ABB i-bus EIB / KNX Telephone Gateway TG/S 3.1

Transcription

1 Product Manual ABB i-bus EIB / KNX Telephone Gateway TG/S 3.1 Intelligent Installation Systems

2 This manual describes the function and configuration of the Telephone Gateway TG/S 3.1 Subject to changes and errors excepted. Exclusion of liability: Despite checking that the contents of this document match the hardware and software, deviations cannot be completely excluded. We therefore cannot accept any liability for this. Any necessary corrections will be inserted in new versions of the manual. Please inform us of any suggested improvements. As at: July 2004

3 Contents Page 1 General About this manual Product and functional overview Device characteristics Scope of supply Supplied state Device technology Technical data Dimension drawing Device connection Description of the inputs and outputs Assembly and installation Function and operation Operating elements Display elements Operation with a browser Operation page Alarms page System page Operation with the telephone General query Acknowledge alarms Individual object query and commands Acceptance of a voice message / alarm acknowledgement Prerequisites for commissioning Supplied state Assignment of the physical address Assignment of the IP address Parameterisation in ETS General parameter window /2 19/20 and 21/22 39/40 parameter windows Overview of the communication objects Parameterisation in the configuration menu of the TG/S Creation of a user account Configuration of the command and message objects Configuration of the basic setup Planning and application Overview and general recommendations Appendix Creation of user-defined voice messages Assignment of the telephone socket (RJ 11) Menu structure of the web pages of the TG/S Explanations for the configuration of the commissioning PC Ordering information

4 General 1 General 1.1 About this manual This manual will support you during the commissioning and operation of the Telephone Gateway TG/S. This manual is directed at the commissioning engineer of the Telephone Gateway. All the necessary steps for the initial commissioning are explained and the available functions are described. This manual is divided into the following sections: Description of the device technology (Chapter 2) Installation (Chapter 3) Operation (Chapter 4) (Chapter 5) Planning and application (Chapter 6) Appendix (Chapter 7) The Function and operation chapter (Chapter 4) has also been written with the user of the Telephone Gateway in mind as the operation, message acceptance and acknowledgement are described there. 1.2 Product and functional overview Using the Telephone Gateway, it is possible to send configurable voice messages via the telephone network. In addition to the voice messages, text messages can also be sent as s or SMS messages. If the device is called, it is possible to navigate through a menu using dial tones (DTMF), in which states can be queried and commands can be executed. The device has an integrated web server which enables simple operation and parameterisation via the LAN with a conventional browser. 1.3 Device characteristics 40 objects as inputs/outputs Configuration of up to 10 users (name, PIN, password, telephone number, ) Integrated visualisation of the configured objects with simple display and operating possibility via the browser Voice messages can be downloaded to the device as.wav files in order to send the messages to the users as voice mail Text messages as SMS (direct to SMS centre) or as (via provider) Simple configuration via ETS and browser 230 V AC and/or 12 V DC power supply Simple installation on a 35 mm DIN rail in the electrical distribution board 2 2

5 General 1.4 Scope of supply The TG/S is supplied with the following accessories. Please check the devices supplied against the following list: TG/S 3.1 device with bus connection terminal Telephone connection cable RJ 11, black Adapter RJ 11 to TAE, black Crossover network cable, grey Installation and operating instructions 1.5 Supplied state The TG/S is supplied with the physical address The IP address is set to

6 Device technology 2 Device technology 2.1 Technical data Operating voltage: Mains voltage V AC, 50/60 Hz Auxiliary voltage V DC Power consumption max. 2.8 W at 230 V AC max. 2.0 W at 12 V DC Current consumption max. 9 ma at 230 V AC max. 170 ma at 12 V DC Power loss (of power supply unit) max W at 230 V AC (at efficiency level 60 %) max W at 12 V DC (at efficiency level 82 %) Signalling contacts 6 A / 250 V AC Connections: EIB / KNX Bus connection terminal, 0.6 to 0.8 mm Ø, single-core Mains voltage, auxiliary voltage, Screw terminal signalling contact mm 2 finely stranded mm 2 single-core Tightening torque max. 0.6 Nm Telephone connection Terminals mm 2 finely stranded mm 2 single-core Tightening torque max. 0.6 Nm plug-in RJ 11 socket LAN connection RJ 45 socket for 10 Mbit networks, 10 Base-T IEEE Operating and display elements: ON LED, green Displays that device is ready for operation FAULT LED, red Displays an internal device fault LED, yellow Displays that the device is dialling (flashes) / occupied telephone line LAN/LINK LED, yellow Displays the connection to a network (link) and telegram traffic (flashes) LED above bus connection, red with push button For assigning the physical address Type of protection: IP 20 In accordance with DIN EN Protection class: II In accordance with DIN EN Insulation category: Overvoltage category III in accordance with DIN EN Pollution degree 2 in accordance with DIN EN EIB / KNX safety extra-low voltage: SELV 24 V DC Temperature range: Operation 0 C C Storage 5 C C Transport 5 C C 4

