theben 4-/8-/12-Channel Switch Module Switch Actuator Modular with Basic Device RMG 4 - EIB and Additional Device RME 4 EIB

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1 4-/8-/12-Channel Switch Module Switch Actuator Modular with Basic Device RMG 4 - EIB and Additional Device RME 4 EIB page 1 of 45

2 Table of Content Operational Characteristics Technische Daten Application program for the switch actuator modular with basic device RMG 4 and additional device RME Selection in the product data base Application 12x Click-Clack with 2x Tick-Tack Application 8x Heating V Application 12x Click-Clack Application 4x Logic and Reply Application Switching, sparkling, forced control Application 8 Scenes and Reply Application Staircase Lighting with Reply and Pre-Warning" Operational Characteristics RMG 4 is a 4-channel switch actuator with integrated Bus coupler for series installation. The switching capacity of the potential-free contacts amounts to 16(10) A/250 V. Different phases can be switched with the channels. For manual operation, a rotary switch is available for each channel, with which, independently of the Bus voltage, you can switch in the positions IN, OUT, Bus operation. The RMG 4 is provided with a lateral interface over which a RME 4 can be connected. With a RME 4 further 4 channels with same switching capacity and same operating possibility can be switched. It possesses however no own control processor and can only be operated in connection with a RMG 4. The RME 4 is provided with a lateral interface, over which a further RME 4 can be attached. The max. construction step is 1 RMG 4 with 2 RME 4. The devices need separate 230 V voltage supply. By different application programs (see chapter 3) the RMG4 / RME 4 can be used for different applications. page 2 of 45

3 2 Technical Data supply from the net voltage: power consumption: supply from the Bus voltage: power consumption: connection: 230 VAC (+/-10%), 50 Hz 8,5 VA 24 V DC (+6V / -3V) typ. 150 mw Bus binders output Number: 4 Type of contact: Closing contact, potential free Contact opening: <= 3 mm Electric switching games: > 1,5 x 10 5 nominal voltage: 230 V AC, 50 bis 60 Hz (L1, L2 or L3) nominal current: 16 A (250 V AC, cos ϕ = 1) 10 A (250 V AC, cos ϕ = 0,6) switching of different phases possible switching of SELV: not allowed switching (breaking) capacity Ohmich load 3680 W incandescent lamp 2300 W HV-halogen lamp 2300 W fluorescent lamp not compensated: 26 x 40W, 20 x 58W, 10 x 100W fluorescent lamp parallely compensated: 10 x 40W (4,7μF), 6 x 58W (7,0μF), 2 x 100W (18μF) fluorescent lamp DUO-switching KVG: 10 x (2 x 58 W), 5 x (2 x 100W) engergy saving fluorescent lamp: - with EVG QTEC 1 x 58 (Osram) 12 x 58 W - with EVG QTEC 1 x 36 (Osram) 9 x 36 W - with EVG QTEC 2 x 58 (Osram) 7 x (2 x 58W) - with EVG QTEC 2 x 36 (Osram) 5 x (2 x 36W) - with EVG HF x 58 (Osram) 7 x 58 W - with EVG HF x 36 (Osram) 13 x 36 W - with EVG HF x 58 (Osram) 4 x (2 x 58W) - with EVG HF x 36 (Osram) 9 x (2 x 36W) energy saving compact fluorescent lamps: - Typ Opal (KVG) (Osram) 2300 W - type Dulux EL (EVG) (Osram) x 7W, 7 x 11W, 7 x 15W, 7 x 20W, 7 x 23W - type PLCE (EVG) (Philips) 14 x 9W, 13 x 11W, 7 x 23W mercury vapour lamps - not compensated 6 x 125 W, 3 x 250W - parallely compenated 4 x 70W (12μF), 4 x 150W (12μF), ), 1 x 250W (30μF) sodium vapour lamp - not compensated 3 x 250W, 1 x 500W - parallely compensated 2 x 150W (20μF), 1 x 250W (37μF page 3 of 45

4 protection type: IP 20 protection class: II ambiant temperature: -5 C to +45 C operational elements: hand adjusting switch for each switching contact - pos. 0 corresponds to Permanent OFF - pos. I corresponds to Permanent ON - pos Bus corresponds to control via Bus - permanent switchings can also be effected during a loss of the Bus voltage. programming key display elements: - red LED to control the Bus voltage and input of the phys. address - green LED for switching condition display behaviour at voltage loss only net voltage: only Bus voltage: Bus and net voltage: behaviour at voltage return only net voltage: only Bus voltage: Bus and net voltage: measurements: width of housing: fixing type: relay contacts fall back in position of rest relay contacts fall back in posititon of rest relay contacts fall back in posititon of rest Relay contacts get the switching condition which is active in the Bus coupler. Relay contacts stay in position of rest. Relay contacts stay in position of rest. 45 x 72 x 60 mm (HxBxT) 4 TE snapping to top hat rail page 4 of 45

