ABB i-bus KNX JRA/S 6.230.3.1 Product Manual
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ABB i-bus KNX JRA/S 6.230.3.1 Product Manual

ABB i-bus KNX JRA/S 6.230.3.1 Product Manual

Blind/roller shutter actuator with binary inputs
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ABB i-bus
KNX
JRA/S 6.230.3.1
Blind/Roller Shutter Actuator
with Binary Inputs
Product Manual

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Summary of Contents for ABB i-bus KNX JRA/S 6.230.3.1

  • Page 1 ® ABB i-bus JRA/S 6.230.3.1 Blind/Roller Shutter Actuator with Binary Inputs Product Manual...

  • Page 3: Table Of Contents

    ® ABB i-bus Contents Page Contents General ....................3 Using the product manual ......................3 1.1.1 Notes ............................4 Overview of product and functions ....................5 Device technology ................7 Technical data ..........................7 2.1.1 Binary inputs ..........................8 2.1.2 Rated current output 6 A.......................9 Lamp load output 6 A ........................
  • Page 4 ® ABB i-bus Contents Group objects ..........................94 3.4.1 Summary of group objects ......................94 3.4.2 General group objects........................ 98 3.4.3 Input a…l group objects ......................99 3.4.3.1 group objects Switch sensor ....................100 3.4.3.2 Switch/dimming sensor group objects ..................101 3.4.3.3...

  • Page 5: General

    ® ABB i-bus General General The JRA/S 6.230.3.1 Blind/Roller Shutter Actuator with Binary Inputs provides intelligent building engineering technology for a variety of room applications and partitioning requirements, for example in hotel rooms, apartments, schools or public buildings. Modern buildings require intelligent building engineering technology for safe and efficient operation. Many buildings worldwide already use networked electrical installations to their fullest potential.

  • Page 6: Notes

    ® ABB i-bus General 1.1.1 Notes Notes and safety instructions are represented as follows in this manual: Note Tips for usage and operation Examples Application examples, installation examples, programming examples Important These safety instructions are used as soon as there is danger of a malfunction without risk of damage or injury.

  • Page 7: Overview Of Product And Functions

    The Blind/Roller Shutter Actuator is a modular installation device with a module width of 12 units in Pro M design for installation in the distribution board. It connects to the ABB i-bus® via a bus connection terminal at the front. The device can be operated manually, for example during commissioning, by applying an auxiliary voltage to the bus terminals.
  • Page 8 ® ABB i-bus General 6 2CDC506083D0201 | JRA/S 6.230.3.1...

  • Page 9: Device Technology

    ® ABB i-bus Device technology Device technology The Blind/Roller Shutter Actuator with The JRA/S 6.230.3.1 is powered via the ® Binary Inputs is a modular installation ABB i-bus and does not require an (MDRC) device in Pro M design. It is additional auxiliary voltage supply.

  • Page 10: Binary Inputs

    ® ABB i-bus Device technology Temperature range Operation -5 °C…+45 °C Transport -25…+70 °C Storage -25…+55 °C 93 %, no condensation allowed Ambient conditions Maximum air humidity Design Modular installation device (MDRC) Modular installation device, Pro M Dimensions 90 x 216 x 64.5 mm (H x W x D)

  • Page 11: Rated Current Output 6 A

    ® ABB i-bus Device technology 2.1.2 Rated current output 6 A Rated values Number 6 or 12 contacts 250/440 V AC (50/60 Hz) rated voltage rated current (per output) AC3* operation (cos ϕ = 0.45) Switching currents 6 A/230 V To EN 60 947-4-1 AC1* operation (cos ϕ...

  • Page 12: Lamp Load Output 6 A

    Note ETS and the current version of the device application are required for programming. The current version of the application is available for download at www.abb.com/knx. After import into ETS, it is available in ETS under ABB/Blind/Switch. The device does not support the locking function of a KNX device in ETS. Using a BCU code to inhibit access to all the project devices has no effect on this device.

  • Page 13: Connection Diagram

    ® ABB i-bus Device technology Connection diagram JRA/S 6.230.3.1 Label carrier Programming LED Programming button Bus connection terminal Blind/shutter (A, B) Blind/shutter (C, D) Blind/shutter (E, F) Blind/shutter (G, H) Blind/shutter (I, J) Blind/shutter (K, L) Binary inputs (g, h, i, j, k, l) Binary inputs (a, b, c, d, e, f) JRA/S 6.230.3.1 | 2CDC506083D0201 11...

  • Page 14: Dimension Drawing

    ® ABB i-bus Device technology Dimension drawing 12 2CDC506083D0201 | JRA/S 6.230.3.1...

  • Page 15: Mounting And Installation

    Commissioning requirement ® In order to commission the device, a PC with ETS, as well as a connection to the ABB i-bus e.g. via a KNX interface, is required. The device is ready for operation after the bus voltage is applied. No additional auxiliary voltage is required.
  • Page 16 ® ABB i-bus Device technology Supplied state The device is supplied with the physical address 15.15.255. The application is pre-installed. Hence, only group addresses and parameters need to be loaded during commissioning. The complete application can be reloaded if required. Downloads may take longer after a change of application or a discharge.

  • Page 17: Commissioning

    ® ABB i-bus Commissioning Commissioning Supplied state In the supplied state, all outputs are set to Blind mode. All inputs are set to 2-button blind operation mode, with the first input assigned to "up" and the second to "down". Input pairs are always assigned to the output with the same letter (e.g. a, b to A, B) This means that the outputs can be switched as soon as the bus voltage is applied: Closing the contact at input a closes relay A, raising the connected blind.