7 Device technology Design: Modular DIN rail mounted component (MDRC) Modular installation device, pro M Dimensions 90 x 144 x 64 mm (H x W x D) Mounting width 8 modules at 18 mm Mounting depth 68 mm Installation: on 35 mm mounting rail In accordance with DIN EN Mounting position: As required Weight: 0.4 kg Housing, colour: Plastic, grey Certification: EIB / KNX in accordance with EN , -2 Certificate CE norm: in accordance with the EMC and low voltage guidelines Application program Max. number of Max. number of Max. number of communication objects addresses associations Notification Remote control/1 Up to

8 Device technology 2.2 Dimension drawing L N µ µ TG/S 1.1 ABB i-bus EIB EIB ISDN ABB i-bus EIB ON FAULT LAN/ LINK 12 V DC ISDN ISDN 7 8 OUT IN from NT 2.3 Device connection L N 14 2 L N LAN L N µ µ TG/S ABB i-bus EIB EIB Analog ABB i-bus EIB ON FAULT LAN/ LINK V DC a b 2a 2b Analog V DC V AC connection 2 Signalling contacts (6 A, 250 V AC) V DC connection 4 Terminal for telephone connection (exchange) 5 Terminal for outgoing telephone connection 6 RJ 11 socket for telephone connection (exchange) 7 EIB bus connection 8 Programming LED with programming button 9 Nameplate 10 LAN/LINK LED 11 LED for telephone connection 12 LED for fault indication 13 ON LED 14 LAN/Ethernet connection 6

9 Device technology 2.4 Description of the inputs and outputs Supply voltage input 230 V AC (terminals 1, 2, 3) The 230 V AC supply voltage of the TG/S is connected to terminals 1, 2 and 3. Once the supply voltage has been connected to the system, a start routine is executed in the device. As soon as it is ready for operation (max. 40 s after connecting the supply voltage), the ON LED on top of the device lights up. Supply voltage input 12 V DC (terminals 7, 8) As an alternative to the 230 V AC supply, it is possible to connect a V DC supply voltage to terminals 7 and 8. Only a direct voltage of V is permitted. Once the supply voltage has been connected to the system, a start routine is executed in the device. As soon as it is ready for operation (max. 40 s after connecting the supply voltage), the ON LED on top of the device lights up. Supply via 12 V DC is primarily a good idea if a 12 V backup supply is available. The supply voltage on the 12 V connection must be 12 V 30 V DC. Otherwise the device may be damaged. EIB connection The bus connection terminal supplied is used for connection to the EIB. ETS2 V1.2a (or higher) is required for programming the device. The programming LED is supplied by the power supply unit of the TG/S and lights up (after pressing the programming button) even without being connected to the EIB. The LED can therefore not be used to check the bus connection. Telephone connection (RJ 11 or terminals a, b) For connection to the telephone network, you can either use the supplied RJ 11 connection cable or wire the telephone line to terminals a and b. You can find the pin assignment of the RJ 11 socket in the appendix. If you wish to loop through the telephone line, you can use terminals 2a (=a2) and 2b (=b2). LAN connection The network connection is carried out via an Ethernet RJ 45 interface for LAN networks. The network interface can be operated with a transmission speed of 10 Mbit/s. The connection to a network is indicated by the LAN/LINK LED on the top of the housing. Signalling contacts A second message route can be controlled with the signalling contacts. As soon as an alarm is detected by the TG/S, the relay is triggered. The contacts can be loaded up to 6 A at 230 V AC. 7

10 Assembly and installation 3 Assembly and installation Mount the TG/S First mount the Telephone Gateway on a suitable DIN rail. Connect the power supply First wire in the power supply. Note the information under Chapter 2.4, Description of the inputs and outputs. Establish communication links Then establish the communication links of the device i.e. the connection to the EIB using the bus connection terminal and the connection to the telephone network. If you wish to operate the TG/S permanently on the LAN (e.g. as a small visualisation program), you can connect it using a network cable (LAN socket). When all the connections have been carried out correctly, you can connect the supply voltage of the device. 8

