2 TAC Xenta 500/700/911/913
advertisement
TAC Vista TAC Pangaea WorkStation TAC Xenta 500/700/911/913 Product Manual TAC Vista TAC Xenta 500/700/911/913 Product Manual Copyright © 2011 Schneider Electric Buildings AB. All rights reserved. This document, as well as the product it refers to, is only intended for licensed users. Schneider Electric Buildings AB owns the copyright of this document and reserves the right to make changes, additions or deletions. Schneider Electric Buildings AB assumes no responsibility for possible mistakes or errors that might appear in this document. Do not use the product for other purposes than those indicated in this document. Only licensed users of the product and the document are permitted to use the document or any information therein. Distribution, disclosure, copying, storing or use of the product, the information or the illustrations in the document on the part of non-licensed users, in electronic or mechanical form, as a recording or by other means, including photo copying or information storage and retrieval systems, without the express written permission of Schneider Electric Buildings AB, will be regarded as a violation of copyright laws and is strictly prohibited. Trademarks and registered trademarks are the property of their respective owners. TAC Xenta 500/700/911/913, Product Manual Contents Contents INTRODUCTION 1 About this Manual 11 1.1 1.2 1.3 1.4 12 12 13 14 Structure ..................................................................................................................... Typographic Conventions .......................................................................................... Terminology ............................................................................................................... Related Documents .................................................................................................... REFERENCE 2 3 4 TAC Xenta 500/700/911/913 17 2.1 2.1.1 2.1.2 2.1.3 2.1.4 2.2 2.2.1 2.2.2 2.2.3 2.3 2.3.1 2.3.2 2.4 2.5 17 18 21 23 23 25 25 26 28 31 32 34 35 36 Hardware .................................................................................................................... Communication Interface........................................................................................... Port Pins ..................................................................................................................... Fail-Safe State ............................................................................................................ LEDs .......................................................................................................................... Configuring the TAC Xenta 500/700/911/913 .......................................................... Configuration Data..................................................................................................... Configuring Windows HyperTerminal ...................................................................... Configuring the TAC Xenta....................................................................................... Verifying the TAC Xenta Communication ................................................................ Accessing the TAC Xenta .......................................................................................... Changing the Root Password ..................................................................................... Temporary Login ID .................................................................................................. Upgrading the System Program ................................................................................. Connecting the TAC Xenta to Your Network 41 3.1 3.1.1 42 42 Alternative Port Settings ............................................................................................ HTTP and HTTPS...................................................................................................... TAC Xenta 511 4.1 4.1.1 4.2 4.2.1 4.3 4.3.1 4.3.2 4.3.3 4.3.4 43 Configuration Phase ................................................................................................... 43 Connections, configuration ........................................................................................ 44 Engineering Phase ...................................................................................................... 45 Connections, engineering ........................................................................................... 46 Operating Phase ......................................................................................................... 47 Directly Connected..................................................................................................... 47 Connections, operation directly ................................................................................. 48 Dialed-Up, operation.................................................................................................. 49 Connections................................................................................................................ , operation dial-up ............................................................................................................ 50 Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 5 (134) Contents 4.4 5 6 7 8 TAC Xenta 500/700/911/913, Product Manual Port Usage .................................................................................................................. 51 TAC Xenta 527 53 5.1 5.1.1 5.2 5.2.1 5.3 5.3.1 5.3.2 5.3.3 5.3.4 5.4 5.5 5.6 53 54 55 56 58 58 58 60 60 63 64 65 Configuration Phase ................................................................................................... Connections ................................................................................................................ Engineering Phase ...................................................................................................... Connections ................................................................................................................ Operating Phase.......................................................................................................... Directly Connected..................................................................................................... Connections ................................................................................................................ Dialed-Up ................................................................................................................... Connections ................................................................................................................ Port Usage .................................................................................................................. Connecting the TAC Xenta 527 to an I/NET Controller LAN .................................. Using a Direct Connection to I/NET .......................................................................... TAC Xenta 555 67 6.1 6.1.1 6.2 6.2.1 6.2.2 6.3 6.3.1 6.4 6.5 6.5.1 6.5.2 6.5.3 67 68 69 70 72 73 73 75 76 77 78 78 Configuration Phase ................................................................................................... Connections ................................................................................................................ Engineering Phase ...................................................................................................... Connections ................................................................................................................ RS485 LAN Wiring.................................................................................................... Operating Phase.......................................................................................................... Connections ................................................................................................................ Port Usage .................................................................................................................. Connecting the TAC Xenta 555 to a MicroNet Controller LAN ............................... Connecting to a MicroNet NCP network (MN MI not used)..................................... Connecting to a MicroNet ARCNET network (MN MI used)................................... Connecting to a Satchnet network (MIU not used) .................................................... TAC Xenta 701/711/721 79 7.1 7.1.1 7.2 7.2.1 7.3 7.3.1 7.3.2 7.3.3 7.3.4 7.4 79 80 81 82 83 83 84 85 86 87 Configuration Phase ................................................................................................... Connections ................................................................................................................ Engineering Phase ...................................................................................................... Connections ................................................................................................................ Operating Phase.......................................................................................................... Directly Connected..................................................................................................... Connections ................................................................................................................ Dialed-Up ................................................................................................................... Connections ................................................................................................................ Port Usage .................................................................................................................. TAC Xenta 731 89 8.1 8.1.1 8.2 8.2.1 8.3 8.3.1 8.3.2 8.3.3 8.3.4 89 90 91 92 94 94 95 97 98 6 (134) Configuration Phase ................................................................................................... Connections ................................................................................................................ Engineering Phase ...................................................................................................... Connections ................................................................................................................ Operating Phase.......................................................................................................... Directly Connected..................................................................................................... Connections ................................................................................................................ Dialed-Up ................................................................................................................... Connections ................................................................................................................ Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8.4 9 Contents Port Usage .................................................................................................................. 100 Connecting the OP7 to Xenta 700 9.1 9.2 9.3 9.4 103 Connecting the OP7 ................................................................................................... Remote (cabinet door) mounting ............................................................................... Wall mounting............................................................................................................ Handheld terminal ...................................................................................................... 