Initial IP Address Configuration 3 Execute the arp s command from your computer s MS DOS prompt as follows arp s lt IP address gt lt MAC address gt For example C gt arp s 192 168 200 100 00 90 E8 04 00 11 4 Next execute a special Telnet command by entering the following exactly telnet 192 168 200 100 6000 When you enter this command a Connect failed message will appear as shown below ec Command Prompt D gt arp s 172 168 208 108 604 790 28 62 50 89 D gt telnet 192 168 200 100 6668 Connecting
189. ollowing the delimiter Delimiter 2 Data in the buffer will be transmitted after 2 additional bytes are received following the delimiter Strip Delimiter Data in the buffer is first stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing the serial data in its internal buffer for network transmission Reverse Real COM Mode Operation Modes Port 1 Application Mode TCP alive check time Ignore jammed IP Allow driver control Secure Destination address 1 Destination address 2 Designated local TCP port 1 Designated local cmd port 1 Designated local TCP port 2 Designated local cmd port 2 Device Control v Reverse RealCOM v 7 0 99 min Enable Disable Enable Disable O Enable Disable TCP port 60950 Cmd port 60966 TCP port 60950 7010 8010 7011 8011 Cmd port 60966 Connection goes down RTS O always low always high DTR O always low always high Data Packing 0 0 1024 00 Hex C Enable 00 Hex C Enable Packet length Delimiter 1 Delimiter 2 Delimiter process Do Nothing v Processed only when Packing length is 0 Force transmit 0 o 65535 ms P1 P2 OP3 Ora Apply the above settings to LJ All ports TCP alive check time default 7 min This field specifies how long the NPort 6000 wil
190. ome applications serial devices need to know the Ethernet link status through RTS or DTR signals sent through the serial port Use goes low if you want the RTS and DTR signal to change their state to low when the Ethernet connection goes down Use always high if you do not want the Ethernet connection status to affect the RTS or DTR signals 7 9 NPort 6000 Series Configuring Serial Port Operation Modes Command by command operation default Disable Command by command mode E Lp can only support one request and one response from w each of the different hosts When the NPort 6000 Host A COM3 Host a COMS receives a command from any host on the Ethernet the NPort 6000 will store all the commands in the buffer and then send them to serial ports in FIFO First In First Out order Once the PLC responds the NPort 6000 will store the response in its buffer decide that the response has been received and then send back the command The NPort 6000 will then be free to process the next command Response timeout default 0 ms This field specifies how long the NPort 6000 will wait for response data through the serial port before sending the next command The NPort 6000 sends the next command if there is no response through the serial port for the time specified by the Response timeout If this field is set to 0 the Response timeout is essentially infinite and the NPort 6000 will wait until the pre command request is received to send t
191. only protection writable Read only 0 Firmware Upgrade Configuration Import Configuration Export Load Factory Default XA Change Password H Certificate HITA Curtam Manitarina On this screen access to different NPort 6000 configuration console options HTTP HTTPS Telnet SSH can be enabled or disabled The NPort 6000 front panel Known as the LCM Liquid Crystal Module may be configured for read only or writeable access In other words you can use the front panel to check console settings only read only access or to actually make changes to the settings writeable access Note that if the console is password protected and LCM is configured for writeable access you will need to enter the password to submit any console setting changes Please refer to Change Password later in this chapter for more information on passwords Finally you may also enable or disable the reset button 9 10 NPort 6000 Series System Management Settings Ping S NPort Web Console Microsoft Internet Explorer File Edit View Favorites Tools Help sex ki gt x E YO search S y Favorites E ab Address http 192 168 127 254 b ao Total Solution for Industrial Device Networking J Main Menu E Overview E Basic Settings air Metwork Settings Destination H0 Serial Port Settings Ey System Management Ai Misc Network Settings 4 uto Warning Settings Ae Maintenance T 0 Console Settings O P
192. onnection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Queue name RAW This field optionally specifies the print queue s name in RAW mode Queue name ASCII This field optionally specifies the print queue s name in ASCII mode Append from feed default Disable This field instructs the port to send a line feed in between print jobs rather than continue where the last print job left off This may be necessary for some applications Dial I n Out Applications PPP Mode Total Solution for Industrial Device Networking 3 Main Menu A a Overview a Basic Settings Operation Modes q Port 1 HC Network Settings e sal i be EI Serial Port Settings R S Ama Mode PPP Mi i ES Poti ZZ E Operation Modes 3 Communication P Data Buffering Lo fa Modem Settings I Cipher Settings Destination IP address Source IP address IP netmask TCP IP compression O Enable Disable 7 26 ba ES Inactivity time 0 0 65535 ms mn Ol a ara Link quality report O Enable Disable 62 Pod Username i af Port 5 Password Q Port 6 Authentication type None _ v o H Port 7 boda an type on authentication Enable Disable E Port 8 REO chen DUES Disconnect by None HE Port 10 Pi Or Or3 Ora Ops OP6 Or7 Ors 3 Port 11 Apply the above settings to
193. onsole or by correcting the DSR signal Please refer to the section on System Monitoring later in this chapter for more information ATTENTION SNMP indicates a change in DCD or DSR signals but does not differentiate between the two A change in either signal from to is indicated by link up and a change in either signal from to is indicated by link down SMS Alert Total Solution for Industrial Device Networking J Main Menu 9 Overview Basic Settings SMS Alert 419 Network Settings 0 Serial Port Settings id oT 23 System Management To phone number 2 0 Misc Network Settings To phone number 3 PO 29 Auto Warning Settings Tophonenumber4 A Event Settings 9 Serial Event Settings SMS Alert E mail Alert Submit 9 SNMP Trap 2 sms Alert 0 Maintenance Certificate 3 system Monitoring 3 Save Configuration 4 3 Restart To phone number 1 2 3 4 Use this screen to enter up to four phone numbers that will receive SMS alerts NM Modem This section applies to NPort 6000 server s that have the NM Modem module installed From the left navigation panel click Network Settings gt Module to configure Modem Settings The various configuration items are described in detail below the figure 6 15 NPort 6000 Series Module Settings MOXA Main Menu Overview
194. ork Settings 4 cite dn decedadadadetedadstaincadetudatednanindndeduiniauncadesuincednamantncetuaniaunencehpuntudnamintnceaueahacedemedns 9 2 ACCESS P LISUieeccctioc ties ashe ikeneen e Ghanian a e a aa a ean aa a a eeka A AEEA 9 2 SNMP Agent SERNIN NANENANE ENPA NENA ETNA O 9 3 Read only and Read write access control ssssrsssrrersrrrrerrrrrsrrrrerrrresnrrrsrrrrsrrrrernrresrrrrerrrrernrresrrn 9 3 DON Sa E E E E E E E A 9 4 HOSE TADICA re ee ee er 9 4 USE Ta nme na eet te ee tte ee eRe lada 9 4 ida oie ao PP 9 5 System LOGS O AS o e A SNE 9 5 CONTIQUES the Remote Log Sii a A 9 6 AUTO Wanna etnia da idiota ARAS 9 7 EVE SC tMO Sergio cor ttomilomo ben blensbendbunclentbimiberabevbluntbenbuntlonibemiicnslooilunaberdbanclhondbpa ade 9 7 Serial EVEnt S CHINOS a ee 9 8 ESMAS od EE 9 9 SNMP ITA OUR 9 10 Maintenon CO E E E E E E E E EN 9 10 Console e de lb 9 10 Pidan dd dd edad dad dd DAE ES DERE E EEEE 9 11 FIRAWare WG Fade s cntvacts ivan nau a duty oan du dude ay Indu dude ie delete Mandy du iia du dy ivan dite aliada naw dea 9 11 COnHAgutatioN Milage ggdm 4cog ata ha E AA 9 11 Gad Factory DS Srta meee 9 12 Carl Passworl G Aier inaner sate aneean snes aeea teas sencan ents enue en snceaeanteaeseecan en teen een ence een teen ounce sueuee ees 9 13 Centitida te santidad ria didada da idad dd daddta saca nda nata cdnapdta nda diia nana dde cdta cda pita cdta ndo ndda data daa pita cd adiddada da 9 13 Ethernet SSL Certificate IMpOrt
195. orresponding services You can individually enable disable PPP SLIP Terminal services by selecting Yes or No next to the corresponding option Yes will enable that type of service No will disable it Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization Option Description o Verify the ID against the NPort 6000 User Table RADIUS Verify the ID against the external RADIUS server TACACS Local TACACS authentication is tried first switching to Local if unsuccessful Local TACACS Authentication is performed locally first switching to Radius if unsuccessful Authentication is not required Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Disabled Mode Total Solution for Industrial Device Networking EMY Serial Port Settings al oe Operation Modes E Port 1 1 Operation Modes ameg 1 Communication Parameters OS oia Application Disable y ul Data Buffering Log fa Modem Settings iba pira Fra p4 CPs Cpe p7 D pg 2 Cipher Settings ali hien Ai Pro Perro Pri Mpi2 Mera Peris Opis D pie HG Port 2 T All ports BE Port 3 HE Port 4 u Submit 3 Port 5 _Submit Port 6 When the Application is set to Disable the relevant port will be disabled 7 30 3 Additional Serial Port Settings In this chapter we describe ad