11 Function and Operation 4 Function and Operation 4.1 Operating elements There are no operating elements on the Telephone Gateway. The programming button is located next to the red programming LED. 4.2 Display elements There are 4 visible LED displays on the TG/S. They have the following meaning: ON FAULT LAN/LINK ON FAULT Lights up if the power supply is available and the device is ready for operation (max. 40 s after connecting the supply voltage to the system) Lights up if the TG/S detects an internal error Lights up if the TG/S occupies a telephone line. This is the case if the TG/S has been called or it is sending a message. LAN/LINK Lights up if the device detects a link to a network. If the TG/S is disconnected from the network, the LED is only extinguished after approx. 3 seconds. 4.3 Operation with a browser The TG/S has an integrated server for web pages (web server). These pages can be viewed with a browser (e.g. Microsoft Internet Explorer from version 5.0 onwards or similar) and settings can also be carried out on the TG/S Operation page The Operation page is available to every user who has the right to view these pages. This right is assigned by the administrator of the device. The Operation page appears automatically after logging onto the TG/S. Fig : Operation page 9

12 Function and Operation Depending on the type of object, you can view the current states of the objects (e.g. the Alarm is not active) or issue commands. It is possible for example in the case of the Light Ground Floor object to switch the light on or off Alarms page All the alarms that have occurred are displayed on this page. The status indicates whether the alarm is still active (red) the alarm has been acknowledged or is no longer active (yellow) the alarm has been acknowledged and is no longer active (green). The alarm text is issued in the Message column. The start time and stop time indicate when the alarm arrived or left. A red dot appears in the Acknowledged column if the alarm has not yet been acknowledged. Once the acknowledgement has been carried out, the date and time of the acknowledgement are entered together with the name of the user who acknowledged the alarm. To acknowledge an active alarm, click on the red button in the State column. The button then changes its colour from red to yellow and the date and time of the acknowledgement are entered in the Acknowledged column together with the name of the user who acknowledged the alarm. Up to 1000 alarms can be stored in the alarm history. The alarm memory is based on the FIFO principle i.e. if there are more than 1000 alarms, the oldest one is deleted and a new one is accepted System page This page displays the most current system states i.e. an EIB error or a fault with the telephone connection. 10

13 Function and Operation 4.4 Operation with the telephone If you wish to query the states of the EIB system remotely, you can call the TG/S from any telephone (with DTMF capability). If you are not able to use a telephone with a dialling tone, it is also possible to use a hand-held transmitter with a dialling tone which you hold up to the microphone of the telephone. When a call is made, the TG/S receives the telephone call after the configured number of rings. You are then asked to enter your PIN (personal identification number). If an incorrect PIN is entered 3 times, the TG/S ends the connection. When you have entered the correct PIN, you are taken to the main menu. Depending on your user rights, you either have access to all the options or only a limited selection: Button 0 = General query Button 1 = Objects in the alarm state (and acknowledgement option) Button 2 = Individual object query and commands The individual menu items are explained in more detail in the following section. 4.5 General query If you change from the main menu to the General query menu by pressing button 0, all the configured objects are automatically announced with their current values. By pressing the # button, you can stop the announcement and return to the main menu. 4.6 Acknowledge alarms If you change from the main menu to the Alarm object query menu by pressing button 1, all the objects in the alarm state are announced. By pressing the * button, you can acknowledge the alarm and thus stop the sending of messages (if configured). To acknowledge an alarm, you must have the Acknowledgement right (see 5.3.1). By pressing the # button, you can return to the main menu. 11

14 Function and Operation 4.7 Individual object query and commands If you are only checking the status of an individual object or sending a command to an object, you can do this in the menu Individual object query and commands. You must first enter the object number with the telephone keypad. If you do not know the object number, carry out a general query first (see 4.4.1). After entering the object number, the current status of the object is announced. The possible operations are likewise announced. You can therefore e.g. switch on a light that has been turned off by pressing button 1. By pressing the # button, you can return to the main menu. 4.8 Acceptance of a voice message / alarm acknowledgement If the TG/S sends a voice message, the user is called on the set telephone number. When the call is received, it takes several seconds until the device can detect that the person who has been called has received the call. During this period, a melody can be heard. As soon as the TG/S has detected that the call has been received, the voice message is sent. You are then asked to enter your PIN. You can then change from the main menu to the menu Acknowledge alarms (button 1) and acknowledge the alarm (see 4.4.2). If you wish to acknowledge alarms at a later date, you should call the TG/S, enter your PIN and change from the main menu to the menu Acknowledge alarms by pressing button 1. 12

