Zennio Tecla XL PC-ABS Capacitive Push Button User Manual
- June 12, 2024
- Zennio
Table of Contents
Tecla XL PC-ABS Capacitive Push Button
Product Information
The Tecla XL is a KNX multifunction capacitive touch switch from Zennio. It features a proximity sensor, a luminosity sensor, and backlighted buttons. The switch is available with four, six, eight, or ten capacitive touch buttons, depending on the user’s needs. The buttons are equipped with LED backlight to confirm button presses and display states. The Tecla XL is a fully customizable solution for controlling air conditioning systems, lighting, blinds, scenes, and more in rooms.
Key Features:
- Fully customizable backlit icons
- 4/6/8/10 touch buttons that can operate individually or in pairs
- Horizontal or vertical configuration
- Light indicator (LED) for each button
- Buzzer for audible acknowledgment of user actions (can be disabled)
- Possibility of locking/unlocking the touch panel through binary orders or scenes
- Welcome Back object sent to the KNX bus when a pulsation is detected after a certain period of inactivity
- Built-in temperature sensor
- Ambient luminosity sensor for automatic brightness adjustment
- Proximity sensor for quick start
- Thermostat function
- Heartbeat or periodical still-alive notification
Product Usage Instructions
- Installation:
- Connect the Tecla XL to the KNX bus using the built-in terminal.
- No external DC power supply is required.
- To enter programming mode, press the programming button.
- The programming LED will light in red to indicate the device is in programming mode.
- To enter safe mode, hold the programming button while the device is being connected to the bus.
- In safe mode, the programming LED will blink in red.
DOCUMENT UPDATES
| Version | Changes | Page(s) |
|---|
[1.8]_a| Changes in the application program :
· Optimisation of internal modules.
| ****
–
INTRODUCTION
TECLA XL
- Tecla XL is a KNX multifunction capacitive touch switch from Zennio with a proximity sensor, luminosity sensor, and backlighted buttons.
- They are offered at a reduced weight, with four, six, eight or ten capacitive touch buttons (according to the user’s needs) with LED backlight to confirm the press of the buttons as well as showing states.
- Tecla XL is a fully customizable solution for the control of rooms where user control of air conditioning systems, lighting, blinds, scenes, etc. is required.
- The versatility offered by the functionality of buttons is complemented by an internal temperature sensor and a thermostat function, as well as an elegant design with fully customizable backlit icons.
The most outstanding features of Tecla XL are:
- Fully customizable backlit icons.
- 4 / 6 / 8 / 10 touch buttons, which can operate as individual or pair controls: Horizontally or vertically oriented configuration.
- Light indicator (LED) for every button.
- Buzzer for an audible acknowledgment of user actions (with the possibility of disabling it either by parameter or by object).
- Possibility of locking/unlocking the touch panel through binary orders or scenes.
- Welcome Back object (binary or scene) which is sent to the KNX bus when a pulsation is detected after a certain period (configurable) of inactivity.
- Built-in temperature sensor.
- Ambient luminosity sensor for brightness automatic adjustment.
- Proximity sensor for quick start. Thermostat function.
- Heartbeat or periodical “still-alive” notification.
INSTALLATION
Figure 1 shows the connection outline of Tecla XL:
- KNX connector
- Fixing clips.
- Temperature probe.
- Programming LED.
- Programming Button.
- Touch area.
- Proximity and Luminosity.
Tecla XL is connected to the KNX bus through the built-in terminal (1). An
external DC power supply is not needed.
A short press on the programming button (5) will make the device enter the
programming mode. The programming LED (4) will then light in red. On the
contrary, if this button is held while the device gets connected to the bus,
the device will enter the safe mode. In such case, the programming LED will
blink in red colour.
For detailed information about the technical features of Tecla XL, as well as
on security and installation procedures, please refer to the device Datasheet,
bundled within the device packaging and also available at
www.zennio.com.
START-UP AND POWER LOSS
After download or device reset it is necessary to wait for about 2 minutes without performing any action in order to make it possible a proper calibration of:
- Proximity sensor.
- Luminosity sensor.
- Button presses.
For a correct calibration of the proximity and brightness sensors it is recommended not to remain too close or place anything less than 50cm approximately and do not hit with direct light to the device during this time.
