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Elsner 70387 Installation And Adjustment Manual

Vari knx gps
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Vari KNX GPS

GPS Receiver

Item number 70387
Installation and Adjustment

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Summary of Contents for Elsner 70387

  • Page 1: Gps Receiver

    Vari KNX GPS GPS Receiver Item number 70387 Installation and Adjustment...

  • Page 2: Table Of Contents

    6.6. Calendar timer ......................24 6.6.1. Calendar clock Period 1-4 ................25 Elsner Elektronik GmbH • Sohlengrund 16 • 75395 Ostelsheim • Germany GPS Receiver Vari KNX GPS • from ETS programme version 1.0 Status:22.08.2017 • Errors excepted. Subject to technical changes.
  • Page 3 The change status (software version and date) can be found in the contents footer. If you have a device with a later software version, please check www.elsner-elektronik.de in the menu area "Service" to find out whether a more up-to- date version of the manual is available.

  • Page 4: Description

    Configuration is made using the KNX software ETS. The product file can be down- loaded from the Elsner Elektronik website on www.elsner-elektronik.de in the “Ser- vice” menu. 1.0.1. Scope of delivery •...

  • Page 5: Installation And Start-Up

    Elsner Elektronik is not liable for any changes in norms and standards which may occur after publication of these operating instructions.
  • Page 6 Installation and start-up Fig. 1 The device must be attached to a vertical wall 90° (or a pole). wall pole Fig. 2 The device must be mounted in the horizontal (transverse) direction. Horizontal Magnetic fields, transmitters and interference fields from electrical consumers (e.g. flu- orescent lamps, neon signs, switch mode power supplies etc.) can block or interfere with the reception of the GPS signal.

  • Page 7: Device Design

    Installation and start-up 2.3. Device design Fig. 3 Semi-transparent cover (GPS receiver below) Position of the Signal LED (un- der the cover). LED is freely con- trolled via two objects Position of the programming LED (under the cover) Lower part of housing Programming key on the bottom of the housing (recessed), see Device design, page 6...

  • Page 8: Fitting The Lower Part Of The Housing With Mounting

    Installation and start-up 2.4.2. Fitting the lower part of the housing with mounting Now, first of all, assemble the lower part of the housing with the integrated mounting for wall or pole installation. Wall installation Use fixing materials (dowels, screws) that are suitable for the base. Fig.
  • Page 9 Installation and start-up Fig. 7 Feed the power lead through the rubber gas- ket. Rubber gasket Drilling plan ATTENTION! The print out of the data sheet doesn‘t have original size! A separate, dimensionally correct drilling plan is included ex works and this can be used as a template.

  • Page 10: Connection

    Addressing the device Fig. 10 Break the cable guide off. Feed the power lead through the rubber gas- ket. Rubber gasket Cable guide 2.4.3. Connection The connector is in the lower part of the housing. Fig. 11 Connect the device to the KNX bus via the pluggable terminal (+|-).

  • Page 11: Maintenance

    Maintenance The programming button can be reached through the opening on the underside of the housing; it is recessed by approx. 8 mm. Use a thin object to reach the button, e.g. a 1.5 mm² wire. Fig. 13 a+b Programming LED (under the semi- transparent cover) Programming button for teaching the device...

