Technical Manual
Contents
1. The standard format of the object is 1 001 DPT_Switch so the size of the object is 1 bit and the commands it sends is send action 1 action 2 value gt 10 2 2 Ch x Y value If the command object Y format is 1 byte unsigned 0 255 or 1 byte perc value 0 objects visible are those seen in Diag 10 3 Number ado ade air Geis adi E7 13 Enpe ada ade 14 Eizo ada ado ais E21 Name Ch 1 4 value Ch 2 value Ch 3 value Ch 4 A value Ch 1 B value Ch 2 B value Ch 3 B value Ch 4 B value Ch 1 C value Ch 2 C value Ch 3 C value Ch 4 C value Ch 1 D value Ch 2 D value Ch 3 D value Ch 4 D value Object Function Value sending Value sending Value sending Value sending Value sending Value sending Yalue sending Value sending Value sending Value sending Value sending Value sending Value sending Value sending Value sending Value sending Length 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte 1 Byte le C fe C C E amp C E C C a C E C C Diag 10 3 PMAPDDADAAARAA DAA AAAAA a AAA ARR AAA AA AAA ASA U DataType 100 the Priority Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Using these communication objects the device sends telegrams to the bus after receiving sequence action 1 or action 2 activation command from th2. unblocked and will behave normally gt 3 1 5 Battery alarm object enabling This allows you to enable the possibility to send a bus telegram with the battery status of the last RF control device associated to the general channel x that transmitted it the settings are RED e disabled The battery status alarm is not sent and the relative Ch x Low battery alarm communication object is not visible e enabled The battery status of the last RF control device associated to general channel x is sent via bus telegram the relative Ch x Low battery alarm communication object is therefore visible 3 2 Communication objects The Block enabling and Battery alarm object enabling options in the Channel x menu if enabled make the following communication objects visible See Diag 3 2 Number Name Object Function Lenth C R WT U Data Type Priority Gas Ch 1 Block Switching on off 1 bit C W 1 bit DPT_Enable Low aa 11 Ch 2 Block Switching on off 1 bit G W 1 bit DPT_Enable Low EH 17 Ch 3 Block Switching on off 1 bit W 1 bit DPT_Enable Low 23 Ch 4 Block Switching on off 1 bit Cc Ww 1 bit DPT_Enable Low G27 Ch 5 Block Switching on off 1 bit C W 1 bit DPT_Enable Low Eai Ch 6 Block Switching on off 1 bit wW 1 bit DPT_Enable Low Eas Ch 7 Block Switching on off 1 bit c W 1 bit DPT_Enable Low Esa Ch 8 Block Switching on off 1 bit C W 1 bit DPT_Enable Low als Ch 1 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool
3. 8 channel EIB RF receiver KNX GW 10 798 GW 12 798 GW 14 798 Technical Manual REE Summary 1 INTOdUCION tt a Salt eed teat ads A ht to aa eal Sd te ds a ahaa Ss mat 3 2 Application RA awe hts ee in oe aces eis ee on et He ies 4 ERE EA 4 A EEN 5 A A E E A a AO 5 3 27 SCOMMUNICALIONODJSCIS iaa ai 7 4 SMICHINO TUN CON PETEN E A I AA A Ar 8 A O EE ETETE cies mort aul tena dese sia EE E E sites tata AE A 8 4 2 COMMUNICATION ODJSCIS EAE E E AAA 9 95 Priority command TUNGCUION Soo eiii nadaa 10 Dil 1 e EE tt O 10 9 27 COMMUNICATION ob eS aE EE A E EA A ONAR 11 6 Dimmer fUNCtON iisi aaao anaapa ai ea ap oeae aaide A 12 0 1 1 E EE RETE EAA E EE EE A 12 6 2 Communication Objects senarius arrai e inira dec ee EESE ae sees eld AEE ded EENE AAE ENNE elie 13 T Shutter f n tioNe it A hance a Ea ee ee a ak aoe a eee ese 14 TAs e EA NN 14 1 2 COMMUNICATION Objects eiii da die 15 8 Sensorsalarm TUNCION iii A a A ca vase andes dae aes 16 8 1 Parameterse cinnAdi ieee NN 16 8 2 Communication Objects anorani dd dde 17 OF USCONSMTUNCON ccc A ae ieee abe Lease ls Seed 18 9 1 Parameterse cianagi NN 18 9 2 COMMUNICATION Objects srein oein aeni e dd da 19 10 Commands sequence FUNCTION ccceeceeeece cece eeeeeeeeaeceeeeeeeeeeeecaaeaeceeeeesescaaeaeeeeeeeseseccieeeeeeeeeeeeteenaees 20 10 1 O ue dadioeetaaddedtesentestans E acdeke laduatabia iaccte saguteateas eke sabbneaaanis 20 10 2
4. Channel 1 Channel 1 Channel 2 Channel 3 4 Channel 4 Matched function commands sequence Channel 5 r Channel 6 Number of the sequence commands 4 Channel 7 Channel 8 A command object format 4 command object value action 1 A command object value action 2 B command object format B command object value action 1 B command object value action 2 C command object format C command object value action 1 C command object value action 2 D command object format D command object value action 1 D command object value action 2 Block enabling disabled Battery alarm object enabling disabled Cancel Default Diag 10 1 10 1Parameters gt 10 1 1 Number of the sequence commands Here you can set the number of commands to be sent upon receipt of a command sequence activation command from the RF control devices associated to the general channel x According to the value set for this item different options will be visible in the Channel x menu The setting range from 1 to 4 according to the value entered different communication objects and related configuration options for sending such commands will be displayed Y command object format Y command object value action 1 and Y command object value action 2 Y indicates the general command for the sequence to be configured 20 RED gt 10 1 2 Y command object format Here you can configure the code format of the bus telegrams which
