elsner elektronik KNX 70190 User Manual Download

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Installation and Adjustment

Item number 70190

Elsner Elektronik GmbH

Control and Automation Technology

Sohlengrund 16

75395 Ostelsheim

Phone +49(0)7033/30945-0

[email protected]

Germany

Fax +49(0)7033/30945-20 www.elsner-elektronik.de

Technical support: +49 (0) 70 33 / 30 945-250

KNX Interface

For Building Control System WS1000 Color
or WS1000 Style

Summary of Contents for KNX 70190

Page 1: ...rol and AutomationTechnology Sohlengrund 16 75395 Ostelsheim Phone 49 0 7033 30945 0 info elsner elektronik de Germany Fax 49 0 7033 30945 20 www elsner elektronik de Technical support 49 0 70 33 30 945 250 KNX Interface For Building Control System WS1000 Color or WS1000 Style ...

Page 2: ...and connection 4 2 2 1 Fitting the interface to the board of WS1000 5 2 2 2 Connection 5 3 Procedure 6 4 KNX transmission protocol 7 4 0 1 Abbreviations 7 4 1 List of all communications objects 7 5 Parameter setting 24 5 0 1 Malfunctions and error messages 24 5 1 General settings 24 5 2 Wind sensors 25 5 3 Weather data 26 5 3 1 Weather data is transmitted on the bus 26 5 3 2 Weather data is receiv...

Page 3: ...leshooting of the device must only be carried out by a competent electrician Safety advice Safety advice for working on electrical connections components etc DANGER indicates an immediately hazardous situation which will lead to death or severe injuries if it is not avoided WARNING indicates a potentially hazardous situation which may lead to death or severe injuries if it is not avoided CAUTION i...

Page 4: ...ata to the WS1000 Color Style sensor data push button commands Configuration is made using the KNX software ETS The product file can be down loaded from the Elsner Elektronik homepage on www elsner elektronik de in the Service menu 1 1 Scope of delivery Interface KNX bus connector terminal Interface and bus connector terminal are plugged on the board of the Control System WS1000 Color WS1000 Style...

Page 5: ...if it can be assumed that risk free operation is no longer guaranteed The device is only to be used for its intended purpose Any improper modification or failure to follow the operating instructions voids any and all warranty and guarantee claims After unpacking the device check it immediately for possible mechanical damage If it has been damaged in transport inform the supplier immediately The de...

Page 6: ...se no 2 and 3 Place the interface on the pins and push it down Connect the KNX bus cable to the bus connector red black and plug the connector to the slot of the WS1000 board no 1 Before closing the housing of the control again set up the bus connection with the pro gramming button no 4 The KNX interface is displayed in the starting sequence of the control KNX interface found 1 Slot KNX terminal 2...

Page 7: ...ure After the professional installation and commissioning the basic settings have to be made in the ETS and then in the control menu System Installation After the programming in the ETS the control must be reset also when making changes 6 3 2 Service Einstellungen Reset System WS1000 einstellen Service Reset ...

Page 8: ... 007 C R T 8 Sun elevation Azimuth Output 9 C R T 9 Sun position Elevation Output 9 C R T 10 Switching output night Output 1 002 C R T 11 Switching output rain Input Output 1 002 C R W T 12 Outdoor temperature measurement value Input Output 9 001 C R W T 13 Wind force measurement value Input Output 9 005 C R W T 14 Wind force sensor 1 measurement value Input 9 005 C W 15 Wind force sensor 2 measur...

Page 9: ...witching Input Output 1 001 C W T 34 Block 7_1 Switching feedback Output 1 001 C R T 34 Block 7_1 Dimming Output 3 007 C T 35 Block 7_1 Dimmer value in Input Output 5 001 C W T 37 Block 7_1 Temperature Input 9 001 C W T 38 Block 7_1 Air humidity Input 9 007 C W T 39 Block 7_1 CO2 Input 9 008 C W T 39 Block 7_1 2 byte floating point Input 9 C W T 39 Block 7_1 4 byte floating point Input 14 C W T 40...