  • Page 18: Output Functions

    ® ABB i-bus Commissioning 3.2.2 Output functions The following table provides an overview of the functions possible with device outputs and the Shutter Actuator binary input 6f12f application: Output functions Blind/shutter output Switch output A, C, E, G, I, K...

  • Page 19: Parameters

    ® ABB i-bus Commissioning Parameters The ETS Engineering Tool Software is used to parametrize the device. The application is available in ETS under ABB/Blind/Switch. This chapter describes the device parameters using the parameter windows. Parameter windows are structured dynamically so that further parameters are enabled depending on the parametrization and function of the outputs.

  • Page 20: General Parameter Window

    ® ABB i-bus Commissioning 3.3.1 General parameter window The higher-level parameters can be set in this parameter window. 18 2CDC506083D0201 | JRA/S 6.230.3.1...
  • Page 21 ® ABB i-bus Commissioning Sending and switching delay after bus voltage recovery in s [2…255] Options: 2…255 During the sending and switching delay, telegrams are only received. However, the telegrams are not processed and the outputs remain unchanged. No telegrams are sent on the bus.
  • Page 22 ® ABB i-bus Commissioning Send group object "In operation" Options: Send value 0 cyclically Send value 1 cyclically The communication object In operation indicates the presence of the device on the bus. This cyclic telegram can be monitored by an external device. If a telegram is not received, the device may be defective or the bus cable to the transmitting device may be interrupted.

  • Page 23: Output A,B Operation Mode Parameter Window

    ® ABB i-bus Commissioning 3.3.2 Output A,B Operation mode parameter window This parameter window is used to make settings for Output A,B. Note Setting options for outputs A…L are explained below using output A, B. The setting options for outputs A…L are identical.

  • Page 24: Output A,B: Blind Parameter Window

    ® ABB i-bus Commissioning 3.3.2.1 Output A,B: Blind parameter window All settings for Output A,B: Blind are undertaken in this parameter window. It is visible if the Operation mode parameter is set to Blind in the Output A,B Operation mode parameter window, p. 21.
  • Page 25 ® ABB i-bus Commissioning Reaction on bus voltage recovery Options: Unchanged DOWN STOP This parameter defines how the output should react on bus voltage recovery. • Unchanged: Retains the current state. • UP/DOWN/STOP: Sets a fixed relay contact position. Position after reference movement Options: Deactivated;...
  • Page 26 ® ABB i-bus Commissioning Position of slat after arriving at lower end position Options: 100% (deactivated) … After the blind is moved to the end position, the slats are normally closed. This parameter can be used to define the slat position that the Blind/Roller Shutter Actuator sets when the blind reaches the end position.
  • Page 27 ® ABB i-bus Commissioning Enable function Automatic Options: • No: The parameter window remains disabled and invisible. • Yes: The - Automatic parameter window appears. Enabling the Automatic function enables the Automatic parameter window, where further settings can be made.
  • Page 28 ® ABB i-bus Commissioning Feedback via group objects "Move to position/slat" Options: This parameter defines whether the group object Move to position/Adjust slat [0…255] sends a status response. • Yes: The following parameter appears: Send object value Options: No, update only...

  • Page 29: Output A,B: Blind - Drive Parameter Window

    ® ABB i-bus Commissioning 3.3.2.1.1 Output A,B: Blind - Drive parameter window All settings for the blind drive are undertaken in this parameter window. It is visible if the Operation mode parameter is set to Blind in the Output A,B Operation mode parameter window, p. 21.
  • Page 30 ® ABB i-bus Commissioning Outputs are disconnected from voltage after Options: End position, no overrun End position + 2% overrun End position + 5% overrun End position + 10% overrun End position + 20% overrun Total travel time + 10% overrun •...

  • Page 31: Output A,B: Blind - Automatic Parameter Window

    ® ABB i-bus Commissioning 3.3.2.1.2 Output A,B: Blind - Automatic parameter window This parameter window is used to make settings for the Automatic function. It is visible if the Enable function Automatic parameter is set to Yes in the Output A,B: Blind parameter window, p. 22.
  • Page 32 ® ABB i-bus Commissioning • Yes: The following parameter appears: Automatic reactivation of automatic control Options: If automatic control has been deactivated via a telegram to the direct group objects, it can be automatically reactivated after the parametrized time has elapsed. This function is also particularly suitable if no additional button is available for the activation or deactivation of automatic control.
  • Page 33 ® ABB i-bus Commissioning Position for sun = 1 (sun) Options: No reaction DOWN STOP Receive position via 8-bit values This parameter defines the reaction for sun = 1 (sun) in automatic sun protection mode. • No reaction: The current movement is completed.
  • Page 34 ® ABB i-bus Commissioning Position for sun = 0 (no sun) Options: No reaction DOWN STOP Receive position via 8-bit values Defines the reaction for sun = 0 (no sun) in automatic sun protection mode. • No reaction: The current movement is completed.

  • Page 35: Output A,B: Blind - Scene Parameter Window

    ® ABB i-bus Commissioning 3.3.2.1.3 Output A,B: Blind - Scene parameter window All settings for the Scene function are undertaken in this parameter window. It is visible if the Enable function Scene parameter is enabled in Output A,B: Blind parameter window, p. 22.
  • Page 36 ® ABB i-bus Commissioning An example: Scene recall: • Send value 0-63 for the scene (no. 1-64) to the Scene group object. Scene change and save: • Scene no. 24 is assigned to the output with the value move UP.
  • Page 37 ® ABB i-bus Commissioning Set standard values after download or ETS reset Options: • No: The standard values are not applied after a download or ETS reset. • Yes: The standard values are applied after a download or ETS reset.