10 TAC Xenta 911 10.1 10.1.1 10.2 10.2.1 10.3 10.3.1 10.3.2 10.3.3 10.3.4 10.3.5 10.4 105 Configuration Phase ................................................................................................... Connections................................................................................................................ Engineering Phase ...................................................................................................... Connections................................................................................................................ Operating Phase ......................................................................................................... LonTalk Adapter ........................................................................................................ Connections................................................................................................................ IP Modem................................................................................................................... Connections................................................................................................................ Serial Gateway ........................................................................................................... Port Usage .................................................................................................................. 11 TAC Xenta 913 11.1 11.1.1 11.2 11.2.1 11.3 105 105 106 106 107 107 107 108 108 110 111 113 Configuration Phase ................................................................................................... Connections................................................................................................................ Programming and Operating Phase............................................................................ Connections................................................................................................................ Port Usage .................................................................................................................. 12 Engineering TAC Xenta 911 12.1 103 103 104 104 113 114 115 115 117 119 Programming the TAC Xenta 911 ............................................................................. 119 APPENDIX A Hardware A.1 A.1.1 A.1.2 A.1.3 A.1.4 A.2 A.2.1 A.2.2 A.2.3 125 Adapters ..................................................................................................................... DB9/Female-to-RJ45/Female Adapter....................................................................... DB25/Female-RJ45/Female Adapter ......................................................................... RJ45/Female-to-DB25/Male Adapter ........................................................................ DB9/Female-to-DB25/Male Adapter......................................................................... Cables ......................................................................................................................... RJ45-to-RJ45 Rollover Cable .................................................................................... RJ45-to-RJ10 Cable ................................................................................................... RJ-45-to-RJ-45 TAC Xenta-to-Xenta Cable.............................................................. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 125 125 126 127 128 129 129 129 130 7 (134) Contents 8 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en INTRODUCTION 1 About this Manual TAC Xenta 500/700/911/913, Product Manual 1 1 About this Manual About this Manual This handbook describes • The hardware interface of the Xenta 500/700/911/913 devices • Cables required for various communication configurations for the Xenta 500/700/911/913 devices • The upgrading of the system program for the Xenta 500/700/911/913 devices • The engineering procedure of the Xenta 911 For more information on engineering Xenta 500/700/913, see • TAC Xenta Server – TAC Networks, Technical Manual • TAC Xenta Server – Web Server, Technical Manual • TAC Xenta Server – Controller, Technical Manual • TAC Xenta Server – Gateway, Technical Manual For more information on the use of the OP7 operator panel, together with the TAC Xenta 700 series, see • TAC OP7 Operator Panel, Mini Manual Notes • We are continuously improving and correcting our documentation. This manual may have been updated. • Please check ExchangeOnline at http://extranet.tac.com for the latest version. The Xenta devices as well as other products mentioned in this manual, must not be used for any other purposes than those for which they were designed. Installation, connection and repair should only be carried out by authorized personnel. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 11 (134) 1 About this Manual 1.1 TAC Xenta 500/700/911/913, Product Manual Structure The manual is divided into the following parts: 1.2 • Introduction The Introduction section contains information on how this manual is structured and where to find additional information. • Reference The Reference section contains comprehensive information about the products. It also provides you with information on mounting and electrical installation. Typographic Conventions Throughout the manual the following specially marked texts may occur. ! Warning • Alerts you that failure to take, or avoid, a specific action might result in physical harm to you or to the hardware. Caution • Alerts you to possible data loss, breaches of security, or other more serious problems. Important • Alerts you to supplementary information that is essential to the completion of a task. Note • Alerts you to supplementary information. Tip • 12 (134) Alerts you to supplementary information that is not essential to the completion of the task at hand. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 1.3 1 About this Manual Terminology • DHCP – Dynamic Host Configuration Protocol. A protocol for assigning dynamic IP addresses to devices on a network. With dynamic addressing, a device can have a different IP address every time it connects to the network. In some systems, the device's IP address can even change while it is connected. DHCP also supports a mix of static and dynamic IP addresses. • DNS – Domain Name System (or Service), an Internet service that translates domain names into IP addresses. Because domain names are alphabetic, they are easier to remember. The Internet however, is based on IP addresses. Consequently, every time you use a domain name a DNS service must translate the name into the corresponding IP address. • FTP – File Transfer Protocol. An application used to transfer files from one host to another and to store the files on the requesting host. • IP Network – A network (for example Internet or Intranet) using the Internet Protocol (IP) and IP addressing. • LTA – LonTalk Adaptor. A computer interface with the LonWorks network. • NTP – Network Time Protocol. An Internet standard protocol (used on top of TCP/IP) that assures accurate synchronization to the millisecond of computer clock times in a network of computers. • SNMP – Simple Network Management Protocol. A set of protocols for managing complex networks. SNMP works by sending messages, called protocol data units (PDUs), to different parts of a network. • SNTP – Simple Network Time Protocol. A simplified version of NTP. • SSL – Secure Sockets Layer. A protocol developed by Netscape for transmitting private documents via the Internet. By convention, URLs that require an SSL connection start with https: instead of http:. • TCP/IP – Transmission Control Protocol/Internet Protocol. The suite of protocols that when combined create the “language of the Internet”. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 13 (134) 1 About this Manual 1.4 TAC Xenta 500/700/911/913, Product Manual Related Documents • TAC Xenta Server – TAC Networks, Technical Manual Part No.: 04-00121 • TAC Xenta Server – Web Server, Technical Manual Part No.: 04-00122 • TAC Xenta Server – Controller, Technical Manual Part No.: 04-00123 • TAC Xenta Server – Gateway, Technical Manual Part No.: 04-00124 • TAC OP7 Operator Panel, Mini Manual Part No.: 04-00072 14 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en REFERENCE 2 TAC Xenta 500/700/911/913 3 Connecting the TAC Xenta to Your Network 4 TAC Xenta 511 5 TAC Xenta 527 6 TAC Xenta 555 7 TAC Xenta 701/711/721 8 TAC Xenta 731 10 TAC Xenta 911 11 TAC Xenta 913 12 Engineering TAC Xenta 911 TAC Xenta 500/700/911/913, Product Manual 2 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913 The Xenta 500/700/911/913 all share the same hardware design and hardware layout. For a more detailed description on each Xenta device, see the Docnet site at www.schneider-electric.com/buildings. 2.1 Hardware The Xenta device is designed around a microprocessor. The module consists of two parts, an electronics unit containing the circuit boards and contacts, and a terminal part including the terminal blocks. Fig. 2.1: The Xenta device – Electronics and terminal. • Power Outage Protection – Settings like configurations and web pages are stored in the non-volatile (flash) memory and will not be lost in the event of a power outage. A built-in capacitor maintains operation of the RAM memory for at least 72 hours in the event of a power outage. • Real Time Clock – The real time clock provides the internal event log with a time stamp. The capacitor maintains operation of the clock for at least 72 hours in the event of a power outage. • Mounting – The Xenta device is cabinet mounted on a TS 35 mm norm rail EN 50022. To simplify commissioning, the terminal part can be pre-mounted in the cabinet. If the Xenta device is to be wall-mounted, a wide range of standardized boxes are available. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 17 (134) 2 TAC Xenta 500/700/911/913 2.1.1 TAC Xenta 500/700/911/913, Product Manual Communication Interface 24 1 2 3 4 5 6 7 8 9 10 21 22 23 11 12 13 14 15 16 17 18 19 20 Fig. 2.2: Connections on the Xenta device. Table 2.1: Connections on the Xenta device. Position 1–2 3–4 18 (134) Description Power supply. Minimum cross-sectional area 0.75 mm2 (AWG-19). • 1 (G) – 24 V AC (or DC+) • 2 (G0) – Ground LonWorks TP/FT-10 connection. • 3 (C1) • 4 (C2) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2 TAC Xenta 500/700/911/913 Table 2.1: Connections on the Xenta device. (Contd.) Position 5–8 Internal port A Description RS-485 A connection. • 5 (RX/TX+) • 6 (RX/TX-) • 7 (RX+) • 8 (RX-) Note that the interface RS-232 A (position 21) and interface RS-485 A (position 5–8) are internally connected to port A on the processor. Only one should be connected. 9 Ground. • 9 (G0) 10 Fail-safe. 11–15 Unused. 16–17 Ground. • 16 (G0) • 17 (G0) 18 Unused. 19–20 Internal port C RS-485 C (SDLC) connection. • 19 (RX/TX+) • 20 (RX/TX-) 21 Internal port A RS-232 A connection. 22 Internal port B RS-232 B console connection. 23 Ethernet 10Base-T connection. 24 Service pin. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Note that the interface RS-232 A (position 21) and interface RS-485 A (position 5–8) are internally connected to port A on the processor. Only one should be connected. 19 (134) 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913, Product Manual Caution 20 (134) • G0 equals GROUND. • Only G0 may be connected to protective ground. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2.1.2 2 TAC Xenta 500/700/911/913 Port Pins Serial Port – RS-232 A The RS-232 A port (position 21) is used for serial communication between the Xenta device and the connected unit. The connector is an 8-pin modular jack (RJ-45). Note • The interface RS-232 A (position 21) and interface RS-485 A (position 5–8) are internally connected to port A on the processor. Only one should be connected. The port uses the following signals: Table 2.2: Port pins – RS-232 A. 87654321 1 CTS/RI (input) 2 RTS (output) 3 TxD (output) 4 RxD (input) 5 Ground 6 DSR (input) 7 DCD (input) 8 DTR (output) Fig. 2.3: Connection using hardware signals for modem communication. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 21 (134) 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913, Product Manual Serial Port – RS-232 B The RS-232 B port is used for communication between the Xenta device and a computer. It is used for configuration of the Xenta device using Windows HyperTerminal. The connector is a 4-pin modular jack (RJ-10). The port uses the following signals: Table 2.3: Port pins – RS-232 B 4321 1 TxD (output) 2 RxD (input) 3 Not used 4 Ground Fig. 2.4: Connection using basic RS-232 signals, primarily intended for a computer running, for example Windows HyperTerminal during the configuration phase. Ethernet Port – 10Base-T The Ethernet 10Base-T port is used for communication between the Xenta device and the TCP/IP network. The port uses the following signals: Table 2.4: Port pins – 10Base-T 87654321 1 TX+ 2 TX- 3 RX+ 4–5 Connected to ground via 75 ohms 6 RX- 7–8 Connected to ground via 75 ohms Fig. 2.5: Connection for a LAN (Ethernet) cable. 22 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2.1.3 2 TAC Xenta 500/700/911/913 Fail-Safe State The Xenta can enter a fail-safe state if a severe problem arises in the system program. The unit can be forced into fail-safe mode by shorting terminals 9 and 10 in Fig. 2.2 during power-up. This can be useful if the system program experiences problems. The overall Run indicator (position 3 in Fig. 2.6) will show a steady red light in the fail-safe state. 2.1.4 LEDs A number of light-emitting diodes (LEDs) on the Xenta device indicate that the application program is running and when communication is in progress. 1 2 3 4 6 5 Fig. 2.6: LEDs on the Xenta device. Table 2.5: LEDs on the Xenta device. Position 1 Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Description Neuron status indicator • Off – Normal mode • Red, blinking – Unconfigured mode • Red, steady – Hardware fault 23 (134) 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913, Product Manual Table 2.5: LEDs on the Xenta device. (Contd.) Position 2 Description Serial RS-232 B port activity indicators: 3 • RX – Indicates that data is received • TX – Indicates that data is transmitted Overall Run indicator 4 • Green, steady – Normal mode • Green, blinking – Start mode • Red, steady – Fail-safe mode (see description below) • Red, blinking – Unit fault Serial RS-232 A port activity indicators: • RX – Indicates that data is received • TX – Indicates that data is transmitted 5 Serial RS-485 C port activity indicator. 6 Ethernet 10Base-T activity indicator Note • The LEDs for the RS-232 A interface (position 4) do not indicate communication when using the RS-485 A interface although internal port A is used for both. Serial Ports RS-232 Port 21 A RS-485 Port pins 5, 6 (7, 8) Processor B RS-232 Port 22 C RS-485 Port pins 19, 20 Fig. 2.7: Internal serial ports and RS-232/485 interfaces. 24 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2.2 2 TAC Xenta 500/700/911/913 Configuring the TAC Xenta 500/700/911/913 The technician uses Microsoft Windows and HyperTerminal to initialize and configure the Xenta. 2.2.1 • For more information on how to connect the Xenta 511, see Section 4.1, “Configuration Phase”, on page 43. • For more information on how to connect the Xenta 527, see Section 5.1, “Configuration Phase”, on page 53. • For more information on how to connect the Xenta 555, see Section 6.1, “Configuration Phase”, on page 67. • For more information on how to connect the Xenta 701/711/721, see Section 7.1, “Configuration Phase”, on page 79. • For more information on how to connect the Xenta 731, see Section 8.1, “Configuration Phase”, on page 89. • For more information on how to connect the Xenta 911, see Section 10.1, “Configuration Phase”, on page 105. • For more information on how to connect the Xenta 913, see Section 11.1, “Configuration Phase”, on page 113. Configuration Data To configure the Xenta, the following information should be obtained from the network administrator: • DHCP is used or not used • IP address (only if DHCP is not used) • Subnet mask (only if DHCP is not used) • Default gateway • DNS server • Web site name (can be set later, using XBuilder) • Domain name (only used as information) • Host name (only used as information) This information is used once you have connected to the Xenta using HyperTerminal and a serial cable (null modem cable). Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 25 (134) 2 TAC Xenta 500/700/911/913 2.2.2 TAC Xenta 500/700/911/913, Product Manual Configuring Windows HyperTerminal When you use Windows HyperTerminal you need to set up a connection. Once created it can be used when required. In the example below a Xenta 511 is configured. To configure Windows HyperTerminal 26 (134) 1 Connect the Xenta to the engineering PC. 2 On the Start menu, point to All Programs, point to Accessories, point to Communications, and then click HyperTerminal. 3 In the Connection Description dialog box, in the Name box, type a name that describes the connection. In the example “Connection to Xenta 511”. 4 In the Icon box, click the required icon. 5 Click OK. 6 In Connect To dialog box, in the Connect using list, click the COM port used in step 1 above. 7 Click OK. 8 In the COM1 Properties dialog box, in the Bits per second list, click 9600. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 9 2 TAC Xenta 500/700/911/913 In the Flow control list, click None. 10 Click OK. 11 On the File menu, click Save to save the HyperTerminal connection. The HyperTerminal for the Xenta is now ready to use. 12 Press ENTER to activate the command prompt. Tips • To reopen the HyperTerminal connection to the Xenta, click Start, point to All Programs, point to Accessories, point to Communications, point to HyperTerminal and then click Connection to Xenta 511.ht. • You can also click Open on the File menu in HyperTerminal. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 27 (134) 2 TAC Xenta 500/700/911/913 2.2.3 TAC Xenta 500/700/911/913, Product Manual Configuring the TAC Xenta The configuration parameters for the Xenta are entered using HyperTerminal. The parameters enable the Xenta to communicate using its TCP/IP port. Important • Because the Xenta’s TCP/IP default parameters are set at the factory, you can immediately access it using a web browser and change the parameters without having to use HyperTerminal. The default parameters are: • IP address: 192.168.255.2 • Subnet mask: 255.255.255.0 To configure the TAC Xenta 28 (134) 1 Start Windows HyperTerminal using the connection created in Section 2.2.2, “Configuring Windows HyperTerminal”, on page 26. 2 Press ENTER to activate the command prompt. 3 Type the user name “root” and press ENTER. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2 TAC Xenta 500/700/911/913 4 Type the password “root” and press ENTER. 5 Type the command “setip” and press ENTER. 6 Type the configuration parameters, collected in Section 2.2.1, “Configuration Data”, on page 25. Press ENTER after each entry. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 29 (134) 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913, Product Manual In the example, the configuration parameters appear as follows. The root password is not changed. 7 Type the command “restart” and press ENTER, to activate the new configuration parameters. 8 Quit HyperTerminal. The Xenta is now configured to communicate over TCP/IP, this means that you can access the Xenta through a web browser and that you can send web pages to the Xenta using XBuilder. Important 30 (134) • The password can be changed from a configuration page on the web site in the Xenta. • The user name and the password are used by the operator when logging on to the web site and by XBuilder when sending the project to the Xenta. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2.3 2 TAC Xenta 500/700/911/913 Verifying the TAC Xenta Communication Once the Xenta has been configured with respect to its address on the TCP/IP network, it can be accessed through a web browser. • For more information on how to connect the Xenta 511, see Section 4.2, “Engineering Phase”, on page 45. • For more information on how to connect the Xenta 527, see Section 5.2, “Engineering Phase”, on page 55. • For more information on how to connect the Xenta 555, see Section 6.2, “Engineering Phase”, on page 69. • For more information on how to connect the Xenta 701/711/721, see Section 7.2, “Engineering Phase”, on page 81. • For more information on how to connect the Xenta 731, see Section 8.2, “Engineering Phase”, on page 91. • For more information on how to connect the Xenta 911, see Section 10.2, “Engineering Phase”, on page 106. • For more information on how to connect the Xenta 913, see Section 11.2, “Programming and Operating Phase”, on page 115. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 31 (134) 2 TAC Xenta 500/700/911/913 2.3.1 TAC Xenta 500/700/911/913, Product Manual Accessing the TAC Xenta The Xenta is accessed using an standard web browser. To access the TAC Xenta 1 Start Internet Explorer. 2 In the Address box, type the IP address of the Xenta. In the example “10.158.12.210”. 3 Press ENTER. A security alert appears, similar to the following figure, with information about the site’s security certificate. 32 (134) 4 Click Yes. 5 In the Username box, type “root”. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2 TAC Xenta 500/700/911/913 6 In the Password box, type the password. In the example, “root”. 7 Click Login. The default web page in the Xenta appears. Note • Schneider Electric Buildings AB, Feb 2011 04-00071-04-en A java applet security dialog warning may be displayed. Click Yes in the dialog. 33 (134) 2 TAC Xenta 500/700/911/913 2.3.2 TAC Xenta 500/700/911/913, Product Manual Changing the Root Password The default password for the system administrator is widely known. To avoid unauthorized access to the system the password has to be changed. You can change the password using the Change Password page on the Xenta web site. To change the password 1 In the navigator, expand Configuration-User Administrator, and click Change Password. 2 In the Old password box, type the old password. In the example, “root”. 3 In the New password box, type the new password. In the example, “seagull3”. 4 In the Confirm new password box, confirm the new password. 5 Click Save. Use the new password the next time you log on as system administrator. 34 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2.4 2 TAC Xenta 500/700/911/913 Temporary Login ID If you do not have access to the root password when you try to connect to a Xenta 500/700/913, a temporary user name and password can be used. The temporary password is generated by based on the Session ID displayed on the Login page. Send the Session ID to helpdesk@tac.com, which generates and returns a temporary password. Then type the Session ID in the Username box and the temporary password in the Password box. Tip • You can select the text on the login page, copy it and then paste it into the e-mail message and the Username box. The Session ID changes each day, so the temporary password is only valid on the day it is generated. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 35 (134) 2 TAC Xenta 500/700/911/913 2.5 TAC Xenta 500/700/911/913, Product Manual Upgrading the System Program The Xenta system program can be upgraded via the IP network from a computer running the installation program. The installation program is distributed by Schneider Electric. In the example the Xenta 511 will be upgraded. Note • To upgrade the system program of the Xenta device you must first configure the Xenta using Windows HyperTerminal. For more information on how to configure the Xenta, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. To upgrade the system program 1 Connect the Xenta and a computer to a TCP/IP network according to the figure. TCP/IP 36 (134) TCP/IP 2 Obtain the installation program from Schneider Electric’s web site or from the TAC Software CD-ROM. 3 Double-click the installation program to start the installation. The following screen shots show the installation procedure for a Xenta 511 but they are similar for other Xenta devices. 