5 3 Application program for the switch actuator modular with basic device RMG 4 and additional device RME 4 The following application programs are available: Application 12x click-clack with 2x tick-tack (23 group addresses, 23 associations) 8x heating (11 group addresses, associations) 12x click-clack with 2x tick-tack (40 group addresses, 41 associations) 4x logic and reply (19 group addresses, 21 associations) switching, sparkling, forced control (25 group addresses, 25 associations) 8 scenes and reply (18 group addresses, 19 associations) staircase lighting with reply and pre-warning (16 group addresses, 16 associations) Function channel 1 and 2 - ON/OFF switching delay - impulse function channel 3 to 12 - opener/ shutter For individual room control from up to 8 rooms - summer function - valve protection function - monitoring of the ambient temperature controller Switching - each channel as opener / shutter Logic linkages from up to 8 input objects - AND - OR - NAND - AND1 or AND2 Normal switching with object for central functions - permanent ON - permanent OFF - sparkling 8 scenes for max. 8 channels with relay setting - ON - OFF - not changed - reply of the relay condition via object is possible - further object to head for an external actuator is selectable K1: intelligent staircase lighting machine with - cut-out early warning - reply - permanent ON function - blocking of the operation via object is possible - switching between 2 impulse times via Bus is possible - impulse time via object can be added and resetted K2 to K4 normal switching channels page 5 of 45

6 3.1 Selection in the product data base Manufacturer THEBEN-WERK ZEITAUTOMATIK Product family: output Product type: binary output, modular Product name: RM 4 Download the application from: Application 12x Click-Clack with 2x Tick-Tack Functional Characteristics on channel 1 and 2 of the RM4 G an impulse function or an ON/OFF switching delay can be parameterized alternatively on channel 3 and 4 of the RM4 G the contact type (opener/shutter) can be selected for the channels of the additional modules RM4 E the contact type (opener/shutter) can be selected Usage example: In a house a low-priced EIB system is to be installed. The functions staircase lighting machine, delayed toilet ventilator controller, peripheral and central switching on of the entire housing lighting on are to be implemented: Solution: On channel 1 of the RMG 4 an impulse function is selected, thus the staircase lighting is switched. On channel 2 an ON/OFF switching delay is selected and the toilet ventilator controller is implemented. The remaining channels are used for the lighting control. In order to realize the central switching a common group address is assigned to the individual group adresses of each channel, i.e. channel 1, 3, 4 of the RMG 4 and all channels of the RME 4 with which a switch can turn on the whole lighting. page 6 of 45

7 Communication Objects There are 3 objects for each channel No. Object name Function Type Behaviour 0 RM4 G Channel 1 Switch 1 Bit Receive 1 RM4 G Channel 2 Switch 1 Bit Receive 2 RM4 G Channel 3 Switch 1 Bit Receive 3 RM4 G Channel 4 Switch 1 Bit Receive 4 1.RM4 E Channel 1 Switch 1 Bit Receive 5 1.RM4 E Channel 2 Switch 1 Bit Receive 6 1.RM4 E Channel 3 Switch 1 Bit Receive 7 1.RM4 E Channel 4 Switch 1 Bit Receive 8 2.RM4 E Channel 1 Switch 1 Bit Receive 9 2.RM4 E Channel 2 Switch 1 Bit Receive 10 2.RM4 E Channel 3 Switch 1 Bit Receive 11 2.RM4 E Channel 4 Switch 1 Bit Receive Max. group adresses: 23 Max. classification: 23 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. However, at least 12 group addresses are always reserved, max. 34 allocations with 12 group addresses can be assigned. Objects RMG 4 Channel 1..2 Depending on parameter of RMG 4 channel 1 can be delayed with a "1" or switched on without delay or an impulse can be started. With "0" you can switch off with or without delay or stop an impulse. After recuperation of the Bus voltage the relays of these channels are opened. Objekte RMG 4 Channel 3..4, 1. RME 4 channel 1..4 and 2. RME 4 channel 1..4 Depending on parameter "type of contact" of the appropriate channel you can switch on (shutter) or off (opener) without a delay by "1". By "0" you can switch off (shutter) or on (opener) without a delay. After recuperation of the Bus voltage all shutters are opened and all openers closed. page 7 of 45

8 Logical Scheme page 8 of 45

9 Parameter Parameter on page General Which devices are used? only RM G 4 (4 channels) There are 4 channels available. RM G 4 and 1 RM E 4 (8 channels) RM G 4 and 2 RM E 4 (12 channels) There are 8 channels available. There are 12 channels available. Parameter on the page RM G channel 1 and RM G channel 2 Time function desired? no, no time function only ON/OFF switching Which time function is desired? yes, with time function impulse function ON/OFF delay impulse or switch with delay switch impulse switch ON/OFF with delay Impulse function Time base appr. 130 ms appr. 2,1 sec appr. 33 sec Time base for the time function impulse Factor for impulse time ( ) Factor only for time function impulse (impulse time = base * factor) ON/OFF delay Time base appr. 130 ms appr. 2,1 sec Time base for the ON/OFF delay appr. 33 sec Factor for ON delay ( ) Factor only for time function ON delay (delay time = base * factor) Factor for OFF delay ( ) Factor only for time function OFF delay (delay time = base * factor) page 9 of 45