CONFIGURATION
After importing the corresponding database in ETS and adding the device into the topology of the project, the configuration process begins by entering the Parameters tab of the device.
GENERAL
In order to allow the device to perform the desired functions, a number of options must be parameterized, either related to its general behaviour or to advanced features.
CONFIGURATION
In the “Configuration” tab, the general settings are displayed.
ETS PARAMETERISATION
The following parameters are shown:
- Device Orientation [Vertical (Rotated) / Horizontal (Rotated)] 1: enables horizontal or vertical orientation to be assigned to the device, for easy identification of the push-buttons during configuration process (ETS will show a figure with the final distribution of the push-buttons). To prevent inconsistency in the configuration, please note the following criterium:
Vertical (rotado):
Temperature probe hole on the right side and the sensors on the middle.
Horizontal (normal):
Temperature probe hole on the left of the bottom side and sensors on the
middle.
- Buttons [enabled]: read-only parameter to make it evident that the “Buttons” tab is always enabled in the tab tree on the left. See section 2.2 for details.
- Thermostat [disabled/enabled]: enables or disables the “Thermostat” tab in the tree on the left. See section 2.3 for details.
- Heartbeat (Periodic Alive Notification) [disabled/enabled]: incorporates a one-bit object to the project (“[Heartbeat] Object to Send ‘1’”) that will be sent periodically with value “1” to notify that the device is still working (still alive).
Note : the first sending after download or bus failure takes place with a delay of up to 255 seconds, to prevent bus overload. The following sendings march the period set.
-
The default values of each parameter will be highlighted in blue in this document, as follows: [default/rest of options].
-
Device Recovery Objects (Send 0 and 1) [disabled/enabled]: this parameter lets the integrator activate two new communication objects (“[Heartbeat] Device Recovery”), which will be sent to the KNX bus with values “0” and “1” whenever the device begins operation (for example, after a bus power failure). It is possible to parameterise a certain delay [0…255][s] to this sending.
Note : After download or bus failure, the sending takes place with a delay of up to 6,35 seconds plus the parameterized delay, to prevent bus overload. -
Internal Temperature Sensor [disabled/enabled]: enables or disables the “Temperature Sensor” tab in the tree on the left. See section 2.1.2 for details.
-
Sounds [Default / Custom]: sets whether the sound functions (button beeps, alarm and doorbell) should work according to the pre-defined configuration or to a user-defined configuration. See section 2.1.4 for details.
-
Ambient luminosity sensor [disabled/enabled]: enables setting the ambient luminosity sensor. When the sensor is enabled, a new tab for its configuration is shown. See section 2.1.5 for details.
-
Proximity Sensor [disabled/enabled]: enables the proximity sensor. This functionality permits “waking up” the device when detecting presence, see section 2.1.6.
-
Time to Consider Inactivity [1…30…255][s/min/h]: allows setting a time after which, if no pulsation or proximity detection has occurred, the LEDs turn off (or acquire the brightness level configured, see section 2.1.3).
-
Advanced Configuration [disabled/enabled]: enables or disables the “Advanced” tab in the tree on the left. See section 2.1.7 for details.
TEMPERATURE SENSOR
- The internal temperature probe can monitor the ambient temperature of the room, thus making the device capable of reporting it to the KNX bus and of triggering certain actions when the temperature reaches specific values.
- Please refer to the specific manual “Temperature Probe” (available in the product section at the Zennio homepage, www.zennio.com) for detailed information about the functionality and the configuration of the related parameters.
BACKLIGHT
- Capacitive touch switches are able to manage the brightness of the LED according to two operating modes: normal mode and night mode.
- Please refer to the specific manual “Brightness” (available in the product section at the Zennio website, www.zennio.com) for detailed information about the functionality and the configuration of the related parameters.
SOUNDS
For detailed information about the functionality and the configuration of the related parameters, please refer to the specific manual “Capacitive Touch Switches” available in the Tecla XL product section at the Zennio homepage, www.zennio.com.
AMBIENT LUMINOSITY SENSOR
- Capacitive touch switches incorporate a luminosity sensor to receive and monitor ambient brightness measurement.
- Please refer to the specific manual “Luminosity and Proximity Sensor” (available in the product section at the Zennio homepage, www.zennio.com) for detailed information about the functionality and the configuration of the related parameters.
