Home

Siemens DataNET Hub (DNH) User's Manual

1. 11 Click Settings tab 12 From the Emulation scroll list select VI 100 Do not change the de fault settings for the other parameters Data Communications Setup e 51 Configuring Your PC Continued 13 Click Terminal Settings button The Terminal Settings dialog box will appear Terminal Settings HE Cursor C Block Underline I Blink Terminal Modes T Keypad application mode l Cursor keypad mode 132 column mode Character set ASCII 14 Ensure that the following default settings are set Cursor e Underline y Blink Terminal Modes none Character set ASCII 15 Click Ok The Advance DataNET Properties box will appear 52 e Data Communications Setup 2000585 001 Configuring Your PC Continued 16 Click OK to return to main menu 17 From the Main menu select File Save As The Save As dialog box will appear Save As Save in Sq HyperT erminal l5 Advance DataNet Gateway ht Advance DataNET Hub ht AT amp T Mail ht i CompuServe ht MCI Mail Ht File name Advance DataNet Gateway h Save as type Session files At Cancel 18 Enter the short cut name Click Save to complete the setup Your PC is now setup to connect to and configure the DNH To create a shortcut to the new connection you just entered and place it on your Desktop select the file name entered in step 21 and click the right mouse button From the pop up menu select C
2. e MAC Address Media Access Control The built in hardware ad dress of a device connected to a shared media e IP Address is a 32 bit address defined by the Internet Protocol It is usually represented in dotted decimal notation Present address is 127 236 032 239 DataNET hubs operate as layer 2 Ethernet bridges That is hubs will forward frames among connected Ethernet segments and DataNET de vices regardless of the upper layer protocols carried in those frames In the absence of hardware failures or network overload the hub soft ware will deliver each Ethernet frame to its intended destination all sta tions in the case of Ethernet broadcasts in order and without duplication In normal operation the network may deliver frames to additional desti nations i e to stations whose MAC addresses do not match the frames destination address End devices must be prepared to receive and ig nore frames whose destination addresses do not match their own MAC addresses Introduction e 5 DataNET Hub Specifications Dimensions Housing Explosion Protection Ratings and Certifications 6 e Introduction Rack Mounted Package Configuration See Figure 1 5 for Outline Drawing and Dimensions Wall Mounted Package Configuration see Figure 1 6 for Outline Drawing and Dimensions Zone 1 Wall Mounted Package Configuration see Figure 1 7 for Outline Drawing and Dimension Wall Mounted Configuration NEMA 3 IP 54 CSA Ce
3. 2000585 001 Command Descriptions Continued del Command display Command 2000585 001 This command deletes selected items from the hub s Source Address Table SAT The command offers options to delete all entries or se lected entries by IP address or by MAC address The command syntax is as follows del XX XX XX XX XX XX or del XXX XXX XXX XXX where xx XX XX XX XX XX is a MAC address in colon separated hexadeci mal format and xxx xxx xxx xxx is a dotted decimal IP address Note that in both cases leading zeros must be included in the addresses That is if the IP address of an entry is 192 1 2 3 the address must be en tered as 192 001 002 003 If the designated address is not found in the SAT the hub half displays an error message Address XX XX XX XX XX xx not found or Address XXX XXX XXX XXX not found If the deletion is successful the hub half confirms it with a message Address XxX xx xx xx xx xx deleted or Address xxx xxx xxx xxx deleted The entire SAT may be cleared with the command del all Note that the SAT always contains one entry that may not be deleted for the hub half itself Display the Source Address Table SAT This displays the MAC ad dresses of all stations known to the hub half IP addresses are also shown for all stations whose IP addresses the hub half has learned The list is sorted by IP address entries that do not include an IP address are listed following those th
4. SCC 4 Cross link Link 10 RUNNING DataNET Statistics for all DN Links Frames Sent 4967 Frames Sent Retried 60 Frames Sent Redirected 60 Frames Sent w Errors 0 Frames Sent UnACKnowledged O Frames Received 4372 Frames Receiver Not Ready 0 Frames Received w Errors 0 Link down 54 local gt This command will enable or disable normal DataNET communication on individual ports Before placing a port into test mode see test com mand below the port must first be taken offline with port stop num where num is a port number 1 through 9 This command may also be used to reset a port that has been automati cally taken out of service by the hub after detection of a DataNET topol ogy loop port start num This will re start normal DataNET communications on a port 80 e Command Summary 2000585 001 Command Descriptions Continued test Command timeout Command 2000585 001 This command places a selected port into a hardware diagnostic mode The command test 4 places port 4 into test mode The hub will generate poll messages on port 4 All other ports continue to operate normally The command test off turns off test mode Only one port at a time may be in test mode This command may be used to disable the user login timeout Normally if a user has not issued a CLI command for five minutes the hub half will automatically shut down the user s login session This command may be used to defeat and re
5. et Connector 32 e Installation 2000585 001 DataNET Copper Connections Continued Downlink Wiring without Each of the four downlink connectors TB15 TB16 TB17 TB18 contain Signal Equalizer Board wring terminals for two downlink ports see Figure 2 1 Important Always ensure that the same port number is used for redundant channel connections i e Channel A to Port 1 on A Hub and Channel B to Port 1 on B hub Connect the downlink signal wires to a hub downlink port Positive to terminal and Negative to terminal Master Port Connectors TB15 TB18 If conduit is used the cable shield is only terminated at one end of the cable If shield is terminated at this end connect this shield to GND terminal If using cable gland connectors cable gland will always connect the shield to the chassis 2000585 001 Installation e 33 DataNET Hub Signal Equalizer Board Description P a pola Er y N Instructions Recommended Cable 34 e Installation ans Tat aio ie dsla nao ia A Hl il 7 This section sets the switches on the DataNET Hub Signal Equalizer board This board is used to equalize the signal amplitude when varying lengths of copper cable are connected to multiple downlink ports on the DNH Typically the smallest signal on any DNH port is found on the port with the longest copper cable Since Signal Equalizer boards are placed on ports with signal levels greater than
6. share the same device ID and that device IDs are not duplicated between any hubs ina single DataNET One convenient convention for assigning device IDs is to use the IP ad dress of the A half of each pair as the device ID This command displays the settings for the hub s non volatile configura tion parameters This command sets the IP subnet mask for a hub half Your network ad ministrator can help you choose an appropriate subnet mask for your DataNET hubs subnet masks are not always required Subnet masks are entered in dotted decimal notation For example config netmask 255 255 192 0 The subnet mask is automatically stored in the hub half s non volatile memory when you enter this command You can display the current sub net mask with the config display command Command Summary e 71 Command Descriptions Continued config iproute Command config timeserver Command date Command 72 e Command Summary This command sets the address of the IP router to which the hub half should send IP messages whose destinations do not reside on the hub s own network Your network administrator can help you choose appropri ate router addresses for your DataNET hubs a router address is not al ways required Addresses are entered in dotted decimal notation For example config iproute 192 10 6 1 The router address is automatically stored in the hub half s non volatile memory when
7. trace filter Set filter mode for tracing Set IP address filter for tracing trace port port port Select ports for frame tracing trace ports filter Set trace port list and filter mode in the same command validation timeout Set the link validation timeout Enable verbose event display Enable single line summary event display 2000585 001 Command Descriptions Continued config address ip command config device id Command config display Command config netmask Command 2000585 001 This command configures the hub half IP address Each individual hub board hub half in the system must have a unique IP address Your network administrator can help you choose appropriate addresses for your DataNET hubs IP addresses are entered in dotted decimal nota tion For example config address ip 192 10 6 123 The IP address is automatically stored in the hub half s non volatile memory when you enter this command You can display the current IP address with the config display command Each pair of hub boards shares a common device ID This ID must be configured into each board s non volatile memory at installation time with the config device id command Device Ids have the same form as IP addresses i e four dotted decimal components in the range O through 255 Any value may be chosen for device IDs The only requirements are that each pair of hub boards that make up a complete hub
8. COM cable from the designated PC COM port see page 49 step 7 to Hub A or B Configuration Port lo cated on the Communications Board 2 Open HyperTerminal program on your PC reference Configuring Your PC page 49 3 Connect and Log on to the DNH 4 Atthe gt prompt type download You should see the following response on the screen At this point the DNH Communications board is ready to receive the new firm ware version t100 HyperTerminal OF x File Edit View Call Transter Help lacal gt local download Download request received Gateway preparing to save current configuration This action will take several minutes Download request started Please transmit download file Connected 3 18 20 VT100 57600 8 N 1 SCROLL CAPS MLM y 5 From the Main Menu bar click on Transfer 60 e Data Communications Setup 2000585 001 Firmware Updates Continued MAC Address Con figuration 2000585 001 Click on Send Text File The Send Text File dialog box will appear In the Look in window choose the directory on your PC where the DNH files reside Typi cally this would be aai Send Text File Tix Look in Sasi c bot BEE a ADH bak Adhdiag cop a Adhproc a a Begin a Adh cop A Adhdiag h ADHROUTE bak fa CLITASK bak Adh h ja Adhdiag o Adhroute cop l Clitask cop ja Adh o A Adhled cop A Adhroute h l Clitask h jal Adh_drv bak A A
9. Chapter 5 Parts Catalog Introduction Overview This chapter is intended for maintenance personnel The Chapter provides a list of replaceable parts and assemblies for the Advance DataNET Hub DNH Subsequent information includes how to remove and replace the replacement part or assemblies How to Place an Parts can be ordered from Order Siemens Applied Automation Customer Service Order Entry 500 West Highway 60 Bartlesville Oklahoma 74003 Inside Oklahoma 918 662 7370 Outside Oklahoma 800 448 8224 toll free Internationally 001 918 662 7370 To ensure an immediate response to your request you should provide the following 2000585 001 Purchase order number If ordering by phone a confirming P O should be sent Address where the parts are to be shipped Address where the invoice is to be sent siemens Applied Automation part numbers as listed Quantity needed of each part Equipment Serial number or project number of the system espe cially for warranty related orders Preferred method of shipment Parts Catalog e 85 Available Parts Description The available DNH assemblies and parts with their applicable part num ber are shown below Part Description Ordering Number Module DataNET Hub Assembly 2015875 801 DataNET Hub Cable and Connector Kit 2020295 001 Cable cross link DataNET Hub Cable DC power supply board to power supply DataNET Filter AC line DataNET Hub Connector Phoenix p
10. enable this timeout timeout off Disables timeout The hub half will not auto matically log out the user regardless of the time elapsed since the user last issued a CLI com mand timeout on Re enables the five minute CLI timer Command Summary e 81 Command Descriptions Continued trace Command 82 e Command Summary The trace command controls the hub s frame tracing function This fea ture captures network messages sent and received by the hub half in that hub half s event buffer The trace command controls which mes Sages are captured in the event buffer Trace messages may be collected for the Ethernet port the cross link port any of the 8 downstream ports or the single upstream port Trace data may be filtered to collect only input frames output frames or data frames excluding protocol only frames such as poll acknowledge The hub will not capture any frames until the trace on command is given Before issuing trace on the user can set up trace filtering as described below By default tracing is set up for all frames on the Ethernet port To set up tracing the trace command is followed by a list of ports and a filter mode The port list is a comma separated list which may include any of Numerals 1 through 9 The downstream ports are num bered 1 through 8 and the upstream port is numbered 9 ethernet Specifies the Ethernet port Cross Specifies the cross link The filter spe