  • Page 38: Output A,B: Blind - Safety Parameter Window

    ® ABB i-bus Commissioning 3.3.2.1.4 Output A,B: Blind - Safety parameter window All settings for the Safety function are undertaken in this parameter window. It is visible if the Enable function Safety parameter is enabled in Output A,B: Blind parameter window, p. 22.
  • Page 39 ® ABB i-bus Commissioning Cyclic monitoring time in s [0…65,535, 0 = no monitoring] Options: 0…65,535 The parameter defines the intervals at which the safety is monitored. If set to 0, the safety is not monitored. If the Safety A group object does not receive a telegram after the set monitoring time, the safety operation is activated.

  • Page 40: Output A,B: Switch Actuator (Only "Up" Contact) Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2 Output A,B: Switch actuator (only "UP" contact) parameter window All settings for the parameter window A: Output are undertaken in this parameter window. The explanations below also apply to outputs C, E, G, I and K.
  • Page 41 ® ABB i-bus Commissioning Object value "Switch" on bus voltage recovery Options: Do not write Write with "0" Write with "1" This parameter allows the output to be influenced by the value of the Switch group object on bus voltage recovery.
  • Page 42 ® ABB i-bus Commissioning Enable function Scene Options: • No: The parameter window remains disabled and invisible. • Yes: The - Scene parameter window appears. Enabling the Scene function enables the - Scene parameter window. Further settings can be made here, e.g.
  • Page 43 ® ABB i-bus Commissioning Enable communication object "Status Switch" 1-bit Options: Caution If an internal connection with an output is selected, and at the same time the reaction to an event is parametrized with TOGGLE, the binary input's Switch 1 group object is updated with the inverted value of the output's Status Switch group object.

  • Page 44: Output A,B: Switch Actuator - Time Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2.1 Output A,B: Switch actuator - Time parameter window All settings for the Time function – Staircase lighting, Switching ON/OFF delay and Flashing – are undertaken in this parameter window. This parameter window is visible if the Enable function Time parameter is enabled in Output A,B: Switch actuator (only "UP"...
  • Page 45 ® ABB i-bus Commissioning The following parameters appear when Staircase lighting is selected: Staircase lighting time in s [1…65,535] Options: 1…30…65,535 The staircase lighting time defines how long the contact is closed – provided that the output is parametrized as a normally open contact – and how long the light remains on after an ON telegram.
  • Page 46 ® ABB i-bus Commissioning Staircase lighting starts after permanent ON is ended Options: • No: The lighting switches off if Permanent ON is ended. • Yes: The lighting remains on and the staircase lighting time restarts. The function of Permanent ON is controlled via the Permanent ON communication object value.
  • Page 47 ® ABB i-bus Commissioning How does the staircase lighting react on bus voltage failure? Reaction in the event of bus voltage failure is specified by the parameter Contact position on bus voltage failure in the Switch actuator (only "UP" contact) parameter window.
  • Page 48 ® ABB i-bus Commissioning Switching delays retriggerable Options: • No: The delay time cannot be retriggered. • Yes: The delay time can be retriggered. Object value "Disable function Time" on bus voltage recovery Options: Unchanged 1, i.e., disable function Time 0, i.e., enable function Time...

  • Page 49: Output A,B: Switch Actuator - Time, Flashing Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2.2 Output A,B: Switch actuator - Time, Flashing parameter window All settings for the Time function – Staircase lighting, Switching ON/OFF delay and flashing – are undertaken in this parameter window. It is visible if the Enable function Time parameter is enabled in Output A,B: Switch actuator (only "UP"...
  • Page 50 ® ABB i-bus Commissioning • Flashing: The output starts to flash as soon as the Switch group object receives the parametrized value. The flashing period can be adjusted via the parametrized time duration for ON or OFF. At the start of the flashing period, the output is switched on with a normally open contact and off with a normally closed contact.
  • Page 51 ® ABB i-bus Commissioning Contact position after flashing Options: Calculate present contact position This parameter defines the state that the output should assume after flashing. • ON: The output is switched on after flashing. • OFF: The output is switched off after flashing.

  • Page 52: Output A,B: Switch Actuator - Scene Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2.3 Output A,B: Switch actuator - Scene parameter window All settings for the Scene function are undertaken in this parameter window. It is visible if the Enable function Scene parameter is enabled in Output A,B: Switch actuator (only "UP"...
  • Page 53 ® ABB i-bus Commissioning An example: Scene recall: • Send value 0…63 for the scene (no. 1…64) to the Scene group object. Scene change and save: • Scene no. 24 is assigned to the output with the value ON. •...
  • Page 54 ® ABB i-bus Commissioning Assignment to scene number (No. 1...64, 0 = no assignment) Options: 0…64 The Scene function manages up to 64 scenes using one single group address. With this group address, all slaves integrated into a scene are linked via a 1-byte group object. The following information is contained in a telegram: •...

  • Page 55: Output A,B: Switch Actuator - Logic Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2.4 Output A,B: Switch actuator - Logic parameter window All settings for the Connection/Logic function are undertaken in this parameter window. It is visible if the Enable function Connection/Logic parameter is enabled in the Output A,B: Switch actuator (only "UP"...
  • Page 56 ® ABB i-bus Commissioning Object value "Logical connection 1" after bus voltage recovery Options: Do not write Write with "0" Write with "1" This parameter defines the value assigned to the Logical connection 1 group object on bus voltage recovery.