4 Read the instructions. 5 If the requirements are met, click Next. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2 TAC Xenta 500/700/911/913 6 Select temporary folder for the installation program. 7 Click Next. 8 Select skin. 9 Click Next. 10 Select which kind of installation you want to carry out. In our example, select Install full system. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 37 (134) 2 TAC Xenta 500/700/911/913 TAC Xenta 500/700/911/913, Product Manual 11 Click Next. 12 In the TAC Xenta 511 target unit parameters dialog box, in the Username box, type root. 13 In the Password box, type the password for root. 14 In the IP address box, type the IP address (or the URL address) of the Xenta device. 15 Click Next. 16 Read the list of actions that will be carried out during the installation. 38 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 2 TAC Xenta 500/700/911/913 17 Click Yes. 18 Click Finish to complete the installation. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 39 (134) 2 TAC Xenta 500/700/911/913 40 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 3 3 Connecting the TAC Xenta to Your Network Connecting the TAC Xenta to Your Network The Xenta integrates with your building control system by communicating across the Ethernet using TCP/IP transport protocols. In order for the Xenta to successfully establish communications with your building control system, certain network criteria must be met. More specifically, the ports required for proper communication with these systems must be open and available to the Xenta . The Xenta uses the following communication ports: • Port 80 (HTTP access, configurable) • Port 443 (HTTPS access, configurable) • Port 20/21 (FTP access) • Port 25 (SMTP access) • Port 80 (Status Viewer, Alarm Viewer and Graphics Viewer) • Port 1068 (LTA for Vista) • Port 161 (SNMP access) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 41 (134) 3 Connecting the TAC Xenta to Your Network 3.1 Alternative Port Settings 3.1.1 HTTP and HTTPS TAC Xenta 500/700/911/913, Product Manual Perhaps you are unable to make the necessary configuration changes to your proxies/firewalls because of restrictions imposed by your company’s network security policies. In this case, you have the option of choosing different numbers for the HTTP and HTTPS communication ports shown above. The following steps describe how to select other communication ports: 42 (134) 1 From the web browser, expand the navigation tree as shown in the following figure and select HTTP Server. 2 Set the HTTP and HTTPS communication port assignments to the appropriate values. 3 Accept your settings by selecting Save & Restart. 4 Configure your network to allow communication on the ports you assigned to the Xenta. 5 Verify that the Xenta can now successfully communicate across the Internet and with your building control systems. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 4 4 TAC Xenta 511 TAC Xenta 511 A Xenta 511 can be configured as a web-based presentation system for LonWorks networks. Using a standard web browser, the operator can easily view and control the devices in the LonWorks network. 4.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal via an RS-232 connection to initialize and configure the Xenta 511. For more information on how to initialize and configure the Xenta 511, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. RS-232 Windows HyperTerminal Fig. 4.1: Windows HyperTerminal communicating with a TAC Xenta 511 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 43 (134) 4 TAC Xenta 511 4.1.1 TAC Xenta 500/700/911/913, Product Manual Connections, configuration Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 4.2: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 44 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 4.2 4 TAC Xenta 511 Engineering Phase The technician uses XBuilder to program the Xenta 511 via the TCP/IP network. To access the Xenta 511 web site a standard web browser is used. TCP/IP TAC XBuilder Web browser LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 4.3: TAC XBuilder or a web browser communicating with a TAC Xenta 511 using IP during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 45 (134) 4 TAC Xenta 511 4.2.1 TAC Xenta 500/700/911/913, Product Manual Connections, engineering Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 Fig. 4.4: Connections during the engineering phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta RS485Aport pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 511does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. 46 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 4.3 4 TAC Xenta 511 Operating Phase The operator uses a standard web browser to view and control the devices in the LonWorks network, either via a directly connected or using a dialed-up connection. 4.3.1 Directly Connected The operator uses a standard web browser to view and control the devices in the LonWorks network. TCP/IP Web browser LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 4.5: A web browser communicating with a TAC Xenta 511 using TCP/IP during the operating phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 47 (134) 4 TAC Xenta 511 4.3.2 TAC Xenta 500/700/911/913, Product Manual Connections, operation directly Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 Fig. 4.6: Connections during the operating phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta RS485Aport pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 511does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. 48 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 4.3.3 4 TAC Xenta 511 Dialed-Up, operation The operator uses a standard web browser to view and control the devices in the LonWorks network, using a dialed-up connection via RS-232 with the possibility to use a TCP/IP network. RS232 Web browser RS232 Fig. 4.7: Dialed-up connection. ISP Modem TCP/IP Web browser RS232 Fig. 4.8: Dialed-up connection via TCP/IP. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 49 (134) 4 TAC Xenta 511 4.3.4 TAC Xenta 500/700/911/913, Product Manual Connections, operation dial-up Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309160. 3 1 4 2 5 Modem Fig. 4.9: Connections during the engineering phase. Pos. Description Qty Part No. 1 DB25/Male-to-RJ45/Female adapter connecting the modem serial port to the cable directly below. 1 3-621-3052-01 22 RJ-45-to-RJ-45 rollover cable connecting the adapter to the Xenta serial port RS-232 A. 1 3-781-0118-01 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com 1 N/A 42 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP to the Xenta 10Base-T port. 1 N/A 5 1. Part of cable kit no. 007309160. 2. Only one should be connected. 50 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 4.4 4 TAC Xenta 511 Port Usage If a Xenta 511 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 511 uses the following ports: Table 4.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 511 operating as an LTA port. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en No 51 (134) 4 TAC Xenta 511 52 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 5 5 TAC Xenta 527 TAC Xenta 527 A Xenta 527 can be configured as a web-based presentation system for I/NET networks. Using a standard web browser, the operator can easily view and control the devices in the LonWorks network via the Internet or a local intranet. 5.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal via a RS-232 connection to initialize and configure the Xenta 527. For more information, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. RS-232 Windows HyperTerminal Fig. 5.1: Windows HyperTerminal communicating with a TAC Xenta 527 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 53 (134) 5 TAC Xenta 527 5.1.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 5.2: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 54 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 5.2 5 TAC Xenta 527 Engineering Phase The technician uses XBuilder to program the Xenta 527 via the TCP/IP network. To access the Xenta 527 web site a standard web browser is used. TCP/IP TAC XBuilder Web browser I/NET LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 5.3: TAC XBuilder or a web browser communicating with a TAC Xenta 527 using IP during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 55 (134) 5 TAC Xenta 527 5.2.1 TAC Xenta 500/700/911/913, Product Manual Connections Below you find information on which cables to use and how to connect the cables. 3 1 5 2 LAN TCP/IP WAN 6 TxD 3 RxD 4 Cr 5 4 Fig. 5.4: Connections during the engineering phase. 56 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Pos. Description 5 TAC Xenta 527 Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A I/NET Controller LAN cable connected to serial port RS-485 C. 1 42 Use either of the following wire types: • 22 AWG (0.324 mm2) shielded, twisted pair, 5000' (1500 m) maximum per segment, 150 Ω impedance, 9 pF/ft. conductor-to-conductor, 14 pF/ft. conductor-to-shield. Belden 9184 24 AWG (0.206 mm2) shielded, twisted pair, 4000' (1200 m) maximum per segment, 120 Ω impedance, 13 pF/ft. conductor-to-conductor, 23 pF/ft. conductor-to-shield. Belden 9841 or • 53 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 63 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 527 does not support Ethernet MDI, a crossover cable may be required. 2. Maintain proper polarity when connecting this cable to each device on the controller LAN. 3. Only one may be connected. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 57 (134) 5 TAC Xenta 527 5.3 TAC Xenta 500/700/911/913, Product Manual Operating Phase The operator uses a standard web browser to view and control the devices in the LonWorks network, either via a directly connected or using a dialed-up connection. 5.3.1 Directly Connected The operator uses a standard web browser to view and control the LonWorks devices directly connected via TCP/IP. I/NET LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client TCP/IP Web browser Fig. 5.5: A web browser communicating with a TAC Xenta 527 using TCP/IP during the operating phase. 5.3.2 Connections Below you find information on which cables to use and how to connect the cables. 3 1 5 2 TCP/IP 6 TxD 3 RxD 4 Cr 5 4 Fig. 5.6: Connections during the operating phase. 58 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Pos. Description 5 TAC Xenta 527 Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A I/NET Controller LAN cable connected to serial port RS-485 C. 1 42 Use either of the following wire types: • 22 AWG (0.324 mm2) shielded, twisted pair, 5000' (1500 m) maximum per segment, 150 Ω impedance, 9 pF/ft. conductor-to-conductor, 14 pF/ft. conductor-to-shield. Belden 9184 24 AWG (0.206 mm2) shielded, twisted pair, 4000' (1200 m) maximum per segment, 120 Ω impedance, 13 pF/ft. conductor-to-conductor, 23 pF/ft. conductor-to-shield. Belden 9841 or • 53 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 63 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 527 does not support Ethernet MDI, a crossover cable may be required. 2. Maintain proper polarity when connecting this cable to each device on the controller LAN. 3. Only one may be connected. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 59 (134) 5 TAC Xenta 527 5.3.3 TAC Xenta 500/700/911/913, Product Manual Dialed-Up The operator uses a standard web browser to view and control the LonWorks devices using a dialed-up connection via RS-232 with the possibility to use a TCP/IP network. RS232 Web browser RS232 Fig. 5.7: Dialed-up connection. ISP Modem TCP/IP Web browser RS232 Fig. 5.8: Dialed-up connection via TCP/IP. 5.3.4 Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. 