11. hub that has the inactive Ethernet connection is the B hub Remember only one Ethernet port can be active B HUB JUMPER CONNECTING PINS 1 amp 2 CABLE A HUB 2000585 001 Installation e 45 Ethernet Connections Continued 10BASE T Cable Requirements 46 e Installation The 10BASET data cable requires a minimum of two twisted pairs transmit pair and a receive pair The type wire used should conform to the AT amp T D inside wire DWI amp PDS or IBM Type 3 or Category 3 or 5 data grade or equivalent specifications The maximum length of a 1OBASET data cable can not exceed 328 feet 100 meters Typically to increase the distance each DNH will connect to a hub or other type of repeater medium converter The cable should be terminated at both ends with RJ 45 STP male connectors The table below shows the RJ 45 wiring connections for the DNH end of the cable 2000585 001 Chapter 3 Data Communications Setup Introduction Overview This chapter provides maintenance personnel instructions for making the operational settings for the Advance DataNET Hub DNH Once these operational settings are made the DNH will function as a communication router on an Advance Communication System ACS network IMPORTANT The DNH consists of two identical hubs A Half and B Half in one en closure Each hub half contains a communication board and RS 232 Configuration port Both communication boards m
12. normal event on an Ethernet link and occurs when both sides of the link attempt to transmit at the same time Excessive colli sions indicate a problem with the network Could be a cabling problem or bad network interface board Cross Link Status The cross link status LED is red when no link is established between the LED two DataNET Hub halves and is green when a connection is detected Usually a red indication is caused by the absence of the cross link cable or a faulty connection ae Tx LED blinks when the Ethernet port transmits a mes 64 e Data Communications Setup 2000585 001 Troubleshooting Description Configuration Conflicts Cabling errors Example NOTE 2000585 001 This chapter is intended for maintenance personnel Failure of the DNH to establish a link is the principle cause of most hub failures Typical problems are e Configuration Conflict e Link Signal Quality The DNH port green LED is off or intermittently flashes between green and red This can indicate a configuration conflict caused by a faulty ca ble or a wrong connection or improper configuration parameters 1 Inspect all cable and connectors for damage 2 Verify that the cable is connected to the correct Hub half and correct Port 3 Verify that the Channel A link is connected to the A Hub half and that the Channel B link is connected to the B Hub half 4 Verify that both Channels A amp B use the
13. re quired to support redundancy Two pairs of cable is required to support redundancy Shielded cable or unshielded cable in conduit is required for conformance to CE certified installation Two part connectors with screw terminals provided for field con nection Fiber optics connection by 62 5 multi mode cable corresponding to 10BaseFL Ethernet specification Two pairs of fibers are required to support redundancy Type ST mating connectors provided for field connection Approximately 3 mbps base transmission rate uses dedicated transmission technique that does not require collision detection to achieve high data throughput efficiency Two Tx Rx ST Style Connectors Each Hub half has an Ethernet connector but only the A Hub half is active Cable connection by 10BaseT twisted pair AT amp T D inside wire DIW amp PDS IBM Type 3 Category 3 or 5 data cable Shielded cable or unshielded cable in conduit is required for conformance to CE certified installation 8 pin RJ 45 connector female provided 10 mbps standard Ethernet Maximum length to adapter concentrator hub 100m 328 ft Standard RS 232 port for attachment of a laptop computer for configuring DNH IP Addresses and troubleshooting 2000585 001 DataNET Hub Specifications Continued Communication Comparisons DataNET Cable 2000585 001 The Table below compares key communication features between using Advance Data Hiway Ethernet or DataNET Advance D
14. same port number on their respective Hub half 5 Display the Port Status screen by connecting a PC to the Configura tion Port logging in and then typing display links Verify that all Ports are connected as expected see example below The following example shows that Port 1 on the B Hub is incorrectly con nected to Port 1 Channel A on device 172 16 99 7 local gt display links Port status for 172 16 99 3 B Port Medium Status A connected to B connected to 1 Copper Validation 172 016 099 007 1A Copper Unconnected Copper Unconnected Copper Unconnected Copper Unconnected Copper Unconnected Copper Unconnected Copper Unconnected Copper Unconnected O OND OBR WD Ethernet Offline The Ethernet port is always shown as Offline on the B Hub half because the Ethernet port is always disabled on the B Hub Data Communications Setup e 65 Troubleshooting Continued Configuration Parameter Errors The device may have an invalid or duplicate device ID IP address Sub net mask or iproute Verify the configuration parameters by connecting a PC serial port to the Configuration Port logging in and typing config display gt login password Applied Automation Advance DataNET Hub local gt config display Config type DATANET HUB address ip 172 16 99 7 subnetmask 255 255 0 0 address ethernet 00 c0 c9 01 20 a7 device ID 172 16 99 7 1 time server ip 0 0 0 0 2 3 Make sure each Hub ha
15. 2 or Non Use Metal Conduit wiring method Rated Areas Conductor type Power cable sized for circuit protection chosen Cenelec Zone 1 or Zone 2 Use Cable Gland wiring method Rated Areas Conductor type Power cable sized for circuit protection chosen and must be shielded Non Rated Areas or Rack Use Metal Conduit wiring method Mounting Conductor type Power cable sized for circuit protection chosen 2000585 001 Installation e 19 Site Wiring Requirements Continued DataNET Channels Table 2 1 Recommended DataNET Cable 20 e Installation The DataNET channel connections can be either copper wire or fiber optic cable The wiring method and cable type for DataNET is dependent upon the site requirements For cable requirements see Table 2 1 The following Table should be used when evaluating or selecting cable for an existing or new DataNET installation Cable Type Vendors amp P N Installation Notes Fiber Optic MM 62 5 125 2 Fiber Conductors 2 Conductor Copper Wire 4 Conductor Copper Wire Ethernet Cat 5 Un shielded Twisted pair UTP SAA P N 1270002 002 Industry Available from Multiple Vendors SAA P N 1686002 001 Belden P N 9182 for Belden Armored Cable order SAAI P N 1680000 002 SAA P N 1681000 003 Belden P N SSD1743 SAA P N 1681003 006 Industry Available from Multiple Vendors New Installation as an alternative to copper cable Max distance from Ana lyzer to Hub or betwe
16. 3 dB the port with the longest cable does not require a Signal Equalizer board This procedure determines the attenuator switch settings When cable lengths are unknown or the cable is other than the recommended cable Table 2 1 signals must be compared at the Hub to identify which Equalizer board settings are needed See page 37 IF you are using THEN go to Recommended Cable Page 19 Non Recommended Cable or when Page 37 Cable Lengths are Unknown Refer to Site Wiring Requirements Table 2 1 page 19 to determine the requirements for your site 2000585 001 DataNET Hub Signal Equalizer Board Continued Switch Setting for When cable lengths are unknown or the cable is other than the recom Unknown Cable mended cable Table 2 1 signals must be compared at the Hub to Lengths identify which Equalizer board settings are needed See page 37 Switch Settings for If the lengths of copper cable exceed those shown in Table 2 2 follow Known Cable Lengths this procedure See sample calculations page 36 This procedure will set switches SW1 SW2 and SW3 on the Signal Equalizer Board Measure and record the longest cable run in Feet con nected from a device to any HUB port The longest cable run does not require a Hub Signal Equalizer board Calculate the difference between the longest cable length and the length of cable connected to the port you wish to equalize Locate the difference in feet in the first column Fee
17. 4 volts p p 2000585 001 Signal Equalizer Settings for Non Recommended Cable or Unknown Cable Lengths Continued Instructions amp This procedure is for determining the DataNET Signal Equalizer Board Examples settings for other than the recommended cable or if the cable run lengths are unknown To determine appropriate settings for attenuator boards be gin by measuring signal levels at the various ports use either Option 1 or 2 Important The cables should be removed from all but one port at a time This allows the one connected port to come on line and oper ate thus allowing measurement of signal level Sequentially go through the ports and measure and record the signal level of the response Example i i i 2000585 001 Installation e 39 Signal Equalizer Settings for Non Recommended Cable or Unknown Cable Lengths Continued 40 e Installation Examine the recorded signal levels and determine the dB loss for each port refer to Table 2 2 Example With these signal levels port 4 is the lowest level so no at tenuation is required Its signal level becomes the reference for comparing the remaining ports signal levels The next strongest signal is on port 1 1 6 1 25 1 28 20 log 1 28 2 1 dB or ratio of 1 28 This is within the 3 dB variance allowed Use Selection 1 or 0 dB ratio 1 setting The next strongest signal is on port 2 1 75 1 25 1 4 20 log 1 4 2 9 dB or ratio of 1 4 Sin
18. 48 8224 toll free Internationally 001 918 662 7430 2000585 001 Wall or Rack Mounting Installation Instructions Package Configurations Wall Mounting 2000585 001 The Advance DataNET Hub should be e Installed in a location that is free from shock and vibration e Protected from direct sunlight and extremes of temperature e Itis recommended that the DNH be mounted within a shelter This prevents DNH from being exposed to outside environmental condi tions The unit is designed for standard wall or Zone 1 wall installations or 19 inch rack installations see Chapter 1 Figures 1 5 1 6 and 1 7 Shown below is a typical wall mount installation for NEC Division 2 or non rated areas The photo shows the unit wall mounted in an analyzer house Note that the AC Power Mains breaker is located in close proximity of the unit Also note the I O connections to the DNH AC BREAKER PROTECTION POWER amp DNH CABLE OR WIRING CONNECTIONS The mounting wall must be capable of supporting the weight of the unit see Chapter 1 Specifications and Figures 1 6 and 1 7 Wall Mount Installation Use four 5 16 inch M8 or 3 8 inch M10 lag bolts to mount the unit to the wall Mounting bolts must be secured to solid wall construction members such as studs and into the wall only Allow adequate clearance on the left side to allow the door to swing open Zone 1 Wall Mount Installation Use four 34 inch M20 lag bolts to mou
19. C Establishing a Connection Setting Network Address Assigning an IP Address Firmware Updates MAC Address Configuration System Status LEDs Troubleshooting OKRA oa Table of Contents e i Table of Contents Continued Chapter 4 Command Summary 69 Command Descriptions 69 Chapter 5 Parts Catalog 85 Introduction 85 Available Parts 86 ii e Table of Contents 2000585 001 Preface Audience amp Purpose This manual is intended to introduce users to the Advance DataNET Hub DNH It includes complete instructions for safe and proper installation of the DNH by installation personnel Chapter Contents The manual provides the following information Introduction Installation Data Communications Setup Command Summary Parts Catalog 2000585 001 Preface e iii Technical Support Getting Help Before You Call iv e Preface At Siemens Applied Automation we take pride in the on going support we provide our customers When you purchase a product you receive a de tailed manual which should answer your questions however our techni cal support service provides a special hot line as an added source of information If you require assistance call Inside Oklahoma 918 662 7430 Outside Oklahoma 800 448 8224 Internationally 001 918 662 7430 Before you call one of our technical support lines Please have the fol lowing information available to help our representative answer your questions 1 Unit
20. D Port 6 Port 1 Port LED LED LED LED LED LED LED LED Board Status LEDs During the power on self test all the LEDs will light briefly to indicate that all LEDs and their driving electronics are functioning Startup LED Status After a normal power up and a successful self test the green NORMAL system status LED will light In the event of a self test failure the red FAULT system status LED will light and the yellow WARN system status LED will flash an error code The same indication red LED on yellow LED blinking is used to indicate duplicate IP addresses 62 e Data Communications Setup 2000585 001 System Status LEDs Continued Yellow WARN LED The yellow WARN blink codes are shown below The yellow WARN Blink Codes status LED will light any time a link error is present That is any time at least one red FAULT link LED is lit the yellow status LED will also be lit green and red LEDs will be off Number of blinks Error RAM failure FLASH checksum error Invalid configuration Reserved Other hardware failure during self test Duplicate IP address detected Cross link failure NOOO FR WD Hub Port LEDs The Uplink and Downlink ports each have a status LED The LED for each port can either indicate red FAULT or green NORMAL Green NORMAL LED The green LED is on once the link has become established active It will remain on as long as the link is active i e polls responses are re ceived w