  • Page 57: Output A,B: Switch Actuator - Forced Operation Parameter Window

    ® ABB i-bus Commissioning 3.3.2.2.5 Output A,B: Switch actuator - Forced operation parameter window All settings for the Forced Operation function are undertaken in this parameter window. It is visible if the Enable function Forced operation parameter is enabled in Output A,B: Switch actuator (only "UP"...
  • Page 58 ® ABB i-bus Commissioning The following parameters appear when 1 bit is selected: Contact pos. if forced operation Options: Unchanged • ON: Contact position of the output during forced operation. • OFF: Contact position of the output during forced operation.
  • Page 59 ® ABB i-bus Commissioning The following parameter appears when 2 bit is selected: Contact position with end of the forced operation Options: Unchanged Calculate present contact position This parameter determines the contact position of the relay after the end of forced operation.

  • Page 60: Output A,B: Shutter Parameter Window

    ® ABB i-bus Commissioning 3.3.2.3 Output A,B: Shutter parameter window All settings for A: Shutter are made in this parameter window. It is visible if the Operation mode parameter is set to Shutter in the Output A,B Operation mode parameter window, p. 22.
  • Page 61 ® ABB i-bus Commissioning Reaction on bus voltage recovery Options: Unchanged DOWN STOP This parameter defines how the output should react on bus voltage recovery. • Unchanged: Retains the current state. • UP/DOWN/STOP: Sets a fixed relay contact position. Position after reference movement Options: Deactivated;...
  • Page 62 ® ABB i-bus Commissioning Move to position Options: Direct Indirectly via upper end position Indirectly via lower end position Indirectly via shortest way • Direct: The shutter moves from the current position straight to the new target position after receiving a Position telegram.
  • Page 63 ® ABB i-bus Commissioning Feedback via group object "Move to position" Options: This parameter defines whether the Move to position [0…255] group object sends a status response. • Yes: The following parameter appears: Send object value Options: No, update only...

  • Page 64: Output A,B: Shutter - Drive Parameter Window

    ® ABB i-bus Commissioning 3.3.2.3.1 Output A,B: Shutter - Drive parameter window Settings for the shutter drive are undertaken in this parameter window. It is visible if the Operation mode parameter is set to Shutter in the Output A,B Operation mode parameter window, p. 22.

  • Page 65: Output A,B: Shutter - Automatic Parameter Window

    ® ABB i-bus Commissioning 3.3.2.3.2 Output A,B: Shutter - Automatic parameter window The shutter Automatic function is the same as the blind Automatic function. The parameter setting options and the adjustable group objects are described in the A,B: Shutter - Automatic parameter window, p.

  • Page 66: Input A Function Parameter Window

    ® ABB i-bus Commissioning 3.3.3 Input a Function parameter window All settings for Input a are made in this parameter window Note The setting options for inputs a…l are explained below using input a as an example. The setting options are identical for all inputs.

  • Page 67: A: Blind Sensor Parameter Window

    ® ABB i-bus Commissioning 3.3.3.1 a: Blind sensor parameter window This operation mode allows the operation of blinds and shutters with buttons or switches. This parameter window is visible if the Blind sensor option is selected in the Input a Function parameter window, p.
  • Page 68 ® ABB i-bus Commissioning What is the debounce time? If an edge is detected at an input, the input will react immediately to this edge, e.g. by sending a telegram. The debounce time T starts at the same time. When the pulse edges are detected at the input during the debounce time they are ignored.
  • Page 69 ® ABB i-bus Commissioning Internal connection with blind output Caution: Observe parametrization of outputs! Options: • Output X (X = AB, CD, EF, GH, IJ, KL): The binary output is connected directly with the Output X: Blind. The Input x: Blind sensor Blind UP/DOWN (x = a…l) group object acts internally directly on the Blind output X move UP/DOWN group object.
  • Page 70 ® ABB i-bus Commissioning The following list provides an overview of the different blind operating functions: 1 push buttons (short = stepwise, long = move) Short operation STOP/Stepwise Opposite direction to the last movement telegram* To return to slat adjustment, the blind must be moved UP or DOWN briefly.
  • Page 71 ® ABB i-bus Commissioning Depending on the selection made in the parameter Operating functionality of blind, different parameters will appear. All parameters are described in the following. Long operation after… Options: 0.3/0.4/0.5/0.6/0.8/1/1.2/1.5/2/3/4/5/6/7/8/9/10 s This defines the time period T after which an operation is considered a "long" operation.

  • Page 72: A: Switch Sensor Parameter Window

    ® ABB i-bus Commissioning 3.3.3.2 a: Switch sensor parameter window This parameter window is visible if the Blind sensor option is selected in the Input a Function parameter window, p. 64. Debounce time Options: 10/20/30/50/70/100/150 ms Debouncing prevents unwanted multiple operations of the input, e.g. due to bouncing of the contact.
  • Page 73 ® ABB i-bus Commissioning Distinction between long and short operation Options: Using this parameter, you set if the input differentiates between short and long operation. • Yes: After opening/closing the contact, it must first of all be ascertained if a short or long operation has occurred here.