5. 1 bit C T 1 bit DPT_UpDown Low E24 Ch 5 Shutter movement Up Down 1 bit C R T 1bit DPT_UpDown Low Eze Ch 6 Shutter movement Up Down 1 bit C R T 1 bit DPT_UpDown Low Esz Ch 7 Shutter movement Up Down 1 bit C R T 1bit DPT_UpDown Low Eae Ch 8 Shutter movement Up Down 1 bit CE R T 1bit DPT_UpDown Low adi Ch 1 Shutter stop Louvres step Stop Step 1 bit C R p Low al Ch 2 Shutter stop Louvres step Stop Step 1 bit C R T Low adi Ch 3 Shutter stop Louvres step Stop Step 1 bit C R T Low odio Ch 4 Shutter stop Louvres step Stop Step 1 bit C B T Low Ejzs Ch 5 Shutter stop Louvres step Stop Step 1 bit R z T Low E29 Ch 6 Shutter stop Louvres step Stop Step 1 bit C R T Low alas Ch 7 Shutter stop Louvres step Stop Step 1 bit E R amp T Low uds Ch 8 Shutter stop Louvres step Stop Step 1 bit CE R T F Low Diag 7 2 gt 7 2 1 Ch x Shutter movement Using these communication objects the device sends UP DOWN movement commands to the bus according to the command received from the RF control devices associated to the general channel x The enabled flags are C communication R read by bus and T transmission The standard format of the object is 1 008 DPT_UpDown so the size of the object is 1 bit and the command it sends is Up Down movement 7 2 2 Ch x Shutter stop Louvres step Using these communication objects the device sends louvres open close control commands to the bus accordin
6. Ch 1 Scene Execute Store 1 Byte R T Low ade Ch 2 Scene Execute Store 1 Byte Cc R T Low aa 12 Ch 3 Scene Execute Store 1 Byte R T Low E 18 Ch 4 Scene Execute Store 1 Byte c R T Low G24 Ch 5 Scene Execute Store 1 Byte ec gt T Low azs Ch 6 Scene Execute Store 1 Byte C R T Low E32 Ch 7 Scene Execute Store 1 Byte G E T Low ase Ch 8 Scene Execute Store 1 Byte C R T Low Diag 9 2 gt 9 2 1 Ch x Scene Using these communication objects the device sends execute store scene A or scene B commands after receiving execute store scene A or scene B commands from the RF control devices associated to the general channel x The enabled flags are C communication R read by bus and T transmission The standard format of the object is 18 001 DPT_SceneControl so the size of the object is 1 byte and the commands it sends are execute store scene A or B 19 RED 10 Commands sequence function This function that can only be configured for channels 1 2 3 and 4 allows you to configure the general channel x to send multiple commands up to a maximum of 4 The command format can be selected and is independent of the format of the other commands The diagram Diag 10 1 below shows the parameters that define the behaviour of the individual channels the parameters relative to the Block enabling and Battery alarm object enabling functions were already illustrated in the General Section 1 1 1 RF receiver 8 ch white
7. Communication Objects tica iaa rei atbde 21 11 0 16 pitvu sondang NCU aiae e E E alicia 24 11 1 O A E A E E E E E E E E A EE 24 11 2 COMMUNICATION oHe Saua AA A acia 25 RE 4 Introduction This manual describes the functions of the devices named GW1x798 8 channel ElB RF receiver and how to use the ETS configuration software to change the settings and configurations RD 2 Application The 8 channel EIB RF receiver is a system that allows the Chorus RF system command and control devices to communicate with a KNX EIB system which hence allows the Building Automation Konnex system to be extended using RF control devices This device is in fact fitted with 8 EIB output channels each of which can be configured independently to perform different functions the functions each channel is able to perform are those typical to an input interface that is ON OFF commands shutter control dimmer control scene management priority commands command sequences 8 16 bit value sending commands and sensor alarm management Not all RF control devices can perform the above listed functions so before starting to configure the device using the ETS software please read the INSTALLATION AND USER MANUAL which lists all the commands that the different RF control devices can perform This manual refers solely to the configuration using the ETS software Please refer to the INSTALLATION AND USER MANUAL supplied with the product for instructions on how t