10 Parameter on the page RM G channel 3 and 4 contact of channel 3 Shutter Contact works as shutter. contact of channel 4 Opener Shutter Opener Contact works as opener. Contact works as shutter. Contact works as opener. Parameter on the page 1.RM E and 2.RM E contact of channel 1 Shutter Contact works as shutter. Opener Contact works as opener. contact of channel 2 Shutter Contact works as shutter. Opener Contact works as opener. contact of channel 3 Shutter Contact works as shutter. Opener Contact works as opener. contact of channel 4 Shutter Contact works as shutter. Opener Contact works as opener. page 10 of 45

11 3.3 Application 8x Heating V1.0 (The old application 8x heating cannot be used anymore) Functional Characteristics for max. 8 temperature zones The regulation is made by thermal control drives, which are connected with the relays of the RM4. An object is assigned to each relay.these objects can be monitored, so that in case of failure of the appropriate temperature sensor an emergency program (50% ON/OFF) can run. Over the "summer object" the regulation can be deactivated and a valve protective function can alternatively be executed. Usage possibility: In a single family house with lodger flat an individual room regulation is to be installed in 8 rooms. Appartment 1 is heated with a radiator heating. The living room, dining-room, children's room and bedroom are only heated in winter. In summer a valve protective function shall take place in order to prevent a blocking of the valves in these rooms. In the bathroom the heating shall also be activated in summer. In case of failure of a sensor, a warning telegram shall take place and the heating shall be reduced to 50% ON duration. In the lodger flat, which is electrically heated, only living room, dining-room and bedroom are heated. This takes place only in the winter. Since during the electric heating no valves must be moved, a valve protective function is not necessary. In case of failure of a sensor, a warning telegram shall take place and the heating shall be reduced to 50% ON duration. Parametering: Living room, bedroom, children's room and dining-room in appartment 1 are parameterized as follows: Sense of effect of the connected valve Controlling of the ambient thermostat Using in summer function? valve protection in summer function connected without power activated yes activated page 11 of 45

12 The bathroom in appartment 1 is parameterized as follows: Sense of effect of the connected valve Controlling of the ambient thermostat Using in summer function? connected without power activated no The rooms in the lodger flat are parameterized as follows: Sense of effect of the connected valve Controlling of the ambient thermostat Using in summer function? valve protection in summer function connected without power (same as shutter) activated yes not activated Communication Objects No. Object name Function Type Behaviour 0 RM4 G Channel 1 Heating 1 Bit Receive 1 RM4 G Channel 2 Heating 1 Bit Receive 2 RM4 G Channel 3 Heating 1 Bit Receive 3 RM4 G Channel 4 Heating 1 Bit Receive 4 RM4 E Channel 1 Heating 1 Bit Receive 5 RM4 E Channel 2 Heating 1 Bit Receive 6 RM4 E Channel 3 Heating 1 Bit Receive 7 RM4 E Channel 4 Heating 1 Bit Receive 8 emergency indicating 1 Byte sensor failure on program K4 K3 K2 K1 RME 9 summer function ON/OFF 1 Bit Receive K4 K3 K2 K1 RMG Max. group adresses: 11 Max. classifications: 11 The charts for the group addresses and allocations are dynamically structured, i.e. if a group address is used less, one allocation more can be used. page 12 of 45

13 Object RMG 4 Channel 1..4 Heating and RME 4 Channel 1-4 Heating These objects are connected with an ambient temperature controller. If a "1" is transmitted on one of these objects, the appropriate channel switches on or off depending on how the parameter "sense of effect of the valve" was selected. The connected ambient temperature controller can be monitored by these objects. In addition the ambient temperature controller must transmit cyclically the adjusting variable, whereby the time of cyclic transmitting should have the half length of the monitoring time. If, during a monitoring time no telegram is received on one of these objects, then an emergency program can be started on the appropriate channel and a telegram can be transmitted on the Bus e.g. to an alarm center. After recuperation of the Bus voltage all valves are closed. Object "Emergency Program" It serves for the message e.g. to an alarm center whether, due to the failure of an ambient temperature controller, an emergency program was started. Thereby the following format is applied: 1= RME 4 channel 4 in the emergency program Bit 7 (MSB) 1= RME 4 channel 3 in the emergency program 1= RME 4 channel 2 in the emergency program 1= RME 4 channel 1 in the emergency program 1= RMG 4 channel 4 in the emergency program 1= RMG 4 channel 3 in the emergency program 1= RMG 4 channel 2 in the emergency program 1= RMG 4 channel 1 in the emergency program Bit 6 Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 (MSB) After recuperation of the Bus voltage the value 0 is in the object, i.e. no channel is in the emergency program. Object "Summer Function" If this object is set to "1", the valves are closed by the parameter "to use in summer function" and the valve protection is activated by the parameter "to use in valve protection". This object is in EEPROM, i.e. it should be rarely described, as only writing cycles are guaranteed, cyclic transmitting on this object is forbidden. The value of this object is unchanged available when returning to the Bus voltage after Bus voltage failure. page 13 of 45