  • Page 74: Distinction Between Long And Short Operation - No

    ® ABB i-bus Commissioning 3.3.3.2.1 Distinction between long and short operation – No If the parameter Distinction between long and short operation is set to No, the following parameters appear: Opening the contact => Event 0 Closing the contact => Event 1...
  • Page 75 ® ABB i-bus Commissioning What is the minimum signal duration? In contrast to the debounce time, a telegram is only sent after the minimum signal duration has elapsed. The individual functions are: If an edge is detected on the input, the minimum signal duration will commence. No telegram is sent on the bus at this time.

  • Page 76: Distinction Between Long And Short Operation - Yes

    ® ABB i-bus Commissioning 3.3.3.2.2 Distinction between long and short operation – Yes If the parameter Distinction between long and short operation is set to Yes, the following parameters appear: Short operation => Event 0 Long operation => Event 1...

  • Page 77: A: Switch Sensor - Objects "Switch" Parameter Window

    ® ABB i-bus Commissioning 3.3.3.2.3 a: Switch sensor - Objects "Switch" parameter window Other settings for Input a group objects and their internal connection can be undertaken in this window. "Switch 1" (cyclic sending possible) Options: • Yes: The group object Switch 1 appears along with the following parameters:...
  • Page 78 ® ABB i-bus Commissioning Reaction on event 1 Options: No reaction Terminate cyclic transmission The reaction of the communication object is determined here. If the option Yes has been selected with the parameter Distinction between long and short operation, the reaction occurs with a short or long operation.
  • Page 79 ® ABB i-bus Commissioning Cyclic sending Options: What is cyclic sending? Cyclic transmission enables the communication object Switch to send automatically at a fixed interval. If cyclic transmission is only carried out for a specific object value (ON or OFF), this condition refers to the value of the communication object. It is therefore possible in principle to start cyclic transmission by sending a value to the communication object Switch.
  • Page 80 ® ABB i-bus Commissioning "Switch 2" Options: • Yes: The group object Switch 2/3 becomes visible. The following parameters appear: Reaction on event 0 Options: No reaction Reaction on event 1 Options: No reaction The reaction of the group object is determined here. If the parameter Distinction between long and short operation is set to Yes, the reaction occurs with a short or long operation.
  • Page 81 ® ABB i-bus Commissioning "Switch 3" Notes The parameter descriptions for "Switch 3" are the same as for "Switch 2". "Block" 1 Bit Options: • Yes: The 1-bit group object Block is enabled. This can be used to disable the input.

  • Page 82: Input A: Dim Sensor Parameter Window

    ® ABB i-bus Commissioning 3.3.3.3 Input a: Dim sensor parameter window The operation mode allows the operation of dimmable lighting. This parameter window is visible if the Switch/Dimming sensor option is selected in the Input a Function parameter window, p. 64.
  • Page 83 ® ABB i-bus Commissioning Debounce time Options: 10/20/30/50/70/100/150 ms Debouncing prevents unwanted multiple operations of the input, e.g. due to bouncing of the contact. For further information, see: What is the debounce time? Input on operation Options: Open Closed This determines whether the contact on the input is a normally closed (Closed) contact or normally open (Open) contact.
  • Page 84 ® ABB i-bus Commissioning How does 1 button dimming function? Switch and dim functions can be controlled completely using a single push button. With each long operation alternate BRIGHTER or DARKER dimming occurs, or with short operation alternate switch on or off occurs.
  • Page 85 ® ABB i-bus Commissioning On short operation: Switch Options: TOGGLE No reaction This parameter defines whether the group object Telegram Switch TOGGLEs on short operation (typically: 1 button dimming) or only switches OFF or ON (typically: 2 button dimming). •...
  • Page 86 ® ABB i-bus Commissioning Dimming mode Options: START/STOP dimming Dimming steps • START/STOP dimming: The dimming process starts with a BRIGHTER or DARKER telegram and ends with a STOP telegram. 4 bit dimming telegram: Decimal Hexadecimal Binary Dim telegram 0000...

  • Page 87: Input A: Value/Forced Operation Parameter Window

    ® ABB i-bus Commissioning 3.3.3.4 Input a: Value/forced operation parameter window This operation mode allows values of any data type to be sent. This parameter window is visible if the Function parameter is set to Value/forced operation. Enable communication object "Block"...
  • Page 88 ® ABB i-bus Commissioning Distinction between long and short operation Options: This parameter determines whether the input differentiates between short and long operation. When set to Yes, after opening/closing the contact the system needs to establish whether a short or long operation has occurred before it is possible to trigger a reaction.

  • Page 89: Parameter Distinction Between Long And Short Operation - No

    ® ABB i-bus Commissioning 3.3.3.4.1 Parameter Distinction between long and short operation – No If the parameter Distinction between long and short operation is set to No, the following parameters appear in the Input a: Value/forced operation parameter window, p. 85:...
  • Page 90 ® ABB i-bus Commissioning What is the minimum signal duration? In contrast to the debounce time, a telegram is only sent after the minimum signal duration has elapsed. The individual functions are: If an edge is detected on the input, the minimum signal duration will commence. No telegrams are sent on the bus at this time.
  • Page 91 ® ABB i-bus Commissioning Value 1 (rising edge/ short operation) Options: do not send 1-bit value [0/1] 2-bit value (forced operation) 1-byte value [-128...127] 1-byte value [0...255] 1-byte value (8-bit scene) 2-byte value [-32,768...32,767] 2-byte value [0...65,565] 2-byte value (floating point) 3 byte value [time, weekday] 4-byte value [-2147483648...2147483647]...
  • Page 92 ® ABB i-bus Commissioning In the following table, the Forced operation function is explained: Bit 1 Bit 0 Access Description Enabled The Switch group object of the actuator is enabled by the binary input. The assigned sensor can control the actuator via the Switch object. The binary input does not control the Enabled actuator.
  • Page 93 ® ABB i-bus Commissioning Weekday Options: 0 = no day 1 = Monday 2 = Tuesday 3 = Wednesday 4 = Thursday 5 = Friday 6 = Saturday 7 = Sunday Using these parameters, the weekday sent on actuation is set.

