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Table of Contents
Related Manuals for Gewiss Chorus GW1 783A Series
Summary of Contents for Gewiss Chorus GW1 783A Series
- Page 1 KNX 6-channel push-button panel GW1x783A Technical Manual...
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Page 2: Table Of Contents
Contents Introduction ..............................3 Application ..............................3 Association limits ..........................3 “Main” menu ............................... 4 Parameters ............................4 “Channel x” menu (independent channels) ....................6 Parameters ............................6 Function “edges/sequence commands” ..................... 8 Parameters ............................8 Function “1 push button + stop dimmer” ....................13 Function “cyclic sending 1 push button dimmer”... -
Page 3: Introduction
1 Introduction This manual describes the functions for the device “KNX 6-channel push-button panel” (GW10783A, GW12783A, GW14783A) and how they are set and configured using the ETS configuration software. 2 Application The flush-mounted KNX 6-channel push-button panel is a command device with 6 channels, which can be used individually or combined. -
Page 4: "Main" Menu
3 “Main” menu The Main menu contains the application parameters for all the input channels implemented by the device. The main operator parameters for the device (fig. 3.1). Fig. 3.1 Parameters 3.1.1. Channels X/Y Using these parameters, it is possible to select for each of the 6 input channels implemented by the push- button panel if they should carry out an independent function or if it should be combined two at a time to contribute towards carrying out a shared function. - Page 5 The following parameters are displayed depending on the selected value: “Value [x 0.1s]” (if an identical value is set for all channels) or “Channel 1 value [x 0.1s]”, “Channel 2 value [x 0.1s]”, “Channel 3 value [x 0.1s]”, “Channel 4 value [x 0.1s]”, “Channel 5 value [x 0.1s]” and “Channel 6 value [x 0.1s]” (if a diversity value is set for each channel), which determine the minimum effective time during which the device must detect the pressing of the button to differentiate between the short operation and the long operation associated with the channel.
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Page 6: "Channel X" Menu (Independent Channels)
4 “Channel x” menu (independent channels) If channel operation is independent, a dedicated menu is shown for each channel called Channel x (x is the channel index). The menu structure changes based on the value set for the “Matched function” parameter. For the sake of simplicity, the parameters enabled according to the value set for the above parameter are listed in the following paragraphs. - Page 7 4.1.2 Block To inhibit the channel when sending commands associated with pressing/release the button, the block function must be activated: this function inhibits the detection of button pressing/releasing, preventing the device from sending the telegrams associated with these events on the bus; if activated, any change in status that occurs will not be interpreted until a block deactivation command is received.
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Page 8: Function "Edges/Sequence Commands
5 Function “edges/sequence commands” This function is used to set the type and number of commands to send after a status change has been detected, for up to a total of eight commands per channel; it is possible to differentiate the type of command depending on the event that is detected (pressing and releasing) and delay the sending of the commands with a fixed settable time. - Page 9 Depending on the set value, the following parameters appear for each of the selected object “Sending object format”, “Sending on operation (or short operation) detection”, “Sending on release (or long operation) detection” and “Object sending delay [s]” grouped in the subset Channel x z object (z is the index of the object associated with the channel, between A and H).
- Page 10 cyclical switching forcing off/deactivate forcing By selecting cyclical switching, in this case no communication object will be displayed as the device is always updated about the function activation status. If the format of the object to send is 1 byte unsigned, the communication object Ch.x - z object 1 byte value will be visible and the values that can be set for the two above parameters are: no effect (release default value)
- Page 11 If the format of the object to send is 2 bytes unsigned, the communication object Ch.x - z object 2 bytes value will be visible and the values that can be set for the two above parameters are: no effect (release detection default value) value sending (pressing detection default value) By setting value sending, it is possible to define the value to be sent via the new displayed parameter...
- Page 12 5.1.3 Object sending delay [s] (0..255 seconds) This is used to set the delay between the detection of the event associated with sending the command and the effective sending of the command on the bus. With regard to the objects that range from index B to index H, this parameter indicates the delay between sending the command/value associated with the object with the previous index (z-1) and sending the command/value associated with the object to which the parameter refers;...