Page 10: ... 51 Block 7_3 Temperature Input 9 001 C W T 52 Block 7_3 Air humidity Input 9 007 C W T 53 Block 7_3 CO2 Input 9 008 C W T 53 Block 7_3 2 byte floating point Input 9 C W T 53 Block 7_3 4 byte floating point Input 14 C W T 54 Block 7_4 Long time Input Output 1 008 C W T 55 Block 7_4 Short time Input Output 1 01 C W T 56 Block 7_4 Actuation position Output 5 001 C T 57 Block 7_4 Slat position Output...

Page 11: ...5 4 byte floating point Input 14 C W T 68 Block 7_6 Long time Input Output 1 008 C W T 69 Block 7_6 Short time Input Output 1 01 C W T 70 Block 7_6 Actuation position Output 5 001 C T 71 Block 7_6 Slat position Output 5 001 C T 72 Block 7_6 Movement position feedback Input 5 001 C W T 73 Block 7_6 Slat position feedback Input 5 001 C W T 74 Block 7_6 Safety Output 1 002 C R T 68 Block 7_6 Switchin...

Page 12: ...k 7_8 Slat position Output 5 001 C T 86 Block 7_8 Movement position feedback Input 5 001 C W T 87 Block 7_8 Slat position feedback Input 5 001 C W T 88 Block 7_8 Safety Output 1 002 C R T 82 Block 7_8 Switching Output 1 001 C W T 83 Block 7_8 Switching feedback Input 1 001 C R T 83 Block 7_8 Dimming Output 3 007 C T 84 Block 7_8 Dimmer value in Input Output 5 001 C W T 86 Block 7_8 Temperature Inp...

Page 13: ... W T 97 Block 7_10 Switching feedback Input 1 001 C R T 97 Block 7_10 Dimming Output 3 007 C T 98 Block 7_10 Dimmer value in Input Output 5 001 C W T 100 Block 7_10 Temperature Input 9 001 C W T 101 Block 7_10 Air humidity Input 9 007 C W T 102 Block 7_10 CO2 Input 9 008 C W T 102 Block 7_10 2 byte floating point Input 9 C W T 102 Block 7_10 4 byte floating point Input 14 C W T 103 Block 7_11 Long...

Page 14: ...k 7_12 Air humidity Input 9 007 C W T 116 Block 7_12 CO2 Input 9 008 C W T 116 Block 7_12 2 byte floating point Input 9 C W T 116 Block 7_12 4 byte floating point Input 14 C W T 117 Block 7_13 Long time Input Output 1 008 C W T 118 Block 7_13 Short time Input Output 1 01 C W T 119 Block 7_13 Actuation position Output 5 001 C T 120 Block 7_13 Slat position Output 5 001 C T 121 Block 7_13 Movement p...

Page 15: ...time Input Output 1 008 C W T 132 Block 7_15 Short time Input Output 1 01 C W T 133 Block 7_15 Actuation position Output 5 001 C T 134 Block 7_15 Slat position Output 5 001 C T 135 Block 7_15 Movement position feedback Input 5 001 C W T 136 Block 7_15 Slat position feedback Input 5 001 C W T 137 Block 7_15 Safety Output 1 002 C R T 131 Block 7_15 Switching Output 1 001 C W T 132 Block 7_15 Switchi...

Page 16: ...nput 5 001 C W T 150 Block 7_17 Slat position feedback Input 5 001 C W T 151 Block 7_17 Safety Output 1 002 C R T 145 Block 7_17 Switching Output 1 001 C W T 146 Block 7_17 Switching feedback Input 1 001 C R T 146 Block 7_17 Dimming Output 3 007 C T 147 Block 7_17 Dimmer value in Input Output 5 001 C W T 149 Block 7_17 Temperature Input 9 001 C W T 150 Block 7_17 Air humidity Input 9 007 C W T 151...