21. DNH subnetmask at the Local gt prompt type config netmask xxx xxx xxXx XXX Where XXX XXX XXX XXX IS the subnet mask for your network Typi cally this would be in the range 255 255 0 0 through 255 255 255 0 Press Enter To configure the device id at the Local gt prompt type config deviceid XXX XXX XXX XXX Where Xxx XxXx XXx xxx Is typically the IP Address of Hub A Press Enter To configure the ip router address at the Local gt prompt type config iproute x An IP router address is not always required This command sets the address of the IP router to which the hub half should send IP mes sages whose destinations do not reside on the hub s own network Your network administrator can help you choose an address This field can be left to the default setting of 000 000 000 000 if an IP router is not used Press Enter This completes the necessary DNH Configuration To display the current settings type at Local gt prompt config display Repeat steps 1 through 10 for Hub B half 2000585 001 Assigning an IP Address Overview IP Address How to Assign an IP Address Table 3 1 Available IP Addresses 2000585 001 Each individual hub board hub half in the system must have a unique IP address This 32 bit number defines each DNH s network ID and host ID The IP address must be assigned by the user before the unit is net work operational See Setting Network Address pag
22. OM cable from the designated PC COM see page 49 step 7 to Hub A or B Configuration Port located on the Communications Board 2 Open Windows HyperTerminal program on your PC reference Con figuring Your PC page 49 3 Connect and Log on to DNH reference Establishing a Connection page 54 Command Line Chapter 4 Command Line Summary provides definitions for all of the Definitions commands you will be using in this chapter Instructions 1 Log on locally to the DNH The Connect Screen will appear with the login information and the local prompt The local prompt indicates that your are communicating with the DNH connected directly to the PC t100 HyperTerminal OW E3 File Edt Miew Call Transfer Help gt login password Applied Automation Inc Advance Network Gateway Ver 4 1 local _ 4 Connected 0 00 32 VT100 57600 g f 1 SCROLL E F 2000585 001 Data Communications Setup e 57 Setting Network Address Continued Learning Hint See Assigning an IP Address page 59 to learn how to assign an IP Ad dress 2 11 58 e Data Communications Setup To configure the DNH IP address at the Local gt prompt type config address Ip XXX XXX XXX XXX Where Xxx Xxx Xxx xxx Should be replaced with a 12 digit unique network address See Assigning an IP Internet Protocol Address page 59 Press Enter The following message appears Configuration change verified To configure the
23. PS NUM Capture Printecho Data Communications Setup e 55 Establishing a Connection Continued Remote Connection Log On 3 Atthe gt prompt type login password and press J Enter The Connect Screen will appear with the login information and the local prompt The local prompt indicates that you are communicating with the DNH connected directly to the PC t100 HyperTerminal JoL Eile Edt Miew Call Transfer Help gt login password Applied Automation Inc Advance Network Gateway Ver A 4 1 local gt 4 Connected 0 00 32 VT100 57600 oT SCROLL E You are now ready to configure the DNH A hub or B hub with its own Network Address go to page 57 If your PC is connected to one of the DNH configuration ports you can connect to any other hub on the same network if you know the IP ad dress of the DNH 1 Open Windows HyperTerminal program on your PC 2 Press Enter twice the Command Request dialog box will appear 3 Atthe gt prompt type login password IP Address Once the password is verified the system responds with the login infor mation and displays the remote prompt which includes the IP address of the connected hub 56 e Data Communications Setup 2000585 001 Setting Network Address Description This section provides instructions to configure an Advance DataNET A or B Hub with its own Network Address Before You Begin 1 Connect a standard 9 pin C
24. Port 2 requires compensation for 1000 ft Selection 2 500 1500 ft Note that the lengths of Port 1 and Port 2 cable are the same as in Cal culation One however with the addition of a longer length for Port 6 new settings are required for Port 1 and Port 2 36 e Installation 2000585 001 Signal Equalizer Settings for Non Recommended Cable or Unknown Cable Lengths Description Before You Begin Cable Requirements Signal Measurements TIP Comparing Signals Example 2000585 001 This section is used to set the switches on the DataNET Signal Equalizer Board If e the type copper cable used for port connections is other than the recommended cable e the length of the cable runs are not known Read the section on the DataNET Hub Signal Equalizer Board page 34 as a prerequisite to this section When cable lengths are unknown or the cable is other than the recom mended cable Table 2 1 signal levels must be measured and com pared to determine the Signal Equalizer board settings Signals are compared by measuring the levels at each of the copper ports and then adjusting the Equalizer board settings to within 3 dB of the weakest signal If cable lengths are significantly different or if signals differ by greater than 4 dB you may have to disconnect the cables on the short lengths to activate the longer cables in order to make a measurement The DataNET HUB should bring up any single copper link independ
25. SI EM ENS Siemens Applied Automation Advance DataNET Hub DNH December 2001 User s Manual 2000585 001 Copyright Notice 2000 by Siemens Applied Automation Bartlesville Oklahoma 74003 U S A All rights reserved This publication is for information only The contents are subject to change without notice and should not be construed as a commitment representation warranty or guarantee of any method product or device by Siemens Applied Automation Reproduction or translation of any part of this publication beyond that permitted by Sections 107 and 109 of the United States Copyright Act without the written consent of the copyright owner is unlawful Inquiries regarding this manual should be addressed to Siemens Applied Automation Technical Communications 500 West Highway 60 Bartlesville Oklahoma 74003 U S A Table of Contents Chapter 1 Chapter 2 Chapter 3 2000585 001 Preface Technical Support Safety Practices and Precautions Introduction Overview DataNET Hub Operations DataNET Hub Specifications Installation Overview Unpacking and Inspection Wall or Rack Mounting Installation Site Wiring Requirements CE Installations Wiring Connections AC Power Mains Connections DataNET Copper Connections DataNET Hub Signal Equalizer Board Signal Equalizer Board with Generic Cable DataNET Fiber Optic Connections Ethernet Connections Data Communications Setup Configuring Your P
26. Serial Number and Date of Installation 2 Description of problem 3 LEDs status on Communication Boards 2000585 001 Safety Practices and Precautions Safety First Terms in This Manual Terms as Marked on Equipment Symbols in This Manual Symbols Marked on Equipment Grounding the Product 2000585 001 This product has been designed and tested in accordance with IEC Pub lication 1010 1 Safety Requirements for Electronic Measuring Appara tus and has been supplied in a safe condition This manual contains in formation and warnings which have to be followed by the user to ensure safe operation and to retain the product in a safe condition WARNING statements identify conditions or practices that could result in personal injury or loss of life CAUTION statements identify conditions or practices that could result in damage to the equipment or other property DANGER indicates a personal injury hazard immediately accessible as one reads the markings CAUTION indicates a personal injury hazard not immediately accessible as one reads the markings or a hazard to property including the equip ment itself This symbol indicates where applicable cautionary or other information is to be found A DANGER High voltage Protective ground earth terminal ATTENTION Refer to Manual 4 S Z A grounding conductor should be connected to the grounding terminal before any other connections are made Safe
27. ach sup ply can be powered from two independent power sources In either case disconnects must be provided for each input power source Before You Begin The DNH should be installed in a rack or wall mount see Wall or Rack Mounting Installation page 17 How you route the cable and wire to the DNH is dependent upon the site requirements See Site Wiring Require ments page 19 to determine the requirements for your site All wiring shall conform to the National Electrical Code NEC and or other national or local code requirements 26 e Installation 2000585 001 AC Power Mains Connections Continued Install 15 Ampere circuit breakers disconnect switches or receptacles in the incoming power supply lines or two switched receptacles near the DNH unit This will ensure DNH power supplies will be completely separated from each of the power sources Label the breakers or receptacle boxes to make sure that the circuits are clearly identifiable Note For one input power sources only a single breaker box or switch receptacle is required Remove wiring access plates from DNH Punch holes as required for either conduit or cable gland connectors for both power and I O lines Install connectors and replace the plates Route input power in accordance with pertinent electrical codes and regulations to DNH Use entry holes provided in step 4 Locate the AC Power Input connector To make the AC connections easier the Power Input Conne
28. ain multiple cables For CE installations use only cable gland wiring method Cable Type Recommend Belden 9182 or equivalent Other cables with individually shielded pairs can be used but decreased distance is al lowed typically 800 1000 feet for typical instrumentation cable The DataNET channel connections can be either copper wire or fiber optic cable The wiring method and cable type for DataNET is dependent upon the site requirements The following pertains when using copper wire See Page 23 CE Installations Use approved Conduit wiring method Conduit may contain multiple ca bles Adhere to all Federal and local electrical code requirements Cable Type Duplex fiber 62 5 125 micron see Table 2 1 Connection Type ST fiber connectors Connect these to the appropriate transmitter and receiver ports for the respective channel Installation e 21 Site Wiring Requirements Continued Cenelec Zone 1 or Zone 2 Rated Areas Non Hazardous Areas or Rack Mounting Ethernet Communica tion Links CE Installations NEC Div 2 or Non Hazardous Areas Cenelec Zone 1 or Zone 2 Rated Areas Non Hazardous Areas or Rack Mounting 22 e Installation Use Cable Gland wiring method Each cable gland allows entry of one duplex fiber cable Cable Type Duplex fiber 62 5 125 micron Connections Type ST fiber connectors Connect these to the appropri ate transmitter and receiver ports for the respective channel Use appr
29. at do The port through which the station is reached is displayed in the right hand column This generates a display similar to the following local gt display MAC Address IP Address Port 00 10 5A 19 08 76 172 16 8 208 Port 9 0 00 A0 24 11 EC 7D 172 16 8 209 Port 9 1 00 80 44 11 22 32 172 16 9 205 Port 1 2 02 11 22 44 32 10 LIZ 61629206 Ethernet 3 00 60 47 8D F6 20 172 16 9 207 Local 4 00 80 44 44 33 222 Crosslink 5 00 A0 24 11 DD 70 Port 3 6 total entries in SAT 7 local gt Command Summary e 73 Command Descriptions Continued display links Command Example local gt display links Port status for Port Medium 1 Copper 2 Copper 3 Copper 4 Copper 5 Copper 6 Copper 7 DIAG Copper 8 Copper 9 Copper Ethernet Cross local gt Example local gt display links 3 download Command 74 e Command Summary This command displays the hub half s link state table The link state table indicates for each link whether or not the link is currently connected unconnected or undergoing link validation validation For DataNET links including the cross link the table also gives the device to which the link connects DataNET devices are identified by their device IDs In this example port 7 is running in diagnostic mode see test com mand and port 1 is validating its link to device 8 8 8 8 Port 5 has been taken offline either with the port stop command or because the
30. ata Hiway Ethernet DataNET Speed Redundant Number of Units in 248 Maxum System 1200 for an existing or new DataNET installation Cable Type Vendors amp P N Installation Notes Fiber Optic MM 62 5 125 2 Fiber Conductors 2 Conductor Copper Wire 4 Conductor Copper Wire Ethernet Cat 5 Unshielded Twisted pair UTP SAA P N 1270002 002 Industry Available from Mul tiple Vendors SAA P N 1686002 001 Belden P N 9182 for Belden Armored Cable or der SAA P N 1680000 002 SAA P N 1681000 003 Belden P N SSD1743 SAA P N 1681003 006 Industry Available from Mul tiple Vendors 14 2 KB Sec 10 M baud 2 048 M baud 1200 The following Table should be used when evaluating or selecting cable New Installation as an al ternative to copper cable Max distance from Analyzer to Hub or between Hubs 1520 meters 5000 ft Recommended for Single Channel Max distance from Analyzer to Hub or between Hubs 1520 meters 5000 ft Recommended for Dual Channel Max distance from Analyzer to Hub or between Hubs 1520 meters 5000 ft Recommended for short distances or within shelters Max distance from analyzer to hub or between hubs 600 meters 2000 ft Introduction e 9 DataNET Hub Specifications Continued Figure 1 5 Rack Mount Dimensions Dimension Table Figure 1 3 Description A Rack Height 6 97 177 Rack Total Width 19 483 Rack Mounting Holes Spacing 18 43 Rack De