  • Page 94: Parameter Distinction Between Long And Short Operation - Yes

    ® ABB i-bus Commissioning 3.3.3.4.2 Parameter Distinction between long and short operation – Yes If the parameter Distinction between long and short operation, is set to Yes, the following parameters appear: Input on operation Options: Open Closed • Open: Operation opens the input.

  • Page 95: Commissioning Without Bus Voltage

    ® ABB i-bus Commissioning 3.3.4 Commissioning without bus voltage How is the device switched on and put into operation? To put the device into operation, apply an auxiliary voltage from the mobile power supply (NTI). In the supplied state, all outputs are set to Blind mode.

  • Page 96: Group Objects

    ® ABB i-bus Commissioning Group objects Note As standard, the write flag (with the exception of 1 bit group objects) is deleted with the communication object values. Thus the group object value cannot be changed via the bus. If this function is required, the write flag must be set in ETS.
  • Page 97 ® ABB i-bus Commissioning Flags Data Point GO No. Function Name Length Type (DPT) Input a: Switch sensor 1.003 1 bit Input a: Switch/dimming sensor 1.003 1 bit Block Input a: Blind sensor 1.003 1 bit Input a: Value/forced operation 1.003...
  • Page 98 ® ABB i-bus Commissioning Flags Data Point GO No. Function Name Length Type (DPT) Switch 3 Input a: Switch sensor 1.001 1 bit Upper end position Input a: Blind sensor 1.002 1 bit Start event 0/1 Input a: Switch sensor 1.001...
  • Page 99 ® ABB i-bus Commissioning Flags Data Point GO No. Function Name Length Type (DPT) Logical connection 1 Output A 1.002 1 bit Activation of autom. control Blind output A 1.003 1 bit Activation of autom. control Shutter output A 1.003...

  • Page 100: General Group Objects

    ® ABB i-bus Commissioning 3.4.2 General group objects Function Object name Data type Flags In operation System 1 bit C, T DPT 1.002 The group object is enabled if the Send group object "In operation" is set to Yes in the General parameter window.

  • Page 101: Input A

    ® ABB i-bus Commissioning 3.4.3 Input a…l group objects The group objects are the same for all inputs and are therefore explained using Input a. The descriptions of the parameter setting options for Inputs a...l are described in the Input a Function parameter window p.

  • Page 102: Group Objects Switch Sensor

    ® ABB i-bus Commissioning 3.4.3.1 group objects Switch sensor Function Object name Data type Flags Block Input a: Switch sensor 1 bit C, W DPT 1.003 This group object is enabled if the Enable group object "Block" 1 bit parameter is set to Yes in the Input a: Switch sensor parameter window.

  • Page 103: Switch/Dimming Sensor Group Objects

    ® ABB i-bus Commissioning 3.4.3.2 Switch/dimming sensor group objects Function Object name Data type Flags Block Input a: 1 bit C, W Switch/dimming sensor DPT 1.003 This group object is enabled if the Enable group object "Block" 1 bit parameter is set to Yes in the Input a: Switch/dimming sensor parameter window.

  • Page 104: Blind Sensor Group Objects

    ® ABB i-bus Commissioning 3.4.3.3 Blind sensor group objects Function Object name Data type Flags Block Input a: 1 bit C, W Blind sensor DPT 1.003 This group object is enabled if the Enable group object "Block" 1 bit parameter is set to Yes in the Input a: Blind sensor parameter window.
  • Page 105 ® ABB i-bus Commissioning Function Object name Data type Flags Upper end position Input a: 1 bit C, W Blind sensor DPT 1.002 This group object is enabled if the Function parameter is set to Blind sensor in the Input a: Function parameter window.

  • Page 106: Value/Forced Operation Group Objects

    ® ABB i-bus Commissioning 3.4.3.4 Value/forced operation group objects Function Object name Data type Flags Block Input a: 1 bit C, W Value / forced operation DPT 1.003 This group object is enabled if the Enable group object "Block" 1 bit parameter is set to Yes in the Input a: Value/forced operation parameter window.

  • Page 107: Output Group Objects

    ® ABB i-bus Commissioning 3.4.4 Output group objects The group objects for all outputs are the same except for the Logical connection 1 and Logical connection 2 objects. They are therefore explained using Output A. 3.4.4.1 The parameter setting options for Outputs A, C, E, G, I and K are described in the Output A,B Operation mode parameter window, p.

  • Page 108: Output A Group Objects

    ® ABB i-bus Commissioning 3.4.4.2 Output A group objects Function Object name Data type Flags Switch Output A 1 bit C, W DPT 1.001 This group object is enabled if the Mode Output parameter is set to Switch actuator in the Output A, B: Mode parameter window.
  • Page 109 ® ABB i-bus Commissioning Function Object name Data type Flags Disable function Time Output A 1 bit C, W DPT 1.003 This group object is enabled if the Enable function Time parameter is set to Yes in the Output A,B: Switch actuator parameter window.
  • Page 110 ® ABB i-bus Commissioning Function Object name Data type Flags Forced operation Output A 2 bit C, W DPT 2.001 This group object is enabled if the Enable function Forced operation parameter is set to Yes and the Object type “Forced operation”...