60 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 5 TAC Xenta 527 Required Cable Kit Part. No. 007309160. 3 1 2 4 Fig. 5.9: Connections during the operating phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 61 (134) 5 TAC Xenta 527 Pos. TAC Xenta 500/700/911/913, Product Manual Description Qty Part No. 1 DB25/Male-to-RJ45/Female adapter connecting the modem serial port to the cable directly below. 1 3-621-3052-01 22 RJ-45-to-RJ-45 rollover cable connecting the adapter directly above to the Xenta serial port RS-232 A. 1 3-781-0118-01 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com 1 N/A I/NET Controller LAN cable connected to serial port RS-485 C. 1 43 Use either of the following wire types: • 22 AWG (0.324 mm2) shielded, twisted pair, 5000' (1500 m) maximum per segment, 150 Ω impedance, 9 pF/ft. conductor-to-conductor, 14 pF/ft. conductor-to-shield. Belden 9184 24 AWG (0.206 mm2) shielded, twisted pair, 4000' (1200 m) maximum per segment, 120 Ω impedance, 13 pF/ft. conductor-to-conductor, 23 pF/ft. conductor-to-shield. Belden 9841 or • 1. Part of Modem Connect Cable Kit no. 007309160. 2. Only one should be connected. 3. Maintain proper polarity when connecting this cable to each device on the controller LAN. 62 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 5.4 5 TAC Xenta 527 Port Usage If a Xenta 527 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 527 uses the following ports: Table 5.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 527 operating as an LTA port. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). I/NET 50069 Local No I/NET UDP/IP. Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en No 63 (134) 5 TAC Xenta 527 5.5 TAC Xenta 500/700/911/913, Product Manual Connecting the TAC Xenta 527 to an I/NET Controller LAN The Xenta 527 connects to the I/NET controller LAN through terminal 19 and 20 of its lower terminal block connector. 10Base-T A RS 232 B TAC Xenta RS485 C RX/ RX/ IP address.................-................-...............-................ TX+ TX– 11 12 13 14 15 16 17 18 19 20 Controller LAN Connections Fig. 5.10: Controller LAN Connections To connect the Xenta 527 to an I/NET controller LAN 1 Connect the positive (+) line to position 19. 2 Connect the negative (–) line to position 20. 3 Splice shield wires together at each device on the controller LAN, and connect to a good earth ground at one location only. Ensure that shield wire continuity is maintained across the controller LAN. Note • 64 (134) The polarity of the RS485 connection is important. It is recommended that you observe the network’s polarity convention (the positive line connected to position 1, and the negative line to position 2, on all devices). This convention will help ensure consistent voltage measurements should diagnostic troubleshooting become necessary. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 5.6 5 TAC Xenta 527 Using a Direct Connection to I/NET The Xenta 527 is intended for use on an Ethernet LAN. However, you can also directly connect an I/NET host workstation to the RS-232 A port on the front of the Xenta 527. This allows the directly connected I/NET host to communicate with devices on the Xenta 527’s controller LAN. This type of connection can also be used when you are configuring the Xenta 527’s communication parameters. In order to directly connect an I/NET host workstation to the Xenta 527, you must connect a cable from the workstation’s serial COM port to the Xenta 527’s RS-232 B port. TAC Xenta Programming Serial Kit 007309200 provides that adapters and cables required for this type of connection, as well as for a console connection. to the Xenta 527’s RS-232 B port. Once you have connected an I/NET host workstation to Xenta 527, set I/NET’s link type to “NetPlus Router” in the I/NET Configuration editor. Refer to TCON298, I/NET Seven Getting Started, for complete instructions. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 65 (134) 5 TAC Xenta 527 66 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6 6 TAC Xenta 555 TAC Xenta 555 A Xenta 555 can be configured as a web-based presentation system for MicroNet networks. Using a standard web browser, the operator can easily view and control the devices in the MicroNet network via the Internet or a local intranet. 6.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal via an RS-232 connection to initialize and configure the Xenta 555. For more information, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25 of this handbook. RS-232 Xenta 555 Windows HyperTerminal Fig. 6.1: Windows HyperTerminal communicating with a Xenta 555 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 67 (134) 6 TAC Xenta 555 6.1.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. Fig. 6.2: Connections during the configuration phase. Table 6.1: Connector descriptions (configuration phase) Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 RJ-45-to-RJ-10 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 68 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6.2 6 TAC Xenta 555 Engineering Phase The technician uses XBuilder to program the Xenta 555 via the TCP/IP network. To access the Xenta 555 web site a standard web browser is used. TCP/IP MicroNet or Satchnet LonTalk Modbus TCP Client TAC XBuilder Web browser Fig. 6.3: TAC XBuilder or a web browser communicating with a Xenta 555 using IP during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 69 (134) 6 TAC Xenta 555 6.2.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you will find information on which cables to use and how to connect the cables. Required Cable Kit Part. No. 007309200. TCP/IP MNMI PL4 Fig. 6.4: Connections during the engineering phase. 70 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6 TAC Xenta 555 Table 6.2: Connector descriptions (engineering phase) Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 32 MicroNet or Satchnet Controller LAN cable connecting the Xenta serial port RS-485 A pins 5-6 to a MicroNet device3. 1 Use one of the following cable types (as appropriate)4: • 24 AWG (0.206 mm2), 7 x 32 stranded, shielded5, twisted pair, 3281' (1000 m) maximum per segment, 75 Ω impedance, 30 pF/ft. conductor-to-conductor, 50 pF/ft. conductor-to-shield. Belden 95026 20 AWG (0.519 mm2), 7 x 28 stranded, shielded5, twisted pair, 3281' (1000 m) maximum per segment, 56 Ω impedance, 27 pF/ft. conductor-to-conductor, 49 pF/ft. conductor-to-shield. Belden 8762 or • 4 DB9/Female-to-RJ45/Female adapter connecting the MicroNet Manager Interface PL4 to the cable directly below. 1 3-621-3056-07 5 RJ-45-to-RJ-45 rollover cable connecting the cable directly above to the Xenta RS 232 Port A. 1 3-781-0118-07 1. TAC Xenta 555 does not support Ethernet MDI, a crossover cable may be required. 2. Maintain proper polarity when connecting this cable to a device on the MicroNet controller LAN. 3. Alternative communication is also possible by connecting the MicroNet Manager Interface directly to the MicroNet network, using the same cable. 4. For MN50 Series networks, use Belden 9502. For older MicroNet or Satchnet networks, use Belden 8762. 5. Connect the shield at one end of the network only, either at the MicroNet end (see MicroNet data sheets) or to a verified good earth at the Xenta end. 6. Connect the second twisted pair (i.e the LAN REF) to Pin 2 (G0) at the Xenta 555. Maintain the LAN REF at all devices. 7. Part of cable kit no. 007309200. The cable kit also contains a serial cable no. 3-781-0128-0 (null modem cable) which is not needed during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 71 (134) 6 TAC Xenta 555 6.2.2 TAC Xenta 500/700/911/913, Product Manual RS485 LAN Wiring The following illustrations show example RS485 LAN connections from the Xenta 555 to MicroNet networks. For full MicroNet network wiring details refer to the MicroNet System Engineering Guide and to the relevant MicroNet controller data sheets. 1st twisted pair (signal) Xenta 555 + 5 6 – MN550 + 21 20 2 43 G0 LAN REF MN450 – + 14 13 – 15 1 LAN REF GND 2nd twisted pair (LAN REF) Fig. 6.5: RS485 LAN from Xenta 555 to a MicroNet MN50 Series network (Belden 9502 dual twisted pair used). Xenta 555 + 5 6 – MN500 + 6 5 MN440 – + 13 12 MN620 – + 6 5 – 1 GND Fig. 6.6: RS485 LAN from Xenta 555 to an older MicroNet network (Belden 8762 single twisted pair used). Note • 72 (134) NCP networks are shown. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6.3 6 TAC Xenta 555 Operating Phase The operator uses a standard web browser to view and control the devices in the MicroNet network via TCP/IP. TCP/IP Web browser MicroNet or Satchnet Fig. 6.7: A web browser communicating with a Xenta 555 using TCP/IP during the operating phase 6.3.1 Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which cables to use and how to connect the cables. Required Cable Kit Part. No. 007309200. TCP/IP MNMI PL4 Fig. 6.8: Connections during the operating phase. Note • Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Items 4 and 5 are required whenever an ARCNET network is used. 73 (134) 6 TAC Xenta 555 TAC Xenta 500/700/911/913, Product Manual Table 6.3: Connector descriptions (operating phase) Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 32 MicroNet or Satchnet Controller LAN cable connecting the Xenta serial port RS-485 A pins 5-6 to a MicroNet device3. 1 Use one of the following cable types (as appropriate)4: • 24 AWG (0.206 mm2), 7 x 32 stranded, shielded5, twisted pair, 5000' (1500 m) maximum per segment, 75 W impedance, 30 pF/ft. conductor-to-conductor, 50 pF/ft. conductor-to-shield. Belden 95026 22 AWG (0.324 mm2), 7 x 28 stranded, shielded5, twisted pair, 4000' (1200 m) maximum per segment, 120 W impedance, 17 pF/ft. conductor-to-conductor, 24.3 pF/ft. conductor-to-shield. Belden 8762 or • 4 DB9/Female-to-RJ45/Female adapter connecting the MicroNet Manager Interface PL4 to the cable directly below. 1 3-621-3056-07 5 RJ-45-to-RJ-45 rollover cable connecting the cable directly above to the Xenta RS 232 Port A. 1 3-781-0118-07 1. TAC Xenta 555 does not support Ethernet MDI, a crossover cable may be required. 2. Maintain proper polarity when connecting this cable to a device on the MicroNet controller LAN. 3. Alternative communication is also possible by connecting the MicroNet Manager Interface directly to the MicroNet network, using the same cable. 4. For MN 50 Series networks, use Belden 9502. For older MicroNet or Satchnet networks, use Belden 8762. 5. Connect the shield at one end of the network only, either at the MicroNet end (see MicroNet data sheets) or to a verified good earth at the Xenta end. 6. Connect the second twisted pair (i.e the LAN REF) to Pin 2 (G0) at the Xenta 555. Maintain the LAN REF at all devices. 7. Part of cable kit no. 007309200. The cable kit also contains a serial cable no. 3-781-0128-0 (null modem cable) which is not needed during the operating phase. 74 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6.4 6 TAC Xenta 555 Port Usage If a Xenta 555 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 555 uses the following ports: Table 6.4: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 555 operating as an LTA port. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). MicroNet 7001 Local Yes VisiSat Port (TCP) Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en No 75 (134) 6 TAC Xenta 555 6.5 TAC Xenta 500/700/911/913, Product Manual Connecting the TAC Xenta 555 to a MicroNet Controller LAN The method of connecting the Xenta 555 to a MicroNet controller LAN depends on the MicroNet LAN type. These networks are: ! • MicroNet NCP network, that is, MicroNet controllers using the Native Communications Protocol. A MicroNet Manager Interface (MN MI) must not be used. • MicroNet ARCNET network, that is, MicroNet controllers using the Attached Resource Computer Network protocol. An MN MI must be used. • Satchnet network, that is, older products using the Satchwell Networking Protocol (SNP). A Modem Interface Unit (MIU) must not be used. Note • Auto dial remote sites are not supported by the Xenta 555. Tip • 76 (134) The MN MI and the MIU are not required for NCP and SNP networks and can be removed when installing the Xenta 555. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 6.5.1 6 TAC Xenta 555 Connecting to a MicroNet NCP network (MN MI not used) The Xenta 555 connects to the MicroNet controller network through terminals 5 and 6 of its upper terminal block connector. MicroNet Controller LAN Connection (RS485) 5 VA 1 2 G G0 C1 C2 LON 3 24 VAC Rx Tx Run Rx Tx 4 5 6 7 8 9 10 RX/ RX/ RX+ RX- G0 TX+ TXFail-safe LON RS485 A Rx / Tx Fig. 6.9: RS485 LAN connections (MicroNet NCP network) To connect the TAC Xenta 555 to a MicroNet controller LAN 1 Connect the positive (+) line to position 5. 2 Connect the negative (–) line to position 6. Join the shield wires together at each device on the controller LAN, and connect to a good earth ground at one location only. Ensure that shield wire continuity is maintained across the controller LAN. If Belden 9502 dual-twisted pair is being used (recommended), join together both wires of the second twisted pair and connect them to the LAN REF terminal at each MicroNet device (refer to the relevant MicroNet data sheets for details). For the Xenta 555, connect the second twisted pair to Pin 2 (G0). Caution • Belden 9502 dual-twisted pair cable contains one black wire in each twisted pair. It is essential to good communications that these black wires are not crossed over between pairs. Note • Schneider Electric Buildings AB, Feb 2011 04-00071-04-en It is important to ensure that the polarity of the network connections is consistent throughout the system, that is, (–) is connected to (–) and (+) is connected to (+). 77 (134) 6 TAC Xenta 555 6.5.2 TAC Xenta 500/700/911/913, Product Manual Connecting to a MicroNet ARCNET network (MN MI used) To connect to a MicroNet ARCNET network (MN MI used) 6.5.3 1 Connect adapter 3-621-3056-0 to the MN MI’s serial COM port 2 Connect cable 3-781-0118-0 to the above adaptor and then to the Xenta 555’s RS232 A port 3 If connecting an ARCNET network, connect the LAN twisted pair cable to the MN MI (MN50-MI-ARC) terminals as detailed in MicroNet data sheet DS 10.217A. 4 If connecting an NCP network, connect the LAN twisted pair cable to the MN MI (MN50-MI-NCP) terminals as detailed in MicroNet data sheet DS 10.217A. Connecting to a Satchnet network (MIU not used) This method applies to Satchnet networks. The Xenta 555 connects to the MicroNet controller network through terminals 5 and 6 of its upper terminal block connector. Satchnet Controller LAN Connection (RS485) 5 VA 1 2 G G0 C1 C2 LON 3 24 VAC Rx Tx Run Rx Tx 4 5 6 7 8 9 10 RX/ RX/ RX+ RX- G0 TX+ TXFail-safe LON RS485 A Rx / Tx Fig. 6.10: RS485 LAN connections (Satchnet network) To connect the TAC Xenta 555 to a MicroNet controller LAN 1 Connect the positive (+) line to position 5. 2 Connect the negative (–) line to position 6. Join the shield wires together at each device on the controller LAN, and connect to a good earth ground at one location only. Ensure that shield wire continuity is maintained across the controller LAN. Note • 78 (134) It is important to ensure that the polarity of the network connections is consistent throughout the system, that is, (–) is connected to (–) and (+) is connected to (+). Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 7 7 TAC Xenta 701/711/721 TAC Xenta 701/711/721 A Xenta 701/711/721 can be configured as a control system for LonWorks networks that communicate over a TCP/IP network. By using a standard web browser, the operator can easily view and control the devices in the LonWorks network via a TCP/IP network. Note • 7.1 Only the Xenta 711 is designed to be used by an operator for day-to-day operation. The Xenta 701/721 can be accessed for engineering purposes using a web browser. Configuration Phase The technician uses Microsoft Windows and HyperTerminal via an RS-232 connection to initialize and configure the Xenta 701/711/721. For more information on how to initialize and configure the Xenta 701/711/721, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. RS-232 Windows HyperTerminal Fig. 7.1: Windows HyperTerminal communicating with a TAC Xenta 701/711/721 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 79 (134) 7 TAC Xenta 701/711/721 7.1.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 7.2: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 80 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 7.2 7 TAC Xenta 701/711/721 Engineering Phase The technician uses XBuilder to program the Xenta 701/711/721 via the TCP/IP network. To access the Xenta 701/711/721 web site a standard web browser is used. TCP/IP TAC XBuilder Web browser LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 7.3: TAC XBuilder or a web browser communicating with a TAC Xenta 701/711/721 using IP during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 81 (134) 7 TAC Xenta 701/711/721 7.2.1 TAC Xenta 500/700/911/913, Product Manual Connections Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 Fig. 7.4: Connections during the engineering phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 701/711/721 does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. 82 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 7.3 7 TAC Xenta 701/711/721 Operating Phase The operator uses a standard web browser to view and control the devices in the LonWorks network, either via a directly connected or using a dialed-up connection. 7.3.1 Directly Connected The operator uses a standard web browser to view and control the devices in the LonWorks network, directly connected via the TCP/IP network. TCP/IP Web browser LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 7.5: A web browser communicating with a TAC Xenta using TCP/IP during the operating phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 83 (134) 7 TAC Xenta 701/711/721 7.3.2 TAC Xenta 500/700/911/913, Product Manual Connections Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 Fig. 7.6: Connections during the operating phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1. TAC Xenta 701/711/721 does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. 84 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 7.3.3 7 TAC Xenta 701/711/721 Dialed-Up The operator uses a standard web browser to view and control the devices in the LonWorks network, using a dialed-up connection via RS-232 with the possibility to use a TCP/IP network. RS232 Web browser RS232 Fig. 7.7: Dialed-up connection. ISP Modem TCP/IP Web browser RS232 Fig. 7.8: Dialed-up connection via TCP/IP. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 85 (134) 7 TAC Xenta 701/711/721 7.3.4 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309160. 3 1 2 Modem Fig. 7.9: Connections during the engineering phase. Pos. Description Qty Part No. 1 DB25/Male-to-RJ45/Female adapter connecting the modem serial port to the cable directly below. 1 3-621-3052-01 2 RJ-45-to-RJ-45 rollover cable connecting the adapter to the Xenta serial port RS-232 A. 1 3-781-0118-01 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com 1 N/A 1. Part of cable kit no. 007309160. 86 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 7.4 7 TAC Xenta 701/711/721 Port Usage If a Xenta 701/711/721 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 701/711/721 uses the following ports: Table 7.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 701/711/721 operating as an LTA port. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). UDP 5069 Remote Yes Notification on Change (UDP). Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en No 87 (134) 7 TAC Xenta 701/711/721 88 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8 8 TAC Xenta 731 TAC Xenta 731 A Xenta 731 can be configured as a web-based presentation system for LonWorks networks. Using a standard web browser, the operator can easily view and control the devices in the LonWorks network via a TCP/IP network. 8.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal via an RS-232 connection to initialize and configure the Xenta 731. For more information on how to initialize and configure the Xenta 731, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. RS-232 Windows HyperTerminal Fig. 8.1: Windows HyperTerminal communicating with a TAC Xenta 731 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 89 (134) 8 TAC Xenta 731 8.1.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 8.2: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 90 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8.2 8 TAC Xenta 731 Engineering Phase The technician uses XBuilder to program the Xenta 731 via the TCP/IP network. To access the Xenta 731 web site a standard web browser is used. TCP/IP TAC XBuilder Web browser I/NET MicroNet LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 8.3: TAC XBuilder or a web browser communicating with a TAC Xenta 731 using IP during the engineering phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 91 (134) 8 TAC Xenta 731 8.2.1 TAC Xenta 500/700/911/913, Product Manual Connections Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 6 Fig. 8.4: Connections during the engineering phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta RS485 A port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A or cable connecting the Xenta serial port RS-485 A pins 5-6 to a MicroNet device. For more information on MicroNet communication, see Chapter 6, “TAC Xenta 555”, on page 67. 92 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Pos. Description 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 6 I/NET Controller LAN cable connected to serial port RS-485 C. For more information on I/NET communication, see Chapter 5, “TAC Xenta 527”, on page 53. 8 TAC Xenta 731 Qty 1 Part No. N/A 1. TAC Xenta 731 does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 93 (134) 8 TAC Xenta 731 8.3 TAC Xenta 500/700/911/913, Product Manual Operating Phase The operator uses a standard web browser to view and control the devices in the LonWorks network, either via a directly connected or using a dialed-up connection. 8.3.1 Directly Connected The operator uses a standard web browser to view and control the devices in the LonWorks network, directly connected via the TCP/IP network. TCP/IP Web browser I/NET MicroNet LonTalk Modbus Master, serial Modbus Slave, serial Modbus TCP Client Fig. 8.5: A web browser communicating with a TAC Xenta 731 using TCP/IP during the operating phase. 94 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8.3.2 8 TAC Xenta 731 Connections Below you find information on which cables to use and how to connect the cables. 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 6 Fig. 8.6: Connections during the operating phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta RS485 A port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A 1 N/A or cable connecting the Xenta serial port RS-485 A pins 5-6 to a MicroNet device. For more information on MicroNet communication, see Chapter 6, “TAC Xenta 555”, on page 67. 52 Cable connecting the Xenta port RS-232 A to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 95 (134) 8 TAC Xenta 731 Pos. 6 TAC Xenta 500/700/911/913, Product Manual Description Qty Part No. I/NET Controller LAN cable connected to serial port RS-485 C. For more information on I/NET communication, see Chapter 5, “TAC Xenta 527”, on page 53. 1. TAC Xenta 731 does not support Ethernet MDI, a crossover cable may be required. 2. Only one may be connected. 