15 5 5.1 Prerequisites for commissioning The commissioning of the TG/S is carried out in 2 steps: 1) Assignment of the physical address and allocation of the group addresses using ETS. This requires a PC with the Engineering Tool Software ETS (from ETS2 V1.2a onwards) and an interface to the EIB (e.g. via ABB RS232 interface EA/S 232.5). See also Chapter 5.2 2) Configuration of the users, passwords, telephone numbers, addresses and text. This requires a PC with a network (LAN) connection and browser software with active Java script (e.g. Microsoft Internet Explorer from version 5.0 onwards or similar). See also Chapter Supplied state The TG/S is supplied with the physical address The IP address is set to Assignment of the physical address The assignment and programming of the physical address is carried out in the usual way for EIB devices with the ETS program (from ETS2 version 1.2a onwards). The programming LED is supplied by the power supply unit of the TG/S and lights up (after pressing the programming button) even without being connected to the EIB. The LED can therefore not be used to check the bus connection Assignment of the IP address The IP (Internet Protocol) address is the unique address of the TG/S within the local network (LAN). In the supplied state, the IP address is set to The IP address can be permanently set to in the ETS parameter window. If the address should be changed, the setting can also be modified directly in the TG/S via a browser. 13

16 5.2 Parameterisation in ETS The first step in configuring the TG/S is carried out with the Engineering Tool Software ETS (from ETS2 version 1.2a onwards). When the parameter window is retrieved, the General parameter appears first General parameter window Fig : General parameter window in the default setting Objects 1 20 Options: deactivate activate Objects 1 to 20 are communication objects which can be used to transfer messages from/to the TG/S. If these objects are activated, further parameter windows appear on which 2 objects can be parameterised each time. Objects Options: deactivate activate Objects 21 to 40 are communication objects which can be used to transfer messages from/to the TG/S. If these objects are activated, further parameter windows appear on which 2 objects can be parameterised each time. 14

17 IP address Options: Configurable in TG/S Standard ( ) The TG/S has a LAN connection and requires an IP address as a participant in the network. In the supplied state, the IP address is set to If the option Configurable in TG/S is selected, the IP address can be set via the configuration pages of the TG/S. When the application is loaded by the ETS program, the setting in the TG/S is not overwritten. If the address of the TG/S is not (no longer) known, the address can be reset to the supplied state by selecting the option Standard ( ) and then loading the application into the TG/S again /2 19/20 and 21/22 39/40 parameter windows 1/2 parameter window in the default setting Parameter windows 1/2 to 19/20 ( 21/22 to 39/40 ) are only visible if objects 1-20 (21-40) have been activated in the General parameter window. 15

18 Data Type Object x Options: not used 1 Bit Value (EIS1, EIS7) 2 Bit Value (EIS8) 4 Bit Value (EIS2) 1 Byte Value (EIS6, EIS13, EIS14) 2 Byte Value (EIS5, EIS10) 3 Byte Value (EIS3, EIS4) 4 Byte Value (EIS9, EIS11) 6 Byte Value 8 Byte Value 10 Byte Value 14 Byte Value (EIS15) In the default setting ( not used ), the object is not used and does not appear as a communication object. As soon as a data type has been selected, the object appears as a communication object. You select here the corresponding data type for the object which you wish to send from/to the TG/S. If required, you can define the data type more precisely in the settings of the TG/S (see 5.3.2). The data types 6 byte value, 8 byte value, 10 byte value and 14 byte value (EIS15) can only be assigned to the first 20 objects. Object is Options: Input (Message to TG) Output (Command from TG) Input/Output (Message and Command) Input with cyclic polling Output with cyclic polling Input/Output with cyclic polling With this parameter, you can set whether the TG/S should view the object as an input or an output. In the case of an input, the object is then viewed as an incoming message by the TG/S which should then be routed to a user by telephone. In contrast, an output is a command which a user can give on the telephone e.g. to switch on the heating. If an object is both a message and a command, the option Input/Output (Message and Command) must be selected. If it should be ensured that the object also polls the linked group address at cyclic intervals, the relevant option must be selected. If an object should be polled cyclically, the TG/S must be able to read the corresponding group address via the bus. To do so, the Read flag must be set e.g. for an actuator. The cyclic period for the polling of the configured objects can be set directly in the TG/S via the browser (see ). 16

19 Designation Options: Text (30 characters) The input field is used to name an object so that it can be uniquely identified at a later date. After downloading the parameters into the TG/S using ETS, the designations are also adopted in the configuration pages of the TG/S (see 5.3.2). The data that is configured in ETS can thus be further processed and supplemented e.g. by message text. Object Blocking Options: none using Blocking Object 1 using Blocking Object 2 using Blocking Object 3 using Blocking Object 4 using Blocking Object 5 using Blocking Object 6 The object blocking function is used to stop messages from being sent in specific situations. It can for example prevent a fault from being reported externally when someone is present. The TG/S has 6 fixed blocking objects for different applications. It can be defined for each object which blocking object it should react to Overview of the communication objects Communication objects 0-20 The communication objects Fault 230 V AC and Fault 12 V DC send an ON telegram as soon as a fault occurs in the mains voltage (230 V AC) or auxiliary voltage (12 V DC). If the TG/S detects a fault with the connection to the telephone network, an ON telegram is sent to the object Fault Phone Line. 17