31. ce 2 9 dB meets the 3 dB variance allowed selection 2 can be used 3 5 dB loss which will put the level at about 0 6 dB below the signal on port 4 Next is the signal on port 8 4 5 1 25 3 6 20 log of 3 6 11 1 dB or ratio of 3 6 Since this signal is 11 1 dB stronger than the signal on port 4 the attenuator board on port 8 needs to be set to selection 5 11 dB loss This should put its signal at about 0 1 dB above the signal of port 4 2000585 001 Signal Equalizer Settings for Non Recommended Cable or Unknown Cable Lengths Continued 20 log of 3 84 11 7 dB or ratio of 3 84 Since this signal is 11 7 dB stronger than the signal on port 4 the attenuator board on port 6 needs to be set to selection 5 11 dB loss This should put this signal at about 0 7 dB above the signal on port 4 Selection 6 could also be used for 12 3 dB loss if several of the other boards had been set for signals slightly below the port 4 signal level Ensure that the responses on all ports are within 3 dB of each other Example Port Resulting signal level refer enced to port 4 1 2 1dB 0 7 dB ees 2000585 001 Installation e 41 DataNET Fiber Optic Connections Description DataNET Fiber Optic Coupler Before You Begin RX amp TX Connections Important 42 e Installation All DataNET Fiber Optic uplink and downlink port connections are made through the DataNET Fiber Optic Coupler The coupler PC ca
32. cification may be one of data Trace all data frames i e exclude frames that do not carry encapsu lated Ethernet data input Trace only input data frames output Trace only output data frames all Trace all frames including protocol only frames on DataNET links The port and filter options may be commanded separately or combined into a single command trace ethernet all sets up tracing for all frames on the Ethernet link trace 2 input 2000585 001 Command Descriptions Continued sets up tracing on downstream port 2 for input data only trace crosslink output sets up tracing of frames sent on the cross link The filter may also specify frames for a specific station by declaring an IP address The station filter cannot be combined with the port specifica tion in a single command To collect data from or to a station the com mands would look like trace 9 trace 172 16 9 201 trace on The first command specifies the upstream port for trace data The sec ond command filters the trace data to a single station s frames and the third command enables tracing Finally the trace parameters may be reset to their default values tracing all frames on the Ethernet port without any address filtering with trace reset validation timeout This command sets the time in seconds that the hub half will wait for Command the link validation diagnostics to complete validation timeout With no paramet
33. ctor comes apart Simply loosen the two recessed captive screws grasp the top portion of the connector and pull it straight out from the base connector Loosen the top wire retaining screws from the removed connector Strip the insulation 1 4 inch back from each of the input power leads Insert each lead in the correct location and tighten down the retaining screws 2000585 001 Installation e 27 AC Power Mains Connections Continued Plug the connector back into its base and secure the two recessed captive screws If using redundant power supplies repeat steps 6 and 7 If not use connecting wires to parallel connect to the other power supply Locate the DNH chassis ground lug and connect wire from it to the building s ground connection Inspect all connections for shorts or loose connections You are now ready to connect the DataNET channels go to 28 e Installation 2000585 001 Connections The DNH consist of two identical hubs in one enclosure The left side is usually the DataNET A Hub and the right side is the DataNET B Hub Each hub contains two DataNET Hub boards and power supplies Figure 2 1 shows the layout of the DataNET Hub board All port connections are made to the port connectors located on each communication board The DataNET ports can accept copper and or fiber optic cables In Data Hiway installations the DNH can use the existing Data Hiway cables A amp B Hubs Only the Et
34. d for the input power wiring The shield must be terminated at the DNH in a 360 degree termination at the enclosure bulkhead use Siemens Applied Auto mation P N 2015729 001 contained in the CE Installation Kit or an equivalent part For Zone 1 Installation use Siemens Applied Auto mation P N 1311001 014 Installation Kit 2 The DataNET copper cables shields must be terminated in a 360 degree termination at the enclosure or bulkhead use Siemens Ap plied Automation P N 2015729 001 contained in the CE Installation Kit or an equivalent part For Zone 1 Installation use Siemens Ap plied Automation P N 13111001 014 Installation Kit Installation e 23 CE Installations Continued 24 e Installation 3 A split ferrite filter must be clamped to DataNET copper wire and fixed immediately to the outside of the DNH use Siemens Applied Automation part number 1173000 013 ferrite contained in the CE In Stallation Kit This is required to meet the Conducted Immunity re quirement for CE EMC Heavy Industrial All other CE EMC Heavy Industrial requirements are met without the use of a ferrite clamp Shielded Ethernet cable must be used for all Ethernet connections in and outside the GC and coupled through the enclosure using a shielded RJ 45 coupler use Siemens Applied Automation part num ber 1183200 003 contained in the CE Installation Kit A mounting plate Siemens Applied Automation part number 2020261 001 is also available to accomplis
35. dhled h ja Adhroute o ja Clitask o A adh_drcpp jal Adhled o Al Adhtask cop A Common h A Adh_drv h a Adhproc cop Adhtask h a Cxxini o a Adh_dr o A Adhproc h a Adhtask o ja Dialog o El File name Gateway hex Files of type jal files 7 Cancel Under Files of type select All files Under File name type in the upgrade version file name DataNET hub hex This will start the down loading of the files Once the download has begun the block numbers will be displayed as they are transmitted The upload will take approximately 45 minutes to complete 9 Repeat steps 1 through 8 for Hub B half To configure the Ethernet MAC address after the firmware upade per form the following steps 1 At the Local gt prompt type config address etherenet XX XX XX XX XX XX where XxX XxX XX XX XX XX is the MAX address for the DataNET Hub board Typically the address would be in the range 00 c0 c9 01 21 00 through 00 c0 c9 01 21 ff 2 Press J Enter to complete your entry Data Communications Setup e 61 System Status LEDs Description The Advance DataNET Hub Communication boards have status LEDs for monitoring the DNH operation Figure 3 1 Status LEDs BOARD STATUS LEDs NORMAL Blinking Green WARN Blinking Yellow FAULT ON Solid RED CONFIGURATION PORT RS 232 NORMAL WARN FAULT ETHERNET STATUS 2 SEL AB i ETHERNET PORT Hr ACTIVE HUB A ONLY CROSS LINK STATUS LE
36. e 57 for instructions on how to enter the IP address The IP Address consists of a 32 bit number divided into four 8 bit fields Each field is expressed as a decimal number from 1 to 255 with each field separated by periods This is referred to as dotted decimal nota tion For example 192 16 9 52 is an IP address Ask your network administrator to assign you an IP Address or if the DNH will be in a closed plant area and not connected to the Internet you can select an address from Table 3 1 192 165 0 1 192 165 0 15 192 165 0 2 192 165 0 16 192 165 0 3 192 165 0 17 192 165 0 4 192 165 0 18 192 165 0 5 192 165 0 19 192 165 0 6 192 165 0 254 192 165 0 7 192 165 1 254 192 165 0 8 192 165 2 254 192 165 0 9 192 165 3 1 192 165 3 254 192 165 0 10 192 165 0 11 192 165 0 12 192 165 0 13 192 165 0 14 Data Communications Setup e 59 Firmware Updates Description Periodically we will provide our users with firmware upgrades Perform the following instructions to down load a new DNH firmware upgrade to the Communications board A firmware upgrade will take approximately 45 minutes The firmware upgrade must be loaded into both Hub A and B halves The upgrade must be applied two both communication boards Instructions The following procedure assumes that the HyperTerminal program is residing on your PC and has been configured the DNH is operational and the PC is connected to the DNH 1 Connect a standard 9 pin
37. e programs you must have a logon password 54 e Data Communications Setup 2000585 001 Establishing a Connection Continued Password Format How to Change Password How to Log Out How to Log On 2000585 001 A password name can consist of any combination of alphanumeric char acters The alphanumeric name must have a minimum of five and a maximum of twenty characters The DNH Communication board is shipped from the factory with the word password entered as the de fault password name The user can change the password name at any time To do this login using the current password then type password stand stand Where the word stand is your new password entered twice to verify that it was properly entered You may log out or close the Configuration and Diagnostic program at any time by typing logout However the Configuration and Diagnostic program will automatically log you out after five minutes The following procedure assumes that the HyperTerminal program re siding on your PC has been configured to communicate with the DNH and the PC is connected to the DNH A or B Configuration Port 1 Open Windows HyperTerminal program 2 Press J Enter twice The following dialog box appears vt100 HyperTerminal lolx File Edit View Call Transfer Help Command request rejected No response from target User logged out gt Na Il Connected 0 02 01 VT100 s76008 N 1 SCROLL CA
38. en Hubs 1520 meters 5000 ft Recommended for Sin gle Channel Max distance from Ana lyzer to Hub or between Hubs 1520 meters 5000 ft Recommended for Dual Channel Max distance from Ana lyzer to Hub or between Hubs 1520 meters 5000 ft Recommended for short distances or within shelters Max distance from ana lyzer to hub or between hubs 600 meters 2000 ft 2000585 001 Site Wiring Requirements Continued Copper Wire Site Requirements CE Installations NEC Div 2 or Non Hazardous Rated Areas Cenelec Zone 1 or Zone 2 Rated Areas Non Hazardous Areas or Rack Mounting DataNET Fiber Optic Cable Connections CE Installations NEC Div 2 or Non Hazardous Areas 2000585 001 The following information pertains when using copper wire See Page 23 CE Installations Use approved Conduit wiring method Conduit may contain multiple ca bles Adhere to all Federal and local electrical code requirements Cable Type Refer to Table 2 1 Use Cable Gland wiring method Each cable gland allows entry of one cable Cable Type Recommend Belden 9182 or armored Belden 9182 or equivalent The proper cable gland must be used to connect the armor or shield to the HUB enclosure Other cables with individually shielded pairs can be used but decreased distance is allowed typically 800 1000 feet for typical instrumentation cable Use approved flexible non metallic conduit wiring method Conduit may cont
39. ent of the Equalizer board setting Failure implies a connection problem or a cable with excessive loss The smallest signal longest cable is used as the reference This port doesn not need a Signal Equalizer board Attenuate all other siganl lev els greater than 3 dB 1 4 times larger to a level within 3 dB of the smallest signal All signals should be within a range of 0 7 to 1 4 times the amplitude of each other Use one of the two Connection Point options described on the following pages to measure and evaluate the signal level of the slave device dB 20 log V 1 V 2 6 dB is factor of 2 difference in amplitude V 1 voltage measured for longest cable run V 2 voltage measured for switch setting port cable run Installation e 37 Signal Equalizer Settings for Non Recommended Cable or Unknown Cable Lengths Continued View Measurements Option 1 Connection Point Option 2 Connection Point 38 e Installation Signals are viewed with an oscilloscope Scope characteristics 10 MHz bandwidth capable of measurement sen sitivity of 0 2 v div to 1 0 V div A typical two channel scope can be em ployed using the channel 1 channel 2 capability Use X10 probes to reduce the loading of signals Connect the two scope probes to the positive and negative terminals of the HUB Communications board not the Equalizer board of the channel to be measured Alternatively a connection can be made to the leads of the fuses for t