14 Logical Scheme page 14 of 45

15 Parameter Parameter on the page number of channel Which devices are used? only RM4 G (4 channels) There are 4 channels available. RM4 G and 1 RM4 E (8 channels) There are 8 channels available. Parameter on the page RM4 G Channel 1, RM4 G Channel 2, RM4 G Channel 3, 4 E Channel 3 and RM4 E Channel 4 Sense of effect of the connected valve Controlling of the ambient thermostat Using in summer function? connected without power opened without power activated not activated yes no The valve is opened in the condition "without power", i.e. if a "1" is sent on the object "heating" the valve is opened the heating radiator is getting warm. The valve is opened in the condition "without power", i.e. if a "0" is sent on the object "heating" the valve is opened the heating radiator is getting warm. The ambient thermostat is controlled, i.e. during the control time it must send at least 1 telegram on the object "heating". If this is not effected, the emergency program is started. The time of the cyclic sending of the ambient temperature must be max. half long as the control time. The ambient thermostat is not controlled. It is used in summer function i.e. the valve is closed when the summer object is set. It is not used in summer function, i.e. the valve is controlled indepently of the condition of the summer object via the object "heating". page 15 of 45

16 Using in summer function? Yes Valve protection in summer activated function not activated Summer function with valve protection. Valve protection means short opening of the valve in order to avoid a blocking of the valves during long downtime. summer function without valve protection Parameter on the page Valve Protection valve protection: proceed all appr. 24 h Valve protection is effected every 24 hours. time of valve protection appr. 1 min appr. 2 min appr. 3 min appr. 5 min appr. 9 min Parameter on the page surveillance/control to start the emergency program at telegram failure to switch over the channels in the emergency program: all After the control time has run down: shall sensor failure be indicated? appr. 15 min appr. 30 min appr. 45 min appr. 60 min appr. 90 min appr. 120 min appr. 10 min appr. 20 min appr. 30 min appr. 60 min do not indicate only indicate when at least one sensor failed do always indicate How long shall the valve protection be? During telegram failure the emergency program starts automatically according to the set time. This corresponds to the control time of the heating object. In the emergency program the channels are switched over automatically according to the set time: e.g.10 min 10 min ON/ 10 min OFF A sensor failure is not indicated, i.e. the object "idicate emergency program" does not send. The object "emergency program" sends a value when at least one sensor failed. The object "emergency program" always sends after the control time has run down. page 16 of 45

17 3.4 Application 12x Click-Clack Functional Characteristics Each channel can be switched as opener or shutter. Communication Objects There are 3 objects for each channel. No. Object name Function Type Behaviour 0 RM4 G Channel 1 Switch 1 Bit Receive 1 RM4 G Channel 2 Switch 1 Bit Receive 2 RM4 G Channel 3 Switch 1 Bit Receive 3 RM4 G Channel 4 Switch 1 Bit Receive 4 1.RM4 E Channel 1 Switch 1 Bit Receive 5 1.RM4 E Channel 2 Switch 1 Bit Receive 6 1.RM4 E Channel 3 Switch 1 Bit Receive 7 1.RM4 E Channel 4 Switch 1 Bit Receive 8 2.RM4 E Channel 1 Switch 1 Bit Receive 9 2.RM4 E Channel 2 Switch 1 Bit Receive 10 2.RM4 E Channel 3 Switch 1 Bit Receive 11 2.RM4 E Channel 4 Switch 1 Bit Receive Max. group addresses: 40 Max classifications: 41 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. Objects "RMG 4 Channel 1..4", "1.RM4 E Channel 1..4" and "2.RM4 E Channel 1..4" Depending on parameter "contact type" of the appropriate channel, you can switch on (shutter) without delay or off (opener) by "1". With "0" you can switch off (shutter) or on (opener) without delay. After recuperation of the Bus voltage all shutters are opened and all openers are closed. page 17 of 45

18 Logical Scheme page 18 of 45

19 Parameter Parameter on the page General Which devices are used? only RM G 4 (4 channels) There are 4 channels available. RM G 4 and 1 RM E 4 (8 channels) There are 8 channels available. RM G 4 and 2 RM E 4 (12 There are 12 channels available. channels) Parameter on the page RM G, 1.RM E and 2.RM E Contact of channel 1 Shutter Contact works as shutter Contact of channel 2 Contact of channel 3 Contact of channel 4 Opener Shutter Opener Shutter Opener Shutter Opener Contact works as opener Contact works as shutter Contact works as opener Contact works as shutter Contact works as opener Contact works as shutter Contact works as opener page 19 of 45