196. ort 1 Mode RFC2217 y o i Operation Modes TCP alive check time F o 99 min 1 Communication Paran TCP port 4001 2 Data Buffering Log Data Packing 1 Modem Settings i a poe i 3 Packet length lo 0 1024 J Cipher Settings i A Port 2 Delimiter 1 oo Hex Enable i 03 Port 3 Delimiter 2 oo Hex L Enable 6 Port 4 Delimiter process Do Nothing y Processed only when Packing length is 0 EH Port 5 Force transmit lo 0 65535 ms E ES Fete pi Free Fra Fr Pps pe p7 fps El Port 7 H funy the above settings Hpg Opio Opi Mpi2 Mera Opis Opis OPi6 11 Ports 0 E Port ad amp G Port 10 BE Port 11 Submit E Port 12 2 Download and install a third party driver that supports RFC 2217 such as Serial IP COM Port Redirector from Tactical Software 3 Using your third party s configuration program map a COM port to the NPort 6000 s IP address and the serial port s TCP port 4 Try opening the COM port that you just mapped If you are able to open it then the mapping was successful and devices attached to the serial port on the NPort 6000may be treated as if they were attached directly to the host computer C Dynamic Domain Name Server This appendix explains how to use the NPort 6000 with DDNS When the NPort 6000 receive its IP address from a DHCP Dynamic Host Configuration Protocol server remote servers will be unable to access it using a fixed IP address With DDNS Dynamic Domain Name Server a
197. ort Operation Modes Primary and Secondary host address If specified the fields designate permanent hosts to which the terminal will always be connected Telnet TCP port default 23 By default the Telnet TCP port number is set to 23 which is the default TCP port number for Telnet Terminal type default ansi Some older terminal applications may require that the terminal type be transmitted before the connection can be established You may need to refer to the server s documentation to determine the appropriate terminal type For most applications this setting will be unnecessary and will have no effect Max Sessions default 4 This setting allows you to configure the maximum number of sessions allowed for the serial port Change Session default T 0x14 This field defines the quick key to change a session Quit default E 0x05 This field defines the quick key to quit a session Break This field defines the quick key to send a break signal Interrupt This field defines the quick key for program termination Auto login prompt default ogin Password prompt default password Login user name Enter the terminal login ID here Login password Enter the password for the terminal login here Terminal BIN TERM_ BIN MOXA YJ Main Menu overview 1 Basic Settings E Network Settings E Serial Port Settings Application Terminal _ v 7 Ey Port 1 Mode Terminal TERM_BIN 9 Operation Modes 2 Communication Para
198. ort and the Designated Bridge Ports for the respective network segments All other ports are blocked which means that they will not be allowed to receive or forward traffic STP Reconfiguration Once the network topology has stabilized each bridge listens for Hello BPDUs transmitted from the Root Bridge at regular intervals If a bridge does not receive a Hello BPDU after a certain interval the Max Age time the bridge assumes that the Root Bridge or a link between itself and the Root Bridge has gone down This will trigger the bridge to reconfigure the network to account for the change If you have configured an SNMP trap destination when the topology of your network changes the first bridge to detect the change sends out an SNMP trap Differences between RSTP and STP RSTP is similar to STP but includes additional information in the BPDUs that allow each bridge to confirm that it has taken action to prevent loops from forming when it decides to enable a link to a neighboring bridge Adjacent bridges connected via point to point links will be able to enable a link without waiting to ensure that all other bridges in the network have had time to react to the change The main benefit of RSTP is that the configuration decision is made locally rather than network wide allowing RSTP can carry out automatic configuration and restore a link faster than STP NPort 6000 Series Module Settings STP Example The LAN shown below has three segments
199. orts to which COM ports will be mapped Click OK to proceed to the next step Note that the Add NPort page supports FQDN Fully Qualified Domain Name in which case the IP address will be filled in automatically Add HPort C Select From List is MAC 1 Address 1 MAC 2 Address 2 41 NPort 6450 D0 90 ES 0E 40 CE 192 168 127 254 f Input Manually Real OM Redundant COM Reverse RealCOM First Mapping Fort NFort IF Address 1 92 168 127 254 Data Port 1950 Command Port 1966 Total Ports 1 x Cancel 5 COM ports and their mappings will appear in blue until they are activated Activating the COM ports saves the information in the host system registry and makes the COM port available for use The host computer will not have the ability to use the COM port until the COM ports are activated Click Yes to activate the COM ports at this time or click No to activate the COM ports later 10 5 NPort 6000 Series Software I nstallation Configuration x NPort Windows Driver Manager Eile COM Mapping Configuration View Help E amp Add Remove Apply Undo COM Por Address 1 TE 192 168 127 254 950966 Portl 192 168 127 254 951 967 Port2l 192166127 254 952 968 Portal 192168127254 953 969 Portd Information Do you want to activate the COM Port now Total COM Port 0 6 In Windows XP a message is displayed during activation of each port indicating that the software has not passed Windows Logo cer
200. ot required Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Disconnect by default None If this field is set as DCD off the connection will be disconnected when the DCD signal is off If this field is set as DSR off the connection will be disconnected when the DSR signal is off PPPD Mode Total Solution for Industrial Device Networking Main Menu A Overview Basic Settings Operation Modes Port 1 HE Network Settings 53 Serial Port Settings JE Port 1 3 Operation Modes A Communication P 2 Data Buffering Lo Modem Settings A Cipher Settings FF Port 13 Port 14 J E v Application Mode Destination IP address Source IP address IP netmask TCP IP compression Inactivity time Dialin out Y PPPD O Enable Disable o 0 65535 ms 7 27 H Port 2 HG Port 3 Link quality report OEnable Disable HE Port 4 Username 9 Port 5 Password HE Port 6 Authentication type None H Port 7 Try next type on authentication Enable Disable HE Port 8 a E Al Pata Disconnect by None HE Port 10 Pi Or Or3 Opa Os Or6 Or7 OPs a Port 11 Apply the above settings to Oro Orio Opi Oei2 Ori3 Oria pis Op16 9 Port 12 LJ All ports A a NPort 6000 Series Configuring Serial Port Operation Modes PPPD PPP on d
201. ot run signal or communication wiring and power wiring in the same wire conduit To avoid interference wires with different signal characteristics should be routed separately e The type of signal transmitted through a wire should determine which wires should be kept separate The rule of thumb is that wires sharing similar electrical characteristics may be bundled together e Keep input wiring and output wiring separate e tis good practice to label the wiring to all devices in the system Connecting the NPort 6600 32 16 8 48V s Power NOTE To connect the NPort 6600 32 16 8 48V s power cord with its terminal block follow the steps given below 1 Loosen the screws on the V and V terminals of the NPort 6600 32 16 8 48V s alo terminal block V V 2 Connect the power cord s 48 VDC wire to the terminal block s V terminal and the power cord s DC Power Ground wire to the terminal block s V terminal and then tighten the terminal block screws Note The NPort 6600 32 16 8 48V can still operate even if the DC 48V and DC Power Ground are reversed If the power is properly supplied the Ready LED will show a solid red color until the system is ready at which time the Ready LED will change to a green color You should use 8 kg cm of screw torque and 22 14 AWG of suitable electric wire to connect the NPort 6600 32 16 8 48V s power cord to its terminal block Grounding the NPort 6600 32 16 8 48V Grounding an
202. our computer The application may be launched by selecting the installed icons Click Finish to exit Setup M Launch NPort Windows Driver Manager Using NPort Windows Driver Manager Real COM Mode After you install NPort Windows Driver Manager you can set up the NPort 6000 s serial ports as remote COM ports for your PC host Make sure that the serial port s on your NPort 6000 are set to Real COM mode when mapping COM ports with the NPort Windows Driver Manager 1 Goto Start gt NPort Windows Driver Manager gt NPort Windows Driver Manager to start the COM mapping utility 2 Click the Add icon NPort Windows Driver Manager J File COM Mapping Configuration View Help g 6 El E E sit Add Remove Apply Undo Setting COM Pot Address 1 Address 2 3 Click Rescan to search for NPort device servers From the list that is generated select the server to which you will map COM ports and then click OK The default Pv4 address will be changed to Pv6 address when Mapping IPv6 COM Port is checked 10 4 NPort 6000 Series Software I nstallation Configuration Add HFort f Select From List Mapping IPv6 COM Port MAC 1 Address 1 MAC 2 Address 2 EJI NPort 6450 00 30 ES 08 40 CE 192 168 127 254 f Input Manually FeallOM Redundant COM Reverse RealCOb 4 Alternatively you can select I nput Manually and then manually enter the NPort IP Address 1st Data Port 1st Command Port and Total P
203. p select Start All Programs PComm Lite Terminal Emulator 3 The PComm Terminal Emulator window should appear From the Port Manager menu select Open or simply click the Open icon as shown below ES PComm Terminal Emulator Profile Port Manager Help 4 The Property window opens automatically Select the Communication Parameter tab then select the appropriate COM port for the connection COM1 in this example Configure the parameters for 19200 8 N 1 19200 for Baud Rate 8 for Data Bits None for Parity and 1 for Stop Bits Property x Communication Parameter Terminal File Transfer Capturing gt COM Options Parts Baud Aate fazo Data Bits la y Parity None Stop Bits hh y E Flow Control Output State ATSVCTS DTR ON OFF M ONOFF ATS ON OFF 3 6 NPort 6000 Series Initial IP Address Configuration 5 6 From the Property window s Terminal page select ANSI or VT100 for Terminal Type and click OK If you are using the NPort 6610 6650 you may power it up at this point If you are using the NPort 6150 6250 or 6450 hold down the grave accent key while powering it up as shown below Note that the grave accent key sometimes called backwards apostrophe is NOT the apostrophe key it is the key USUg Ural Qu aune next to the number 1 oun The NPort 6000 will then automatically switch from data mode to console mode If the NPo
204. packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets 7 20 NPort 6000 Series Configuring Serial Port Operation Modes Inactivity time default 0 min This field specifies how long the NPort 6000 will wait for incoming and outgoing data through the serial port before closing the TCP connection The TCP connection is closed if there is no incoming or outgoing data through the serial port for the specified Inactivity time If this field is set to O the TCP connection is kept active until a connection close request is received ATTENTION Inactivity time should at least be set larger than that of Force transmit time To prevent the unintended loss of data due to the session being disconnected it is highly recommended that this value is set large enough so that the intended data transfer is completed Auto Link Protocol If this field is set to None the NPort 6000 will not connect to the host automatically If Auto Link Protocol is set to Telnet or Rlogin the NPort 6000 will connect to the host automatically using the specified protocol Primary and Secondary host address If specified the fields designate permanen
205. plication Printer y Y Data Buffering Log 9 Modem Settings Mode RAW_PRN 2 Cipher Settings TCP alive check time 7 O 99 min a Port 2 Group Groupo1 y 23 Port 3 TCP port number 2048 H Port 4 Wpifre Fra Fra CPs Cp Foe Tope ME Apply the above Port 5 settings to Cpo pio D pii rre p13 D pis pis pis 21 Port 6 T All ports HE Port 7 E Ports i Elie Port in TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Group default Group 01 This field groups printers attached to different ports When printing requests are sent a group of printers all printers in that group will share the printing load For example setting the NPort 6000 s serial ports 1 3 and 6 to Group 01 will allow the printers attached to these three ports to act essentially as one printer TCP port number This field is automatically fill
206. pt to log in to a password protected NPort 6000 console IP changed With this option selected the NPort 6000 will attempt to send an e mail warning before it reboots after an IP address change However the NPort 6000 will reboot with the new IP address regardless of whether or not the e mail transmission is successful Password changed With this option selected the NPort 6000 will attempt to send an e mail warning before it reboots with a new console password If the NPort 6000 is unable to send an e mail message to the mail server within 15 seconds it will still reboot without sending the e mail 9 7 NPort 6000 Series System Management Settings Serial Event Settings 4 NPort Web Console Microsoft Internet Explorer 0 x File Edit View Favorites Tools Help ae F N EA ST Q sack Q x E A p gt Search 5 2 Favorites E Je Ee 3 Address E http 192 168 127 254 oo Links gt Total Solution for Industrial Device Networking 3 Main Menu QU Overview Y Basic Settings 9 Network Settings 1 Y Serial Port Settings HS System Management EJ Misc Network Settings ES Auto Warning Settings Port 4 mail I Trap mail I Trap Port Event Settings Serial Port Event DCD changed DSR changed Port 1 mail I Trap Mail I Trap Port 2 C mail Trap Mail Trap Port 3 mail Trap mail Fl Trap 9 Event Settings Port 5 D mail I Trap C mail I Trap UN 9 Seri
207. r this will result in your host tying up the COM port so that other hosts cannot use it Select the Apply All Selected Ports option to enable the security settings to be applied to all COM ports COM Port Setting Port Number 2 Port s are Selected Basic Settings Advanced Settings Serial Parameters Security IPE Settings iw Apply All Selected Ports We Enable Data Encryption ln Redundant COM mode the security function i not supported ln Reverse ReallOM mode Keep Connection is not supported 5 Click the I Pv6 Setting tab to configure the interface for Link Local address mapping When the global Pv6 address is used this function can be ignored When the Link Local Pv6 address is used users should select an interface for routing on interface index for address 1 The interface index for address 2 is for redundant COM mode which applies only to the CN2600 series 10 11 NPort 6000 Series Software I nstallation Configuration COM Port Setting Port Humber 1 Port s are Selected Basic Settings Advanced Settings Serial Parameters Security Pvb Settings D Apply All Selected Ports The Interface Index is for Link Local address mapping only Assign correct Interface for pour COM Port to be opened successtully Ignore the setting if the mapping address it NOT a link local one e g e80 H H HH H HH Interface Index for Address 1 Local rea Connection Intel A PARAO 100 WE
208. remote server can access the NPort 6000 using its domain name instead of its IP address Setting up the DDNS and Port Forwarding on NAS To access your NAS over the Internet from home or the office enter the IP address of the NAS in a web browser provided a fixed public IP is assigned to the server However most users have installed their NAS servers behind a NAT router and are using a dynamic IP for their Internet connection It is inconvenient to memorize an IP address such as 202 193 126 45 and to inform every user of the IP address whenever a new one is assigned by the ISP To enable users to access the NAS more easily with an easy to remember host name you can register a free DDNS account and set up the information on your NAS From then on you will be able to access the NAS by your desired host name The DOHS service provider recaer thee intormnah on and tiy he maw IF fo the CONS hosmane i C E e dyrrdins cg bh The GHAF HAS A 3 detects the change od z ihe WAM IF acidross e the DONES charmi tiili Pii WAH IP Address do the 0045 service provider Fil AU ib 302122 y anini y LAH IP Taz 1681 DOS Service Poni Remon tempun NPort 6000 Series Dynamic Domain Name Server EO DHCP Scope 192 168 20 0 DN moxa com tw Properties Action View General DNS Advanced Tree You can set up the DACA server to automatically update name and address Information on ONS servers t
209. resent text in computers communications equipment and other devices that work with text Most modern character encodings which support many more characters are based in some way on the ASCII code Auto Warning Settings When using SMS mode you will also need to make settings under Auto Warning Settings 6 13 NPort 6000 Series Event Settings 3 Main Menu Overview i Basic Settings HE Network Settings H Serial Port Settings 7 Y System Management E Misc Network Settings E Auto Warning Settings 9 Event Settings E 3 Serial Event Settings A E mail Alert SNMP Trap Total Solution for Industrial Device Netwo Event Settings System Event Cold start Warm start Network Event Ethernet link down Config Event Console web text login auth fail T Mail IP changed FT mail Module Settings SMS Alert Password changed Mail E Maintenance EE Certificate Submit E System Monitoring Save Configuration HE Restart On the Event Settings page you may configure how administrators are notified of certain system network and configuration events Depending on the event different options for automatic notification are available as shown above Mail refers to sending an e mail to a specified address Trap refers to sending an SNMP Trap Dout is only available on the NPort 6450 and 6650 and refers to changing the status of the relay output the D
210. rs are only for SSH terminals and Reverse SSH terminals Welcome Message MOXA ane Port 3 A Port 4 A Pots Ae Port 6 AQ Port 7 A Porte EQ Porto E Port 10 EA Port 11 EA Port 12 A Port 13 AA Port 14 A Port 15 ES Port 16 Welcome Message Welcome Message Enable welcome message Message fa Operation Modes a Communication Parameters 1 Data Buffering Log a Modem Settings E Cipher Settings 3 Welcome Message Ae System Management 63 System Monitoring a Save Configuration HG Restart Total Solution for Industrial Device Networking C Enable Disable You can enable and enter a welcome message to greet dial in or terminal users For ports configured for other modes the welcome message will not apply 8 4 9 System Management Settings In this chapter we describe additional server settings on the NPort 6000 The same configuration options are also available through the telnet and serial console The following topics are covered in this chapter O Misc Network Settings gt gt Y VV VV WV Accessible IP List SNMP Agent Settings DDNS Host Table User Table Authentication Server System Log Settings Configure the Remote Log Server O Auto Warning Settings gt gt gt gt Event Settings Serial Event Settings E mail Alert SNMP Trap O Maintenance Y VV VY Y gt Console Setting Ping Firmware Upgrade Configuration Import Export Load Factory Defau
211. rst stripped of the delimiter before being transmitted Force transmit default 0 ms This parameter defines how large a gap in serial communication the NPort 6000 will allow before packing the serial data in its internal buffer for network transmission UDP Mode NILO Gar A Total Solution for Industrial Device Networki 3 Main Menu A Overview 1 Basic Settings Operation Modes E l Port 1 1 Network Settings wee Application Socket v 23 Serial Port Settings a ES Port 1 Mode UDP E Operation Modes a Begin Le o Destination address 1 Port 4001 J Communication P End 9 Data Buffering Lo C AN Begin LY Modem Settings Destination address 2 Port 4001 A Cipher Settings End H Port 2 o Begin EG Port 3 Destination address 3 nm Port 4001 E Port 4 AG Port 5 Begin E Destination address 4 Port 4001 E Port6 End af E POES Local listen port 4001 Ha Ports j i ao Port 9 Data Packing HG Port 10 Packet length 0 O 1024 HE Port 11 Delimiter 1 00 Hex C Enable El Port 12 Delimiter 2 00 Hex C Enable H Port 13 a iis Delimiter process Do Nothing Processed only when Packing length is 0 HA Port 14 F i it 0 33 Port 11 orce transmi 0 65535 ms HG Port 12 P1 Or2 Or3 Ora Ops P6 Or7 Oe 3 Port 13 Lips Orio Oria Ori OPi3 Opa Opis Opis E 7 Bort 14 Apply the above settings to Ori Opis Ori Or Or DOr2 Op23 p24 BG Port 12 Or25s P