40. entry holes each onleftandrightsides M25x1 5 R_ 2threadedcable entry holes on bottom M2515 S 2threaded cable entry holes ontop 4 X11 NPT T 2threaded cable entry holes ontop A X14 NPT 2000585 001 Introduction e 13 Chapter 2 Installation Overview Introduction This chapter is intended for installation personnel After completing the procedures in this chapter the Advance DataNET Hub DNH will be ready for operation To ensure a safe and trouble free installation follow all procedures and associated advisory information WARNING Ensure that all AC Power Mains Specification requirements and adviso AN ries are met Failure to do so and operating the equipment in a manner not specified may impair the safety protection provided by the equip ment Installation Overview Before beginning the installation process read through this Chapter to familiarize yourself with the installations requirements This will aid you to ensure a safe and trouble free installation Wiring Connections DataNET Copper Connections DataNET Hub Signal Equalizer Board Hub Signal Equalizer Board with Generic Cable DataNET Fiber Optic Connections AC Power Mains Connections Ethernet Connections 2000585 001 Installation e 15 Unpacking and Inspection Description Receipt of DNH Unpacking Reporting Damage 16 e Installation This section provides the steps to follow when receiving and un
41. ers the com mand displays the current link test timeout setting validation timeout 1000 Allows 1 second for the link di agnostics to complete 2000585 001 Command Summary e 83 Command Descriptions Continued verbose Command 84 e Command Summary This command controls the event buffer display s verbose mode When verbose mode is on the list command shows an expanded format for captured frames Local gt verbose on local gt list MESSAGE NUMBER IP DESTINATION IP SOURCE HW DESTINATION 01 02 03 04 05 06 HW SOURCE TYPE LENGTH 00 10 20 30 40 50 O1 11 21 31 41 51 02 12 22 32 42 03 13 23 33 43 04 14 24 34 44 MESSAGE NUMBER HW DESTINATION 01 02 03 04 05 06 HW SOURCE TYPE MESSAGE NUMBER IP DESTINATION IP SOURCE HW DESTINATION 01 02 03 04 05 06 HW SOURCE TYPE LENGTH 00 01 02 03 04 10 11 12 13 14 MESSAGE NUMBER HW DESTINATION 01 02 03 04 05 06 HW SOURCE TYPE 502 172 16 9 188 172 16 9 85 01 02 03 04 05 06 1234 82 05 06 07 08 09 OA 15 16 17 18 19 1A 25 26 27 28 29 2A 35 36 37 38 39 3A 45 46 47 48 49 4A 503 01 02 03 04 05 06 0024 504 172 16 9 188 172 16 9 85 01 02 03 04 05 06 0024 32 OB 1B 2B 3B 4B OC 1C 2C 23G 4C OD 1D 2D 3D 4D OE 1E 2E 3E 4E OF 1F 2 F 3 F 4F 05 06 07 08 09 OA OB OC OD OE OF 15 16 17 18 19 1A 1B 1C 1D 1E 1F 505 01 02 03 04 05 06 0208 2000585 001
42. face to see event buffer messages The list command has an inter nal current sequence number that is set to 1 each time a Configuration Management login occurs The list command will show 21 messages each time it is entered beginning with the current sequence number The current sequence number is updated each time list is used A new cur rent sequence number can be entered with the list command local gt list 10 08 11 08 12 08 13 08 14 08 15 08 16 08 17 08 18 08 19 08 20 08 21 08 22 08 23 08 24 08 25 08 26 08 27 08 28 08 29 08 30 08 31 08 LOG Port 14 22 42 LOG User 14 27 00 LOG Port 14 29 92 LOG Port 14 29 93 LOG Port 14 33 92 LOG Port 14733493 LOG Port 20 22 52 LOG Port 20 22 56 LOG Port 20 26 52 LOG Port 20 26 56 LOG Port 20 54 84 LOG Port 21 10 27 LOG Port 21 13 07 LOG Port 23 23 77 LOG Port 23 23 77 LOG Port 23 23 77 LOG Port 23 46 32 LOG Port 23 50 32 LOG Port 27 43 41 LOG Port 27 43 41 LOG User 34 45 48 LOG User 41 05 05 10 10 Start probing logged in 10 Start link validation 1 Start link validation 10 Link up this half 1 Link up both halves 4 Start link validation 6 Start link validation 4 Link up both halves 6 Link up this half 5 Take port off line 7 Take port off line 7 Start test mode 1 Link dow
43. figure the device id at the Local gt prompt type config deviceid XXX XXX XXX XXX Where Xxx XxXx XXx xxx Is typically the IP Address of Hub A Press Enter To configure the ip router address at the Local gt prompt type config iproute x An IP router address is not always required This command sets the address of the IP router to which the hub half should send IP mes sages whose destinations do not reside on the hub s own network Your network administrator can help you choose an address This field can be left to the default setting of 000 000 000 000 if an IP router is not used Press Enter This completes the necessary DNH Configuration To display the current settings type at Local gt prompt config display Repeat steps 1 through 10 for Hub B half 2000585 001 Configuring Your PC Continued 2000585 001 8 Scroll each field and select the following Port Settings Bits per second 5 600 Data Bits 8 Parity None Stop bits 1 Flow Control None 9 Click OK The Main Menu will appear 10 Click File and choose Properties from the drop down menu The Advance DataNET Hub Properties box will appear Advance DataNET Hub Properties El ES Phone Number Settings Function arrow and ctrl lt eys act as amp Terminal keys windows keys Emulation VTIOO 1 eer e Terminal Setup Backecroll buffer lines S00 Feen thee times when ennnecting or diseonnectiag ASCI Setup
44. h this If needed for Zone 1 installation Siemens Applied Automation part numbers 2017984 001 and 2017985 001 are available to maintain purge If a PG gland is used to make the 360 degree termination of the Ethernet shield at the en closure the Installation Kit and other parts are not required 2000585 001 Wiring Connections Description Two removable access plates provide power and I O entry through the underside of the DNH The plates can be punched to accommodate con duit or cable gland connectors ACCESS PLATES Before You Begin How you route the cable and wire to the DNH is dependent upon the site requirements See Site Wiring Requirements page 19 to determine the requirements for your site All wiring shall conform to the National Electrical Code NEC and or other national or local code requirements Types of Connections AC Power Mains Connections DataNET Copper Cable Connections DataNET Fiber Optic Cable Connections Ethernet 10BaseT Connections 2000585 001 Installation e 25 AC Power Mains Connections DNH Power Supply Each of the DNH electronic modules has a Power Supply Assembly lo cated below the DataNET Hub board Each power supply can accept inputs from 85 264 VAC 47 63 Hz without the need for setting switches or jumpers AC INPUT CONNECTOR Installation Note Depending upon the user configuration the power supplies can be con nected in parallel and powered from a single power source or e
45. he selected channel e Set time base to 1 or 2 millisecond per division e Observe two sequential signal envelopes of 3 4 millisecond length The first signal envelope is the poll from the HUB to the slave device and the second is the response back from the slave device The reading from the poll should be 5 volts p p The response may be from 5 volts p p for a short cable with 150 ohm setting to 0 75 or 0 8 volts p p for a maximum cable length Responses from a short cable with 100 ohm impedance settings are 4 volts p p If a large amount of common mode line frequency interference is present the above choice may be unsuitable In this case Option 2 is recom mended This option observes the signal across the termination resistor for the selected port Using this option connect the two scope probes across an unused im pedance jumper location For instance if the jumper is in the 120 ohm location connect the probes on the two pins for the 100 ohm jumper po sition A short adapter cable with a two positioned socket on one end simplifies this connection Both channels should be ac coupled to avoid interference from the 2 5 Volts dc common mode level Using this method there is only one reading the response message which is seen Responses may be from 5 volts p p for a short cable with 150 ohm setting to 0 75 or 0 8 volts p p for maximum cable length Responses from a short cable with 100 ohm impedance settings are
46. hernet port on the A Hub is active The cable connection be tween the two halves determines which is the A or B Hub half See illustration below A jumper wire visible across pin 1 and pin 2 on the ca ble connector J14 indicates that this side is the A Hub half B HUB JUMPER CROSS LINK CABLE PINS 182 A HUB Before You Begin 1 The wiring method conduit or cable glands and cable type you use for the installation is dependent upon the site requirements Review the Site Wiring Requirements Table 2 1 page 19 to determine the requirements for your site 2 Make a block diagram of your existing or proposed network The block diagram should show all devices and the placement of the DNH If copper cable is being used the diagram should show the es timated cable lengths for each run This information will be neces sary in determining if any DataNET Hub Signal Equalizer Boards are required see page 34 3 Read through this section to familiarize yourself with port locations terminal and jumper assignments and wiring procedures Refer to Figure 2 1 DNH Communication Board Layout 2000585 001 Installation e 29 DataNET Copper Connections Continued DataNET Ports Figure 2 1 DNH Commu nication Board Layout PORT INTERFACE eee CONNECTORS Port Connections 30 e Installation see Figure 2 1 Each DataNET Hub board has nine DataNET ports One of the DataNET ports is dedicated to
47. hub detected a loop in the DataNET topology 161 218 54 235 A Status A connected to B connected to Validation 161 218 54 232 1A 161 28 54 233 1B Unconnected Unconnected Unconnected Offline Unconnected Unconnected Unconnected 161 218 054 251 1A 161 218 054 252 1B Unconnected Up Connected If a hub port is connected to an Advance Network Gateway with Data NET the display link command will also provide enhanced configuration information when the link number is specified Use this command to load new firmware into the hub half via the RS 232 Configuration port The procedure for firmware download is Make sure you have a hub_rom mot file available for download 2 Log into the target Hub through the Configuration port using Hyper Term 3 Type download at the hub s prompt gt The hub will then prompt to begin transmitting the download file 4 Transmit the download file Use the HyperTerm Transfer gt Send Text File command Find the hub_rom hex file using the browser window You may have to select Show all files in the Files of type window to see the hub_rom mot file 2000585 001 Command Descriptions Continued 5 After you have selected the hub_rom mot file and click on OK HyperTerm will begin transmitting records to the Hub The Hub will respond by periodically displaying addresses as the file downloads 6 After approximately 5 minute
48. isplays the transmit window for the HDLC protocol used by DataNET This is the number of I frames that a station may send before it must receive an acknowl edgment from the receiving station Sets the transmit window used by all ports on the hub The parameter num must be a number 1 through 7 The de fault window size is 7 The hub does not store the window size parameter in non volatile memory so non default values will be lost after a reset The poll delay parameter applies only to ports 1 8 on a hub It controls the time a hub will wait between polls of any port As soon as a hub finishes an exchange of messages on one port it will normally advance immediately to the next con nected port and begin the next ex change of messages If poll delay is set to a non zero value the hub will enforce a delay before each new exchange be gins The poll delay is given in millisec onds and defaults to zero no delay Sets the poll delay to the value given in milliseconds Actual times are rounded down to the nearest ten milliseconds This parameter gives the delay in milli seconds that a hub will enforce between message exchanges with a particular Slave device That is before initiating a poll to a slave device the hub will make sure that at least this much time has elapsed since the last poll to the same device This keeps a hub from consum ing all of the slave device s processing time by co
49. ithin a timeout period The green LED will blink off 100mSec for each information carrying frame sent or received with a minimum of 100mSec on time between blinks When the hub detects an address loop the same IP address is being used on multiple hubs the port is disabled and green LED will remain off until the user changes the IP addresses and resets the port Red FAULT LED On active links the hub indicates transient errors by blinking the red LED briefly 100mSec The red LED is on if the link has been active since the hub was last powered on or reset but has subsequently become in active A link will become inactive if the wires are disconnected shorted or a message is dropped after three retries If a channel has never been active since the DNH was last powered up or reset both LEDs will be off This is intended to reduce spurious error indications for channels that are completely disconnected 2000585 001 Data Communications Setup e 63 System Status LEDs Continued Ethernet Port LEDs There are four Ethernet Link Status LEDs Link Active LED is Green on when a link is established success fully between the Ethernet port and associated Ethernet Hub or repeater lf LED is OFF check for a bad cable faulty wiring or loose connections Rx Rx LED blinks when there is data reception on the Ethernet port TX sage Collision Collision LED blinks when there is a collision on the Ethernet link A collision is a