Page 17: ...19 Dimming Output 3 007 C T 161 Block 7_19 Dimmer value in Input Output 5 001 C W T 163 Block 7_19 Temperature Input 9 001 C W T 164 Block 7_19 Air humidity Input 9 007 C W T 165 Block 7_19 CO2 Input 9 008 C W T 165 Block 7_19 2 byte floating point Input 9 C W T 165 Block 7_19 4 byte floating point Input 14 C W T 166 Block 7_20 Long time Input Output 1 008 C W T 167 Block 7_20 Short time Input Out...

Page 18: ...9 Block 7_21 CO2 Input 9 008 C W T 179 Block 7_21 2 byte floating point Input 9 C W T 179 Block 7_21 4 byte floating point Input 14 C W T 180 Block 7_22 Long time Input Output 1 008 C W T 181 Block 7_22 Short time Input Output 1 01 C W T 182 Block 7_22 Actuation position Output 5 001 C T 183 Block 7_22 Slat position Output 5 001 C T 184 Block 7_22 Movement position feedback Input 5 001 C W T 185 B...

Page 19: ...oint Input 14 C W T 193 Block 3_3 Switching Output 1 001 C W T 194 Block 3_3 Switching feedback Input 1 001 C R T 194 Block 3_3 Dimming Output 3 007 C T 195 Block 3_3 Dimmer value in Input Output 5 001 C W T 193 Block 3_3 Temperature Input 9 001 C W T 194 Block 3_3 Air humidity Input 9 007 C W T 195 Block 3_3 CO2 Input 9 008 C W T 195 Block 3_3 2 byte floating point Input 9 C W T 195 Block 3_3 4 b...

Page 20: ...205 Block 3_7 Switching Output 1 001 C W T 206 Block 3_7 Switching feedback Input 1 001 C R T 206 Block 3_7 Dimming Output 3 007 C T 207 Block 3_7 Dimmer value in Input Output 5 001 C W T 205 Block 3_7 Temperature Input 9 001 C W T 206 Block 3_7 Air humidity Input 9 007 C W T 207 Block 3_7 CO2 Input 9 008 C W T 207 Block 3_7 2 byte floating point Input 9 C W T 207 Block 3_7 4 byte floating point I...

Page 21: ...ut 14 C W T 217 Block 2_1 Switching Output 1 001 C W T 218 Block 2_1 Switching feedback Input 1 001 C R T 217 Block 2_1 Temperature Input 9 001 C W T 218 Block 2_1 Air humidity Input 9 007 C W T 218 Block 2_1 2 byte floating point Input 9 C W T 218 Block 2_1 4 byte floating point Input 14 C W T 219 Block 2_2 Switching Output 1 001 C W T 220 Block 2_2 Switching feedback Input 1 001 C R T 219 Block ...

Page 22: ... byte floating point Input 9 C W T 228 Block 2_6 4 byte floating point Input 14 C W T 229 Block 2_7 Switching Output 1 001 C W T 230 Block 2_7 Switching feedback Input 1 001 C R T 229 Block 2_7 Temperature Input 9 001 C W T 230 Block 2_7 Air humidity Input 9 007 C W T 230 Block 2_7 2 byte floating point Input 9 C W T 230 Block 2_7 4 byte floating point Input 14 C W T 231 Block 2_8 Switching Output...

Page 23: ...001 C W T 239 Block 1_3 2 byte floating point Input 9 C W T 239 Block 1_3 4 byte floating point Input 14 C W T 240 Block 1_4 Temperature Input 9 001 C W T 240 Block 1_4 2 byte floating point Input 9 C W T 240 Block 1_4 4 byte floating point Input 14 C W T 241 Block 1_5 Temperature Input 9 001 C W T 241 Block 1_5 2 byte floating point Input 9 C W T 241 Block 1_5 4 byte floating point Input 14 C W T...