PROXIMITY SENSOR
Please refer to the specific manual “Proximity and Luminosity Sensor” (available in the product section at the Zennio homepage, www.zennio.com) for detailed information about the functionality and the configuration of the related parameters.
ADVANCED CONFIGURATION
For detailed information about the functionality and the configuration of the related parameters, please refer to the specific manual “Capacitive Touch Switches” available in the Tecla XL product section at the Zennio homepage, www.zennio.com.
BUTTONS
For detailed information about the functionality and the configuration of the related parameters, please refer to the specific manual “Capacitive Touch Switches” available in the Tecla XL product section at the Zennio homepage, www.zennio.com.
THERMOSTAT
Capacitive touch switches implement one Zennio thermostat which can be enabled
and fully customised.
Please refer to the specific manual “Zennio Thermostat” (available in the
product section at the Zennio website, www.zennio.com) for detailed
information about the functionality and the configuration of the related
parameters.
COMMUNICATION OBJECTS
“Functional range” shows the values that, with the independence of any other values permitted by the bus according to the object size, may be of any use or have a particular meaning because of the specifications or restrictions from both the KNX standard or the application program itself.
Note:
The objects shown in this table are from model Tecla XL X10. Please note
that certain objects will not be available in models with fewer push buttons.
Number| Size| I/O| Flags| Data type (DPT)|
Functional Range| Name| Function
---|---|---|---|---|---|---|---
1| 1 Bit| | C – – T –| DPT_Trigger| 0/1| [Heartbeat] Object to Send
‘1’| Sending of ‘1’ Periodically
2| 1 Bit| | C – – T –| DPT_Trigger| 0/1| [Heartbeat] Device Recovery|
Send 0
3| 1 Bit| | C – – T –| DPT_Trigger| 0/1| [Heartbeat] Device Recovery|
Send 1
4| 1 Byte| I| C – W – –| DPT_SceneNumber| 0 – 63| [General] Scene:
Receive| 0 – 63 (Run Scene 1-64)
5| 1 Byte| | C – – T –| DPT_SceneControl| 0-63; 128-191| [General]
Scene: Send| 0 – 63/128 – 191 (Run/Save Scene 1-64)
6| 1 Bit| I| C – W – –| DPT_Enable| 0/1| [General] Touch Locking| 0 =
Unlock; 1 = Lock
1 Bit| I| C – W – –| DPT_Enable| 0/1| [General] Touch Locking| 0 = Lock;
1 = Unlock
7| 1 Bit| | C – – T –| DPT_Switch| 0/1| [General] Welcome Back Object|
Switch Object Sent on Wake Up
__
8
| 1 Bit| I| C – W – –| DPT_Enable| 0/1| [General] Sounds – Disabling
Button Sound| 0 = Disable Sound; 1 = Enable Sound
1 Bit| I| C – W – –| DPT_Enable| 0/1| [General] Sounds – Disabling
Button Sound| 0 = Enable Sound; 1 = Disable Sound
__
9
| 1 Bit| I| C – W – –| DPT_Ack| 0/1| [General] Sounds – Doorbell| 1 =
Play a Doorbell Sound; 0 = Nothing
1 Bit| I| C – W – –| DPT_Ack| 0/1| [General] Sounds – Doorbell| 0 = Play
a Doorbell Sound; 1 = Nothing
__
10
| 1 Bit| I| C – W – –| DPT_Alarm| 0/1| [General] Sounds – Alarm| 1 =
Play Alarm Intermittent Sounds; 0 = Stop Alarm Sounds
1 Bit| I| C – W – –| DPT_Alarm| 0/1| [General] Sounds – Alarm| 0 = Play
Alarm Intermittent Sounds; 1 = Stop Alarm Sounds
11, 12, 13, 14, 15| 1 Bit| I| C – W – –| DPT_Switch| 0/1| [General]
Welcome Back Object – Additional Condition| Additional Condition Object x
16| 1 Bit| I| C – W – –| DPT_Enable| 0/1| [General] Proximity Sensor| 0
= Disable; 1 = Enable
17| 1 Bit| I| C – W – –| DPT_Start| 0/1| [General] External Proximity
Detection| 1 = Detection
18| 1 Bit| | C – – T –| DPT_Start| 0/1| [General] Proximity Detection|