20 3.5 Application 4x Logic and Reply Functional Characteristics Channel 1-4 can be switched with up to 8 inputs due to a logical linkage (OR, AND, NAND, AND1 OR AND2). The relay position is indicated, if modified, on the Bus. Communication Objects There are 3 objects for each channel. Nr. Objektname Funktion Typ Verhalten 0 Reply C1 1 Bit Send 1 Reply C2 1 Bit Send 2 Reply C3 1 Bit Send 3 Reply C4 1 Bit Send 4 Input C1 1 Bit Receive 5 Input C2 1 Bit Receive 6 Input C3 1 Bit Receive 7 Input C4 1 Bit Receive 8 Logical input C1 1 Bit Receive 9 Logical input C2 1 Bit Receive 10 Logical input C3 1 Bit Receive 11 Logical input C4 1 Bit Receive Max. group addresses: 19 Max. classifications: 20 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. Object Reply C1..4 This object indicates the position of the appropriate channel, 1 = closed, 0 = opened. Any manual permanent circuits are, however, not considered. After recuperation of the Bus voltage, it is only sent when the status is "1". After that it is always indicated when the status changes. page 20 of 45

21 Object Input C1..4 These objects serve, if no linkage is selected, directly for the switching of the appropriate channel (1 = in, 0 = out). If a linkage is selected "only with the appropriate logic input", then this object is one of the two input sizes for the linkage on the appropriate channel. If a "free linkage" is chosen, then the object can be an input size for a linkage for each of the 4 channels. After recuperation of the Bus voltage, a "0" is in this object. Object Logic Input L1..4 If a linkage is selected "only with the appropriate logic input", then this object is one of the two input sizes for the linkage on the appropriate channel. If a "free linkage" is selected, then the object can be an input size for a linkage for each of the 4 channels. After recuperation of the Bus voltage, a "0" is in this object. page 21 of 45

22 Logical Scheme page 22 of 45

23 page 23 of 45

24 page 24 of 45

25 Parameter Parameter on the page General Linkage for channel 1 no linkage OR- linkage NAND- linkage AND- linkage (AND 1) OR (AND 2) Selection of the linkage type of the input objects Max. allowed telegram number in 17 sec In order to limit the replytelegrams as protection against permanent SEND when parameterization was wrong. Parameter on the page Channel 1, Channel 2, Channel 3 and Channel 4 Which type of linkage? only with appropriate logic input Linkage only with appropriate logic object e.g. channel 1: linkage between C1 and L1 free linkage A linkage of all objects C1,C2,C3, C4 and L1, L2, L3,L4 can be effected. Parameter on the page Channel 1 Inputs C1-C4, Channel 2 Inputs C1-C4, Channel 3 Inputs C1-C4, Channel 4 Inputs C1-C4 only when parameter free linkage To use input C1? yes no Selection which input object for the chosen linkage railing is used. Shall the input C1 be used as negation? To use input C2? Shall the input C2 be used as negation? To use input C3? Shall the input C3 be used as negation? To use input C4? yes no yes no yes no yes no yes no yes no Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. page 25 of 45

26 Shall the input C4 be used as negation? yes no Selection which input object for the chosen linkage railing shall be used as negation. Parameter on the page Channel 1 Inputs L1-L4, Channel 2 Inputs L1-L4, Channel 3 Inputs L1-L4, Channel 4 Inputs L1-L4 only when parameter free linkage To use input L1? Shall the input L1 be used as negation? To use input L2? Shall the input L2 be used as negation? To use input L3? Shall the input L3 be used as negation? To use input L4? Shall the input L4 be used as negation? yes no yes no yes no yes no yes no yes no yes no yes no Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. Selection which input object for the chosen linkage railing is used. Selection which input object for the chosen linkage railing shall be used as negation. page 26 of 45

27 3.6 Application Switching, sparkling, forced control Functional Characteristics For each of the 8 relays a switching object is available Over a common permanent OFF/ON-object all relays can be switched off, whereby permanent ON is applied before permanent OFF. The sparkle object serves for visualizing alarms or other events. When setting this object a sparkling of the relays is executed for a limited time, duration and frequency are adjustable. Communication Objects There are 2 objects and 3 common objects for each channel. No. Object name Function Type Behaviour 0 RM4 G Channel 1 Switch 1 Bit Receive 1 RM4 G Channel 2 Switch 1 Bit Receive 2 RM4 G Channel 3 Switch 1 Bit Receive 3 RM4 G Channel 4 Switch 1 Bit Receive 4 RM4 E Channel 1 Switch 1 Bit Receive 5 RM4 E Channel 2 Switch 1 Bit Receive 6 RM4 E Channel 3 Switch 1 Bit Receive 7 RM4 E Channel 4 Switch 1 Bit Receive 8 Permanent ON Permanent Switch 1 Bit Receive 9 Permanent OFF Permanent Switch 1 Bit Receive 10 Sparkle Time limited sparkling 1 Bit Receive Max. group addresses: 25 Max. classification: 25 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. Object RM4 G Channel 1..4 et RME 4 Channel 1..4 If a "1" is transmitted on one of these objects, then the appropriate channel switches on. If a "0" is transmitted on one of these objects, then the appropriate channel switches off. The value standing in these objects, after recuperation of the Bus voltage, is selectable as parameter. page 27 of 45