50. k baud Data bits 8 Parity none Stop bits 1 Flow control none Instructions This procedure uses the Windows HyperTerminal program to configure your PC to communicate with the DNH 1 Click the Start button and from the Program menu locate the HyperTerminal Icon 2 Click the HyperTerminal icon to start the Program The Connection Description dialog box will open Connection Description als Hew Connection Enter a name ard choose an icon for the connection Hame JAdvanice DataNET Hub 3 Inthe Name field type in a Connection Name Example Advance DataNET Hub 4 Inthe Icon field select an Icon to represent the name selected 2000585 001 Data Communications Setup e 49 Setting Network Address Continued Learning Hint See Assigning an IP Address page 59 to learn how to assign an IP Ad dress 2 11 58 e Data Communications Setup To configure the DNH IP address at the Local gt prompt type config address Ip XXX XXX XXX XXX Where Xxx Xxx Xxx xxx Should be replaced with a 12 digit unique network address See Assigning an IP Internet Protocol Address page 59 Press Enter The following message appears Configuration change verified To configure the DNH subnetmask at the Local gt prompt type config netmask xxx xxx xxXx XXX Where XXX XXX XXX XXX IS the subnet mask for your network Typi cally this would be in the range 255 255 0 0 through 255 255 255 0 Press Enter To con
51. k connects to the DNH A Hub and one link connects to DNH B Hub Both links can carry network traffic in normal operation In the event that one link becomes unusable for any reason the DNH will transparently and automatically re route traffic on the re maining redundant link Figure 1 4 DNH Links DataNET DNH and Maxum Com An Advance Network Gateway or Maxum Analyzer that has an Advance Boards Network Communication Board DataNET ANCB DN can connect to a DataNET hub via any of the eight down stream ports The ANCB DN within these devices functions identically to a DNH 4 o Introduction 2000585001 DataNET Hub Operation Continued DataNET Switching Definitions Transparency 2000585 001 DataNET switching operates by dynamically and automatically learning the topology of the network i e which MAC IP addresses are reachable through which paths as Ethernet frames are forwarded through the net work The DataNET hubs require no static initialization of network data in order to perform their switching function Each DNH can learn as many as 1200 IP addresses This allows the hub to accommodate up to 1000 instruments analyzers etc and still be able to switch frames from another 200 devices workstations etc DataNET switching accommodates any Ethernet encapsulated protocol The hub will also snoop IP datagrams RFC 894 and ARP messages RFC 826 to learn the locations of all devices using IP
52. l the messages in the internal trace buffer Start continuous list mode by entering list on All the messages in the internal buffer will be displayed and any new mes sages will be listed as soon as they are collected into the buffer Termi nate the continuous listing mode by entering a Control C key combina tion To clear all events from the event buffer use list clear This command logs the user onto the hub half and gives the user per mission to access display and configure the hub half The format for the login is a minimum 5 character maximum 20 character alphanumeric password The user can login to a remote device by typing the IP ad dress of the remote device after the login and password parameter Ex ample login password 172 16 9 12 Command Summary e 79 Command Descriptions Continued logout Command This command logs the user out of a session The user must be logged out of the local device to login to a remote device netstat Command This command may be used to display statistics for the DataNET sec port Command tion If a link number is given statistics are displayed for just that link If no link number is given summary statistics for all DataNET links are given If the keyword clear is given the statistics counters are reset to zero netstat dn link clear Example local gt netstat dn clear SCC 2 Subordinate Link 9 RUNNING SCC 3 Principal mux Links 1 through 8 RUNNING
53. lf has a unique IP address and that both Hub halves have the same device ID Usually the device ID is set to the IP address of the A Hub Advance Network devices periodically broadcast their status for diagnos tic and network routing purposes The Subnet mask must be identical on all Advance network devices Maxum analyzer NAU ANCB DNH and connected to a single net work for the broadcast message to be received properly If a remote de vice does not show up in the device routing table verify that the remote device matches the local device Subnet mask 66 e Data Communications Setup 2000585 001 Troubleshooting Continued Signal Quality Problems Instructions 2000585 001 lf a DNH port green LED is off or intermittently flashes between green and red the signal levels for that port are either too high or low relative to the other Hub ports If a port link fails to connect at all the port can be set to a test mode The test mode will cause port activity to occur approximately every 50 milli seconds instead of approximately every 7 seconds as it would for an un connected link While in the test mode the signal for that port can be measured 1 Connect a standard 9 pin COM cable from the designated PC COM port see page 49 step 7 to the Configuration Port on the hub half containing the port in question 2 Open HyperTerminal program on your PC reference Configuring Your PC page 49 3 Connect and Log o
54. llation with Metallic Conduit Installation without Metallic Conduit 2000585 001 This section should be used for installation sites that must conform to CE Conformite Europeene Certification Typically this does not apply to installations outside the EC unless the equipment was purchased with the explicit requirements and expectations that it shall conform to EC Electromagnetic and Radio Frequency Interference EMI RFI rejection specifications Available from Siemens Applied Automation CE Installation Kit P N 2020264 001 This kit has all the parts for all the installations referenced in this section The following information pertains to CE Installation of General Purpose Zone 1 and Division 2 Equipment For Zone 1 Installations all cabling is terminated in the DNH Zone 1 Enclosure The preferred method is to route the field wiring in metallic conduit If metallic conduit is used unshielded power and signal wires can be used The power and signal wires DataNET or Ethernet must be routed in separate conduit Using flexible conduit and or armored cable is equivalent to using steel conduit Flexible conduit or armored cable must have its flexible conduit and or armoring conductivity 360 degree terminated at its entry to the DNH enclosure or bulkhead If conduit is not used the following installation practices must be used to ensure that the CE certification remains valid 1 A shielded power cord or cable must be use
55. lug block 3 position 5 08 spacing Connector Phoenix 3 position 5 08 spacing Connector 3 position plug 3 81 spacing Connector 6 position plug 3 81 spacing DataNET Hub Signal Balancing Attenuator Board 2020948 801 PCBA DataNET Hub signal balancing at tenuator DataNET Hub Fiber Optic Coupler Board Non 2015823 801 potted PCBA DataNET Hub fiber optic coupler non potted Hub 8 ports of 10BaseT plus AUI port 1193900 009 Hub 8 ports of 10BaseT plus fiber optic port 1193900 010 Hub 8 ports of 10BaseT plus fiber optic bridge 1193900 01 1 p ort Hub 8 ports of 10BaseT plus 10BaseT bridge 1193900 012 port Hub 8 ports of 10BaseT plus BNC port 1193900 014 Repeater 10BaseT to fiber optic AC powered 1193900 013 Server remote access 10BaseT to modem 1193900 030 Modem external SupraExpress 56K 1191004 010 86 e Parts Catalog 2000585 001 Available Parts Continued Part Description Ordering Number Cable fiber optic patch 3 meter MM 62 5 125 2 127002 008 fiber Cable 4 pair UTP Category 5 100 ft 30 m 1681003 006 Connector modular plug RJ45 8 pin 1222010 001 30m Convert 10BaseT to fiber optic with 12vdc 1270002 007 power supply Crimp tool standard RJ45 1631070 002 Crimp tool Amp RJ45 1631070 003 2000585 001 Parts Catalog e 87 Siemens Applied Automation 500 West Highway 60 Bartlesville OK 74003 Phone 918 662 7000 Fax 918 662 7052
56. n no carrier in three polls 1 Lost carrier 1 Start probing 1 Start link validation 1 Link up both halves 7 Stopped test mode 7 Take port off line logged out logged in 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 09 27 2000585 001 Command Description Continued login Command 2000585 001 The event display gives a time stamp and an event description All events other than frame capture events are always shown as single lines Captured frames may be summarized as single lines or expanded into a multi line display see validation timeout command The user can view more than 21 messages by supplying a sequence number and list length list 100 100 List message numbers 100 199 and up date the current sequence number to 200 The list length may appear by itself list 32 This command lists the next 32 trace buffer entries and increments the current message number by 32 All the messages in the internal trace buffer can be viewed by listing se quence number one then entering the list command until the last mes sage is displayed When the current message number is incremented to the last message in the internal buffer it is automatically set to 1 You can list all the messages in the buffer without pausing between mes sages with list 1 300 There is a continuous listing mode for monitoring al
57. n to the DNH 4 Atthe gt prompt type port stop num Where num is a port number 1 through 9 5 Press J Enter 6 Atthe gt prompt type test num This places the selected port into a hardware diagnostic mode 7 Using Option 1 or 2 as outlined in Hub Signal Equalizer Board with Generic Cable section page 37 connect an oscilloscope to the port under test 8 The signal received at the slave should be between 0 75 v p p and 5 v p p 9 Ifthe signalis smaller than 0 75 v p p adjust the impedance match ing jumpers to increase the signal level 10 At the gt prompt type port start num Where num is a port number 1 through 9 11 Press J Enter Data Communications Setup e 67 Troubleshooting Continued 12 At the gt prompt type test off Test off places the selected port into a hardware diagnostic mode 13 Disconnect test equipment and place unit into service 68 e Data Communications Setup 2000585 001 Chapter 4 Command Summary Command Descriptions Description This chapter is intended for maintenance personnel This chapter provides definitions for all of the commands you will be us ing for setup purposes or for performing test diagnostics Unique Commands These are the commands that are unique to the Advance DataNET Hub config address ip Set the device IP address for this hub half XXX XXX XXX XXX config device id Configure the DataNET hub device ID config display Display the current non v
58. nt the NAU to the wall Mounting bolts must be secured to solid wall construction members such as studs and into the wall only Installation e 17 Wall or Rack Mounting Installation Continued Rack Mounting The DNH rack mount configuration is designed for a standard 19 inch cabinet The cabinet should have at least seven inches of vertical space for mounting the DNH See Figure 1 5 for minimum width and depth mounting dimensions CE Installations For installation sites that must conform to CE Conformite Europeene Certification see page 23 CE Installations Wiring Requirements The wiring routing and entry requirements for the DNH are dependent upon the site requirements see page 19 Site Wiring Requirements e CE Conformite Europeene Certified Area see Page 23 e NEC Division 2 or Non Hazardous Areas e Cenelec Zone 1 or Zone 2 Areas e Rack Mounting Non Hazardous Area 18 e Installation 2000585 001 Site Wiring Requirements Description How you wire to the DNH is dependent upon the site requirements e CE Conformite Europeene Certified Areas e NEC Division 2 or Non Hazardous Areas e Cenelec Zone 1 or Zone 2 Areas e Rack Mounting Non Hazardous Area Wiring of Power to The installation should have a power disconnect external to HUB enclo DataNET HUB ee No voltage dependent selections need to be made on the HUB power supply as it has a universal input CE Installations see Page 23 CE Installations NEC Div 1 Div
59. ntinuously polling it at short intervals This parameter defaults to 50 milliseconds 2000585 001 Command Descriptions Continued dn portdelay time Sets the port delay parameter to the value given in milliseconds Actual times are rounded down to the nearest ten mil liseconds The dn command is also used to enable and disable software tracing inside the hub software This is intended to provide a software debug facility The form for these commands is dn module on dn module off In order to collect software trace events in the log buffer you must also give the command events on dn iframe on The available modules are xlinktrace ethertrace dntrace lstrace rxdonetrace sattrace iframe 2000585 001 Traces software events specific to the cross link Traces software events specific to the Ethernet in terface Traces software events for the DataNET driver Traces software events in the DataNET section s link state module Traces events specific to the RXDONE logic Traces software events specific to management of the Source Address Table SAT Traces software events specific to processing I frames in the dn section Command Summary e 77 Command Description Continued help Command list Command 78 e Command Summary This command generates a simple list of available commands Enter the list command at any time from the Configuration Management inter