  • Page 12: Transfer Protocol

    Transfer protocol Transfer protocol Units: Azimuth and elevation in degrees 5.1. List of all communication objects Abbreviation flags: Communication Read W Write Transfer U Update Text Func- Flags DPT type Size tion Software version Output R-CT [217.1] DPT_Ver- 2 bytes sion Signal LED object 1s cycle Input...
  • Page 13 Transfer protocol Text Func- Flags DPT type Size tion 1213 Weekly timer period 1: Switching Output R-CT [1.1] DPT_Switch 1 bit output 1214 Weekly timer period 1: 8 bit output Output R-CT [5.10] DPT_Val- 1 byte ue_1_Ucount 1215 Weekly timer period 2: Switch-on Input RWCT [10.1] DPT_- 3 bytes...
  • Page 14 Transfer protocol Text Func- Flags DPT type Size tion 1234 Weekly timer period 6: 8 bit output Output R-CT [5.10] DPT_Val- 1 byte ue_1_Ucount 1235 Weekly timer period 7: Switch-on Input RWCT [10.1] DPT_- 3 bytes time TimeOfDay 1236 Weekly timer period 7: Switch-off Input RWCT [10.1] DPT_- 3 bytes...
  • Page 15 Transfer protocol Text Func- Flags DPT type Size tion 1255 Weekly timer period 12: Switch-on Input RWCT [10.1] DPT_- 3 bytes time TimeOfDay 1256 Weekly timer period 12: Switch-off Input RWCT [10.1] DPT_- 3 bytes time TimeOfDay 1257 Weekly timer period 12: Switching Output R-CT [1.1] DPT_Switch...
  • Page 16 Transfer protocol Text Func- Flags DPT type Size tion 1276 Weekly timer period 17: Switch-off Input RWCT [10.1] DPT_- 3 bytes time TimeOfDay 1277 Weekly timer period 17: Switching Output R-CT [1.1] DPT_Switch 1 bit output 1278 Weekly timer period 17: 8 bit output Output R-CT [5.10] DPT_Val-...
  • Page 17 Transfer protocol Text Func- Flags DPT type Size tion 1297 Weekly timer period 22: Switching Output R-CT [1.1] DPT_Switch 1 bit output 1298 Weekly timer period 22: 8 bit output Output R-CT [5.10] DPT_Val- 1 byte ue_1_Ucount 1299 Weekly timer period 23: Switch-on Input RWCT [10.1] DPT_- 3 bytes...
  • Page 18 Transfer protocol Text Func- Flags DPT type Size tion 1344 Calendar timer period 2 sequence 1: Input RWCT [10.1] DPT_- 3 bytes Switch-off time TimeOfDay 1345 Calendar timer period 2 sequence 1: Output R-CT [1.1] DPT_Switch 1 bit Switching output 1346 Calendar timer period 2 sequence 1: Output R-CT...
  • Page 19 Transfer protocol Text Func- Flags DPT type Size tion 1367 Calendar timer period 4 sequence 2: Input RWCT [10.1] DPT_- 3 bytes Switch-on time TimeOfDay 1368 Calendar timer period 4 sequence 2: Input RWCT [10.1] DPT_- 3 bytes Switch-off time TimeOfDay 1369 Calendar timer period 4 sequence 2: Output...

  • Page 20: Parameter Setting

    Parameter setting Parameter setting 6.1. Behaviour on power failure/ restoration of power Behaviour following a failure of the bus power supply: The device sends nothing. Behaviour on bus restoration of power and following programming or reset: The device sends all outputs according to their send behaviour set in the parameters with the delays established in the "General settings"...

  • Page 21: Location

    Parameter setting date may not occur between receiving both objects. The objects must be received by the device on the same day. The device has an integrated real-time clock. Therefore, time keeps on running inter- nally and can be sent to the bus, even when no GPS coverage is available or no time object has been received for some time.
  • Page 22 Parameter setting Country • Belgium • Liechtenstein (if input by town is selected) • Denmark • Luxembourg • Germany • Netherlands • France • Austria • Great Britain • Switzerland • Italy • USA Town 6 towns in Belgium (if input by town is selected) 1 town in Denmark 48 towns in Germany;...

  • Page 23: Sun Position

    Parameter setting From (day) 1 ... 31; 25 (for Europe or USA summer time rules) (Day) (For user defined summer time rules) (Month) 1 ... 12; 3 (Hour) 0 ... 23; 2 (minutes) 0 ... 59 End of Summer Time: •...

  • Page 24: Weekly Timer

    Parameter setting on change of 0.1 degrees • 0.2 degrees • 0.5 degrees • (if sent on change) 1.0 degree • 2.0 degrees • 5.0 degrees Send cycle 5 s ... 2 h; 1 min (if sent periodically) 6.5. Weekly timer The weekly timer in the device allows for 24 periods to be defined.

  • Page 25: Calendar Timer

    Parameter setting Set the switching on and off times and the days of the week for this period. If, for ex- ample, 15:35 is set as the switch-off time, the output switches off on the change from 15:35 to 15:36. Switch on time (hours) 0 …...

  • Page 26: Calendar Clock Period 1-4

    Parameter setting 6.6.1. Calendar clock Period 1-4 Set whether the switching date and the switching time are set per object and in which cases the switching dates and times received are to be retained. Please note that the setting "After power restoration and programming" should not be used for the initial start-up, as the factory settings are always used until the first call (setting via objects is ignored).
  • Page 27 Parameter setting Set the send pattern for the switch sequence and the value of the 8-bit output. Switching output sends • never • on change • on change to active • on change to inactive • on change and periodically •...
  • Page 28 Elsner Elektronik GmbH Control and Automation Technology Sohlengrund 16 75395 Ostelsheim Phone +49(0)70 33/ 30945-0 info@elsner-elektronik.de Germany +49 (0) 70 33/ 30945-20 www.elsner-elektronik.de Technical support: +49 (0) 70 33 / 30 945-250...

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