8. device sends to the bus the alarm status received from the Chorus RF family sensors associated to the general channel x Length 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit Diag 8 2 Cc c C C PRPDDDDDA y Ww HAA AAA A ASA u Data Type Priority Low Low Low Low Low Low Low Low After ten minutes since the last alarm status signal was send by the RF sensor the Receiver will automatically send an alarm activated status signal to prevent any faults or malfunctions on the sensors from damaging the KNX EIB system The enabled flags are C communication R read by bus and T transmission The standard format of the object is 1 002 DPT_Bool so the size of the object is 1 bit and the information it sends is sensor alarm activated deactivated 17 oes 9 Scene function This function allows you to enable the general channel x to send execute store scene commands to the connected devices The diagram Diag 9 1 below shows the parameters that define the behaviour of the individual channels the parameters relative to the Block enabling and Battery alarm object enabling functions were already illustrated in the General Section 1 1 1 RF receiver 8 ch white Channel Channel 2 Channel 3 Channel 4 Matched function scene Channel 5 Channel 6 scene number unassigned Channel 7 Channel 8 B scene number unassigned Block enabling disabled Batt
9. sent upon receipt of a send action 1 value command from the RF control devices associated to the general channel x According to the value set under the Sending object format option different values will be available so we will divide the various values according to the format of the object to be sent by the communication object being used If the value is set to 1 byte unsigned 0 255 the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 0 to 255 Ifthe value is set to 1 byte perc value 0 100 the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 0 to 100 with steps of 5 Ifthe value is set to 2 byte unsigned 0 65535 the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 0 to 65535 Ifthe value is set to 2 byte floating point the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 100 to 100 gt 11 1 3 Object value action 2 The same applies as indicated in the previous paragraph but in relation to action 2 please refer to 11 1 2 for further details 11 2 Communication objects According to the settings under the Sending object form
10. status and a 0 logic value for an alarm deactivated status e reverse This assigns a 0 logic value for an alarm activated status and a 1 logic value for an alarm deactivated status gt 8 1 2 Cyclic sending time min Here you can set the cyclic sending time for alarm status telegrams expressed in minutes the values range from 1 minute to 1000 minutes 16 gt 8 1 3 Sending conditions gt Here you can configure the alarm status conditions that must be sent cyclically to the bus this value only refers to cyclic sending as the alarm status is sent in any case when there is a change in the same The settings are e any value The alarm status is sent periodically regardless of the configured value e alarm on only The alarm status is sent periodically only when it has an alarm activated status e alarm off only The alarm status is sent periodically only when it has an alarm deactivated status 8 2 Communication objects The communication objects enabled by the sensors alarm function are those seen in Diag 8 2 Number ao aude adi E24 Eis Gaze E32 Else Name Ch 1 Ch 2 ch 3 ch 5 Ch 4 Ch 6 Ch 7 Ch 8 Sensor al Sensor al Sensor al Sensor al Sensor al Sensor al Sensor al Sensor al arm arm arm arm arm arm arm arm Object Function rPrRrREPPPEP LE gt 8 2 1 Ch x Sensor alarm Using these communication objects the
11. will be sent by the device through the communication object associated to the sequence Y command by changing the values for the Y command object value action 1 and Y command object value action 2 options The settings are e 1 bit The command format that the device will send following a change in the contact status is 1 bit so it will have a 1 or 0 logic value that according to how it is used could for instance perform an ON OFF command an UP DOWN command or a TRUE FALSE Boolean value command e 1 byte unsigned 0 255 The command format that the device will send following a change in the contact status is a 1 byte binary code the value sent will therefore range from 0 to 255 e 1 byte perc value 0 100 The command format that the device will send following a change in the contact status is a 1 percentage value byte so the value will range from 0 to 100 which according to the use could be for instance the brightness percentage value for a dimmer or the percentage position of a shutter gt 10 1 3 Y command object value action 1 Here you can set the command or value to be sent upon receipt of a sequence action 1 activation command from the RF control devices associated to the general channel x According to the value set for the Y command object format option different values will be available so we will divide the various values according to the format of the object to be sent by the communication objec