212. rt 6000 has been set up for password protection you will be prompted to enter the password After you enter the password or if password protection was not enabled you will be prompted to select the terminal mode Press 1 for ansi vt100 and then press ENTER EY com1 115200 None 8 1 ANSI cul Fort NEG650 16 onsole terminal type 1 ansi wt10O0 2 vtaz lt i m State OPEN M m m m eE 8 The main menu should come up Once you are in the console you may configure the IP address through the Network menu item just as with the Telnet console Please refer to steps 4 to 11 in the Telnet Console section to complete the initial IP configuration E c0Mm1 19200 None 8 1 AN51 NPS650 16_1 1 0 dun 8 006 13 04 40 OTR Overview Basic Msi Fort System Monitor lt 4Ave Restart Exit Examine modify the ethernet LAN port settings EW101 Wer E State OPEN S 5 M 5 Ready g 3 7 4 Introducing Serial Port Operation Modes In this chapter we describe the various operation modes of the NPort 6000 NPort 6000 modes are grouped by type of application such as Device Control or Reverse Terminal The options include an operation mode that relies on a driver installed on the host computer and operation modes that rely on TCP IP socket programming concepts After selecting the proper operation mode refer to Chapter 5 Configuration with the Web Console for detailed information on configurat
213. rver and click Next Routing and Remote Access 15 lo Po Sa bh sm Routing and Remote Access Server Setup Wizard Action Managing Multiple Remote Access Servers You can manage all of pour remote access servers centrally A Remote Authentication Dial In User Service RADIUS server provides a central authentication database for multiple remote access servers and collects accounting Information about remote connections Do vou Want to set up this remote access server to use an existing RADIUS server C No don t want to set up this server to use RADIUS now f Yes want to use a RADIUS server Windows provides a RADIUS solution called Internet Authentication Service 145 az an optional component that you can install through Add Remove Programs start ar E Routing and Remote A Ee 2 12 PM Setting up Windows 2003 Hosts Windows 2003 uses the IAS service instead of the RADIUS service For this reason you need to install the IAS service to use RADIUS with Windows 2003 The IAS service will not be installed by default 1 Click Start gt Add or Remove Programs gt Add Remove Windows Components 2 With Windows Components selected choose Networking Services Windows Components Wizard Windows Components fou can add or remove components of Windows To add or remove a component click the checkbox 4 shaded box means that only part of the component will be installed To see what s included
214. s Advanced Settings Serial Parameters Security IPy6 Settings m The FIFO settings will overwrite the firmware setting Tx Mode HiPerfomance gt FIFO Enable y Network Timeout 7000 ms 500 20000 W Auto Network Re Connection Return Error If Metwork Is Unavailable iw Fast Flush Flush Local Buffer Only x Cancel Tx Mode Hi Performance is the default for Tx mode After the driver sends data to the NPort 6000 the driver immediately issues a Tx Empty response to the program Under Classical mode the driver will not send the Tx Empty response until after confirmation is received from the NPort 6000 s serial port This causes lower throughput Classical mode is recommended if you want to ensure that all data is sent out before further processing FIFO If FIFO is Disabled the NPort 6000 will transmit one byte each time the Tx FIFO becomes empty and an Rx interrupt will be generated for each incoming byte This will result in a faster response and lower throughput Network Timeout You can use this option to prevent blocking if the target NPort is unavailable Auto Network Re Connection With this option enabled the driver will repeatedly attempt to re establish the TCP connection if the NPort 6000 does not respond to background check alive packets Return error if network is unavailable If this option is disabled the driver will not return any error even when a connection cannot be establishe
215. s field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Inactivity time default 0 min This field specifies the idle time setting for auto disconnection A setting of O min will cause the port to remain connected even if idle TCP port default 4001 This is the TCP port number assignment for the serial port on the NPort 6000 It is the port number that the serial port uses to listen to connections and that other devices must use to contact the serial port To avoid conflicts with well known TCP ports the default is set to 4001 Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization CON 7 23 NPort 6000 Series Configuring Serial Port Operation Modes Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authe
216. sc Network Settings in the navigation panel The route table is where you configure how the NPort 6000 will connect to an outside network gt Total Solution for Industrial Device Networking Port 9 Port 10 Pale No Gateway Destination Netmask Metric Iface Port 12 Port 13 fi lani x Port 14 li flani z Port 15 li flanm Port 16 lani gt welcome Message Route Table E E nn FF E Peeeeeeee r E 03 System Management E Misc Network Settings pl Accessible IP List SNMP Agent DDNS Host Table Route Table User Table Authentication Server a E pe e a a Ea m Ta pa ma paa a System Log Settings 9 Auto Warning Settings H Maintenance 219 Certificate H System Monitoring I Save Configuration H Restart You are allowed up to 32 entries in the route table For each entry you must provide information on the gateway destination netmask metric hops and interface Gateway This is the IP address of the next hop router Destination This is the host s IP address or the network address of the route s destination Netmask This is the destination network s netmask Metric You may use this optional field to enter the number of hops from the source to the destination This allows the NPort 6000 to prioritize the routing of data packets if there is more than one router available to reach a given destination Iface This is the network in
217. se refer to Chapter 7 Configuring Serial Port Operation Modes for detailed information and configuration instructions Dial In Out Modes Web Server E mail Server TCP IP NPort 6000 PA Router Modem gt A F PPP SLIP PPP Dialout Dialin Dialin Internet Modem P f EAN YA gt UNIX Server Notebook NPort 6000 Series Introducing Serial Port Operation Modes The NPort 6000 provides dial in dial out access for ISPs and enterprises that need a remote access solution When a user at a remote site uses a PPP dial up connection to access the NPort 6000 the NPort 6000 plays the role of a dial up server but also ensures that the user has legal access to the network by verifying the user s identity with the NPort 6000 User Table or a RADIUS server Please refer to the Misc Network Settings section in Chapter 9 System Management Settings for instructions on setting up the NPort 6000 User Table The NPort 6000 supports PPP SLIP and Terminal modes for dial in dial out access Regardless of which operating system is used you will always be able to use standard PPP dial up to establish a connection The NPort 6000 can also act as a router to connect serial ports to a WAN connection Routing protocols including static RIP and RIP II can be adjusted to route different WAN connections Please refer to Chapter 5 Configuration with the Web Console for detailed information and configuration instructions Disabled Mod
218. ser O Local RADIUS Authentication is performed locally first switching to Radius if unsuccessful 7 22 NPort 6000 Series Configuring Serial Port Operation Modes Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Login user name Enter the terminal login ID here Login password Enter the password for the terminal login here Reverse Terminal Applications Reverse Telnet Mode Total Solution for Industrial Device Netwo E Main Menu 2 Overview 1 Basic Settings Operation Modes z Port 1 Network Settings senal parecian Application Reverse Terminal y 35 Port 1 Mode Reverse Telnet y 9 Operation Modes TCP alive check time 7 o 99 min A Communication Parame Inactivity time fo o 99 min 4 Data Buffering Log TCP port 4001 a Modem Settings mE LJ Cipher Settings O Port 2 Authentication type a None y O port 3 ph gs type on authentication C Enable Disable HE Port 4 Map keys lt CR LF gt CR LF y jaa Pale Mp1 D p2 C P3 Tp4 ps M p6 pz ps ji Eie Apply the above settings to Dro frio Fri fF pi2 Pria Fri D pis F pie Port y Porte T All ports HE Port 9 2 Port 10 213 Port 11 GQ Port 12 E Port 13 9 Port 14 3 Port 15 TCP alive check time default 7 min Thi
219. serve a fixed IP address for your NPort 6000 in the MAC IP mapping table when using a DHCP Server or BOOTP Server For most applications you should assign a fixed IP address to your NPort 6000 Factory Default I P Address The NPort 6000 is configured with the following default private IP address 192 168 127 254 Note that IP addresses that begin with 192 168 are referred to as private IP addresses Devices configured with a private IP address are not directly accessible from a public network For example you would not be able to ping a device with a private IP address from an outside Internet connection If your application requires sending data over a public network such as the Internet your NPort 6000 will need a valid public IP address which can be leased from a local ISP Configuration Options NPort Search Utility You may configure your NPort 6000 with the bundled NPort Search Utility for Windows Please refer to Chapter 10 Software Installation Configuration for details on how to install and use NPort Search Utility Web Console You may configure your NPort 6000 using a standard web browser Please refer to Chapter 5 Configuration with the Web Console for details on how to access and use the NPort 6000 web console LCM Console Front Panel NPort 6610 6650 and 6450 only The NPort 6610 6650 and 6450 only give you the option to configure some settings through the front panel also Known as the LCM Liquid Crystal
