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Electric GmbH. Reproduction of this document whether in whole or in part is only permitted within the copyright provisions. Modifications or abridgements of the document without express written permission of Wieland Electric GmbH are not permitted. All brands mentioned and when indicated protected by third parties in this document are subject to, as such unreservedly, the respective valid legal requirements and right of own- ership of the respective registered owner.
It is possible you are using a key- board with other key labelling, e.g. in the German language. Objects, variables, program code and parameters are identified with Objects and typewriter font variables Wieland Electric | BA000580 | 6/2009 (Rev. A)
• A power supply from the gesis RM series of devices is required for operating the basic module. If a power supply other than the gesis product intended for this purpose is used, Wieland Electric GmbH cannot guarantee that faultless operation will take place. •...
This includes both data contained in the gesis "System Handling Informa- tion" document (item no. 0060.2) and device packaging inserts as well as the relevant content from this manual. Wieland Electric | BA000580 | 6/2009 (Rev. A)
Different transfer media are available within the LON. All Wieland LON devices use twisted pair (TP) 2-wire bus technology and a TP/FT-10 transceiver with external power supply. A separate cable is used, which is laid when the standard electrical installation takes place and provides the medium for transporting status messages or switching commands for communication purposes.
(plug-ins) free of charge, which are integrated in the soft- ware tool, to make commissioning easier. LNS plug-ins are available free of charge for all Wieland LON devices and can be used in an LNS environment of version 3 or higher.
Start menu and select the "Register" button. The plug-in can then be registered using the procedure for individual LON projects, which is specific to each commissioning tool. If the Wieland plug-in needs to be removed from the Windows registry, please launch the plug-in directly once again via the Windows Start menu and select "Unregister".
The modules must be installed in a gesis RAN or similar housing. If a gesis RAN distribu- tion box is used, the modules are installed by Wieland and wired to gesis CON series con- nectors. The distribution box is designed and manufactured in accordance with customer requirements, meaning it can be adapted to almost any conditions.
(NVs). The gateway interprets the EnOcean telegrams ORG5 (RPS Type 1), ORG6 (1BS) and ORG7 (4BS), like those for example from EnOcean sensors, the Wieland alarm transmitter or the EnOcean window contact. The identification number (ID) of the sender is transmit- ted with these telegrams.
Flashing: receipt of a telegram with known ID from not taught-in channels Flashing: Teach-in mode active 11 Power supply 12.5 V DC 12 SMA antenna socket 13 Locking slide (only for 83.020.0320.0) Wieland Electric | BA000580 | 6/2009 (Rev. A)
X2: Connection and routing of the operating voltage; terminals 1/2 and 3/4 are bridged internally 1—Operating voltage 12.5 V DC SELV + 2—Operating voltage 12.5 V DC SELV + 3—Operating voltage 12.5 V DC SELV − 4—Operating voltage 12.5 V DC SELV − Wieland Electric | BA000580 | 6/2009 (Rev. A)
V2 according to UL 94 (housing) Thermal load approx. 3 kWh Approval -compliant Weight approx. 110 g Dimensions see "Dimensions, Connections and Function Elements" CE marking according to EMC Directive (residential and functional buildings), Low Voltage Directive Wieland Electric | BA000580 | 6/2009 (Rev. A)
12. Replace the relevant module. 13. Reattach the modules by following steps 1 to 5 in reverse order. Accessories Power supply gesis RM-PS 83.020.0401.0 Power supply gesis RM-PS B 83.020.0401.1 Antenna 83.020.0503.0 Wieland Electric | BA000580 | 6/2009 (Rev. A)
LNS version 3.08 or higher and installed Standard Device Resource Files (SDRFs) of version 12 or higher (available at www.lonmark.org). The setup program installs the LNS Plug-In, the Wieland-specific Device Resource Files (UDRFs) and the device template (XIF and APB in the directory: ...\LonWorks\import\Wieland Electric\WLD_GESISRC).
The teach-in of the sensors can be performed at any time. However, it is recommended to not teach in the sensors until after the LON commissioning. A detailed description for this can be found in the technical documentation for this module (at the end of this document). Wieland Electric | BA000580 | 6/2009 (Rev. A)
Parameterisation Parameterisation General Wieland Electric recommends the parameterisation using the LNS Plug-In; however it can also be performed directly in the LNS Tool. The application is implemented with a static XIF file with dynamic network variables. The module, together with order number, designation and type, are displayed in the...