20 If the TG/S cannot send a message because the telephone line is busy, an ON telegram is sent to the object Phone Line Busy. The object Telephone Gateway ready signals that the device is ready for operation with an ON telegram. If the connection between the device and the EIB is interrupted or the bus voltage is too low, an ON telegram is sent from the object EIB Fault. The current status of the TG/S is displayed with the Status object (1 = TG/S OK and ready; 0 = at least 1 fault is present). The Status Byte object is used to bring together several status and error messages and comprises the following: Bit in status byte Value on error Fault 0 1 Fault 230V AC 1 2 Fault 12V DC 2 4 LAN Fault 3 8 EIB Fault The TG/S can send or receive the current time and date from the EIB to the objects Time and Date. It can be parameterised whether the TG/S is a time generator or receiver (see ). The blocking objects (1 6) can be assigned to objects 1 40 in the parameter window in order to block messages and/or commands. 5.3 Parameterisation in the configuration menu of the TG/S The second part of the parameterisation of the TG/S is carried out directly with the device itself. To do so, the first part of the parameterisation (Chapter 5.2) must be concluded. Preparing for the parameterisation The following setup is required in order to use the configuration pages of the TG/S: 230 V AC TG/S LAN PC Network connection 12 V DC (optional) 18

21 Link the TG/S to the network connection of the PC using the crossover network cable supplied. Connect the TG/S to the mains and/or auxiliary voltage. Give the PC an IP address from the same range as the IP address of the TG/S e.g (see also Appendix 7.3). Start a browser (e.g. Microsoft Internet Explorer) on the PC. Enter the IP address of the TG/S in the address line of the browser (e.g. the address in the supplied state ). The login window of the TG/S appears: You can log in with the data User name: Administrator Password: Do not enter a password. After logging in, the Operation page of the TG/S appears automatically. The communication objects also appear with the names that you assigned in ETS. Then click on Configuration to open the configuration menu. 19

22 5.3.1 Creation of a user account To create a new user, click on the item Communications partners in the configuration menu and then select New user. A maximum of 10 users can be created for TG/S 3.1. Profile You can now enter the user name on the right-hand side of the Profile mask as well as the PIN (for authentication on the telephone) and password (for access via the browser). Fig a: Profile of a communication partner Under Rights, you can decide which actions the user is allowed to carry out: Message receiver The user can receive messages from the TG/S as an SMS, or voice message. Commands, remote The user can issue commands via the telephone keypad (e.g. switch EIB objects). 20

23 Acknowledge The user can acknowledge messages so that the TG/S does not inform any further users for example in a reporting system. The acknowledgement can take place via the browser (see 4.3.3) or the telephone (see 4.4.2). Configuration The user can open the configuration menu of the TG/S (only via the browser), create users and carry out all the settings. Commands, local The user can open the Operation pages of the TG/S, operate EIB objects via the browser and view status feedback and measured values. After entering a user, the configuration must be stored by clicking on the Save button. Communication The Communication tab is used to set the telephone numbers, address and options for receiving SMS messages. Fig b: Communication settings If a voice message should be sent to a telephone which is connected to the same telephone exchange as the TG/S (e.g. caretaker s telephone), by activating the Local checkbox, it is possible to ensure that the TG/S does not use the code for an outside line with this telephone number (see ). The SMS centre which you wish to use can be configured under Configuration/Basic setup/services/sms (see ). 21

24 5.3.2 Configuration of the command and message objects The prerequisite for the configuration of the command and message objects is that the parameterisation has been carried out beforehand in the ETS program (see Chapter 5.2) and that the ETS application has been downloaded. After downloading the application, the objects are created in the TG/S and can be configured in detail via the browser. To do so, click on Configuration and then on Communication objects. Fig : Example of the general data of the object Light Ground Floor (command and message) The General data tab is visible first of all. The object name, object number and information whether the object is a message or command are taken from the ETS parameter window. If a data type has been set for the object (in ETS) which is not unique, the data type can be specified in more detail with the parameter Subtype. It is possible e.g. to select the subtype 16 bit floating point (EIS5) for a temperature value. All the objects that are taken over from the ETS configuration are automatically activated (tick is set for Object is activated ). Under Send Message if, it can be defined in which object state the TG/S should send a message. In the example in Fig , this is the case when the object adopts the value 0. For measured values, it is also possible to trigger a message when the value exceeds (>=value) or drops below (<=value) a limit. If the object is configured as a command, it can be entered under Remote control range in which range the values may be modified remotely. It can be set e.g. that the room temperature setpoint value may only be changed remotely between 16 and 23 C. An entry can only be made in the from and to fields if the object is a command (tick set). 22