220. set to O the TCP connection will remain open even if there is no response to the keep alive packets Inactivity time default 0 ms This field specifies how long the NPort 6000 will wait for incoming and outgoing data through the serial port before closing the TCP connection The TCP connection is closed if there is no incoming or outgoing data through the serial port for the specified I nactivity time If this field is set to O the TCP connection is kept active until a connection close request is received ATTENTI ON Inactivity time should at least be set larger than that of Force transmit time To prevent the unintended loss of data due to the session being disconnected it is highly recommended that this value is set large enough so that the intended data transfer is completed 7 11 NPort 6000 Series Configuring Serial Port Operation Modes ATTENTION Inactivity time is ONLY active when Connection Control see below is set to Any character I nactivity time Ignore jammed IP default Disable This option determines how the port will proceed if multiple hosts are connected and one or more of the hosts stops responding as the port is transmitting data If you select Disable the port will wait until the data has been transmitted successfully to all hosts before transmitting the next group of data If you select Enable the port will ignore the host that stopped responding and continue data transmission to the other hosts
221. sfer features SSH Mode SSH mode allows one session per port and is used for secure terminal applications that abide by the SSH protocol 4 7 NPort 6000 Series Introducing Serial Port Operation Modes Reverse Terminal Applications Unix Windows NT TCP IP 1 NPort 6000 Series Router Server Server Reverse terminal applications are similar to terminal applications in that they involve using the NPort 6000 to manage the connection between a terminal and a server The difference is that with reverse terminal applications the terminal is connected through the network and the server is connected through the serial port rather than the other way around In practice a reverse terminal session typically involves a network administrator telnetting to a device that has a dedicated serial console port used specifically for configuration purposes For example many routers switches UPS units and other devices including the NPort 6000 have Console AUX or COM ports to which a terminal can be physically connected for console management With the NPort 6000 the device s console port can be connected to a serial port on the NPort 6000 allowing a network administrator to telnet to the device remotely through the network Although modern network equipment generally allows other options for remote configuration through the network there are situations in which it is necessary or desirable to configure a device by serial console e
222. specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending 7 2 NPort 6000 Series Configuring Serial Port Operation Modes periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open and will not send any keep alive packets Max connection default 1 This field is used if you need to receive data from different hosts simultaneously When set to 1 only one specific host can access this port of the NPort 6000 and the Real COM driver on that host will have full control over the port When set to 2 or greater up to the specified number of hosts Real COM drivers may open this port at the same time When multiple hosts Real COM drivers open the port at the same time the COM driver only provides a pure data tunnel no control ability The serial port parameters will use firmware settings instead of depending on your application program AP Application software that is based on the COM driver will receive a driver response of success when the software uses any of the Win32 API functions
223. status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets Inactivity time default 0 min This field specifies how long the NPort 6000 will wait for incoming and outgoing data through the serial port before closing the TCP connection The TCP connection is closed if there is no incoming or outgoing data through the serial port for the specified Inactivity time If this field is set to O the TCP connection is kept active until a connection close request is received ATTENTION Inactivity time should at least be set larger than that of Force transmit time To prevent the unintended loss of data due to the session being disconnected it is highly recommended that this value is set large enough such that the intended data transfer is completed Auto Link Protocol If this field is set to None the NPort 6000 will not connect to the host automatically If Auto Link Protocol is set to Telnet or Rlogin the NPort 6000 will connect to the host automatically using the specified protocol 7 19 NPort 6000 Series Configuring Serial P
224. successful NTP Connect Fail The NPot 6000 failed to connect to the NTP Server Mail Fail Failed to deliver the E mail IP Conflict There is an IP conflict on the local network Network Link Down LAN 1 Link is down Config t n S o Config Changed The NPort 6000 s configuration was changed OpMode Op Mode switched from in use to disconnect Authentication Fail The Authentication failed in terminal reverse terminal or dial in out operation modes A E Configure the Remote Log Server Remote Log Server Configuration SYSLOG server oT SYSLOG facility local use o y SYSLOG severity Emergency gt SYSLOG server 0 Emergency IP address or domain name of remote log server SYSLOG facility Syslog Facility is one information field associated with a syslog message SYSLOG severity 4 Warning Order of severity listed from most severe to least severe D 9 6 NPort 6000 Series System Management Settings Auto Warning Settings Event Settings 4 NPort Web Console Microsoft Internet Explorer l Oj x File Edit View Favorites Tools Help ay i gt a O Back lp 7 x B A pa y Search 52 Favorites ES f AL 25 Address E http 192 168 127 254 gt E so Links w Total Solution for Industrial Device Networking 3 Main Menu o Overview 1 Basic Settings Event Settings System Event iin newer serngs Saide I mail I Trap 49 Serial Port Settings
225. sy configuration for custom baudrates Product Selection Chart The following table shows the main differences between the NPort 6000 models Serial Serial Casing Built in Optional Configurable wa interface aa network network alarm LED and interface modules relay output 6150 RS 232 100 240 VAC Aluminum 1 mm Ethernet mM oo a all RS 485 6250 100 240 VAC Aluminum 1 mm 6250 M SC 2 100 240 VAC Aluminum 1 mm Multi Mode Fiber 6250 S SC RS 232 100 240 VAC Aluminum 1 mm Single Mode RS 422 Fiber RS 485 6450 RS 232 100 240 VAC Aluminum 1 mm Ethernet RS 422 RS 485 100 240 VAC SECC sheet metal 1 mm Ethernet 16 SECC sheet metal 1 mm yes yes 32 SECC sheet metal 1 mm yes yes SECC sheet metal 1 mm yes 6610 16 48V 16 RS 232 48 VDC SECC sheet metal 1 mm Ethernet yes yes yes 6610 32 48v_ 32 ms 232 sewDc SECCsheetmetal 1 mm yes 6650 8 RS 232 100 240 VAC SECC sheet metal 1 mm Ethernet yes 6650 8 T RS 422 RS 485 6650 16 RS 232 100 240 VAC SECC sheet metal 1 mm Ethernet yes RS 485 6650 16 48V RS 232 48 VDC SECC sheet metal 1 mm Ethernet RS 422 RS 485 6650 32 48V RS 232 48 VDC SECC sheet metal 1 mm Ethernet RS 422 RS 485 Product Specifications NPort 6150 Ethernet I nterface Number of Ports 1 Speed 10 100 Mbps auto MDI MDIX Connector 8 pin RJ 45 Magnetic Isolation 1 5 KV built in 1 4 NPort 6000 Series Introduction Serial nterf
226. t Enable Auto refresh the status every 5 seconds Redundancy Protocol Shows which communication protocol is in use Turbo Ring Turbo Ring V2 RSTP or none Status Shows Healthy if the ring is operating normally and shows Break if the ring s backup link is active Master Slave Indicates whether or not this NPort 6000 is the Master of the Turbo Ring This field appears only when Turbo Ring or Turbo Ring V2 modes are active ATTENTION The user does not need to set the master to use Turbo Ring If no master is set the Turbo Ring protocol will assign master status to one of the EDS units in the ring The master is only used to determine which segment serves as the backup path 1st Redundant Port Status Port 1 2nd Redundant Port Status Port 2 The Ports Status indicators show Forwarding for normal transmission Blocking if this port is connected to a backup path and the path is blocked and Link down if there is no connection Serial Data Log Data logs for each serial port can be viewed in ASCII or HEX format After selecting the serial port and format you may click Select all to select the entire log if you wish to copy and paste the contents into a text file 2 Total Solution for Industrial Device Networking PA E port Bla Poi BG Porte Data Log ASCII ie r i Select port Port y ASCI HEX E Port 11 E Port 12 Bla Port 13 EQ Port 14 Bla Port 15 A Port16 Si Welcome Messag