NodeObject The relevant data for the LNS are displayed in the NodeObject area of the LNS Plug-In; this cannot be parameterised. Wieland Electric | BA000580 | 6/2009 (Rev. A)
An overview of the already parameterised radio channels is also displayed in the top area on this screen. Thus, you can see at a glance how many reserves are still available for other sensors. Wieland Electric | BA000580 | 6/2009 (Rev. A)
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• PBtn – Presence button • Temp – Temperature value of the internal sensor • SetP – Setpoint controller • TSw – Fan stage • SSw – Slide switch • rH – relative humidity Wieland Electric | BA000580 | 6/2009 (Rev. A)
In the Byte Assignment area, you change the assignment of the data bytes sent to the network variables. The standard settings correspond to the requirements of the respective EnOcean profile. Wieland Electric | BA000580 | 6/2009 (Rev. A)
• Alarm transmitter (Wieland-specific) • Window handle After the sender type has been selected, other parameters and tabs are displayed in the right-hand parameterisation area of the plug-in which are described in the following. Wieland Electric | BA000580 | 6/2009 (Rev. A)
*the corresponding functionality must be supported by the shutter actuator used (e.g. gesis gesis Wieland RM-0/2W SI, 83.020.0404.0 or Wieland RM-0/2W DC, 83.020.0407.0) The plug-in performs all other settings automatically and adapts the corresponding pa- rameters to the underlying L profiles. Wieland Electric | BA000580 | 6/2009 (Rev. A)
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(Tab 1) Actuators which are not L -compliant can also be controlled by explicitly setting the complete transmit behaviour of these network variables in another parameterisation win- dow. Switch / Button (Tab 2) Wieland Electric | BA000580 | 6/2009 (Rev. A)
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**the corresponding functionality must be supported by the shutter actuator used (e.g. gesis Wieland RM-0/2W SI, 83.020.0404.0) The maximum and the minimum value of a dimming telegram and the dimming step size can be specified here in the bottom area. Wieland Electric | BA000580 | 6/2009 (Rev. A)
The start behaviour can also be set, the type of the control (single-face or double-face, switch or button) determined and an inversion of the input signal parameterised. Wieland Electric | BA000580 | 6/2009 (Rev. A)
Press must be specified. A long button press then transmits a scene teach-in telegram ). After the commissioning, it is recommended to parameterise a value be- SC_LEARN tween three and five seconds here in order to prevent unwanted scene changes by the user. Wieland Electric | BA000580 | 6/2009 (Rev. A)
Window contact Window contact The parameterisation of the window contact transmission element is identical to the parameterisation of the Switch / Button element and is described there. 7.5.3 1-byte sensor 1-byte sensor Wieland Electric | BA000580 | 6/2009 (Rev. A)
When a temperature sensor is used, the measuring range of the sensor can be specified on the second screen (Tab 1). A negative value is input by setting the "leading sign" check mark. The counting direction can also be adjusted for the sensor used. Wieland Electric | BA000580 | 6/2009 (Rev. A)
When a brightness sensor is used, the measuring range of the sensor can be specified on the second screen (Tab 1). 7.5.3.3 1-byte sensor (other) The sensor types CO and pressure are present in the selection, however with no func- Notice tion. Wieland Electric | BA000580 | 6/2009 (Rev. A)
The 4-byte sensor is parameterised analogously to the 1-byte sensor. In addition, the posi- tion of the active byte in the telegram must be specified. 7.5.4.1 4-byte sensor (temperature value) 4-byte sensor temperature value (Tab 1) Wieland Electric | BA000580 | 6/2009 (Rev. A)
Alarm transmitter Alarm transmitter The Wieland alarm transmitter (83.020.0502.0) is a special module for the control of wire- less shutter actuators. The alarm transmitter produces a cyclical telegram with the current status of its potential-free inputs (e.g. conventional wind or rain sensor). As a result, in the case of a purely wireless-based system, the shutter actuators also move to the security position in the case of failure of the alarm transmitter.
Window handle (Tab 1) The value of the switch output variables can be parameterised, depending on the applica- tion (window monitoring, heating or break-in, and/or special solution) on the second screen (Tab 1). Wieland Electric | BA000580 | 6/2009 (Rev. A)
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• Open only = 100.1 "100; 1" is only transmitted if the window is open window moni- toring break-in • 3 Statuses Special function; "50; 1" is transmitted when the window is tilted Wieland Electric | BA000580 | 6/2009 (Rev. A)
3. Press the Clear button (7) again and keep it pressed for longer than three seconds. This deletes all IDs from the channel. 4. The gateway exits the clear mode automatically and the red LED (8) goes out. 5. Check and document the changes. Wieland Electric | BA000580 | 6/2009 (Rev. A)
3. Press the Clear button (7) again and keep it pressed for longer than ten seconds. This deletes all IDs from the gateway. 4. The gateway exits the clear mode automatically and the red LED (8) goes out. 5. Check and document the changes. Wieland Electric | BA000580 | 6/2009 (Rev. A)
If you are using the basic module with four extension modules of type RM-0/2W SI (83.020.0404.0/83.020.0404.1) or RM-0/2W DC (83.020.0407.0/83.020.0407.1) for shutter control, the power supply RM-PS 12/5 (83.020.0421.0/83.020.0421.1) must be used. CAUTION Wieland Electric | BA000580 | 6/2009 (Rev. A)
2. Remove the flat cable from the front of the device. 3. Undo the connections at the terminal strips. 4. Insert a screwdriver into the locking slide and release the module from the DIN rail. Wieland Electric | BA000580 | 6/2009 (Rev. A)
5. Push the slide towards the modules as shown ("1": slide closed; "2": slide open). Notice: This will release all the modules. 6. Replace the relevant module. 7. Reattach the modules by following steps 1 to 5 in reverse order. Wieland Electric | BA000580 | 6/2009 (Rev. A)
RM series of devices. It has a wide-range input and is suitable for both DC and AC voltage networks. The output (12.5 V DC / 5 W) is protected against short circuits, overload and overtemperature. Wieland Electric | BA000580 | 6/2009 (Rev. A)
1—Connection for output voltage, 12.5 V DC + 2—Connection for output voltage, 12.5 V DC + 3—Connection for output voltage, 12.5 V DC – 4—Connection for output voltage, 12.5 V DC – Wieland Electric | BA000580 | 6/2009 (Rev. A)
"Dimensions, Connections and Function Elements" Height including TH 35-7.5 52 mm mounting rail CE marking according to EMC Directive (residential and functional buildings), Low Voltage Directive Mounting on TH 35 mounting rail Wieland Electric | BA000580 | 6/2009 (Rev. A)
5. Push the slide towards the modules as shown ("1": slide closed; "2": slide open). Notice: This will release all the modules. 6. Replace the relevant module. 7. Reattach the modules by following steps 1 to 5 in reverse order. Wieland Electric | BA000580 | 6/2009 (Rev. A)