25 If the TG/S should send a voice message, this must be configured under the tab Voice message. Fig : Example of a voice message for the object Inside temperature To send a voice message, first activate the voice message by clicking on the checkbox Voice message activated. Standard messages which only include the object number are created for all the objects after downloading the application with ETS. You can listen to this message by clicking on Play standard message. If you would like a message with the concrete object name, you can create a message yourself (wav file) and transfer it to the TG/S by clicking on Send message to device. The creation of your own voice messages is described in the appendix (Chapter 7.1). If you would however like to use the standard message after downloading your own message, click on Set standard message. Via the Message strategy, you can define whether voice messages should be sent until they are acknowledged by a user or whether they should be interrupted after a specific number of loops. To define the order in which you wish people to be notified, select from the list of currently created users. You can specify in the basic settings whether the TG/S should distinguish between day and night (see ). The interval between 2 calls should be defined in the basic setup for messages (see ). 23

26 If an object should trigger a text message (SMS or ), the corresponding settings must be carried out in the Text message tab. Fig : Example of a text message for the object Light Ground Floor In the Text message tab, you can enter text for the object which should be used for the text message. The required text can also be assigned for the object state ON and OFF. The unit can also be entered for objects which have a unit of measurement (e.g. C for a temperature). You must then indicate which users should receive the text message. You can specify in the basic setup whether the TG/S should distinguish between day and night (see ). The TG/S first sends the text message to the first communication partner entered (1. message to). If a message cannot be sent to this user (e.g. technical fault at the SMS centre) or this user does not acknowledge the text message, the user entered under 2. message to is informed etc. Once a message has been sent successfully to a user, this user does not receive any further text messages. The interval between 2 text messages is defined in the basic setup for messages (see ). 24

27 Sequence of the messages If voice and text messages are configured for an object and this object is then set to the alarm state, the following sequence is started which can be interrupted by an acknowledgement. 1. Send voice message 2. Send text message 3. Send voice message 4. Send text message Configuration of the basic setup The basic setup covers the four menus System, Messages, Services and Interfaces. Click on the item which you wish to edit Basic setup / System The System menu is further divided into the sections General and Special. Under General, you can first of all select the language of the pages which the TG/S displays in the browser. If the language you require is not available, you can download an additional language package (see Special ). Fig a: General tab To set the time of the TG/S, you can transfer the current date and time of the PC which you are working on to the TG/S by clicking on Take time from PC. The real-time clock of the TG/S then continues to run with the new time. Depending on whether the clock of the TG/S is operating as a master or slave on the EIB, the transferred time can e.g. be overwritten again by a telegram from a clock on the EIB (if the TG/S is a slave, see also ). 25

28 The Special tab offers the option of loading an additional language package or update. You must first create this language package. To load an update, copy the update onto the computer which you use to access the TG/S. If you have created a language package or wish to load an update, click on Browse to indicate the location where it is saved and then click on Save to load the package. Fig b: Special tab If you wish to backup the configuration of the TG/S (e.g. once commissioning has been completed), a click with the right mouse button on the configuration file is sufficient. A window appears (depending on the operating system and browser) in which you can select the item Save as. You can then select where you wish to save the file. If you wish to load a configuration which you have already created into a TG/S device, you can first search for the file under the item Load configuration by clicking on Browse. Once you have selected a file, the name of the file appears in the selection window. By clicking on Save, you can load the configuration into the TG/S. To activate the new configuration, you must restart the TG/S (by disconnecting and connecting the power supply). 26

29 Basic setup / Messages In the General tab, you can define the Header for speech messages and the Header for text messages. If you select the checkboxes With device description and With object description, these descriptions precede a voice or text message. Fig a: General tab This header is particularly necessary for people who receive messages from several devices. They can thus identify from which system (or house) the message originates. You can enter the Device description and the Object description for text messages in the text fields while the messages for the system and the device designation can be recorded in the Messages tab. For all messages (text and voice), you can select whether you wish to distinguish between day and night e.g. in order to notify different people during the night than during the day. If you wish to distinguish between day and night, you must specify when the day starts and when it ends. Times outside these periods are then regarded as being at night. Finally, you can decide whether the date and time should also be displayed or announced when a message is received and in which format this should occur. 27

30 Under Messages, you can configure the general voice messages which are used e.g. for the menu which is used when a call is made to the TG/S. Fig b: Messages tab The TG/S already contains all the voice messages which you can use for messages By clicking on Play standard message, you can listen to the selected message and decide whether you wish to keep it or use your own message. To listen to the messages or to record your own voice messages, you require a program for playing/recording audio files in.wav format (e.g. Windows Media Player). The appendix (Chapter 7.1) describes how to record your own messages. If you wish to transfer your own messages on the TG/S, click on Send message to device. The following window appears: 28