Send 1 when Proximity is Detected
__
19
| 1 Bit| | C – – T –| DPT_Bool| 0/1| [General] Luminosity (1-Bit)| 0 =
Over Threshold; 1 = Under Threshold
---|---|---|---|---|---|---|---
1 Bit| | C – – T –| DPT_Bool| 0/1| [General] Luminosity (1-Bit)| 0 =
Under Threshold; 1 = Over Threshold
20| 1 Byte| O| C R – – –| DPT_Scaling| 0% – 100%| [General] Luminosity
(Percentage)| 0% … 100%
21| 2 Bytes| O| C R – – –| DPT_Value_Lux| | [General] Luminosity (Lux)|
0 Lux … 670760 Lux
22| 1 Bit| I| C – W – –| DPT_DayNight| 0/1| [General] Backlight Mode| 0
= Night Mode; 1 = Normal Mode
1 Bit| I| C – W – –| DPT_DayNight| 0/1| [General] Backlight Mode| 0 =
Normal Mode; 1 = Night Mode
23| 1 Byte| I| C – W – –| DPT_Scaling| 0% – 100%| [General] Display –
Brightness| 0% … 100%
24| 1 Byte| I| C – W – –| DPT_Scaling| 0% – 100%| [General] Display –
Contrast| 0% … 100%
__
__
__
__
__
25, 31, 37, 43, 49, 55, 61, 67,
73, 79
| 1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] Switch| Send Selected
Value on Short Press
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] Hold & Release| Send
Selected Values on Hold and Release Presses
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] Two Objects – Short
Press| Send Selected Value on Short Press
1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Ix] Light – On/Off| (Short
Press) Switch Between On and Off
__
1 Bit
| | __
C – – T –
| __
DPT_Step
| __
0/1
| __ [Btn][Ix] Shutter – Stop/Step| (Short Press) 0 = Stop Shutter/Step Up; 1
= Stop Shutter/Step Down
1 Bit| | C – – T –| DPT_Trigger| 0/1| [Btn][Ix] Shutter – Stop| (End
Pressing) Stop Shutter
25, 31, 37, 43, 49| 1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Ix]
Light – On| (Short Press) Send On
1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Ix] Light – Off| (Short
Press) Send Off
__
25, 31, 37, 43, 49, 55, 61, 67,
73, 79
| 1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Ix] Shutter – Stop/Step|
(Short Press) Stop Shutter/Step Up
1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Ix] Shutter – Stop/Step|
(Short Press) Stop Shutter/Step Down
__
__
26, 32, 38, 44, 50, 56, 62, 68,
74, 80
| __
__
__
4 Bit
| __
__
__
I
| __
__
__
C – W T –
| __
__
__
DPT_Control_Dimming
| 0x0 (Stop)
0x1 (Dec. by 100%)
…
0x7 (Dec. by 1%) 0x8 (Stop)
0xD (Inc. by 100%)
…
0xF (Inc. by 1%)
| __
__
__
[Btn][Ix] Light – Dimming| __
__
(Long Press) Switch Between Dimming Up and Down
__
__
__
27, 33, 39, 45, 51, 57, 63, 69,
75, 81
| 1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move| (Long
Press) 0 = Up ; 1 = Down
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move| (Start
Pressing) Switch Between Up and Down
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] Two Objects – Long
Press| Send Selected Value on Long Press
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move| (Long
Press) Up
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move| (Long
Press) Down
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move| (Start
Pressing) Up
| 1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Ix] Shutter – Move|
(Start Pressing) Down
---|---|---|---|---|---|---|---
28, 34, 40, 46, 52, 58, 64, 70,
76, 82
| 1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] LED On/Off| 0 = Off; 1
= On
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Ix] LED On/Off| 0 = On; 1 =
Off
__
__
__
__
__
__
__
__
29, 35, 41, 47, 53, 59, 65, 71,
77, 83
| 1 Byte| I| C – W T –| DPT_Scaling| 0% – 100%| [Btn][Ix] Scaling| Send
Selected Percentage Value on Short Press
1 Byte| I| C – W T –| DPT_Value_1_Ucount| 0 – 255| [Btn][Ix] Counter –