  • Page 111: Output A,B: Blind And Shutter Group Objects

    ® ABB i-bus Commissioning 3.4.5 Output A,B: Blind and Shutter group objects This section explains the Output A,B: Blind and Shutter group objects using the Blind option. If the blind option has a special function or if the function is not available, e.g. slat adjustment, this is clearly indicated.
  • Page 112 ® ABB i-bus Commissioning Function Object name Data type Flags Adjust slat Blind Output A,B 1 byte C, W, T DPT 5.001 This group object is enabled if the Mode Output parameter is set to Blind in the Output A,B: Mode parameter window.
  • Page 113 ® ABB i-bus Commissioning Function Object name Data type Flags Scene Blind Output A,B 1 byte C, W Shutter Output A,B DPT 18.001 This group object is enabled if the Enable function Scene parameter is set to Yes in the A, B: Blind parameter window.
  • Page 114 ® ABB i-bus Commissioning Function Object name Data type Flags Blind Output A,B 1 bit C, W Shutter Output A,B DPT 1.001 This group object is enabled if the Enable function Automatic parameter is set to Yes in the A, B: Blind parameter window.
  • Page 115 ® ABB i-bus Commissioning Function Object name Data type Flags Safety A Blind Output A,B 1 bit C, W Shutter Output A,B DPT 1.005 This group object is enabled if the Enable function Safety parameter is set to Yes in the A, B: Blind parameter window.
  • Page 116 ® ABB i-bus Commissioning Function Object name Data type Flags Status byte Blind Output A,B 1-byte C, R, T Shutter Output A,B This group object is enabled if the Extra feedback parameter is set to Status byte in the A, B: Blind parameter window.

  • Page 117: Planning And Application

    ® ABB i-bus Planning and application Planning and application In this chapter you will find some tips and application examples for practical use of the device. Output A,B This chapter explains the drive types and application examples for Output A,B.
  • Page 118 ® ABB i-bus Planning and application When the motor is switched off by a limit switch, the corresponding contact on the blind/shutter actuator remains closed until the parametrized total travel time has elapsed, including any programmed "overrun" time. A voltage remains applied to the output up until this point.

  • Page 119: Safety

    ® ABB i-bus Planning and application Measuring slat adjustment total travel time The total travel time of the slats from opened (horizontal slat position) to closed (vertical slat position) is easy to determine: Fully open the slats. Then count how many slat adjustments are necessary to fully close them.

  • Page 120: Determining The Current Position

    ® ABB i-bus Planning and application 4.1.2.3 Determining the current position Reference movement The Blind/Roller Shutter Actuator continuously determines the current position of the blind and the slat angle based on the duration of the individual movements. For various reasons, over extended periods slight inaccuracies can occur in the determination of the position.

  • Page 121: Move To Position In % [0

    ® ABB i-bus Planning and application 4.1.2.4 Move to position in % [0…100] The blind can be moved to any position via an 8-bit value. In Blind operation mode, the slats can also be positioned at any angle via an 8-bit value.

  • Page 122: Automatic Sun Protection

    ® ABB i-bus Planning and application 4.1.3.1 Automatic sun protection Function Together with other KNX components, e.g. JSB/S, the JRA/S 6.230.3.1 can provide convenient sun protection control. For example, the blinds can be raised if the sunshine is very weak or if the window concerned is in the shadows.
  • Page 123 ® ABB i-bus Planning and application Setting up a simple automatic sun protection system Two further components are required in addition to the Blind/Roller Shutter Actuator and the touch sensor in order to set up a simple automatic sun protection system: an activation option for the user, e.g. a further switch sensor or the second rocker of the UP/DOWN touch sensor, and a brightness sensor.
  • Page 124 ® ABB i-bus Planning and application Planning a simple automatic sun protection system To set up an automatic sun protection system that tracks the sun’s position, the following KNX components are required: • Blind/Roller Shutter Actuator with Binary Inputs •...
  • Page 125 ® ABB i-bus Planning and application Design of an automatic sun protection system that tracks the sun’s position To set up an automatic sun protection system that tracks the sun’s position, an additional Shutter Control Unit JSB/S 1.1 is required.

  • Page 126: Status Feedback

    ® ABB i-bus Planning and application Planning an automatic sun protection system that tracks the sun’s position The following KNX components are required for setting up an automatic sun protection system that tracks the sun’s position: • Blind/Roller Shutter Actuator with Binary Inputs •...

  • Page 127: Output

    ® ABB i-bus Planning and application Output This chapter explains the function diagrams and application examples for the outputs. JRA/S 6.230.3.1 | 2CDC506083D0201 125...

  • Page 128: Function Diagram

    ® ABB i-bus Planning and application 4.2.1 Function diagram The following illustration indicates the sequence in which the functions are processed. Group objects which lead to the same box have the same priority and are processed in the sequence in which the telegrams are received.

  • Page 129: Time Function

    ® ABB i-bus Planning and application Note If a telegram is received via the Switch group object, this is connected to both Logic objects if they are activated. The result of this action serves as the input signal for the Time function. If this is not disabled, a corresponding switch signal is generated, e.g.

  • Page 130: Staircase Lighting

    ® ABB i-bus Planning and application 4.2.2.1 Staircase lighting After the staircase lighting time T has elapsed, the output switches off automatically. For every telegram with the value 1 the time restarts (Retrigger function) unless the parameter Extending staircase lighting by multiple switch on ("Pumping up") in the Output A,B: Switch actuator - Time parameter window, p.