31 Click on Browse to select a file which you wish to load. All.wav files which you load onto the TG/S must be recorded in the format GSM ,0 khz, Mono, 1 kb/s so that they can be reproduced by the TG/S. After selecting a file, the path and the file name appear in the text window. The file is transferred to the TG/S by clicking on Save. The button Play message appears for all messages in which you use your own voice messages. Fig c: Messages tab with user-defined message 1 29

32 You can then determine whether the TG/S is using a standard message for a message (e.g. Message 1 in Fig ) or your own message. If you wish to replace your message by a standard message, click on the button Set standard message. In the window that appears, click on Delete speech file in order to confirm that you wish to overwrite the message with the standard message Basic setup / Services In the submenu Services, you can carry out the settings for Internet access, and SMS. The data of the Internet Service Provider which the TG/S should use for dialling up the Internet is entered under the Internet tab. Fig a: Internet tab Figure a shows a sample configuration for the Internet Service Provider MSN (Microsoft Network). You can use any provider together with the relevant telephone number, user name and password. If you use broadband Internet access (e.g. via a DSL router), you do not have to set the Internet access via modem. In this case, delete the preceding values. The TG/S then tries to send the automatically via the standard gateway (see for the setting). 30

33 The tab contains the settings which are required so that the TG/S can send s. Fig b: tab As shown in Fig b, the address of the SMTP server, the sender s address and the data for POP authentication for access to the account are entered in this window. You can obtain this data from the provider who supplied you with the account (e.g. t-online, gmx, hotmail, msn, yahoo, ). The TG/S uses the SMTP protocol for data exchange with the provider. If you click on the SMS tab, you see the following window. Fig c: SMS tab 31

34 Here you can set the SMS centres which should be available when configuring the user accounts. Select the centres which you wish to use from the predefined list. Proceed as follows to enter a centre yourself: Set -Select- under Synonym and you can then freely select the telephone number and protocol. You can obtain the telephone number and protocol information from your mobile phone provider Basic setup / Interfaces The Interfaces submenu contains the settings for all the interfaces of the TG/S. Fig a: EIB tab The EIB tab contains all the settings for the EIB interface of the TG/S. Under Physical Address, the address which has been assigned with ETS is displayed. The address is used in the supplied state. 32

35 Under the menu item Internal clock mode, it can be defined whether the clock of the TG/S should run independently of the time on the EIB (option Without connection to EIB), whether the TG/S should send the time on the bus (option Clock is master) or whether the TG/S should synchronise its clock by listening to the time telegrams on the EIB (option Clock is slave). If the setting Clock is slave is selected, it is possible to disable the synchronisation between and 00:05 in order to exclude the possibility that a time telegram in this period causes the wrong date to be set. The TG/S detects an EIB fault. With the parameter Timeout for message EIB fault, it can be set how long the TG/S should wait until the EIB fault message should be issued. The Relay contacts (relay with changeover contact) can be used to report an alarm to another system or to trigger e.g. a signal lamp. Fig b: Relay contacts tab You can select whether the signalling relay remains picked up as long as the message is active or whether it should only issue a pulse of an adjustable length (option Hold relay for seconds). 33

36 The settings for the Phone are used to inform the TG/S whether it is operated on a telephone system (PBAX) and therefore one or more Dial prefix(es) must be selected or not. Some (older) telephone systems also require a waiting time until the exchange is connected through to the extension. If the TG/S does not establish a connection despite entering the dial prefix (this can be detected by the fact that the telephone LED is flashing and not permanently lit), it can be set that the TG/S dials immediately without waiting for the exchange by selecting the checkbox Do not wait for dial tone. Fig b: Phone tab When the user calls the TG/S, it can be defined when the TG/S should take a call ( Wait until x ring tones before taking call ). It is thus also possible for other devices on the same connection to have time to take the call before it is picked up by the TG/S. Under the option Country specific modem parameters for, you select the country in which the TG/S is operated. 34

37 The LAN parameters of the TG/S incorporate the usual parameters for devices on the IP network. Fig d: LAN tab The IP address specifies the unique address of the TG/S in the network. In the supplied state, the address is The Subnet mask defines the class of the network. Depending on the number and structure of the subnetworks, the subnet mask must be set accordingly. In the simplest case of a small LAN, the subnet mask must be set as The parameter Standard gateway indicates the connection point (e.g. the IP address of a router) between networks, through which the IP telegrams should be transmitted. If you have a broadband Internet connection (e.g. via a DSL router), you can enter the IP address of the router (e.g ) as the standard gateway. The TG/S can then send s via the router. If you do not use a router, you do not need to enter a gateway. 35