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Page 13: Function "1 Push Button + Stop Dimmer
6 Function “1 push button + stop dimmer” This is used to configure the channel to control a dimmer with a single button, increasing and decreasing dimmer brightness always using the same button. For sending on/off telegrams and brightness control telegrams. As there is only one button to manage the On/Off and brightness control functions, the operation is managed by differentiating between short operations and long operations: ... - Page 14 command; the brightness increase/decrease control commands in this case do not determine the value of the last command sent to distinguish the value of the new command to be sent. This behaviour is changed if the user enables the communication object Ch.x - Dimmer status feedback, via the parameter “Dimmer status feedback object”;...
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Page 15: Function "Cyclic Sending 1 Push Button Dimmer
7 Function “cyclic sending 1 push button dimmer” This is used to configure the channel to control a dimmer with a single button, increasing and decreasing dimmer brightness always using the same button, with defined and settable control steps. As there is only one button to manage the On/Off and brightness control functions, the operation is managed so that each time the button is pressed the opposite command is sent in comparison to the last sent command and by differentiating between short operations and long operations: ... -
Page 16: Parameters
Parameters 7.1.1 Increase/decrease step This is used to set the percentage value of the brightness variation associated with the brightness increase/decrease commands. In this way, as soon as a long operation is detected, the device sends the first increase/decrease command with the set percentage; The values that can be set are: 100% 12.5% (default value) -
Page 17: Function "1 Push Button Shutter Control
8 Function “1 push button shutter control” This is used to configure the channel to control a shutter with a single button, regulating the upward and downward travel of the shutter and, depending on the device version, controlling louvres opening/closing. As only one button manages the louvres up/down and control functions, the operation is managed so that each time the button is pressed, a command is sent that is the opposite of the last movement signal received by the actuator that manages the shutter;... -
Page 18: Function "Scene Management
9 Function “scene management” This is used to configure the channel to send scene memorising and execution commands, with the possibility of sending the scene memorising command following a command received from the bus. Only one scene can be managed for each channel. A differentiation is made between short and long operations: ... -
Page 19: Function "Switching Sequences
10 Function “switching sequences” This is used to send a command sequence after a certain pressing has been detected. The structure of the menu is as follows (fig. 10.1): Fig. 10.1 10.1 Parameters 10.1.1 Command objects number This is used to set the number of commands that make up the sequence itself; based on the value set for this item, the communication objects Ch.x - Sequence z are enabled (with z between A and H). - Page 20 Sequence 2 (sum) consists in: each time pressing is detected (edge) the device sends a sequence that follows the sum progress on the communication objects. This sequence consists in counting the detected edges and converting this value into a binary format, distributing it on the enabled communication objects. Taking into consideration a sequence that includes 3 commands, at each iteration, the sent commands will Value sent...
- Page 21 10.1.3 On long operation detection, send commands of iteration n° This is used to define which iteration of the sequence is to be sent when a long operation is detected; The values that can be set are: from 1 to 256, 1 (default value) EXAMPLE: with reference to the previous table, supposing that the value set by the user is 3, when a long operation is detected the device will send: Value...
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Page 22: 11 "Channel X/Y" (Coupled Channels) Menu
11 “Channel X/Y” (coupled channels) menu If the channel operation is matched, a dedicated menu is displayed for each channel pair, called Channel x/y. The menu structure changes based on the value set for the “Matched function” parameter. For the sake of simplicity, the parameters enabled according to the value set for the above parameter are listed in the following paragraphs. -
Page 23: 12 "Temperature Sensor" Menu
12 “Temperature sensor” menu This is used to enable and set the conditions for sending the temperature value measured by the sensor located inside the device. The basic structure of the menu is as follows (fig. 12.1): Fig. 12.1 12.1 Parameters ... - Page 24 12.1.2 Measure unit This is used to set the measure unit with which the information will be coded and sent via the communication object Temperature sensor; The values that can be set are: degrees Celsius (°C) (default value) degrees Kelvin (°K) The value set for this parameter changes the coding of the communication object Temperature sensor.