  • Page 131: Switching On/Off Delay

    ® ABB i-bus Planning and application 4.2.2.2 Switching ON/OFF delay The ON/OFF delay delays output switch-on or switch-off. The delay time T or T starts after a Switch telegram; once it has elapsed, the output executes the telegram. If a new ON telegram with the value 1 is received during the switching ON delay, the delay time starts again.

  • Page 132: Flashing

    ® ABB i-bus Planning and application 4.2.2.3 Flashing The output can flash, i.e. switch on and off periodically. The switch on time (T ) and switch off time (T ) during flashing can be parametrized. Note The contact life of the contacts should be considered and can be found in the technical data. Limiting the number of switching operations with the parameter Number of ON impulses may be useful.

  • Page 133: Connection/Logic

    ® ABB i-bus Planning and application 4.2.3 Connection/logic With the Logic function it is possible to connect the switching of the output with certain conditions. Two connection group objects are available: Initially the Switch group object is evaluated by the Logical connection 1 group object. The result of this is then connected with the Logical connection 2 group object.
  • Page 134 ® ABB i-bus Planning and application The Logic function is always re-calculated when a group object value is received. Gate function example • The GATE connection is set to disable as soon as the communication object Logical connection x receives a 0.

  • Page 135: Scene Function

    ® ABB i-bus Planning and application 4.2.4 Scene function With the 8 bit scene, the push button gives the Blind/Roller Shutter Actuator an instruction to recall a scene. Scenes are not stored in the button but in the actuator. Along with the telegram value a scene number is sent which must match the scene number in the parameters of the blind/shutter actuator.
  • Page 136 Planning and application Advantage ® The Scene function on ABB i-bus devices has the following decisive advantage: All settings to be undertaken in a scene are stored in the device. Therefore, they must not be sent via the KNX when a scene is recalled, and only a figure value, which has been assigned to this scene, is necessary.

  • Page 137: Reaction On

    ® ABB i-bus Planning and application Reaction on … 4.3.1 Bus voltage recovery General • On bus voltage recovery, the group object values can be parametrized; if not they are set to the value 0. • Timers are out of operation and should be restarted.
  • Page 138 ® ABB i-bus Planning and application Inputs • The inactive waiting time is only active on bus voltage recovery. Blind The reaction of the blind/shutter output is parametrizable. The output can assume any state or remain unchanged. Note The position of the blind or shutter is also stored in the event of bus voltage failure if the Automatic function is activated.

  • Page 139: Ets Reset

    ® ABB i-bus Planning and application 4.3.2 ETS reset What is an ETS reset? Generally an ETS reset is defined as a reset of the device via ETS. In ETS3, reset is initialized in the Commissioning menu with the function Reset device. This stops and restarts the application.

  • Page 140: Download

    ® ABB i-bus Planning and application 4.3.3 Download Note After a download with a change, the application complies in behaviour to a reset of the device in the ETS. Switch contact output The Staircase lighting time group object value remains unchanged.

  • Page 141: Bus Voltage Failure

    ® ABB i-bus Planning and application 4.3.4 Bus voltage failure After the contact positions have set when the bus voltage fails, the device remains functional until the bus voltage recovers. Note The values of group objects Logical connection 1/2 are stored on bus voltage failure. The values are set again after bus voltage recovery.

  • Page 143: Appendix

    ® ABB i-bus Appendix Appendix Scope of delivery The Blind/Roller Shutter Actuator with Binary Inputs is supplied with the following parts. The delivered items should be checked against the list below. • 1x JRA/S 6.230.3.1, Blind/Roller Shutter Actuator with Binary Inputs, MDRC •...

  • Page 144: Blind/Shutter Status Byte

    ® ABB i-bus Appendix Blind/shutter status byte                                 ...

  • Page 145: Code Table, 8 Bit Scene

    ® ABB i-bus Appendix Code table, 8 bit scene                               ...

  • Page 146: 4-Bit Dim Telegram Input

    ® ABB i-bus Appendix 4-bit Dim telegram input The following table describes the 4 bit dim telegram: Dec. Hex. Binary Dim telegram 0000 STOP 0001 100 % DARKER 0010 50 % DARKER 0011 25 % DARKER 0100 12.5 % DARKER 0101 6.25 % DARKER...

  • Page 147: Ordering Details

    ® ABB i-bus Appendix Ordering details Short description Description Order No. bbn 40 11395 Weight Packaging 1 pcs. [pcs.] [kg] JRA/S 6.230.3.1 Blind/Roller Shutter Actuator 2CDG110208R0011 25226 0 0.55 with Binary Inputs, MDRC JRA/S 6.230.3.1 | 2CDC506083D0201 145...
  • Page 148 ® ABB i-bus Appendix Notes 146 2CDC506083D0201 | JRA/S 6.230.3.1...
  • Page 149 ® ABB i-bus Appendix Notes JRA/S 6.230.3.1 | 2CDC506083D0201 147...
  • Page 150 ® ABB i-bus Appendix Notes 148 2CDC506083D0201 | JRA/S 6.230.3.1...
  • Page 152 +49 (0)6221 701 724 notice. With regard to purchase orders, the agreed E-mail: knx.marketing@de.abb.com particulars shall prevail. ABB AG shall not be liable for any consequences arising from errors or incomplete information in this document. Further information and local contacts: www.abb.com/knx...

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