60. nto the board connector and tighten down the two recessed captive screws 2000585 001 DataNET Copper Connections Continued Cable Impedance Settings DataNET Hub Signal Equalizer Board Using Other than Recommended Cable Recommended Cable Downlink Port Connections Important 2000585 001 Behind each single port connector is an associated jumper pin block see Figure 2 1 Each block is used to select the termination impedance of its associated port to match the cable s own impedance characteristics The three selections for each port are 100 ohm 120 ohm and 150 ohm Use the 150 ohm setting for the recommended cable If the specific cable impedance is not Known use the 100 ohm setting Select the impedance setting that matches the cable impedance by placing the shorting jumper across the selected pins The Hub Signal Equalizer board balances the attenuation of signals when varying lengths of copper cable connect multiple downlinks from a HUB The board plugs into a port connector and is wired to its associated downlink port See DataNET Hub Signal Equalizer Board page 34 for determining the attenuator board settings If you are using a cable other then the recommended cable types the cable signals for each channel must be measured at the DNH port con nection These signal measurements are used to determine the attenu ator settings for a DataNET Hub Signal Equalizer Board see page 34 Refer to Site Wiring Requirement
61. olatile parameters config netmask Set the IP subnetmask for this hub half XXX XXX XXX XXX config iproute Set the default router IP address for this hub XXX XXX XXX XXX half config timeserver Configure the IP address of a DataNET time XXX XXX XXX XXX server date Set display time and date de Delete selected SAT entries display Display SAT table display links Display link state table Displays or edits the parameters for setup time or window download Download new hub firmware via the RS 232 Configuration port events on Enable reporting of internal messages via the internal buffer events off Enable reporting of internal messages via the internal buffer Lists available CLI commands distnnn List 22 events starting with number nnn 2000585 001 Command Summary e 69 Command Descriptions Continued 70 e Command Summary List xxx events starting with number nnn Continuously list events from the log buffer as they are added terminate listing with Con trol C Clear all events from log buffer login password Login to hub half via the RS 232 Configura tion port pnetstatdn Display statistics for DataNET ports password password Change login password for hub half password port start port Start or re start DataNET on a port Stop DataNET on a port takes a port out of service e g for testing C e Enable frame tracing start adding selected frames to event buffer trace Display current trace settings
62. olerance 85 140 Vac or 185 250 Vac 47 63 Hz 300 watts Power line protection G fuse element per IEC 127 2 4 A rating slow blow Power wiring in field made to screw terminals on two part connectors 16 AWG 1 5 mm or smaller power wiring is accepted must conform to local installation codes and requirements If conformance to CE certified installation requirements is required power cable must be shielded or installed in conduit Redundant system consisting of two identical Hub modules Each module consists of universal power supply and communications elec tronics and nine DataNET port connections Open Systems standard TCP IP protocol and addressing Transmis sion Control Protocol Internet Protocol Full Class A B and C ad dresses and subnet masking supported 1 Uplink Port Cable or Fiber Optic Port Connection e Two part connectors with screw terminals provided for cable con nection e Fiber Optic Coupler for Fiber Optic Connections 8 Downlink Cable or Fiber Optic Port Connections e Two part connectors with screw terminals provided for cable con nection e Fiber Optic Coupler for Fiber Optic Connections Introduction e 7 DataNET Hub Specifications Continued DataNET Option Standard Cable DataNET Option Fiber Optic Cable Fiber Optic Coupler Ethernet Option Serial Port 8 e Introduction Cable connection by Belden 9182 single pair or Belden SSD1743 two pairs or equivalent two pairs of wires are
63. oved flexible non metallic conduit Conduit may contain multiple cables Conduit may contain multiple This method is suitable for CE in stallations Cable Type Duplex fiber 62 5 125 micron Connection Type ST fiber connectors Connect these to the appropriate transmitter and receiver ports for the respective channel The wiring method and cable type is dependent upon the site require ments See Page 23 CE Installations Use approved Metal Conduit wiring method Conduit may contain multi ple cables Adhere to all Federal and local electrical code requirements Cable Type Use non shielded Category 5 cable see Table 2 1 Connection Connect to RJ 45 connector on A HUB half board left one in wall mount enclosure left one in rack mount unit as faced from front of unit Use Cable Gland wiring method Cable Type Use shielded Category 5 cable and connectors Connection Connect to RJ 45 connector on A HUB half board left one in wall mount enclosure left one in rack mount unit as faced from front of unit Connect the shield to the cable gland ring Use approved Non metallic conduit wiring method Cable Type Use unshielded Category 5 cable and connectors see Ta ble 2 1 Connection RJ 45 connector on A HUB left one in wall mount enclo sure left one in rack mount unit as faced from front of unit 2000585 001 CE Installations Description CE Installation Kit Instructions Insta
64. packing the Advance DataNET Hub DNH When DNH is received examine the shipping container for evidence of external damage Outside damage may be an indicator of damage to the DNH Record any external damage Open the carton containing the DNH and remove all packing material Carefully remove the unit from the carton and inspect it for damage that may have occurred during transportation Carefully examine shipped contents with those listed on the Bill of Lading All items should match those on the Bill of Lading Perform the following inspections Inspect DNH exterior for dents chipped paint scratches etc e Open DNH hinged top cover and visually inspect interior mounted assemblies and connectors e lf DNH is to be rack or wall mounted be certain the proper mounting hardware is provided e Inspect all field wiring connectors and switches There must not be any damage to these connectors or switches e Check internal power supply s for damage If there is any evidence of damage to the shipping carton or the DNH notify the carrier and your local Siemens Applied Automation representa tive Keep all shipping materials as evidence of damage for carriers in spection Immediately contact your Siemens Applied Automation repre sentative who will arrange for immediate repair or replacement The Siemens Applied Automation Customer Service department can be con tacted as follows Inside Oklahoma 918 662 7430 Outside Oklahoma 800 4
65. pth Case Only 16 26 ul ll Rack Handle e Rack Depth with Handles 17 63 10 e Introduction 2000585 001 DataNET Hub Specifications Continued Figure 1 6 Wall Mount Dimensions Op Dimension Table Description A Wall Width 17 48 iM ank abba aa ball Ne foa a 415 Wall Height w o Cable Housing 16 32 Wall Mount Total Depth Wall Mount Depth Case Only 2000585 001 Introduction e 11 DataNET Hub Specifications Continued Figure 1 7 Zone 1 Wall Mount Dimension Table Figure 1 7 Description Metric U S inches mm Overall enclosure height B Overall enclosure width Overall enclosure depth from wall mounting D Vertical distance between wall mounting holes E Horizontal distance between wall mounting holes 390 15 8 F Clearance of wall mounting holes 20 1316 G Distance from wall to front cable entry hole left and right 120 43 4 H Distance from wall to back cable entry hole left and righ 76 3 __ Spacing between holes on sides left and right _ 76 12 e Introduction 2000585 001 DataNET Hub Specifications Continued Figure 1 7 Zone 1 Wall Mount Dimension Table continued Spacing from wall to front cable entry hole top and bottom Spacing between front cable entry holes top Spacing between center line and outer cable entry hole top and bottom P Spacing between rear cable entry holes top and bottom Q 9 threaded cable
66. rd plugs into any of the port interface connectors to provide the same port flexibil ity as with copper cable connections eight DataNET ports one uplink port and one Ethernet 10BaseT port for interconnecting of DataNET or Ethernet segments The Fiber Optic Coupler converts between electical signals and optical signals The conversion is transparent to the network Fiber Optic signals are impervious to distubances caused by electrical interference from nearby equipment ground loops power surges or a nearby lightning strikes A DataNET Fiber Optics Coupler can drive up to 5000 feet of fiber optic cable 1 The wiring method conduit or cable glands and cable type you use for the installation is dependent upon the site requirements Review the Site Wiring Requirements page 19 to determine the require ments for your site 2 Refer to Figure 2 1 Communication Board Layout and Figure 2 3 Wiring Diagram and familiarize yourself with the port locations All uplink connections are made to UPLINK port connector and all down link connections are made to any of the eight single port connectors see Figures 2 3 The DataNET Fiber Optic Couplers uses twist and lock connectors Always insure that the TX out on one end of the link is connected to the RX in at the other end of the link Some duplex fiber optic cables are coded to help monitor the direction of data travel If the fibers are not coded special attention must be paid to insure a p
67. reate Shortcut Once the shortcut is created it can be moved to the Desktop Simply click the shortcut icon and drag the icon while holding down the left mouse button Release the mouse button to place the icon 2000585 001 Data Communications Setup e 53 Establishing a Connection Description Getting Started IMPORTANT Before You Begin Password Protection Once your PC is set up as described in Configuring Your PC you are ready to connect to and configure the Advance DataNET Hub read through this Chapter prior to performing any procedures The DNH consists of two identical hubs in one enclosure The left side is referred to as the DataNET A half and the right side the DataNET B half Each half hub contains a communication board and a RS232 Con figuration Port Each hub half is configured separately HUB B HUB A 1 Ensure that the DNH Ethernet connection is not connected to the network by removing the RJ 45 plug from the Ethernet port located on the edge of the Communications board 2 Connect a standard 9 pin COM cable from the designated PC COM port see page 49 step 7 to RS232 Configuration Port located on etiher Hub A or B 3 Turn onthe AC power to the DNH All utility programs on the DNH Communication board are password pro tected This insures the data integrity of all configuration data and limits unwanted access of the User s network To access any of th
68. roper connection Always ensure that the same port number is used for redundant channel connections i e Channel A to Port 1 on A Hub and Channel B to Port 1 on B hub 2000585 001 DataNET Fiber Optic Connections Fiber Optic Cable Duplex Fiber 62 5 125 micron Type Port Connections 1 Plug the DataNET Fiber Optic Coupler board into the selected single Port board connector 2 Connect the transmitter and receiver ports for the respective chan nel TX TRANSMIT PORT RX RECEIVE PORT PORT INTERFACE CONNECTOR 2000585 001 Installation e 43 Ethernet Connections The DNH consists of two identical hub modules in one enclosure The left side is usually the DataNET A Hub and the right side the DataNET B Hub Each hub contains a DataNET Hub board and power supply Description The DNH connects to the Ethernet local area network via the RJ 45 STP connector located on DataNET Hub board Each of the boards has an Ethernet connection However the DNH only the A hub Ethernet port is ETHERNET PORT active Figure 2 4 Dual Hubs HUB A HUB B Active Ethernet Port Only one Ethernet port is active in the DNH The wiring connection be tween the two halves determines which half has the active Ethernet port A jumper wire visible across pin 1 and pin 2 on the cable connector indi cates that the side to which it is connected is the active port which we designate the A Hub The
69. rtified for Class Division 2 Group A B C D CENELEC non Ex Air purge is not required for fire protection as indicated however the unit may be air purged if desired for additional protection from envi ronmental elements Rack Mounted Configuration NEMA 2 IP 20 CSA Certified for Class Division 2 Group A B C D CENELEC non Ex Zone 1 Configurations CENELEC approved EEx d IIC T6 Cortem CCA 04 enclosure Electromagnetic and Radio Frequency Compatibility and Electrical Safety CE Compliance certified to 89 336 ECC EMC directive CE Compliance certified to 73 23 EEC Low Voltage directive Tested per EN 61010 1 IEC 1010 1 Housing Materials and Colors Stainless steel 1 4016 Front and top are commercial gray B RAL 7043 housing is light gray RAL 7035 Weight Rack Wall 15 kg 35 pounds approximately Zone 1 33 kg 73 pounds 2000585 001 DataNET Hub Specifications Continued Ambient Installation Conditions Power Dual Hub Communication Modules Protocol and Addressing Uplink Port Connections Downlink Connections 2000585 001 Operation 18 to 50 C 0 to 122 F 0 99 relative humidity non condensing maximum 0 75 relative humidity year round average Purge with dry air or nitrogen if required in tropical conditions Must not be exposed to direct sunlight Must be protected from rain Storage and Transport 25 to 65 C Nominal 115 Vac 230 Vac universal input T