12. Low a 10 Ch 2 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low aa 16 Ch 3 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low E22 Ch 4 Low battery alarm Alarm 1 bit E R T 1 bit DPT_Bool Low Eze Ch 5 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low Gelso Ch 6 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low G34 Ch 7 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low Ejas Ch 8 Low battery alarm Alarm 1 bit C R T 1 bit DPT_Bool Low Diag 3 2 gt 3 2 1 Ch x Block Using this communication object the device is able to receive the block switching on off commands from the bus The enabled flags are C communication and W written by bus The standard format of the object is 1 003 DPT_Enable so the size of the object is 1 bit and the information it receives is block switching on off gt 3 2 2 Ch x Low battery alarm This communication object enables the device to send a bus telegram with the battery status of the last RF control device associated to the general channel x that transmitted it The device sends a telegram with a 0 logic value when the battery is charged and sends a telegram with a 1 logic value when a low battery status is acknowledged and needs replacing The enabled flags are C communication and W written by bus The standard format of the object is 1 002 DPT_Bool so the size of the object is 1 bit and the information it receives is low battery alarm true false oes 4 Switch
13. Switch 1 bit DPT_Switch C herus gt Ne ee Priority Low Low Low Low Low Low Low Low Using these communication objects the device sends ON OFF commands to the bus after receiving load activation deactivation commands from the RF control devices associated to the general channel x The enabled flags are C communication R read by bus and T transmission The standard format of the object is 1 001 DPT_Switch so the size of the object is 1 bit and the information it sends is On Off or more generally 1 0 REED 5 Priority command function This function allows you to enable the general channel x to send On Off forced positioning commands to the actuators that control the loads The diagram Diag 5 1 below shows the parameters that define the behaviour of the individual channels the parameters relative to the Block enabling and Battery alarm object enabling functions were already illustrated in the General Section 1 1 1 RF receiver 8 ch white Channel 1 Channel 2 Channel 3 j Channel 4 Matched function priority command Channel 5 AN Channel 6 Priority command off up Channel 7 Channel 8 Block enabling disabled Battery alarm object enabling disabled Co Diag 5 1 5 1 Parameters gt 5 1 1 Priority command Here you can configure the type of command to be sent when an activate forced positioning command is received from RF control devices the settings are e off up
14. When a forced positioning command is received from the RF control devices associated to the general channel x the device sends an OFF forced positioning telegram to the bus which for a general actuator means a forced OFF command whilst for a motor control actuator it means a forced UP all UP command is sent to the controlled load e on down When a forced positioning command is received from the RF control devices associated to the general channel x the device sends an ON forced positioning telegram to the bus which for a general actuator means a forced ON command whilst for a motor control actuator it means a forced DOWN all DOWN command is sent to the controlled load 10 RED 5 2 Communication objects The communication objects enabled by the priority command function are those seen in Diag 5 2 Number ao ade 412 Eis E24 ze Gajs2 Else Name Ch 1 Priority command Ch 2 Priority command Ch 3 Priority command Ch 4 Priority command Ch 5 Priority command Ch 6 Priority command Ch 7 Priority command Ch 8 Priority command Object Function On Off Forced positioning On Off Forced positioning On Off Forced positioning On Off Forced positioning On Off Forced positioning On Off Forced positioning On Off Forced positioning On Off Forced positioning Diag 5 2 gt 5 2 1 Ch x Priority command Using these communication objects the device sends ON OFF forced positioning comman
15. at option the following communication objects are visible gt 11 2 1 Ch x 8 bit value If the object format to be sent is 1 byte unsigned 0 255 or 1 byte perc value 0 100 the objects visible are those seen in Diag 11 2 Number Name Object Function Length C R W T U DataType Priority 24 Ch 5 8 bit value Value sending 1 Byte Ee R T Low ulzs Ch 6 8 bit value Value sending 1 Byte ER J Low G32 Ch 7 8 bit value Value sending 1 Byte COR T Low G36 Ch 8 8 bit value Value sending 1Byte C R T Low Diag 11 2 Using these communication objects the device sends telegrams to the bus after receiving a send value action 1 or action 2 command from the RF control devices associated to the general channel x Each channel is associated to its own independent communication objects The enabled flags are C communication R read by bus and T transmission The standard format of the object depends in turn on the settings for the Sending object format i if the value set is 1 byte unsigned 0 255 the standard format for the object is 5 010 DPT_Value_1_Ucount so the size of the object is 1 byte and the command it sends is a binary coded value of from 0 to 255 25 REE ii if the value set is 1 byte perc value 0 100 the standard format of the object is 5 001 DPT_Scaling so the size of the object is 1 byte and the command it sends is a percentage value of from 0 to 100 gt 11 2 2 Ch x 16 bit value I