96 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8.3.3 8 TAC Xenta 731 Dialed-Up The operator uses a standard web browser to view and control the devices in the LonWorks network, using a dialed-up connection via RS-232 with the possibility to use a TCP/IP network. RS232 Web browser RS232 Fig. 8.7: Dialed-up connection. ISP Modem TCP/IP Web browser RS232 Fig. 8.8: Dialed-up connection via TCP/IP. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 97 (134) 8 TAC Xenta 731 8.3.4 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309160. 3 1 4 2 5 Modem 6 Fig. 8.9: Connections during the engineering phase. Pos. Description Qty Part No. 1 DB25/Male-to-RJ45/Female adapter connecting the modem serial port to the cable directly below. 1 3-621-3052-01 22 RJ-45-to-RJ-45 rollover cable connecting the adapter to the Xenta serial port RS-232 A. 1 3-781-0118-01 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com 1 N/A 42 Cable connecting the Xenta port pins 5–6 (5–8) to the Modbus device. For more information on cable requirements, see the Modbus equipment documentation. 1 N/A or cable connecting the Xenta serial port RS-485 A pins 5-6 to a MicroNet device. For more information on MicroNet communication, see Chapter 6, “TAC Xenta 555”, on page 67. 98 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Pos. Description 5 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Modbus device. 6 I/NET Controller LAN cable connected to serial port RS-485 C. For more information on I/NET communication, see Chapter 5, “TAC Xenta 527”, on page 53. 8 TAC Xenta 731 Qty 1 Part No. N/A 1. Part of cable kit no. 0-073-0916-0. 2. Only one should be connected. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 99 (134) 8 TAC Xenta 731 8.4 TAC Xenta 500/700/911/913, Product Manual Port Usage If a Xenta 731 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 731 uses the following ports: Table 8.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 731 operating as an LTA port. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. 100 (134) No Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 8 TAC Xenta 731 Table 8.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable UDP 5069 Remote Yes Notification on Change (UDP). I/NET 50069 Local No I/NET UDP/IP. MicroNet 7001 Local Yes VisiSat Port (TCP) Protocol Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Comments 101 (134) 8 TAC Xenta 731 102 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 9 9 Connecting the OP7 to Xenta 700 Connecting the OP7 to Xenta 700 The TAC OP7 is a small but powerful operator panel designed to be used with all models of the TAC Xenta 700 series of controllers. There are two mounting possibilities: put in a cabinet door using the Remote mounting kit, or hung on any flat, vertical surface using the Wall mounting kit. In both cases the OP7 is easily removed and can be used as a hand-held terminal. 9.1 Connecting the OP7 The OP7 is connected to the Xenta 700 via an adapter, providing power supply and communication interface. Adapter 24 VAC 731 Transformer Xenta 700 To OP7 or Remote/Wall mounting CPU cable Fig. 9.1: Transformer, OP7 Power adapter, and Xenta 700 9.2 Remote (cabinet door) mounting Fix the Remote mounting kit (2) in a cabinet door cut-out. The optional hinged cover (3) will give added protection from IP 54 to IP 65. The Remote cable (4), supplied with the OP7, is used to connect the holder to the Xenta 700 adapter. . 3 2 1 116 (4.57) 105 (4.13) 4 To Xenta 700 adapter Fig. 9.2: Remote mounting receptacle and cutout dimensions: mm (in.) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 103 (134) 9 Connecting the OP7 to Xenta 700 9.3 TAC Xenta 500/700/911/913, Product Manual Wall mounting Put the Wall mounting kit (2) on any flat, vertical surface and use it as a convenient holder for the OP7. The Remote cable (4) and the RJ45 female/female adapter (5) are supplied with the OP7. An additional remote cable (6) is required. 2 4 5 To Xenta 700 adapter 1 6 Fig. 9.3: Wall mounting holder 9.4 Handheld terminal To use the OP7 as a handheld terminal you must have a cable (4 or 6) and an RJ45 female/female adapter (5), to connect it to: • a Xenta 700 adapter (Fig. 9.1) • the remote (cabinet door) holder or • the wall mounted holder 5 1 4 or 6 To Xenta 700 adapter or Remote/Wall mounting holder Fig. 9.4: Connecting OP7 as a handheld terminal 104 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 10 10 TAC Xenta 911 TAC Xenta 911 Xenta 911 can be used as a LonTalk adapter between Vista and the LonWorks network, as an IP modem or as a serial gateway. 10.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal to initialize and configure the Xenta 911. For more information, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. 10.1.1 Connections Cables that can be ordered from Schneider ElectricSchneider ElectricSchneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 10.1: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains a RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 105 (134) 10 TAC Xenta 911 10.2 TAC Xenta 500/700/911/913, Product Manual Engineering Phase If the Xenta 911 is used as IP modem it needs to be programmed. Use an ordinary TCP/IP network connection to access and program the Xenta 911. For more information on how to program the Xenta 911, see Section 12.1, “Programming the TAC Xenta 911”, on page 119. If the Xenta 911 is used as an LonTalk adapter it does not need to be programmed. TCP/IP Web browser Fig. 10.2: A web browser communicating with a TAC Xenta 911 using IP during the engineering phase. 10.2.1 Connections Below you find information on which cables to use and how to connect the cables. 1 2 TCP/IP Fig. 10.3: Connections during the engineering phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 1. If directly connected: use a TP UTP/UTS CAT.6 RJ-45 crossed cable. 106 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 10.3 10 TAC Xenta 911 Operating Phase In the operating phase the Xenta 911 acts as a LonTalk adapter or as an IP modem. 10.3.1 LonTalk Adapter Xenta 911 can be used as a LonTalk adapter between Vista and the LonWorks network. LonTalk Modbus TCP/IP Fig. 10.4: Vista communicating with a TAC Xenta 911 using TCP/IP during the operating phase. 10.3.2 Connections Below you find information on which cables to use and how to connect the cables. 3 1 2 TCP/IP Fig. 10.5: Connections during the operating phase. Pos. Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 3 Cable connecting the Xenta port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 107 (134) 10 TAC Xenta 911 TAC Xenta 500/700/911/913, Product Manual 1. If directly connected: use a TP UTP/UTS CAT.6 RJ-45 crossed cable. 10.3.3 IP Modem Xenta 911 can be used as an IP modem, working as a direct replacement for a telephone modem with dial-up functionality over the computer network. Dial-up may be initiated by Vista (slow-poll) or by the Xenta 300/401. TCP/IP RS232 RS232 ? Fig. 10.6: Vista communicating with an unknown device using two TAC Xenta 911s as IP modems using RS-232 and IP during the operating phase. 10.3.4 Connections 1 3 2 3 4 5 TCP/IP 6 5 7 8 9 Cr 5 RxD 4 TxD 3 Fig. 10.7: Connections during the operating phase. 108 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Pos. Description 10 TAC Xenta 911 Qty Part No. 1 DB9/Female-to-DB25/Male adapter connecting the computer serial port to the adapter directly below. 1 3-621-0424-01 2 DB25/Female-to-RJ45/Female adapter connecting the adapter directly above to the cable directly below. 1 3-621-3054-01 3 RJ-45-to-RJ-45 rollover cable connecting the adapter directly above to the Xenta serial port RS-232 A. 1 3-781-0118-01 4 TP UTP/STP CAT.6 RJ-45 cable connecting the Xenta 10Base-T port to the TCP/IP network. 1 N/A 5 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A 62 RJ-45-to-RJ-45 TAC Xenta-to-Xenta cable connecting the Xenta serial port RS-232 A to the Xenta serial port RS-232 A on the Xenta 901/401/301/302/281/282/283. 1 3-621-0129-03 72 RJ-45-to-RJ-45 rollover cable connecting the Xenta serial port RS-232 A to the adapter directly below. 1 3-781-0118-04 82 RJ45/Female-to-DB25/Female adapter connecting the cable directly above and ADU-L/KE-2/6505/5702/5708/PLB/Danfoss GW-M/Danfoss Danduc.5 1 3-621-3054-04 92 RJ-45-to-RJ-45 rollover cable connecting the Xenta serial port RS-232 A to the target device.6 1 N/A 1. Part of cable kit no. 007309170. 2. Configurations 6, 7+8, 9 cannot be used at the same time. 3. Part of cable kit no. 007309180. 4. Part of cable kit no. 007309190. 5. The modem connection cable for the selected unit is also required. 6. If a Xenta 2000 is used the target device is the serial signal amplifier, for example, RAD type PSA. The IP modem interprets the AT (modem) commands from the RS-232 connections and transmits data between the IP modems across the IP network. Normally, the IP address is used during dial-up, but a phone number may also be used. This phone number will be translated into an IP address in the Xenta 911. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 109 (134) 10 TAC Xenta 911 10.3.5 TAC Xenta 500/700/911/913, Product Manual Serial Gateway The Xenta 911 can operate as a serial gateway, allowing computer software to use the Xenta 911 serial port RS-232 A as a communication port (COM port). 1 2 3 Cr 5 RxD 4 TxD 3 TCP/IP Fig. 10.8: Connections during the operating phase. Pos. Description Qty Part No. 1 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 2 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A RJ-45-to-RJ-45 rollover cable connecting the Xenta serial port RS-232 A to the target device. 1 N/A 31 1. If directly connected: use a TP UTP/UTS CAT.6 RJ-45 crossed cable. 110 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 10.4 10 TAC Xenta 911 Port Usage If a Xenta 911 and the IP network are located on opposite sides of one or several firewalls, these firewalls must be configured to allow traffic through. The Xenta 911 uses the following ports: Table 10.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No LTA IP 1068 Local/ Remote Yes Protocol used between Vista Server and Xenta 911 operating as an LTA port. IP Modem 1066, 1067 Local/ Remote Yes Protocol used between two Xenta 911s operating as IP modems. Protocol Comments With the exception of FTP access, these port numbers are adjustable in the web configuration for the Xenta 911. If adjustment to the port number is made, it is necessary to reconfigure all communicating units. HTTP and FTP access is only used for configuring and servicing the units. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 111 (134) 10 TAC Xenta 911 112 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 11 11 TAC Xenta 913 TAC Xenta 913 A Xenta 913 can be configured as a web-based presentation system for LonWorks networks. Using a standard web browser, the operator can easily view and control the devices in the LonWorks network via a TCP/IP network. For more information about the available protocols for the Xenta 913, see the TAC Xenta Server – Gateway, Technical Manual. 11.1 Configuration Phase The technician uses Microsoft Windows and HyperTerminal to initialize and configure the Xenta 913. For more information, see Section 2.2, “Configuring the TAC Xenta 500/700/911/913”, on page 25. RS-232 Windows HyperTerminal Fig. 11.1: Windows HyperTerminal communicating with a TAC Xenta 913 using RS-232 during the configuration phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 113 (134) 11 TAC Xenta 913 11.1.1 TAC Xenta 500/700/911/913, Product Manual Connections Cables that can be ordered from Schneider Electric are ordered as cable kits. Below you find information on which kit to order and how to connect the cables. Required Cable Kit Part. No. 007309200. 1 2 Fig. 11.2: Connections during the configuration phase. Pos. Description Qty Part No. 1 DB9/Female-to-RJ45/Female adapter connecting the computer serial port to the cable directly below. 