70. s Table 2 1 page 19 to determine the requirements for your site All downlink connections are made to any of the eight downlink ports When a Signal Equalizer board is used the network wiring must connect to TB1 on the signal equalizer board Always ensure that the same port number is used for redundant channel connections i e Channel A to Port 1 on A Hub and Channel B to Port 1 on B hub Installation e 31 DataNET Copper Connections Continued Down Link Wiring with DataNET Hub Signal Equalizer Board Plug the DataNET Hub Signal Equalizer Board into the se lected Port interface connector Connect the board s pig tail leads to the corresponding hub downlink port channel red lead to terminal black lead to terminal and white lead to Gnd terminal See Figure 2 1 Master Port Connectors TB15 TB18 If conduit is used the cable shield is only terminated at one end of the cable If shield is terminated at this end connect it to terminal 3 GND on board If using cable gland connec tors cable gland will always connect the shield to the chas sis Set the switches on the board to the correct settings see DataNET Hub Signal Equalizer Board Settings page 34 r Connect the downlink signal wires to the removable port connector TB1 on top of the equalizer board Positive to terminal and Negative to terminal See Figure 2 1 TB1Port _ _ Connector e a IEU eet aa 7 i Board DON
71. s the download will be complete The hub will display messages indicating that the download has com pleted and it is erasing and programming the FLASH memory 7 Finally the Hub will reset and display a new login prompt events Command This command controls logging of hub software events Software events mark the progress of the Hub software in some detail so board problems may be more easily analyzed The events off command will stop the logging of event messages The list command as described above is used to view the software events in the event buffer dn Command This command may be used to override default values for several pa rameters related to the HDLC protocol used by DataNET Specific forms of the command are dn setuptime Displays the current setup time value in microseconds This is the time that the hub will transmit a preamble pattern on a DataNET link before starting the actual data frame The preamble allows time for the receiver circuitry at the far end of the link to adjust to the incoming signal s amplitude phase and frequency The default setup time is 3500 microseconds dn setuptime time sets the HDLC setup time to the value given in microseconds The new setup time value is saved in non volatile mem ory 2000585 001 Command Summary e 75 Command Descriptions Continued dn window dn window num dn polldelay dn polldelay time dn portdelay 76 e Command Summary D
72. s 2000585 001 Chapter 1 Introduction Overview Description The Advance DataNET Hub DNH functions as a communication router on an Advance Communication System ACS network The DNH is a fully redundant unit with dual electronics and with dual power supplies The electronics are certified for use in NEC Division 2 and IEC Cenelec Zone 2 hazardous locations Dual Hub Modules The dual hub modules designated DataNET A Hub or DataNET B Hub are connected via a serial cross link cable The wiring of the serial crosslink cable determines which is the A Hub HUB A 1O Ports The DNH brings flexibility to the ACS with its eight DataNET downlink ports one Ethernet 10BaseT port for interconnecting of DataNET or Ethernet segments and one uplink port With its uplink port the DNH can be used to connect DNHs together to expand the ACS network or the DNH can be used as an interface to an Advance Network Gateway unit The DataNET ports can accept copper and or fiber optic cables In Data Hiway installations the DNH can use the existing Data Hiway cables 2000585 001 Introduction e 1 Overview Continued Package Configurations Advance Communi cations System Figure 1 1 Advance Communication System ACS B 2 e Introduction The Advance DataNET Hub DNH is available in three package configu rations e 19 inch Rack Unit Figure 1 5 e Wall Mount Unit Figure 1 6 e Zone 1 Wall Mount Uni
73. t Figure 1 7 The Advance Communication System ACS is a high speed communi cations system that uses TCP IP protocols and addressing to intercon nect chromatographs and other process analyzers in a common network Figure 1 1 shows the DNH Advance Network Access Unit NAU and Advance Network Gateway ANG connected to the ACS The NAU con nects to the ACS and provides a method to access information coming from Advance process analyzers including Advance Maxum and Advance Optichrom GC s The ANG is used to connect Siemens Applied Automation s equipment residing on an Advance Data Hiway to the ACS NUON NAU Wo rkstation Advance Network EHS Acess Unit DNH z Advance DataNET ub ANG O Adva n ce N etwo rk Advance Maxum Advance Max m Gateway e AA Asians ornin yy De e e k 2000585 001 Overview Continued DataNET Hub A network of DataNET hubs forms a tree like hierarchy A DNH may Hierarchy connect to as many as eight down stream devices Maxum Analyzers or Advance Hub Uplink port Each down stream DNH in turn connects to another eight and so on No architectural limit is placed on the depth of the DataNET hub hierarchy In practice propagation time considera tions and hub loading should allow hierarchies at least six or seven lay ers deep without incurring excessive timing delays Figure 1 2 DataNET Hub Hierarchy Ethernet O c O c C FEEEEEE Da
74. t of Ca ble of Table 2 2 Identify the correct Selection range in column two of Table 2 4 and set switches SW3 SW2 and SW1 Repeat the procedure for each connected port on the Hub except the longest length that does not have an equalizer 2000585 001 Installation e 35 DataNET Hub Signal Equalizer Board Continued Table 2 2 Recommended Equalizer Board Settings Selec B or Ee 2 15 35 off off on on on off on on off s 22 es on on ott off oft on on on off a 3 ea off oft on off off on on on off s fas m on on otf on on otf of off on e 44 423 off oft on on on off off off on e s2 143 off oft on off off on of off on Sample Calculations Calculation One Assume connections to Port 1 and Port 2 only Port 1 cable 1000 ft in length Port 2 cable 4000 ft in length 3000 ft difference Result Based on Table 2 2 data Port 1 requires compensation for 3000 ft Selection 4 2500 3500 feet Port 2 requires no compensation Selection 1 0 dB loss Calculation Two Assume connections to Port 1 Port 2 and Port 6 Port 6 cable 5000 feet Port 1 cable 1000 ft 5000 ft 1000 ft 4000 ft difference Port 2 cable 4000 ft 5000 ft 4000 ft 1000 ft difference Result Based on Table 2 2 data Port 6 requires no compensation Selection 1 0 dB loss Port 1 requires compensation for 4000 ft Selection 6 3500 4500
75. taNET hub ms oo Ethernet Bridging Figure 1 3 illustrates two separate trees of DataNET hubs that share an Ethernet segment A hub can also connect to and from an Ethernet device or an Ethernet compatible Advance Network Gateway ANG unit or to and from a non redundant Ethernet connection A tree of DataNET hubs can function as an Ethernet bridge transparently connecting all the Ethernet segments that are attached at any point on the hierarchy The DataNET hub soft ware does not implement any software protocols e g IEEE 802 1 span ning tree to prevent routing loops Thus each tree of DataNET hubs may connect to any Ethernet segment at exactly one point Multiple Da taNET trees may share Ethernet links Figure 1 3 Ethernet Bridging DataNET hub Ethernet DataNET hub Ethernet DataNET hub DataNET hub DataNET hub DataNET hub DataNET hub ata u DataNET hub Ethernet DataNET hub DataNET hub DataNET hub Ethernet 2000585 001 Introduction e 3 DataNET Hub Operation DNH Links Figure 1 4 shows the individual links that connect three DataNET hubs and several end devices The inter hub links travel across twisted pair copper or fiber optic cables The link data rate is 2 048Mbps for both cables The DataNET hub soft ware auto detects the type of medium used on each DataNET port and configures the hub accordingly Each connection between a DataNET Hub DNH and another device consists of two links One lin
76. ty Practices and Precautions e v Safety Practices and Precautions Continued Correct Operating Voltage DANGER Arising from Loss of Ground Safe Equipment Use the Proper Fuse Safety Guidelines Before switching on the power check that the operating voltage listed on the equipment nameplate agrees with the available line voltage Any interruption of the grounding conductor inside or outside the equip ment or loose connection of the grounding conductor can result in a dan gerous unit Intentional interruption of the grounding conductor is not permitted If it is determined that the equipment cannot be operated safely it should be taken out of operation and secured against unintentional usage To avoid fire hazard use only a fuse of the correct type voltage rating and current rating as specified in the parts list for your product Use of repaired fuses or short circuiting of the fuse switch is not permitted DO NOT open the equipment to perform any adjustments measure ments maintenance parts replacement or repairs until all power sup plies have been disconnected Only a properly trained technician should work on any equipment with power still applied When opening covers or removing parts exercise extreme care since live parts or connections can be exposed Capacitors in the equipment can retain their charge even after the unit has been disconnected from all power supplies vi e Safety Practices and Precaution
77. uplink connections which will al ways be to another DNH The uplink port Port 9 is an uplink port while the other ports Port 1 through 8 are downlink ports Note that each of the four Downlink Port connectors contains wiring con nections for two DataNET port channels The connector row above the downlink port connectors marked Port 9 and Port 1 through Port 8 pro vides single port connector wiring for each of the eight channels These ports are used for making Fiber Optic connections and or when using a DataNET Hub Signal Equalizer Board CONFIGURATION PORT R 232 BOARD STATUS LEDs C ETHERNET ae a R mm ea le CABLE IMPEDANCE MATCHING SETTINGS FOR PORTS 9 1 2 3 4 5 6 7 c oE y q 0 Lae a4 a g GA aa co aa HEE Te He Port 7 Uplink Porti Port2 Port Port 4 PortS Port 6 Port Port Downlink Ports LINK STATUS LED Port 9 To make wiring easier all board mounted connectors are equipped with a removable plug wiring connector Simply loosen the plug s two top re cessed captive screws grasp the connector and pull it straight out from its mating connector Loosen the top wire retaining screws on the removed connector Strip the insulation inch back from each of the input leads Insert each lead into the correct terminal Tighten down each wire retaining screw Plug the connector back i
78. ust be configured in order for both hubs to communicate on the ACS Command Line Review Chapter 4 Command Line Summary Chapter 4 provides defini Definitions tions for all of the commands you will be using in this chapter Important Checklist Perform the following checklist before setting up the data communication protocol Tasks ences N Inspect wiring of AC mains i Inspect all Uplink and Downlink port wiring connections m Ensure that the Signal Equalizer Board settings are correct O Ensure that each DataNET copper port has the correct im pedance settings Inspect the wiring of the serial crosslink which determines which is the A Hub Ensure that when power is applied the Board Status LEDs are sequencing correctly 2000585 001 Data Communications Setup e 47 Introduction Continued Chapter Preview This chapter provides the following information Configuring Your PC 4 Establishing a Connection Setting Network Address Le Firmware Updates Assigning an IP Address 9 54 57 59 System Status LEDs 62 65 Troubleshooting ae 48 e Data Communications Setup 2000585 001 Configuring Your PC Description The Advance DataNET Hub DNH has a built in utility for configuring its operation The Windows HyperTerminal program that resides on most PCs can be used to access this utility Other serial communication pack ages that support the following settings can also be used Baud rate 57 6
79. you enter this command You can display the current router address with the config display command DataNET hubs may be configured to request time and date information from a DataNET time server To do this enter the non zero IP address of the time server with this command When so configured each time the hub powers up or resets and every 24 hours thereafter it will request the current local time and data from the designated time server The command has the following form config timeserver 192 10 6 2 When a hub receives a reply to a time server request it will update its local clock with the received time Note that hub boards include their own non volatile clock Thus if a hub board loses contact with the time server it will maintain its own time and date even across resets of power cycles A hub s time and date may also be manually configured see date com mand below Without an input argument date displays the current date and time as known by the hub half Otherwise date sets the hub half s current date and time according to the input argument The date command has the following form date yyyymmddhhmm The argument part yyyy is the four digits of the year the first mm is the month number dd is the day number in the month hh is the hour num ber 24 hour system the second mm is the minute number and ss op tional specifies seconds For example to set the date to Oct 8 12 45 AM type date 199810080045

Siemens DataNET Hub (DNH) User's Manual

Contents

Download Pdf Manuals

Related Search

Related Contents