16. ds to the bus after receiving on off forced positioning commands from the RF control devices associated to the general channel x The enabled flags are C communication R read by bus and T transmission The standard format of the object is 2 001 DPT_Switch_Control so the size of the object is 2 bit and the commands it receives is on off forced positioning enabled forced positioning disabled 11 Lenath 2 bit 2 bit 2 bit 2 bit 2 bit 2 bit 2 bit 2 bit c Cc Cc al G E E c DIDIDOIDO y W 4 AA AAA AAA u Data Type 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control 1 bit controlled DPT_Switch_Control Priority Low Low Low Low Low Low Low Low RED 6 Dimmer function This function allows you to enable the general channel x to control a dimmer with ON OFF commands and brightness control commands Diag 6 1 shows the channel x menu with the dimmer matched function where you will notice the other configuration items that refer to the same function are not visible the parameters relative to the Block enabling and Battery alarm object enabling options were already illustrated in the general section 1 1 1 RF receiver 8 ch white Channel 1 Channel 2 Channel 3 Chahnel4 Matched
17. e RF control devices associated to the general channel Xx Each channel is associated to its own independent communication objects The enabled flags are C communication R read by bus and T transmission 22 RD The standard format of the object depends in turn on the settings for the Y command object format option i if the value set is 1 byte unsigned 0 255 the standard format for the object is 5 070 DPT_Value_1_Ucount so the size of the object is 1 byte and the commands it sends are send action 1 action 2 value i If the value set is 1 byte perc value 0 100 the standard format of the object is 5 001 DPT_Scaling so the size of the object is 1 byte and the commands it sends are send action 1 action 2 value 23 oes 11 8 16 bit value sending function This function that can only be configured for channels 5 6 7 and 8 allows you to configure the general channel x to send a single command with a 8 or 16 bit format The diagram Diag 11 1 below shows the parameters that define the behaviour of the individual channels the parameters relative to the Block enabling and Battery alarm object enabling functions were already illustrated in the General Section 1 1 1 RF receiver 8 ch white Channel 1 Channel 5 Channel 2 Channel 3 x gt Channel 4 Matched function 8 16 bit value sending Channel 5 Channel 6 Sending object format 1 unsigned byte 0 255 Channel 7 Channel 8 Object value acti
18. ery alarm object enabling disabled Diag 9 1 9 1 Parameters gt 9 1 1 A scene number Here you can set the value for scene A that is to be enabled disabled after receiving a command from the RF devices associated to the general channel x the settings range from 0 to 63 The value set for this option is important as the output devices actuators dimmers etc are usually able to manage more than one scene which is identified by the command value that is received it is recommended to configure this option correctly making sure the number is assigned according to the scene that you intend to manage with scene A on the general channel x to which it refers gt 9 1 2 B scene number Here you can set the value for scene B that is to be enabled disabled after receiving a command from the RF devices associated to the general channel x the settings range from 0 to 63 The value set for this option is important as the output devices actuators dimmers etc are usually able to manage more than one scene which is identified by the command value that is received it is recommended to configure this option correctly making sure the number is assigned according to the scene that you intend to manage with scene B on the general channel x to which it refers 18 RE 9 2 Communication objects The communication objects enabled by the scene function are those seen in Diag 9 2 Number Name Object Function Length C R Ww T U Data Type Priority Gao
19. f the object format to be sent is 2 byte unsigned 0 255 or 2 byte floating point the objects visible are those seen in Diag 11 3 Number Name Object Function Length c R W T U Data Type Priority G24 Ch 5 16 bit value Value sending 2 Byte CR T Low Tzs Ch 6 16 bit value Value sending 2 Byte CR J Low G32 Ch 7 16 bit value Value sending 2 Byte COR T Low Eze Ch 8 16 bit value Value sending 2 Byte CR T Low Diag 11 3 Using these communication objects the device sends telegrams to the bus after receiving a send value action 1 or action 2 command from the RF control devices associated to the general channel x Each channel is associated to its own independent communication objects The enabled flags are C communication R read by bus and T transmission The standard format of the object depends in turn on the settings for the Sending object format i if the value set is 2 byte unsigned 0 65535 the standard format for the object is 7 007 DPT_Value_2_Ucount so the size of the object is 2 bytes and the commands it sends are send action 1 action 2 value i if the value set is 2 byte floating point the standard format for the object is 9 001 DPT_Value_Temp so the size of the object is 2 bytes and the commands it sends are send action 1 action 2 value 26 Na 8 zp3 e 10 4 GOO 8002 0 INOISIA38 YNWILIN GEWISS MATERIALE ELETTRICO 1 SS