227. t The route through Bridges Y and B costs 300 Y to B 200 B to A 100 e The Designated Bridge Port for LAN Segment 3 is Port 2 on Bridge C 6 6 NPort 6000 Series Module Settings Configuring RSTP Redundancy Settings Redundancy protocol Bridge priority Hello Time 2 ka 10 sec Forward Delay is 4 30 sec Max Age Hint 20 ke 40 sec Port Enable RSTP Port Priority Port Cost 1 L 200000 o 200000 2 Bridge priority Setting Description Factory Default Numerical value Increase this device s bridge priority by selecting a lower selected by user number A device with a higher bridge priority has a greater chance of being established as the root of the Spanning Tree topology Hello time sec Numerical value input The root of the Spanning Tree topology periodically sends out a 2 by user hello message to other devices on the network to check if the topology is healthy The hello time is the amount of time the root waits between sending hello messages Forward Delay Numerical value input The amount of time this device waits before checking to see fit 15 sec by user should change to a different state Max Age sec Numerical value input If this device is not the root and it has not received a hello by user message from the root in an amount of time equal to Max Age then this device will reconfigure itself as a root Once two or more devices on the network are recognize
228. t hosts to which the terminal will always be connected Telnet TCP port default 23 By default the Telnet TCP port number is set to 23 which is the default TCP port number for Telnet Terminal type default ansi Some older terminal applications may require that the terminal type be transmitted before the connection can be established You may need to refer to the server s documentation to determine the appropriate terminal type For most applications this setting will be unnecessary and will have no effect Quit default E 0x05 This field configures the quick key used to disconnect the link between the current terminal session and the remote host It is not necessary for binary communication Authentication type default None This field allows you to configure the method used if any to verify a user s ID and authorization Local Verify the ID against the NPort 6000 User Table TACACS Local TACACS authentication is tried first switching to Local if unsuccessful Local TACACS Authentication is performed locally first switching to Radius if unsuccessful Authentication is not required Try next type on authentication denied default Disable The field enables or disables the system to try next type on first authentication denied Auto login prompt default ogin Password prompt default assword Login user name Enter the terminal login ID here Login password Enter the password for the terminal login her
229. tWork SENGS ii as 5 9 Contigurina the Route TANIE azar ee E E TEE E nee eee rts 5 10 6 Module SS CERIN so cc ao aia ae 6 1 NM TX01 NM TX02 NM FXO1 M SC NM FX01 S SC NM FX02 M SC NM FX02 S SCoiooocccccccconcnnccnconannnnnnos 6 2 Using Ethernet Redund aicYiciiaai dde 6 2 TAES EARSTE CONCEP Estonian EEEE EENEN EENEN eee 6 3 Differences between RSTP and S P essssssssssnesrrrnsrrersrrrrerrrrrsrrrrsrrrrerrrrrsrrrrernrrornrrernrrrerrrrernrreerrn 6 5 STE E nre a E NANE T E 6 6 Contiguitina TUDO RING eraa ata tos a a a a a a re 6 8 TE TUDO RIO ONCE DE rir a lentes detente o detelera Dio tucadce leia lo letelra dto laredo deta lo decidio 6 8 Contigua TUDO RINO ao 6 10 MES PROS Ml 6 10 GSM ODEratlon N OE iaa RARO RRA deemed eee eee eee eee es 6 11 GPRS OPE ration MOE ai tit a a a a ee 6 12 SAO ox jalo MOJE AA RNA 6 13 A Ar tN ctaseccbetaccotes Actes te S 6 15 7 Configuring Serial Port Operation Modes 0occmcocccccccoonnnnccnnannnnccnnnnn rn nn 7 1 POLE Setting BASICS ORO OOO O E cocarreeseeaeereeoecaes cues A A AONA 7 2 DeWiceCOntrol sx ICEL ENS nS aes acess taeda e tebe ee 7 2 Real EOM MOde s aaa lala aliada ek ea eee ee ea 7 2 Reverse Real COM MOGE cixaviveninayieendeawdnendeandeawdenn dean deauduundwendeandweedvanduawdeeeduuadwendvandwaxdvaninanduasinawewands 7 5 Ri OP ara Wi ol6 2a pas 7 7 SOCKEE ADPIC ION ii A A A o a 7 8 TP S rvel MOGGictsstoue cous eeee cous cele eee OUEN cian ice 7 8 TER slic ilols onan nee Ree enone e a
230. ta GND 3 7 GND Pin Assignments for DB9 and DB25 Connectors Pin Assignments for DB9 Male and Female Connectors DB9 Male Connector DB9 Female Connector l 1 DCD in DCD in 1 6 DTR out Ed cid hou 7 CTS ne CTS in 8 3 TxD out RxD in 3 8 RTS out 4 DTR out DSR in 4 ou 5 GND GND 5 Pin Assignments for DB25 Male and Female Connectors DB25 Male Connector DB25 Female Connector 1 1 2 TxD out RxD in 2 3 RxD in TxD out 3 4 RTS out CTS in 4 5 CTS in RTS out 5 6 DSR in DTR out 6 7 GND GND ie DTR out 20 8 DCD in DCD in 8 20 DSR in 25 13 13 25 RFC2217 This appendix explains how to set up the environment to use RFC 2217 mode RFC2217 defines general COM port control options based on the Telnet protocol and is used to allow the mapping of virtual COM ports to network ports Any third party driver that supports RFC 2217 can be used to implement the virtual COM port on the NPort 6000 The installation is as follows 1 Inthe NPort 6000 console set up the desired serial port s operation mode as RFC2217 mode By default the first serial port on the NPort 6000 is assigned TCP port 4001 the second serial port is assigned TCP port 4002 and so on Total Solution for Industrial Device Networking J Main Menu i i Operation Modes Overview a Basic poll pont H Network Settings be y A icati D ice Cont y 03 Serial Port Settings ppieation a cre P
231. tem Log i Routing HQ Dout State 2 Save Configuration AG Restart 9 20 NPort 6000 Series System Management Settings Iface Name of the physical network interface Destination Network or host that the router allows you to connect to Gateway IP Address of the gateway you configured for this route If you are directly connected this is a local address Otherwise it is the address of the machine through which packets must be routed Netmask Network pattern of the gateway Metric Number of hops to the destination Flags State of the route Valid states are U up D down G route to a gateway H route to a host T setting in route table R dynamic by RIP Use Correct number of packets being sent in this route PPP Trace Go to PPP Trace under System Status to display the PPP Trace information PPP states for the selected ports are shown LCP Link Control Protocol which is an essential part of the PPP link is used for establishing configuring and testing the data link connection Dout State for 6450 6600 Dout State refers to the relay output status which can be configured to change upon the occurrence of certain system events through Auto Warning Settings under System Management You may click Dout State under System Status to display a list of events that may cause a change to the Dout state If a configured alarm event occurs the alarm LED lights up and the Dout state changes and you may come to this screen to determin
232. terface to which the packet must be sent ATTENTION When a serial port is configured for PPP SLIP the I face field must be set to that serial port for proper communication 5 10 NPort 6000 Series Configuration with the Web Console Configuring Routes to the Internet a 203 67 6 1 UNIX Server Ethernet 203 67 6 TCP IP NPort 6000 Rout r Series 203 67 6 254 203 67 6 253 lt F Modem lt L gt Internet 2 Modem PC Notebook In this example the Notebook PC dials into the NPort 6000 to request a connection to the Internet host at 210 48 96 9 which is not on the local network 203 67 6 xxx This causes the NPort 6000 to act as a router and send the datagram to the default next hop router 203 67 6 254 n this case we should add the gateway IP address of 203 67 6 254 to the routing table to handle hops to 210 48 96 9 Total Solution for Industrial Device Networking E Main Menu a Route Table 1 Overview LS haee Seine No Gateway Destination Netmask Metric Iface aj Network Settings K 1 203 67 6 254 210 438 96 9 255 255 255 255 p flan y Q Serial Port Settings EA System Management 2 E flan gt AS Misc Network Settings 3 p lan y 2 Accessible IP List 4 fi flan y SNMP Agent 5 Fo 1 flan y fa DDNS Host Tabl e E an Z F ost Table i Route Table 7 1 flan 2 User Table e E flan gt E Authentication Server 9
233. termine the modes that are available Mode Once you have chosen an application select the mode The available configuration settings will vary depending on the mode that you have selected Device Control Applications Real COM Mode MOXA SJ Main Menu Overview Basic Settings Total Solution for Industrial Device Networking Operation Modes a Port 1 H Network Settings 5 53 Serial Port Settings Application Device Control v Sy Port 1 Mode RealCOM a Operation Modes TCP alive check time 7__f0 99 min 3 Communication Paramete Max connection iv Data Buffering Log Ignore jammed IP Enable Disable J Modem Settings Allow driver control Enable Disable Cipher Settings Secure OEnable Disable 33 Port 2 Connection goes down RTS O always low always high sa Port 3 DTR O always low always high a a Parta Command by command operation Enable Disable uN Port 5 Response timeout 0 65535 ms 3 Port 6 HE Port 7 Non requested serial data 4 Port 8 Data Packing A Welcome Message Packet length o 0 1024 HO System Management Delimiter 1 00 Hex Enable 1 System Monitoring Delimiter 2 00 Hex Enable 1 Save Configuration sE Delimiter process Do Nothing Y Processed only when Packing length is 0 SH Restart Force transmit 0 0 65535 ms Pi P2 Ora Opa Ops OP6 Or7 p8 Apply the above settings to DAN ports Submit lt gt TCP alive check time default 7 min This field
234. the bandwidth of the link with less efficient links assigned a higher cost STP Calculation The first step of the STP process is to perform calculations During this stage each bridge on the network transmits BPDUs The following items will be calculated e Which bridge should be the Root Bridge The Root Bridge is the central reference point from which the network is configured e The Root Path Costs for each bridge This is the cost of the paths from each bridge to the Root Bridge e The identity of each bridge s Root Port The Root Port is the port on the bridge that connects to the Root Bridge via the most efficient path In other words the port connected to the Root Bridge via the path with the lowest Root Path Cost The Root Bridge however does not have a Root Port e The identity of the Designated Bridge for each LAN segment The Designated Bridge is the bridge with the lowest Root Path Cost from that segment If several bridges have the same Root Path Cost the one with the lowest Bridge Identifier becomes the Designated Bridge Traffic transmitted in the direction of the Root Bridge will flow through the Designated Bridge The port on this bridge that connects to the segment is called the Designated Bridge Port STP Configuration After all the bridges on the network agree on the identity of the Root Bridge and all other relevant parameters have been established each bridge is configured to forward traffic only between its Root P