28 Object Permanent OFF If a "1 " is transmitted on this object, then all channels are switched off, which are parameterized accordingly, if they are not switched on via the object "Permanent ON" or "Sparkle". The value of this object is " 0 " after recuperation of the Bus voltage. Object Permanent ON If a "1" is sent on this object, then all channels, which are parameterized, are switched on, if they are not switched off over the object "sparkling". The value of this object is "0" after recuperation of the Bus voltage. Object Sparkle If a "1" is transmitted on this object, then all channels, which are parameterized, are sparkling during an adjustable time with an adjustable sparkle frequency. When the "duration of sparkling" expired and still a "1" is located in this object, then you can select if the appropriate channel shall remain switched on, or if the status of the channel shall be determined by the other objects. If a "1" is sent on this object, a "1" being already located in this object, the sparkling starts again. The value of this object is "0" after recuperation of the Bus voltage. page 28 of 45

29 Logical Scheme page 29 of 45

30 Parameter Parameter on the page General Ho many channels shall be only RM G 4 (4 channels) There are 4 channels available. used? RM G 4 and 1 RM E 4 (8 channels) There are 8 channels available. Parameter on the page Sparkle Behaviour of sparkling Change after 1,5 sec Change after 2 sec Change after 3 sec Change after 5 sec Change after 10 sec Change after 15 sec Change after 20 sec Change after 30 sec Time of sparkling appr.10 sec appr.15 sec appr.20 sec appr.30 sec appr.45 sec appr.1 min appr.2 min appr.5 min appr.1 min half of the period time of the sparkling total duration of sparkling page 30 of 45

31 Parameter on the page RM4 G Channel 1, RM4 G Channel 2, RM4 G Channel 3 and Rm4 G Channel 4, RM4 E Channel 1, RM4 E Channel 2, RM4 E Channel 3 and Rm4 E Channel 4 If Perm OFF is set: no reaction Channel does not react when setting the object "Perm OFF" switch off Channel switches off when setting the object "Perm OFF" If Perm ON is set: no reaction Channel does not react when setting the object "Perm ON" switch on Channel switches on when setting the object "Perm ON" If Sparkling is set: no reaction Channel does not react when setting the object "Sparkling" sparkle Channel switches on when Condition after ending of the sparkling time Condition after Bus failure specified same as with objects switched on switched off switched on setting the object "Sparkling" After ending of the sparkling the relay switches according to the objects "switching or permanent switching" Relay switches on after ending of the sparkle time. Relay switches off after setting on the Bus voltage Relay switches on after setting on the Bus voltage page 31 of 45

32 3.7 Application 8 Scenes and Reply Functional Characteristics Via 4 input objects 8 scenes can be replied. A scene can switch up to 8 relays (ON/OFF/unchanged) The position of the relay is indicated on the Bus. One actuator more can be switched (switching/dimming actuator) or the scene number can be indicated for visualization purposes by another object. Communication Objects For each channel there are 1 object, 1 common object and 4 objects for light scenes. No. Object name Function Type Behaviour 0 Light scene 1 and 2 1 Bit Receive 1 Light scene 3 and 4 1 Bit Receive 2 Light scene 5 and 6 1 Bit Receive 3 Light scene 7 and 8 1 Bit Receive 4 Reply RM4 G Channel 1 1 Bit Send 5 Reply RM4 G Channel 2 1 Bit Send 6 Reply RM4 G Channel 3 1 Bit Send 7 Reply RM4 G Channel 4 1 Bit Send 8 Reply RM4 G E Channel 1 1 Bit Send 9 Reply RM4 G E Channel 2 1 Bit Send 10 Reply RM4 G E Channel 3 1 Bit Send 12 Reply RM4 G E Channel 4 1 Bit Send 11 Control Object 1 1 Byte Send Max. group address: 18 Max. classification: 19 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. Object "Light scene 1 and 2" If a "0" is sent on this object, light scene 1 is called, if a "1" is sent on this object, light scene 2 is called. After recuperation of the Bus voltage the value 0 is standing in this object, however, light scene 1 is not called, all relays are off. Object "Light scene 3 and 4" If a "0" is sent on this object, light scene 3 is called, if a "1" is sent on this object, light scene 4 page 32 of 45