20. function dimmer Channel 5 Channel 6 Block enabling disabled Channel 7 pe Channel 8 Battery alarm object enabling disabled C Comos Cossa Jo e Diag 6 1 6 1 Parameters There are no parameters to be configured for this function 12 RED 6 2 Communication objects The communication objects enabled by the dimmer function are those seen in Diag 6 2 Number Name Object Function Length CR Y TU Data Type Priority Helo Ch 1 Switch On Off 1 bit E R T f 1 bit DPT_Switch Low ele Ch 2 Switch On Off 1 bit CE R T 1bit DPT_Switch Low mji Ch 3 Switch On Off 1 bit C R T 1bit DPT_Switch Low E 18 Ch 4 Switch On off 1 bit E R T 1 bit DPT_Switch Low E24 Ch 5 Switch On Off 1 bit G Foza T 1bitDPT_Switch Low Eize Ch 6 Switch On Off 1 bit C R E as 1 bit DPT_Switch Low Eaz Ch 7 Switch On off 1 bit E R T 1bitDPT_Switch Low else Ch 8 Switch On Off 1 bit C R T 1 bit DPT_Switch Low Ei Ch 1 Brightness control Increase Decrease 4 bit E R T 3bit controlled DPT_Control_Dimming Low ER Ch 2 Brightness control Increase Decrease 4 bit C R T 3bitcontrolled DPT_Control_Dimming Low ai 13 Ch 3 Brightness control Increase Decrease 4 bit C R T 3bit controlled DPT_Control_Dimming Low aa 19 Ch 4 Brightness control Increase Decrease 4 bit E R T 3bitcontrolled DPT_Control_Dimming Low adas Ch 5 Brightness control Increase Decrease 4 bit C B T 3bitcontrolled DPT_Control_Dimm
21. g to the command received from the RF control devices associated to the general channel x If the shutter is moving this command will stop the Up Down movement of the shutter the shutter must be at a standstill in order to control the louvres The enabled flags are C communication R read by bus and T transmission The standard format of the object is 1 007 DPT_Step so the size of the object is 1 bit and the command it sends is open close control or stop movement 15 Es SS 8 Sensors alarm function This function allows you to enable the general channel x to manage the alarms triggered by the Chorus RF family sensors The diagram Diag 8 1 below shows the parameters that define the behaviour of the individual channels the parameters relative to the Block enabling and Battery alarm object enabling functions were already illustrated in the General Section 1 1 1 RF receiver 8 ch white channel Channel 1 Channel 2 Channel 3 Channel 4 Matched function sensors alarm Channel 5 Channel 6 Alarm behaviour direct Channel 7 Channel 8 Cyclic sending time min 1 0 Sending conditions any value Block enabling disabled Battery alarm object enabling disabled Diag 8 1 8 1 Parameters gt 8 1 1 Alarm behaviour This allows you to set the logic value for the telegrams that identify an alarm status the settings are e direct This assigns a 1 logic value for an alarm activated
22. i Ga ais aro ala Gs Name Ch 1 amp switch Ch 2 A switch Ch 3 amp switch Ch 4 A switch Ch 1 B switch Ch 2 B switch Ch 3 B switch Ch 4 B switch Ch 1 C switch Ch 2 C switch Ch 3 C switch Ch 4 C switch Ch 1 D switch Ch 2 D switch Ch 3 D switch Ch 4 D switch Object Function On off On off On off On Off On off On off On off On Off On off On off On off On Off On off On off On off On off Length 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit s C E E E C E C g C a pa Diag 10 2 DIDIDIDDDDIDDODOD DO y Ww eee U DataType 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch C herus gt Ne ee Priority Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Low Using these communication objects the device sends telegrams to the bus after receiving sequence action 1 or action 2 activation command from the RF control devices associated to the general channel Xx Each channel is associated to its own independent communication objects The enabled flags are C communication R read by bus and T transmission
23. ing function This function allows you to enable the general channel x to send on off commands to the actuators that control the loads Diag 4 1 shows the channel x menu with the switching matched function where you will notice the other configuration items that refer to the same function are not visible the parameters relative to the Block enabling and Battery alarm object enabling options were already illustrated in the general section 1 1 1 RF receiver 8 ch white Chane Channel 1 Channel 2 Channel 3 SF Channel 4 Matched function switching Channel 5 Channel 6 Block enabling disabled Channel 7 Channel 8 Battery alarm object enabling disabled Diag 4 1 4 1 Parameters There are no parameters to be configured for the following function 4 2 Communication objects The communication objects enabled by the switching function are those seen in Diag 4 2 Number ado ade E12 Eis E24 zs Ejaz E36 gt 4 2 1 Ch x Switch Name Ch 1 Switch Ch 2 Switch Ch 3 Switch Ch 4 Switch Ch 5 Switch Ch 6 Switch Ch 7 Switch Ch 8 Switch Object Function On Off On Off On Off On Off On Off On Off On Off On Off Length 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit 1 bit C Cc C Cc E Cc C E Cc DIDIDOIDAO a wW AAA AA AAA u Data Type 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_Switch 1 bit DPT_