1 3-621-3056-01 2 Serial cable (null modem cable) connecting adapter directly above to the Xenta serial port RS-232 B. 1 3-781-0128-01 1. Part of cable kit no. 007309200. The cable kit also contains an RJ-45-to-RJ-45 rollover cable (3-781-0118-0). This cable is not needed during the configuration phase. 114 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 11.2 11 TAC Xenta 913 Programming and Operating Phase The technician uses XBuilder to program the Xenta 913. The programmer uses an ordinary TCP/IP network connection to access the Xenta 511 unit. Modbus Master, serial Modbus Slave, serial Modbus TCP Client BACnet IP Client BACnet MS/TP Master BACnet PTP Master M-Bus Metering C-Bus Lighting Control LonTalk I/NET TCP/IP TAC XBuilder Web browser Fig. 11.3: TAC XBuilder or a web browser communicating with a TAC Xenta 913 using IP during the programming and operating phase. 11.2.1 Connections Below you find information on which cables to use and how to connect the cables 3 1 4 2 TCP/IP 5 TxD 3 RxD 4 Cr 5 6 Fig. 11.4: Connections during the programming and operating phase. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 115 (134) 11 TAC Xenta 913 Pos. TAC Xenta 500/700/911/913, Product Manual Description Qty Part No. 11 TP UTP/STP CAT.6 RJ-45 cable connecting the computer network port to the TCP/IP network. 1 N/A 21 TP UTP/STP CAT.6 RJ-45 cable connecting the TCP/IP network to the Xenta 10Base-T port. 1 N/A Cable connecting the Xenta RS232 A port pins 3–4 to the LonWorks device. For more information on cables approved by Echelon, see www.echelon.com. 1 N/A 42 Cable connecting the Xenta RS485 A port pins 5–6 (5–8) to the device (Modbus, BACnet). For more information on cable requirements, see the device documentation. 1 N/A 52 Cable connecting the Xenta port RS232 A to the device. For more information on cable requirements, see the device documentation. 1 N/A 63 I/NET Controller LAN cable connected to serial port RS485 C. 1 3 Use either of the following wire types: • 22 AWG (0.324 mm2) shielded, twisted pair, 5000' (1500 m) maximum per segment, 150 Ω impedance, 9 pF/ft. conductor-to-conductor, 14 pF/ft. conductor-to-shield. Belden 9184 24 AWG (0.206 mm2) shielded, twisted pair, 4000' (1200 m) maximum per segment, 120 Ω impedance, 13 pF/ft. conductor-to-conductor, 23 pF/ft. conductor-to-shield. Belden 9841 or • 1. TAC Xenta 913 does not support Ethernet MDI, a crossover cable may be required. 2. Both 4 and 5 cannot be used for communication at the same time. 3. Maintain proper polarity when connecting this cable to each device on the controller LAN. 116 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 11.3 11 TAC Xenta 913 Port Usage If a Xenta 913 and the IP network are located on opposite sides of one or several firewalls, the firewalls must be configured to allow traffic through. The Xenta 913 uses the following ports: Table 11.1: Port Usage IP Ports Local/ Remote Xenta Port Configurable FTP 20, 21 Local No File transfer protocol. HTTP 80 Local Yes HTTP traffic. HTTPS 443 Local Yes HTTP traffic over SSL, secure socket layer. DHCP Server 67 Remote No DHCP Client 68 Local No DNS 53 Remote No VarTransfer-http 80 Local/ Remote Yes VarTransfer-TCP 1233 Protocol Comments Dynamic data protocol, used by applets to communicate on-line data. The port number is the same as the http port. Dynamic data protocol, used between Xenta 500/700/913s that exchange variable data. VarTransfer-UDP 9088/9089 Local/ Remote SNMP 161 Local No Network management protocol (UDP). SNMP Trap 162 Remote No Network management protocol (UDP). SMTP 25 Remote No Mail protocol. NTP, SNTP 123 Local/ Remote No Time synchronization (UDP). I/NET 50069 Local No I/NET UDP/IP. Modbus TCP Client 502 Remote Yes Modbus TCP client to a server or router on a network. BACnet IP Client 47808 Remote Yes BACnet IP client to a server on a BACnet network. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en No 117 (134) 11 TAC Xenta 913 118 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 12 12 Engineering TAC Xenta 911 Engineering TAC Xenta 911 Xenta 911 can be used as a LonTalk adapter between Vista and the LonWorks network, as an IP modem or as a serial gateway. 12.1 Programming the TAC Xenta 911 If the Xenta 911 is used as an IP modem it needs to be programmed. Use a web browser and an ordinary TCP/IP network connection to access and program the Xenta 911. For more information on how to connect the Xenta 911, see Section 10.2, “Engineering Phase”, on page 106. To program the TAC Xenta 911 1 Log in as root to Xenta 911 (use a valid password). The default web page in the Xenta 911 appears in the web browser. 2 Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Click the large arrow button on the screen. 119 (134) 12 Engineering TAC Xenta 911 120 (134) TAC Xenta 500/700/911/913, Product Manual 3 Click the button to the left of step 1. 4 Enter date and time. 5 Click Save Settings. 6 Click Regional Settings. 7 Select time zone, time and date format and summer/winter time settings. 8 Click Save Settings. 9 Click the button to the right of “Go to Step 2: Select Device Type” at the bottom of the browser. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual 12 Engineering TAC Xenta 911 10 In the Device selection list, select the device the Xenta 911 will be connected to. Example: In a system with two IP modems communicating between a TAC Vista Server and a Xenta 901, the IP modem on the Vista side is set to device type TAC Vista and the IP modem on the Xenta 901 side is set to device type TAC Xenta 901. 11 Click Confirm Selection. 12 Click the button to the right of “Go to Step 3 (Optional): Tuning The Communication Parameters” at the bottom of the browser. 13 Make the appropriate settings. Normally, the default values should be used. Adjust only after consulting the TAC Solution Team when it is vital to optimize the communication 14 If changes has been made on the Tune the Communication Parameters page, click Save Start-Up Settings. 15 Click the button to the right of “Go to Step 4 (Optional): Configuring Telephone Numbers” at the bottom of the browser. If the target device or the presentation system used together with a Xenta 911 cannot handle IP addresses but demands telephone numbers, you can configure your IP addresses to phone numbers. Vista and the Xenta devices handles IP addresses and when they are used you can skip this step. 16 If changes has been made on the Configure Telephone Numbers page, click Save Settings. 17 Click the button to the right of “Home” at the bottom of the browser. Repeat the programming procedure for the other Xenta 911 IP modems. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 121 (134) 12 Engineering TAC Xenta 911 122 (134) TAC Xenta 500/700/911/913, Product Manual Schneider Electric Buildings AB, Feb 2011 04-00071-04-en APPENDIX A Hardware TAC Xenta 500/700/911/913, Product Manual A Hardware A Hardware A.1 Adapters A.1.1 DB9/Female-to-RJ45/Female Adapter DB9/Female Modular jack RJ45/Female View from inside GND 5 9 DTR 4 8 TxD 3 7 RxD 2 DSR 6 DCD 1 1 DSR 2 DCD 3 DTR 4 GND 5 RxD 6 TxD 7 CTS 8 RTS Fig. A.1: DB9/Female-to-RJ45/Female adapter. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 125 (134) A Hardware A.1.2 TAC Xenta 500/700/911/913, Product Manual DB25/Female-RJ45/Female Adapter DB25/Female Modular jack RJ45/Female View from inside 13 25 12 24 11 23 10 22 8 RI 9 21 DCD 8 DTR 20 GND 7 19 DSR 6 18 CTS 5 17 RTS 4 16 RxD 3 15 TxD 2 14 1 7 RTS 6 RxD 5 TxD 4 GND 3 DSR 2 DCD 1 DTR Fig. A.2: DB25/Female-RJ45/Female adapter. 126 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual A.1.3 A Hardware RJ45/Female-to-DB25/Male Adapter DB25/Male Modular jack RJ45/Female View from inside 1 14 TxD 2 15 RxD 3 16 RTS 4 17 CTS 5 1 DSR 18 DSR 6 19 GND 7 DTR 20 DCD 8 21 9 22 10 23 11 24 12 25 13 2 DCD 3 DTR 4 GND 5 RxD 6 TxD 7 CTS 8 RTS Fig. A.3: RJ45/Female-to-DB25/Male adapter. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 127 (134) A Hardware A.1.4 TAC Xenta 500/700/911/913, Product Manual DB9/Female-to-DB25/Male Adapter DB25/Male DB9/Female View from inside 1 14 TxD 2 15 RxD 3 1 DCD 16 6 DSR 17 7 RTS 18 8 CTS RTS 4 2 RxD CTS 5 3 TxD DSR 6 19 GND 7 DTR 20 DCD 8 21 9 22 10 23 11 24 12 25 13 4 DTR 9 RI 5 GND Fig. A.4: DB25/Male-to-DB9/Female adapter. 128 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual A Hardware A.2 Cables A.2.1 RJ45-to-RJ45 Rollover Cable Wire 1 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 Fig. A.5: RJ45-to-RJ45 rollover cable. Emission Damper 10 cm Fig. A.6: RJ45-to-RJ45 rollover cable with emission damper. A.2.2 RJ45-to-RJ10 Cable Wire 1 1 2 3 GND 4 TxD 5 RxD 6 7 8 1 TxD 2 RxD 3 4 GND 5 6 7 8 Fig. A.7: RJ45-to-RJ10 cable. Schneider Electric Buildings AB, Feb 2011 04-00071-04-en 129 (134) A Hardware A.2.3 TAC Xenta 500/700/911/913, Product Manual RJ-45-to-RJ-45 TAC Xenta-to-Xenta Cable Wire 1 CTS/RI RTS RxD TxD GND DSR DCD DTR 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 CTS/RI RTS RxD TxD GND DSR DCD DTR Fig. A.8: RJ-45-to-RJ-45 Rollover Cable. 130 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en TAC Xenta 500/700/911/913, Product Manual Index Numerics 10Base-T, Ethernet port 22 A Index P password temporary 35 port pins 21 port settings HTTP 42 HTTPS 42 adapter 125 DB25/Female-RJ45/Female adapter 126 DB9/Female-to-DB25/Male adapter 128 DB9/Female-to-RJ45/Female adapter 125 OP7 to Xenta 700 103 RJ45 female/female adapter 104 RJ45/Female-to-DB25/Male adapter 127 RJ45-to-RJ10 cable 129 RJ45-to-RJ45 rollover cable 129 RJ-45-to-RJ-45 TAC Xenta-to-Xenta cable 130 real time clock, in TAC Xenta 17 RJ45/Female-to-DB25/Male adapter 127 RJ45-to-RJ10 cable 129 RJ45-to-RJ45 rollover cable 129 RJ-45-to-RJ-45 TAC Xenta-to-Xenta cable 130 root password, change 34 RS-232 A, serial port 21 RS-232 B, serial port 22 D S DB25/Female-RJ45/Female adapter 126 DB9/Female-to-DB25/Male adapter 128 DB9/Female-to-RJ45/Female adapter 125 Satchnet network 76 serial port RS-232 A 21 serial port RS-232 B 22 system program, upgrade 36 E emission damper 129 Ethernet port 10Base-T 22 F fail-safe state 23 H handheld terminal (OP7) 104 L LEDs on the TAC Xenta 23 M MicroNet ARCNET network 76 MicroNet NCP network 76 mounting the TAC Xenta 17 O OP7 connection 103 OP7 operator panel 103 Schneider Electric Buildings AB, Feb 2011 04-00071-04-en R T TAC OP7 operator panel 103 TAC Xenta access 32 communication interface 18 hardware 17 LEDs 23 mounting 17 port pins 21 power outage protection 17 real time clock 17 TAC Xenta 511 configuration phase 43 operating phase 47 port usage 51 TAC Xenta 527 configuration phase 53 connect to an I/NET controller LAN 64 direct connection to I/NET 65 engineering phase 55 operating phase 58 port usage 63 131 (134) Index TAC Xenta 500/700/911/913, Product Manual TAC Xenta 555 configuration phase 67 connect to a MicroNet controller LAN 76 engineering phase 69 operating phase 73 port usage 75 TAC Xenta 700 series connecting the OP7 103 TAC Xenta 701 configuration phase 79 engineering phase 81 operating phase 83 port usage 87 TAC Xenta 711 configuration phase 79 engineering phase 81 operating phase 83 port usage 87 TAC Xenta 721 configuration phase 79 engineering phase 81 operating phase 83 port usage 87 TAC Xenta 731 configuration phase 89 engineering phase 91 operating phase 94 port usage 100 TAC Xenta 911 configuration phase 105 engineering phase 106 operating phase 107 port usage 111 programming 119 TAC Xenta 913 configuration phase 113 operating phase 115 port usage 117 programming phase 115 temporary login ID 35 U upgrade system program 36 W Windows HyperTerminal, configure 26 132 (134) Schneider Electric Buildings AB, Feb 2011 04-00071-04-en Copyright © 2011, Schneider Electric Buildings AB All brand names, trademarks and registered trademarks are the property of their respective owners. Information contained within this document is subject to changewithout notice. All rights reserved. 04-00071-04-en For more information visit www.schneider-electric.com/buildings Last Manual Page