33 is called. After recuperation of the Bus voltage the value 0 is standing in this object, however, light scene 3 is not called, all relays are off. Object "Light scene 5 and 6" If a "0" is sent on this object, light scene 5 is called, if a "1" is sent on this object, light scene 6 is called. After recuperation of the Bus voltage the value 0 is standing in this object, however, light scene 5 is not called, all relays are off. Object "Light scene 7 and 8" If a "0" is sent on this object, light scene 7 is called, if a "1" is sent on this object, light scene 8 is called. After recuperation of the Bus voltage the value 0 is standing in this object, however, light scene 7 is not called, all relays are off. Object "Reply RMG 4 Channel 1..4" and "Reply RME 4 Channel 1..4" These objects check the condition of the appropriate channels back. It is sent when a scene is chosen and for this channel, if parameter"channel x when activating the scene: accept new condition", is selected. If, however, "unchanged" is chosen, then it is not sent. If the same scene is called serveral times, then it is also indicated/checked several times. After recuperation of the Bus voltage 0 is standing in these objects, this value is, however, not sent. Object "Control Object If a RMG 4 and a RME 4 are used, then, in order to select the control object, you have to do it without the reply object of RME 4 channel 4. Three different functions are selectable for the control object: 1. Scene number With the function "scene number" the appropriate scene number (1-8) is sent on the Bus via this object when calling a new scene. If the same scene is called serveral times, then it is sent several times. After recuberation of the Bus voltage a "0" standing in this object, this value however is not transmitted. 2. Value giver With the function "value giver" a value can be set for each scene, which is transmitted on activation of the scene. If only a RMG 4 is used, then it can be adjusted additionally if a value is transmitted at all. After recuperation of the Bus voltage a "0" is standing in this object, this value however is not transmitted. 3. Switching With the function "switching" a status can be adjusted for each scene, which is transmitted on activation of the scene. If only a RMG 4 is used, then it can be adjusted additionally if a condition is transmitted at all. After recuperation of the Bus voltage a "0" is standing in this object, this value however is not transmitted page 33 of 45

34 Logical Scheme page 34 of 45

35 4-/8-/12-Channel Switch Actuator RMG4-EIB / RME 4-EIB page 35 of 45

36 page 36 of 45

37 Parameter Parameter on the page General Which devices are used? only RM G 4 (4 channels) There are 4 channels available. RM G 4 and 1 RM E 4 (8 channels) There are 8 channels available. Function of the object 11 reply Object 11 indicates the condition of RME 4 Kanal 4 control object Object 11 can control other actuators Max. allowed number of telegrams in 17 sec To limitate the reply-telegrams as protection against permanent sending when parameterization went wrong. Parameter on the page Scene 1 RMG 4, Scene 1 RME 4, Scene 2 RMG 4, Szene 2 RME 4, Scene 3 RMG 4, Scene 3 RME 4, Scene 4 RMG 4, Scene 4 RME 4, Scene 5 RMG 4, Scene 5 RME 4, Scene 6 RMG 4, Scene 6 RME 4, Scene 7 RMG 4, Scene 7 RME 4, Scene 8 RMG 4, Scene 8 RME 4 Channel 1 when activating the scene unchanged The relay remains in same condition. accept new condition The relay is switched according to following parameters. Channel 1: new condition ON Relay switches ON. OFF Relay switches OFF. Channel 2 when activating the scene unchanged The relay remains in same condition. accept new condition The relay is switched according to following parameters. Channel 2: new condition ON Relay switches ON. OFF Relay switches OFF. Channel 3 when activating the scene unchanged The relay remains in same condition. accept new condition The relay is switched according to following parameters. Channel 3: new condition ON Relay switches ON. OFF Relay switches OFF. Channel 4 when activating the scene unchanged The relay remains in same condition. accept new condition The relay is switched according to following parameters. Channel 4: new condition ON Relay switches ON. OFF Relay switches OFF. page 37 of 45

38 Parameter auf Seite Control Object Function of the control object switching The control objects becomes a switching object. value giver The control objects becomes a value giver object. to indicate scene number the scene number is indicated Function of the control object Value Giver Value at scene the set value is sent when calling scene 1 Value at scene the set value is sent when calling scene 2 Value at scene the set value is sent when calling scene 3 Value at scene the set value is sent when calling scene 4 Value at scene the set value is sent when calling scene 5 Value at scene the set value is sent when calling scene 6 Value at scene the set value is sent when calling scene 7 Value at scene the set value is sent when calling scene 8 page 38 of 45

39 Function of the control object Switching Telegram at scene 1 ON OFF the set value is sent when calling scene 1 Telegram at scene 2 Telegram at scene 3 Telegram at scene 4 Telegram at scene 5 Telegram at scene 6 Telegram at scene 7 Telegram at scene 8 ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF ON OFF the set value is sent when calling scene 2 the set value is sent when calling scene 3 the set value is sent when calling scene 4 the set value is sent when calling scene 5 the set value is sent when calling scene 6 the set value is sent when calling scene 7 the set value is sent when calling scene 8 page 39 of 45

40 3.8 Application Staircase Lighting with Reply and Pre-Warning" Functional Characteristics On channel 1 an intelligent staircase lighting automat with adding up and resetable input is realized, i.e. by multiple sending of a "1" on the object "Impulse start/end", the impulse time is added up, by sending a "0" the impulse is finished. The staircase lighting maching can be blocked via an object. You can switch over between 2 staircase lighting times another object. Permanent switching and a cut-out early warning function according to DIN are also integrated. The condition of K1 is sent on the Bus. K2-K4 are normal switching channels. Usage Example: In a multi-family house the staircase lighting shall be switched. The staircase lighting time shall be 5 min, a specified cut-out early warning of appr. 30 sec. included. Since during the time between night fall and 8:00 p.m. and 6:00 a.m. and sunrise the staircase is used by many people, the staircase lighting time shall be 15 min. In order to prevent unauthorized switching ON of the staircase lighting during the day by playing children, a switching ON of the staircase lighting shall be possible during the day. In special cases a permanent switching ON of the staircase lighting shall be possible by the caretaker. Solution: Over several tracers in the staircase, which send on the object impulse start/end, the staircase lighting can be switched on. A Luna 130 sends a "1" on channel 1 on the object "extend impulse" during night fall. A TR 644 sends at 8 p.m. a "1" and at 6 a.m. a "0" on the blocking object of the Lu 130. Thus the Lu 130 will send a "0" at 8 p.m. on the object "extend impulse" and if it is not yet bright at 6 a.m. again a "1". The 2. channel of the Lu 130 sends a "1" on the object "block impulse" when achieving 500 lux and when falling below 500 lux a "0". In the caretaker apartment a switch is attached, which can switch the staircase lighting permanently on by a "1" on the object ON. page 40 of 45