Page 24: ... byte floating point Input 14 C W T 249 Block 1_13 Temperature Input 9 001 C W T 249 Block 1_13 2 byte floating point Input 9 C W T 249 Block 1_13 4 byte floating point Input 14 C W T 250 Block 1_14 Temperature Input 9 001 C W T 250 Block 1_14 2 byte floating point Input 9 C W T 250 Block 1_14 4 byte floating point Input 14 C W T 251 Block 1_15 Temperature Input 9 001 C W T 251 Block 1_15 2 byte f...

Page 25: ...gured in the ETS that the weather data needs to be received from the bus a wind or rain alarm is triggered to the controller Malfunction Defect of the controller KNX Interface KNX interface does not receive any message from the controller for 30 seconds A fault warning is transmitted to the bus Malfunction Defect of a KNX sensor or actuator that has already been configured no data reception In the...

Page 26: ...etected Transmission delays after power up and programming for Weather data 5 s 10 s 30 s 1 min 2 h Functional blocks 5 s 10 s 30 s 1 min 2 h Maximum message rate 10 20 messages per second Weather data do not use send to bus receive from bus Malfunction object do not use use Locking object for all outputs do not use use Blocking before 1st communication only if the locking object is used for all o...

Page 27: ...mitting periodically 5 secs 10 secs 30 secs 1 min 2 h Use malfunction object verwenden No Yes Sending behaviour transmit periodically transmit on change transmit on change and periodically on change of only if transmitting on change 0 5 m s 1 0 m s 2 0 m s 5 0 m s Transmit cycle only if transmitting periodically 5 secs 10 secs 30 secs 1 min 2 h Use malfunction object verwenden No Yes Monitoring ti...

Page 28: ...y is selected 5 s 10 s 30 s 1 min 2 h Rain switching output do not transmit transmit on change send on change to 1 send on change to 0 transmit on change and periodically send on change to 1 and periodically send on change to 0 and periodically Transmit cycle only if periodically is selected 5 s 10 s 30 s 1 min 2 h Temperature measurement value do not transmit transmit periodically transmit on cha...

Page 29: ... bus after start up reset In the display unit of the KNX Interface the message No link to the weather station is displayed instead of the weather animation There is no automatic control active and the wind and rain alarms are cautiously active i e drives with the appropriate settings for wind and rain protection move to the safe position The normal automatic mode of operation is restored only if a...

Page 30: ...l Blocks the option selected is Sending behaviour of safety objects on change on change to 1 on change to 0 on change and periodically on change to 1 and periodically on change to 0 and periodically Transmit cycle only if periodically is selected 5 s 10 s 30 s 1 min 2 h Use blocks with 7 objects No Yes Use blocks with 3 objects No Yes Use blocks with 2 objects No Yes Use blocks with 1 object No Ye...

Page 31: ...ure sensors and floating point values In Functional Blocks the option selected is Blocks with 2 objects The menu point appears only if the option that blocks with 2 objects should be used has been selected with Functional blocks The data for light buttons and the thermal hygrometer is transmitted with the help of these 10 blocks The blocks are also suitable for temperature sensors and floating poi...

Page 32: ...locks with 1 object should be used has been selected with Functional blocks The data for temperature sensors and floating point values is transmitted with the help of these 17 blocks In Functional Blocks the option selected is Use blocks with 1 object Yes Block 1_1 Block 1_17 Do not use Input Temperature Input 2 byte floating point Input 4 byte floating point ...

Page 33: ... 60184 white 60185 60189 black WS1 Style PF 60191 60194 white 60196 60199 black WS1000 Style 60201 60204 white 60206 60209 black WS1000 Style PF 60211 60214 white 60216 60219 black Elsner Elektronik GmbH Control and AutomationTechnology Sohlengrund 16 75395 Ostelsheim Phone 49 0 7033 30945 0 info elsner elektronik de Germany Fax 49 0 7033 30945 20 www elsner elektronik de Technical support 49 0 70...

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