24. ing Low Giza Ch 6 Brightness control Increase Decrease 4 bit E R T 3 bit controlled DPT_Control_Dimming Low Ulsa Ch Brightness control Increase Decrease 4 bit GC Re T 3bitcontrolled DPT_Control_Dimming Low 37 Ch 8 Brightness control Increase Decrease 4 bit C R T 3bit controlled DPT_Control_Dimming Low Diag 6 2 gt 6 2 1 Ch x Switch Using these communication objects the device sends ON OFF commands to the bus according to the command received from the RF control devices associated to the general channel x The enabled flags are C communication R read by bus and T transmission The standard format of the object is 1 001 DPT_Switch so the size of the object is 1 bit and the command it sends is On Off gt 6 2 2 Ch x Brightness control Using these communication objects the device sends brightness increase decrease commands to the bus according to the command received from the RF control devices associated to the general channel X The coding of this type of command allows you to differentiate between increase and decrease and also the percentage value of the same variation in this specific case according to the RF control received increase to 100 decrease to 0 of the brightness value commands and stop control commands are sent This allows for a faster or slower dimmer action according to the manufacturing features on the controlled device The enabled flags are C communication R read by bus and T
25. lue of these settings the Channel x menu will behave differently The settings are e no function No function is matched to the general channel x consequently it can not be used e switching See Chapter 4 switching function e priority command See Chapter 5 priority command function e dimmer See Chapter 6 dimmer function e shutter See Chapter 7 shutter function RED e sensors alarms See Chapter 8 sensors alarms function e scene See Chapter 9 scene function e commands sequence See Chapter 10 commands sequence function e 68 16 bit value sending See chapter 17 8 16 bit value sending function gt 3 1 2 Block enabling This allows you to enable the possibility to block the individual channels on the device that is it prevents the sending of any commands associated to the changes in the contact status the settings are e disabled The block function is not enabled and consequently the Block activation value and Block object start value options are not visible e enabled The block function is enabled by the Ch x Block communication object and it is possible to activate it using a bus command when it is enabled no changes in the status will be interpreted until the block cancellation command is received gt 3 1 3 Block activation value This is used to set what logic value is used to activate the block function the settings are e 0 value Whe
26. n the device receives a telegram from the bus with a 0 logic value it activates the block function When the device receives a telegram with a 1 logic value it disables the block function if it was already disabled the command is ignored e 1 value When the device receives a telegram from the bus with a 1 logic value it activates the block function When the device receives a telegram with a 0 logic value it disables the block function if it was already disabled the command is ignored gt 3 1 4 Block object start value This is used to set what logic value the Ch x Block communication object must assume each time the bus power is reinstated the settings are e 0 value Each time the bus power is reinstated 29 Volt SELV the device on completing the initialisation phase sets the logic value on the Ch x Block communication object to 0 if this is also the block activation value once the bus power is reinstated the device is blocked if the block activation value is 1 the device will be unblocked and will behave normally e 1 value Each time the bus power is reinstated 29 Volt SELV the device on completing the initialisation phase sets the logic value on the Ch x Block communication object to 1 if this is also the block activation value once the bus power is reinstated the device is blocked if the block activation value is 0 the device will be