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Page 25: 13 "Led X" Menu
13 “Led X” menu This is used to define and personalize the operation of the signalling LEDs associated with the channel. The signalling LED can assume an amber or green color, one of them can be used for the night lighting function or signalling of motor control actuator movement in progress or both can be independently managed via the relative communication objects. -
Page 26: Parameters
13.1 Parameters 13.1.1 Night lighting This is used to enable and define the night signalling color associated with channel x; The values that can be set are: disabled enable amber signalling (default value) enable green signalling Selecting the value disabled, displays the communication object Led x - color choice that allows to change from the bus the signalling LED color and the parameters “Logical value associated to amber color”, “Light signalling color on downloading"... - Page 27 executes blinking executes heartbeat 3 executes heartbeat 4 executes fast blinking executes slow blinking executes very slow blinking executes 3 blinkings executes personalized effect If the selected value is personalized effect, this will display the new configuration menu Personalized effect y, with 1≤Y≤5 (see paragraph 13.2) The parameters “Effect 1 activation value”, “Effect 2 activation value”, “Effect 3 activation value”, “Effect 4 activation value”...
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Page 28: Personalize Effect Y" Menu
In summary, if night signalling is active, the coloring of the light effects activated by the bus command (via objects Led x - Effect 1 etc.) is associated to a LED not used for signalling; vice versa, if night signalling is disabled, the coloring of these effects depends on the communication object Led x - color choice and on the parameter value “Light signalling color on bus voltage recovery”. - Page 29 Duty cucle tempo time Δt0 Δt1 Δt2 Δt3 Δt4 Δt5 The available variables are: 6 parameters Δ 0, Δ 1, Δ 2, Δ 3, Δ 4, Δ 5 expressed in ms (0-65535) that define the duration of the brightness control ramp between the value Δ (n) and Δ...
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Page 30: Communication Objects
14 Communication objects The communication objects are listed in the following table (this example shows only general objects and those relative to channel 1 and 1/2) (Fig. 14.1):... -
Page 31: Communication Object Table
Fig. 14.1 14.1 Communication object table The following tables summarise all the communication objects with their ID number, the name and function displayed in ETS, plus a brief description of the function performed and the type of Datapoint used. 14.1.1 Communication objects with input functions The following table contains all the objects with an input function: Communication object Object name... - Page 32 Ch.x - C status On/Off status Receives 1.001 DPT_Switch feedback actuator status feedback for C object cyclic switching Ch.x - D status On/Off status Receives 1.001 DPT_Switch feedback actuator status feedback for D object cyclic switching Ch.x - E status On/Off status Receives 1.001 DPT_Switch...
- Page 33 Led 1 - Effect 4 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 4 Led 1 - Effect 5 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 5 Led 2 - Effect 1 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 1 Led 2 - Effect 2...
- Page 34 Led 5 - Effect 2 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 1 Led 5 - Effect 3 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 1 Led 5 - Effect 4 Switching On /Off Switching /Off 1.001 DPT_Switch light effect 1 Led 5 - Effect 5...
- Page 35 14.1.2 Communication objects with output functions The following table contains all the objects with an output function: Communication Object name Object Description Datapoint type object no. function Ch.x - Switching On/Off Sends dimmer on/off 1.001 DPT_Switch commands Ch.x/y - Switching On/Off Sends dimmer on/off 1.001 DPT_Switch...
- Page 36 Ch.x - A object 2 Signed value Sends signed values 8.001 bytes value DPT_Value_2_Count (-32768..32767) associated with A object Ch.x - A object 4 Unsigned value Sends unsigned values 12.001 bytes value DPT_Value_4_Ucou (0.. 4294967295) associated with A object Ch.x - A object 4 Signed value Sends signed values 13.001...
- Page 37 (0%..100%) associated with B object Ch.x - B object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - B object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with B object Ch.x - B object 2 Signed value Sends signed values...
- Page 38 Ch.x - C object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - C object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with C object Ch.x - C object 2 Signed value Sends signed values 8.001...
- Page 39 Ch.x - D object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - D object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with D object Ch.x - D object 2 Signed value Sends signed values 8.001...
- Page 40 Ch.x - E object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - E object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with E object Ch.x - E object 2 Signed value Sends signed values 8.001...
- Page 41 Ch.x - F object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - F object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with F object Ch.x - F object 2 Signed value Sends signed values 8.001...
- Page 42 Ch.x - G object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - G object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with G object Ch.x - G object 2 Signed value Sends signed values 8.001...
- Page 43 Ch.x - H object 1 HVAC mode Sends the HVAC modes 20.102 byte value (auto/comfort/precomfort DPT_HVACMode /economy/off) Ch.x - H object 2 Unsigned value Sends unsigned values 7.001 bytes value (0..65535) associated DPT_Value_2_Ucou with H object Ch.x - H object 2 Signed value Sends signed values 8.001...
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