235. the network or at the local Internet service provider are gateway nodes The NPort 6000 needs to know the Pv6 address of the default 5 8 NPort 6000 Series Configuration with the Web Console gateway computer in order to communicate with the hosts outside the local network environment For correct gateway Pv6 address information consult the network administrator IPv6 DNS server 1 This is an optional field The IP address of another DNS server may be entered in this field for when DNS server 1 is unavailable IPv6 DNS server 2 This is an optional field The IP address of another DNS server may be entered in this field for when DNS server 1 is unavailable Connection Priority This function should work with the NPort 6000 functions that use the domain name to obtain the IP address of the remote host server For this kind of application the NPort 6000 will ask for the IP address of the remote host server through the DNS and the DNS will reply with both the IPv4 and IPv6 IP addresses if both exist simultaneously in the remote host server For this reason you need to define which one has higher priority IPv6 first RFC 3484 or IPv4 first Applications that obtain the IP address from the domain name Application Time Server DDNS WINS RADIUS Server TACACS Server Remote Syslog E mail Alert SNMP Tarp Alert OP Mode TCP Client Reverse RealCOM Pair connection Terminal LAN1 speed default Auto You may configure the net
236. tification Click Continue Anyway to proceed Hardware Installation A The software you are installing for thie hardware NPort Communication Part 1 has not passed Windows Logo testing to verify its compatibility with Windows sP Tell me why this testing i important Continuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop this installation now and contact the hardware vendor for software that has passed Windows Logo testing Continue Anyway STOP Installation 7 Ports that have been activated will appear in black NPort Windows Driver Manazer File COM Mapping Configuration View Help w a G Add emoe COM Pot Addess1 Addes 192 168 127 254 350 966 Port 192 168 127 254 3951 9367 Port 192 168 127 254 3592 368 Parts 192 168 127 254 393369 Part Total COM Port 4 10 6 NPort 6000 Series Software I nstallation Configuration Reverse Real COM Mode After you install NPort Windows Driver Manager you can set up the NPort 6000 s serial ports as remote COM ports for your PC host Make sure that the serial port s on your NPort 6000 are set to Reverse Real COM mode when mapping COM ports with the NPort Windows Driver Manager 1 Goto Start gt NPort Windows Driver Manager gt NPort Windows Driver Manager to start the COM mapping utility 2 Click
237. tings Model name NP6610 8 H Network Settings Serial No 3 aE Serial Port Settings Firmware version 1 2 Build 07051709 HG syctemn Management Ethernet IP address 192 168 127 254 eH ie Ethernet MAC address 00 90 E8 00 00 30 pum System Monitoring Ethernet LAN speed 100M Link Q Save Configuration LAN module speed _ _ E Restart Up time 0 days OOh 06m 58s Module type No module Serial port 1 115200 None 8 1 Serial port 2 115200 None 8 1 Serial port 3 115200 None 8 1 Serial port 4 115200 None 8 1 Serial port 5 115200 None 8 1 Serial port 6 115200 None 8 1 Serial port 7 115200 None 8 1 Serial port 8 115200 None 8 1 Serial port 9 115200 None 8 1 Serial port 10 115200 None 8 1 Serial port 11 115200 None 8 1 Serial port 12 115200 None 8 1 Serial port 13 115200 None 8 1 Serial port 14 115200 None 8 1 Serial port 15 115200 None 8 1 Serial port 16 115200 None 8 1 5 4 NPort 6000 Series Configuration with the Web Console Web Console Navigation On the NPort 6000 web console the left panel is the navigation panel and contains an expandable menu tree for navigating among the various settings and categories When you click on a menu tem in the navigation panel the main window will display the corresponding options for that item Configuration changes can then be made in the main window For example if you click on Basic Settings in the navigation panel the main window will show a page of basic settings that you can configure You must
238. tings l TA l Applicati De ice Contro y 3 Serial Port Settings o l Sy Port 1 Mode RFC2217 y 9 Operation Modes e check 7 0 99 min 3 Communication Parameters TCP port 4001 Data Buffering Log as Modem Settings Ea Cipher Settings Packet length lo 0 1024 49 Port 2 Delimiter 1 oo Hex Enable Port 3 Delimiter 2 oo Hex M Enable E Port 4 Delimiter process Do Nothing y Processed only when Packing length is Ports 0 3 Port 6 Force transmit lo 0 65535 ms 0 Port Epi Mp3 Drs Dos Mrs Merz Mere ar aoe ap led Cpo Mpio Meri Mpi2 M pis Mpi4 Mepis Mepis Port 9 T All ports a Port 10 Port 11 HH Port 12 Submit A Port 13 Port 14 Port 15 Eiza Port 1A pd TCP alive check time default 7 min This field specifies how long the NPort 6000 will wait for a response to keep alive packets before closing the TCP connection The NPort 6000 checks connection status by sending periodic keep alive packets If the remote host does not respond to the packet within the time specified in this field the NPort 6000 will force the existing TCP connection to close For socket and device control modes the NPort 6000 will listen for another TCP connection from another host after closing the connection If TCP alive check time is set to O the TCP connection will remain open even if there is no response to the keep alive packets 7 7 NPort 6000 Series Configuring Serial Port Operation Mo
239. to complete the installation of NPort Search Utility ie setup NFort Search Utility Completing the NPort Search Utility Setup Wizard Setup has finished installing NPort Search Utility on your computer The application may be launched by selecting the installed icons Click Finish to exit Setup Configuring NPort Search Utility The Broadcast Search function is used to locate all NPort 6000 servers that are connected to the same LAN as your computer After locating an NPort 6000 you will be able to change its IP address Since the Broadcast Search function searches by MAC address and not IP address all NPort 6000 servers connected to the LAN will be located regardless of whether or not they are part of the same subnet as the host 1 Open NPort Search Utility and then click the Search icon F NPort Search Utility AE File Function View Help Ek H Search Search F Locate Conzole LANI MAC Address LANt LAN2MAC Address LANZIP Address Status The Searching window indicates the progress of the search Searching Searching for NPort Show Py6 Address W Stop Found 10 NPort s 5 secondi left LANT MAC Address LANTIP Address LANZ MAC Address LAMZ2IP Address HPor 5610 89 07 00 90 E8 05 67 04 192 168 354 123 Port 5610 16 00 90 68 0452 F2 192 168 235 155 Port 5610 6 00 350 E8 0E EB 8A
240. trol RealCOM Bey Syst Manitas Device Control RealCOM Fo ad 10 Device Control RealCOM E Ea Serial Status 11 Device Control RealCOM a Serial to Network Con 12 Device ControlfRealCOM E Serial Port Status 13 Device Control RealCOM SerialPort Error Caur 14 Device ControlfRealCOM E 15 Device Control RealCOM a Serial Port Settings 16 Device Control RealCOM J Cipher Usage Status i HA System Status Monitor cipher usage and connection status of each serial port It is depend on Cipher Settings 9 16 NPort 6000 Series System Management Settings Network Connections Go to Network Connections under System Status to view network connection information Total Solution for Industrial Device Networking E Port 6 Network Connections EQ Port 7 Ae Port 8 Protocol Recv Q Send Q Local Address Foreign Address State BD Porto TCP 0 O 192 168 127 254 8000 LISTEN EN Port 10 TCP 0 0 192 168 127 254 4900 K LISTEN aan TCP 0 O 192 168 127 254 14900 LISTEN E TCP 0 O 192 168 127 254 80 LISTEN EQ Port 12 TCP 0 O 192 168 127 254 443 LISTEN 6 Port 13 TCR 0 O 192 168 127 254 23 LISTEN O port 14 TCP 0 O 192 168 127 254 22 LISTEN DA port 15 TCP 0 O 192 168 127 254 950 LISTEN K TCP 0 O 192 168 127 254 951 LISTEN EQ Port 16 TCP 0 O 192 168 127 254 952 LISTEN 1 Welcome Message TCP 0 O 192 168 127 254 953 LISTEN FG system Management TCP 0 O 192 168 127 254 954 LIS
241. ts Domain Name System DNS is the way that Internet domain names are identified and translated into IP addresses A domain name is an alphanumeric name such as www moxa com which is easier to remember than the numerical IP address A DNS server is a host that translates this kind of text based domain name into the actual IP address used to establish a TCP IP connection When the user wants to visit a particular website the user s computer sends the domain name e g www moxa com to a DNS server to request that website s numerical IP address When the IP address is received from the DNS server the user s computer uses that information to connect to the website s web server 5 7 NPort 6000 Series Configuration with the Web Console The NPort 6000 will play the role of a DNS client in the sense that it will actively query the DNS server for the IP address associated with a particular domain name The following functions on the NPort 6000 web console support the use of domain names in place of IP addresses Time Server Destination IP Address in TCP Client mode Mail Server SNMP Trap Server Destination Address in Pair Connection mode Primary Secondary Host Address in Terminal mode RADIUS Server TACACS Server and SMTP Server IPv4 DNS server 2 This is an optional field The IP address of another DNS server can be entered in this field for when DNS server 1 is unavailable PPPoE user account and PPPoE password For dynamic broad