27. o configure the RF Receiver with RF control devices 2 1 Limits to the associations The maximum number of logical associations that the device is able to memorize is 100 this means that the maximum number of logical connections between communication objects and group addresses is 100 The maximum number of group addresses that the device is able to memorize is 100 this means that it is possible to associate the communication objects to a maximum of 100 group addresses REED 3 Channel x menu This chapter describes the parameters and the communication objects relative to all 8 channels hereinafter referred to generally as channel x as seen in Diag 3 1 The value set for the first option Matched function determines the structure of the entire menu except for the Block enabling option and consequently the other Block activation value and Block object start value options visible if the block is activated and the Battery alarm object enabling options that are always displayed 1 1 1 RF receiver 8 ch white Channel 1 Channel 2 Channel 3 Channel 4 Matched function no function Channel 5 7 Channel 6 Block enabling enabled Channel 7 Channel 8 Block activation value 141 value Block object start value 0 value Battery alarm object enabling disabled a Diag 3 1 3 1 Parameters gt 3 1 1 Matched function This determines the function matched to the general channel x according to the va
28. on 1 0 Object value action 2 0 Block enabling disabled Battery alarm object enabling disabled E rE Diag 11 1 11 1 Parameters gt 11 1 1 Sending object format Here you can configure the code format of the bus telegrams which will be sent by the device through the communication objects associated to the general channel x by changing the values for the Object value action 1 and Object value action 2 options The settings are e 1 byte unsigned 0 255 The command format that the device will send following a change in the contact status is a 1 byte binary code the value sent will therefore range from 0 to 255 e 1 byte perc value 0 100 The command format that the device will send following a change in the contact status is a 1 percentage value byte so the value will range from 0 to 100 which according to the use could be for instance the brightness percentage value for a dimmer or the percentage position of a shutter e 2 byte unsigned 0 65535 The command format that the device will send following a change in the contact status is a 2 byte binary code the value sent will therefore range from 0 to 65535 24 RED e 2 byte floating point The command format that the device will send following a change in the contact status is a 2 byte floating point code the value sent will therefore range from 100 to 100 gt 11 1 2 Object value action 1 Here you can set the command or value to be
29. t being used If the format of the object to be sent is 1 bit the values to be configured are e 0 When a sequence action 1 activation command is received the device will send a telegram to the bus with a 0 logic value through the communication object associated to the general Y sequence command e 1 When a sequence action 1 activation command is received the device will send a telegram to the bus with a 1 logic value through the communication object associated to the general Y sequence command If the value is set to 1 byte unsigned 0 255 the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 0 to 255 Ifthe value is set to 1 byte perc value 0 100 the options in the menu are not listed but you can select the value using Up arrow and Down arrow keys or simply type in the value from 0 to 100 with steps of 5 gt 10 1 4 Y command object value action 2 The same applies as indicated in the previous paragraph but in relation to action 2 please refer to 10 1 3 for further details 10 2 Communication objects According to the settings under the Sending object format option the following communication objects are visible 21 gt 10 2 1 Ch x Y switch If the command object Y format is 1 bit the objects visible are those seen in Diag 10 2 Number Geo ode Eiz Eis ad
30. transmission The standard format of the object is 3 007 DPT_Control_Dimming so the size of the object is 4 bit and the command it sends is increase decrease by the set percentage value 13 RED 7 Shutter function This function allows you to enable the general channel x to control a shutter blind with regards to UP DOWN movements and louvres step control Diag 7 1 shows the channel x menu with the shutter matched function where you will notice the other configuration items that refer to the same function are not visible the parameters relative to the Block enabling and Battery alarm object enabling options were already illustrated in the general section 1 1 1 RF receiver 8 ch white Chane Channel 1 Channel 2 Channel 3 M Channel 4 Matched function shutter Channel 5 3 Channel 6 Block enabling disabled Channel 7 Channel 8 Battery alarm object enabling disabled Diag 7 1 7 1 Parameters There are no parameters to be configured for this function 14 RED 7 2 Communication objects The communication objects enabled by the shutter function are those seen in Diag 7 2 Number Name Object Function Length Cc R W T U Data Type Priority ado Ch 1 Shutter movement Up Down 1 bit C R T 1 bit DPT_UpDown Low ade Ch 2 Shutter movement Up Down 1 bit C R T 1bitDPT_UpDown Low Eiz Ch 3 Shutter movement Up Down 1 bit c R T 1bitDPT_UpDown Low Geis Ch 4 Shutter movement Up Down
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