38 Planning and application 6 Planning and application 6.1 Overview and general recommendations The Telephone Gateway can be used in EIB installations as an interface between the EIB and users who should be informed in the event of faults. Selected users can also issue commands to the TG/S via telephone which are then sent to actuators on the EIB. There are therefore a variety of application possibilities for the TG/S. Below are some examples for using the TG/S: Example 1 Opening a garage door via the telephone: A garage is fitted with an electric garage door drive mechanism which is controlled via an EIB actuator. Normally, the garage is opened and closed via a switch sensor in the hallway. If only the group address for Open garage door is parameterised as a command in the TG/S, each user of the garage can call the TG/S via their mobile phone, enter their PIN and then issue the command to open the garage door. Every user therefore does not require a remote control for the garage door - just a mobile phone and PIN for the TG/S. Example 2 Notification in the event of faults: So that you are kept informed about faults in the house even when you are away, the TG/S can immediately report any faults. The room temperature measured by the TG/S can for example be queried cyclically by a sensor on the EIB and a message is sent to the inhabitant when it falls below the reduced temperature (e.g. 18 C). A voice message (direct call) or a text message (SMS or ) can be used. Example 3 Visualisation and operation via a browser: States and setpoint values can be transmitted by the TG/S via the integrated web server to a browser. It is therefore possible e.g. when using a WLAN (Wireless LAN) to set the room temperature or move the blinds using a WebPad or PDA while sitting on the sofa. PCs that are linked to the TG/S via a crossover cable or a switch/hub that is linked via a cable can therefore be used as a status display or as an operator terminal. It can be established via user rights whether a user can only view the states or is also permitted to issue commands (e.g. switch on). 36

39 Appendix 7 Appendix 7.1 Creation of user-defined voice messages If you wish to create your own voice messages for the object text or menu text of the TG/S, you must first record these voice messages. There are various programs available for this purpose. System requirements: Desktop or laptop with built-in microphone or external microphone. All.wav files which you load onto the TG/S must be recorded in the format GSM ,0 khz, Mono, 1 kb/s so that they can be reproduced by the TG/S. There is no size restriction for individual speech files. There is approx. 1.8 MB of memory available in total for all the user-defined voice messages (objects and menu prompts). The following section describes the recording of messages using a sound recorder, which is installed as standard in a Microsoft Windows operating system. First open the sound recorder. It is generally located under Start/Programs/ Accessories/Entertainment. The main window of the sound recorder is opened: Click on the record button (right button in this case) and say the message. At the end, click immediately on the stop button (2nd button from the right in this case) The total recording time is then displayed in the window. Now open the menu File/Save As. First select the format GSM ,000 khz, Mono (1 kb/s). 37

40 Appendix After entering the file name and selecting the path for saving the file, you can save the recording to the hard disk of the computer by clicking on Save. All.wav files which you load onto the TG/S must be recorded in the format GSM ,000 khz, Mono, 1 kb/s so that they can be reproduced by the TG/S. In order to load a speech file onto the TG/S which you have created yourself, proceed as described under or Assignment of the telephone socket) The telephone socket of the TG/S is assigned as follows: 1 Not occupied 2 Not occupied 3 Exchange a 4 Exchange b 5 Not occupied 6 Not occupied Assignment of the TAE adapter: N coding 1 white Line a (exchange) 2 brown Line b (exchange) 3 4 grey 5 yellow 6 green 38

41 Appendix 7.3 Menu structure of the web pages of the TG/S The web pages of the TG/S are organised in the following tree structure: Control Operation Alarms System Systemlog Configuration Communication partners Administrator User 2 User 10 Communication objects Object 1 Object 40 Basic setup System General Special Messages General Messages Services Internet SMS Interfaces EIB Relay contacts Phone LAN Log out 39

42 Anhang 7.4 Explanations for the configuration of the commissioning PC The following section describes the steps for configuring the IP address of the commissioning PC. The settings differ depending on the operating system (WIN 98, WIN2000, WIN XP,..). The explanations have been created with the WINDOWS 98 operating system. The IP (Internet Protocol) address is the unique identifier for a device in a network (similar to a house number). You can set this address in the control panel of the operating system (Start/ Settings/Control panel). Then click on the Network icon (double click). The following window appears: Select the TCP/IP components from the list of network components and click on Properties. 40

43 Appendix The next window now indicates the IP address of the PC: Select Specify an IP address and enter the IP address and subnet mask as displayed in the diagram. Then click on OK. Some operating systems require a restart of the system. If this is the case, please carry out a restart. 41

44 Appendix 7.5 Ordering information Description Ordering information bbn Price group Unit weight Pack unit Short code Order no. EAN in kg (pc.) Telephone Gateway, basic TG/S 3.1 GH Q R

45 The information in this leaflet is subject to change without further notice. Druck Nr. 2CDC D0201 Your EIB-Partner