242. ts buffer assuming that the response is correct and then send the command back to the originator of the command The NPort 6000 can respond in place of the PLC the next time it receives a request for the same command Response timeout default 0 ms This field specifies how long the NPort 6000 will wait for response data through the serial port before sending the next command The NPort 6000 sends the next command if there is no response through the serial port for the time specified by the Response timeout If this field is set to 0 the Response timeout is essentially infinite and the NPort 6000 will wait until the pre command request is received to send the next command Non requested serial data default discard Specifies how the NPort will handle data that is received from a serial device that is not in response to a command The NPort can either discard such data forward the data to the network host that sent the most recent request or forward the data to all open host connections e Discard Discard the data e Forward to last requester Forward non requested serial data to last requester connection e Forward to all open connections Forward non requested serial data to all open connections Packet length default 0 The Packet length setting refers to the maximum amount of data that is allowed to accumulate in the serial port buffer before sending At the default of O for packet length no maximum amount is specified and data in the buff
243. ttings r A o 0 BC Auto Warning Settings 5 0 0 0 0 E Maintenance 6 0 0 0 0 43 Certificate E ae A Se Se Monitoring 9 0 0 Ta Serial Status 10 0 0 0 0 Serial to Network Con si 0 0 0 0 Y Serial Port Status 12 0 0 0 o 33 Serial Port Error Cour ne 5 a s s 14 o 0 0 0 Q Serial Port Settings 15 n n n n Frame Framing error indicates that the received character did not have a valid stop bit Parity Parity error indicates that the received data character does not match the parity selected Overrun The NPort is unable to hand received data to a hardware buffer because the input rate exceeds the NPort s ability to handle the data Break Break interrupt indicates that the received data input was held low for longer than a full word transmission time A full word transmission time is defined as the total time to transmit the start data parity and stop bits 9 15 NPort 6000 Series System Management Settings Serial Port Settings Go to Serial Port Settings under Serial Status to view a summary of the settings for each serial port 3 Main Menu fa Overview Y Basic Settings Total Solution for Industrial Device Networking Serial Port Settings Baud Data Stop Flow Control i Port l t Parit FIFO Interf HE Network Settings or Rate Bits Bits Y RTS CTS XON XOFF DTR DSR aa HGA Serial Port Settings 1 1152008 1 None ON OFF OFF Enable RS 232 es 2 1152008 1 None ON OFF OFF Enable RS 232
244. uzzer and RTC real time clock Automatic Reboot Trigger Built in WDT watchdog timer MTBF meantime between failures 231709 hrs Warranty Warranty Period 5 years Details See www moxa com warranty NPort 6250 6250 S SC 6250 M SC Ethernet I nterface Number of Ports 1 Speed 10 100 Mbps auto MDI MDIX Connector 8 pin Rj 45 Magnetic Isolation 1 5 KV built in Optical Fiber I nterface NPort 6250 S SC 6250 M SC Fiber Port 100BaseFX SC connector Distance Multi mode 0 to 4 km 1300 nm 62 5 125 um 500 MHz km Single mode O to 40 km 1310 nm 9 125 um 3 5 PS nm km Min TX Output Multi mode 20 dBm Single mode 5 dBm Max TX Output Multi mode 10 dBm Single mode 0 dBm Sensitivity Multi mode 34 to 30 dBm Single mode 36 to 32 dBm Serial I nterface Number of Ports 2 Serial Standards RS 232 422 485 Connector DB9 male RS 485 Data Direction Control ADDC Automatic Data Direction Control Serial Line Protection 15 KV ESD protection for all signals Console Port Serial port 1 doubles as RS 232 console port 1 6 NPort 6000 Series Introduction Serial Communication Parameters Data Bits 5 6 7 8 Stop Bits 1 1 5 2 Parity None Even Odd Space Mark Flow Control RTS CTS DTR DSR XON XOFF Baudrate 50 bps to 921 6 Kbps supports non standard baudrates Pull High Low Resistor for RS 485 1 KQ 150 KQ Serial Signals RS 232 TxD RxD RTS CTS DTR
245. with adjacent segments connected using two possible links The various STP factors such as Cost Root Port Designated Bridge Port and Blocked Port are shown in the figure LAN Segment 1 Port 1 Port 1 Port 1 Designated Root Port Root Port Bridge Port Cost 100 Cost 100 Bridge A Bridge B Bridge X Port 2 Port 2 Port 2 Root Bridge Designated Blocked Port Bridge Port LAN Segment 2 Port 1 Port 1 Root Port Root Port Cost 100 Cost 200 Bridge C Bridge Y Port 2 Port 2 Designated Blocked Port Bridge Port LAN Segment 3 e Bridge A has been selected as the Root Bridge since it was determined to have the lowest Bridge Identifier on the network e Since Bridge A is the Root Bridge it is also the Designated Bridge for LAN segment 1 Port 1 on Bridge A is selected as the Designated Bridge Port for LAN Segment 1 e Ports 1 of Bridges B C X and Y are all Root Ports since they are nearest to the Root Bridge and therefore have the most efficient path e Bridges B and X offer the same Root Path Cost for LAN segment 2 However Bridge B was selected as the Designated Bridge for that segment since it has a lower Bridge Identifier Port 2 on Bridge B is selected as the Designated Bridge Port for LAN Segment 2 e Bridge C is the Designated Bridge for LAN segment 3 because it has the lowest Root Path Cost for LAN Segment 3 gt The route through Bridges C and B costs 200 C to B 100 B to A 100 g
246. work speed for the built in Ethernet connection on the NPort 6000 IEEE 802 3 Ethernet supports auto negotiation of transfer speed However some switches hubs require that the communication speed be fixed at 100 Mbps or 10 Mbps Note that there is no option for configuring the network speed for the optional network modules for the NPort 6600 and 6450 Advanced Network Settings You can access Advanced Network Settings by expanding the Network Settings item in the navigation panel Advanced Network Settings is where the routing protocol and gratuitous ARP are configured Total Solution for Industrial Device Networking 3 Main Menu Overview QU Basic Settings Routing protocol None y 043 Network Settings 5 i Gratuitous ARP Enabled Send period 200 10 1000 sec LJ Basic Network Settings Advanced Network Setti 9 Module Serial Port Settings Network Settings Advanced E D D D D System Management System Monitoring Save Configuration Restart What is RI P RIP Routing Information Protocol is a protocol used to manage routing information within a self contained network such as a corporate LAN Local Area Network or an interconnected group of such LANS By using RIP a gateway host with a router can send its entire routing table which lists all the other hosts it knows about to its closest neighbor host every 30 seconds The neighbor host in turn will pass this
247. xtension modules listed below NM TX01 NM TX01 T Ethernet module with 1 RJ 45 port NM TX02 NM TX02 T Ethernet module with2 RJ 45 ports NM FX01 S SC Ethernet module with a single mode fiber port and SC connector NM FX01 S SC T NM FXO1 M SC Ethernet module with a multi mode fiber port with SC connector E nnn eM nese er mews NM FX02 S SC Ethernet module with 2 single mode fiber ports with SC connectors A nn Ne asrama wsc ameo NM FX02 M SC Ethernet module with 2 multi mode fiber ports with SC connectors E ae Turbo Ring Turbo Ring V2 and STP RSTP protocols cannot be mixed on the same ring The table below lists the key differences between each ring type Use this information to evaluate the benefits of each and then determine which features are most suitable for your network Topology Ring Mesh Ring Mesh Up to 30 sec Up to 5 sec Moxa developed the proprietary Turbo Ring protocol to optimize communication redundancy and achieve a faster recovery time on the network The protocol is implemented on both the Ethernet and the serial device server Because of the differences in behavior of a switch compared with a device server the recovery times will also different Turbo Ring Turbo Ring 2 Baudrate 921 6 Kbps Up to 100 ms 921 6 Kbps Up to 100 ms Recovery Time 9600 bps Up to 40 ms 9600 bps Up to 20 ms 6 2 NPort 6000 Series Module Settings NOTE The Recovery time is based on the setting Real
248. ystem or selected serial ports Enter select previous menu 3 5 NPort 6000 Series Initial I P Address Configuration 11 Press S or use the arrow keys to select System and then press ENTER to restart the NPort 6000 of Telnet 192 168 127 254 E P66508 1 6 ATA ed ed ee eee System eee Restart the server ESC back to menu Enter select Warning ttt Restart system will disconnect all ports and clear all status value Enter continue ESC cancel Serial Console The NPort 6000 supports configuration through the serial console which is the same as the Telnet console but accessed through the RS 232 console port rather than through the network Once you have entered the serial console the configuration options and instructions are the same as if you were using the Telnet console The following instructions and screenshots show how to enter the serial console using PComm Terminal Emulator which is available free of charge as part of the PComm Lite suite You may use a different terminal emulator utility although your actual screens and procedures may vary slightly from the following instructions 1 Turn off the power to the NPort 6000 Use a serial cable to connect the NPort 6000 s serial console port to your computer s male RS 232 serial port ATTENTION The NPort 6610 6650 has a dedicated serial console port For all other NPort 6000 models port 1 serves as the serial console port From the Windows deskto
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