41 Communication Objects There are 5 objects for channel 1, for channel 2-4 only one object and 4. No. Object name Function Type Behaviour 0 Reply Channel 1 1 Bit Send 1 Start/End Impulse Channel 1 1 Bit Receive 2 Block Impulse Channel 1 1 Bit Receive 3 Extend Impulse Channel 1 1 Bit Receive 4 Switch ON Channel 1 1 Bit Receive 5 Switch ON Channel 2 Channel 2 1 Bit Receive 6 Switch ON Channel 3 Channel 3 1 Bit Receive 7 Switch ON Channel 4 Channel 4 1 Bit Receive Max. group adresses: 16 Max. classification: 16 The tables for the group addresses and allocations are structured dynamically, i.e. if a group address is less used, one allocation more can be used. Object "Reply K1" This object indicates the status of K1 on the Bus. Transmitted is always, when the status changes. During the cut-out early warning, which takes place via short sparkling of the relay, it is, however, not sent several times; already at the beginning of cut-out early warning an OFF telegram is transmitted. Object "Start/End Impulse" With a "1" on this object you can start an impulse on channel 1. By repeated sending of a "1", the time can be extended in each case by the adjusted length of time until the adjusted maximum limit is achieved e.g. at maximum limit 10: 5 times transmitting a "1" = 5 x adjusted length of time, 15 times transmitting a "1" = 10 x adjusted length of time. With "0" on this object all saved impulses are deleted and channel 1 switches off after ending of the cut-out early warning. Object "Block Impulse" Depending on the sense of effect of the blocking object the start function of the object "start/end impulse" is blocked. During the function "sense of effect" this can be effected by a "1". If the object impulse start/end is blocked, no new impulses can be started. Impulses already stored are however processed. A deletion of the impulse is still possible. Objekt Extend impulse If the object is set to "1", then, with every transmitting of a "1" on the object "impulse start/end", the number of the impulses is not only increased by 1, but by the number adjusted by the parameter "in the long-time mode: 1 key pressing corresponds". page 41 of 45

42 Object Switch ON If the object is set to "1", then channel 1 is switched on. If a "0" is sent on the object, then it is checked whether impulses are still added up. If no impulses are added up anymore, then after ending of the cut-out early warning it is switched OFF.. Object Switch ON K2..K4 If the object is set to "1", then the appropriate channel is switched on. If a "0" is sent on the object, then the appropriate channel is switched off. page 42 of 45

43 Logical Scheme page 43 of 45

44 Parameter Parameter on the pagee Stair case Lighting Time Time base fo the staircase appr. 2,1 sec Time base for the time function lighting time appr. 4,2 sec staircase lighting time appr. 8,4 sec appr. 17 sec appr. 34 sec Factor for staircase lighting time ( ) To add up how many impulsed? in the long-time mode 1 key pressing corresponds: appr. 1,1 min Factor for time function staircase lighting (staircase lighting time = base * factor) only one impulse 3 impulses 5 impulses 10 impulses 20 impulses 50 impulses 100 impulses 250 impulses 2 impulses 3 impulses 4 impulses 5 impulses 10 impulses 20 impulses 30 impulses 60 impulses max. amount of impulses If during the run time of an impulse an ON telegram is sent once more on the object "Impulses", then the the new impulse time is calculated as follows: new impulse time = actual rest impulse time + amount of the ON telegrams * impulse time If the object "extend impulse" is set, then not only 1 impulse, but the chosen amount of the impulses is added up for each received "1" on the object "start/end impulse". Parameter on the page Cut-Out Early Warning How many times pre-warning? no pre-warning 1 time pre-warning 2 time pre-warning 3 time pre-warning Specifies the number of cut-out early warning phases before final switching OFF of the channel. Duration of the first cut-out 10 sec duration of the first preearly warning 20 sec warningp phase 30 sec Duration of the second cut-out 10 sec duration of the second prewarningp early warning 20 sec 30 sec phase Duration of the third cut-out early warning 10 sec 20 sec 30 sec duration of the third prewarningp phase page 44 of 45

45 Parameter on the page Blocking sense of effect of the blocking object (object is on "0" after reset) 1 = block If "1" is on blocking object, then no impulses can be started anymore. 0 = block If "0" is on blocking object, then no impulses can be started anymore. page 45 of 45

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