1-Byte Unsigned| Send Selected Value on Short Press
1 Byte| I| C – W T –| DPT_Value_1_Count| -128 – 127| [Btn][Ix] Counter –
1-Byte Signed| Send Selected Value on Short Press
2 Bytes| I| C – W T –| DPT_Value_2_Ucount| 0 – 65535| [Btn][Ix] Counter
– 2-Byte Unsigned| Send Selected Value on Short Press
2 Bytes| I| C – W T –| DPT_Value_2_Count| -32768 – 32767| [Btn][Ix]
Counter – 2-Byte Signed| Send Selected Value on Short Press
2 Bytes| I| C – W T –| 9.xxx| -671088.64 – 670433.28| [Btn][Ix] Float|
Send Selected Value on Short Press
1 Byte| I| C – W T –| DPT_Value_1_Ucount| 0 – 255| [Btn][Ix] Two Objects
– Short Press (1-Byte)| Send Selected 1-Byte Value on Short Press
1 Byte| I| C – W T –| DPT_Scaling| 0% – 100%| [Btn][Ix] Shutter –
Position| 0 – 100 %
1 Byte| I| C – W T –| DPT_Scaling| 0% – 100%| [Btn][Ix] Light – Dimming
(Status)| 0 – 100 %
1 Byte| I| C – W T –| 1.xxx| 0/1| [Btn][Ix] Room State| 0 = Normal; 1 =
Make-up Room; 2 = Do not Disturb
30, 36, 42, 48, 54, 60, 66, 72,
78, 84
| 1 Byte| I| C – W T –| DPT_Value_1_Ucount| 0 – 255| [Btn][Ix] Two
Objects – Long Press (1-Byte)| Send Selected 1-Byte Value on Long Press
__
__
__
__
__
__
__
__
__
85, 91, 97, 103, 109
| 1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Switch| Left = 0;
Right = 1
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Short
Press| Left = 1; Right = 0
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Short
Press| Left = 0; Right = 1
1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Px] Light – On/Off| (Short
Press) Left = Off; Right = On
1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Px] Shutter – Stop/Step|
(Short Press) Left = Stop/Step Down; Right = Stop/Step Up
1 Bit| | C – – T –| DPT_Trigger| 0/1| [Btn][Px] Shutter – Stop| (End
Pressing) Left = Stop-Down; Right = Stop-Up
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Switch| Left = 1; Right
= 0
1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Px] Light – On/Off| (Short
Press) Left = On; Right = Off
1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Px] Shutter – Stop/Step|
(Short Press) Left = Stop/Step Up; Right = Stop/Step Down
1 Bit| | C – – T –| DPT_Trigger| 0/1| [Btn][Px] Shutter – Stop| (End
Pressing) Left = Stop-Up; Right = Stop-Down
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Switch| Lower = 0; Upper
= 1
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Switch| Lower = 1; Upper
= 0
| 1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Px] Light – On/Off|
(Short Press) Lower = Off; Upper
= On
---|---|---|---|---|---|---|---
1 Bit| | C – – T –| DPT_Switch| 0/1| [Btn][Px] Light – On/Off| (Short
Press) Lower = On; Upper
= Off
1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Px] Shutter – Stop/Step|
(Short Press) Lower = Stop/Step Down; Upper = Stop/Step Up
1 Bit| | C – – T –| DPT_Step| 0/1| [Btn][Px] Shutter – Stop/Step|
(Short Press) Lower = Stop/Step Up; Upper = Stop/Step Down
1 Bit| | C – – T –| DPT_Trigger| 0/1| [Btn][Px] Shutter – Stop| (End
Pressing) Lower = Stop- Down; Upper = Stop-Up
1 Bit| | C – – T –| DPT_Trigger| 0/1| [Btn][Px] Shutter – Stop| (End
Pressing) Lower = Stop-Up; Upper = Stop-Down
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Short
Press| Lower = 0; Upper = 1
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Short
Press| Lower = 1; Upper = 0
__
__
__
__
__
__
__
__
__
__
__
__
__
__
86, 92, 98, 104, 110
| __
__
__
4 Bit
| __
__
__
I
| __
__
__
C – W T –
| __
__
__
DPT_Control_Dimming
| 0x0 (Stop)
0x1 (Dec. by 100%)
…
0x7 (Dec. by 1%) 0x8 (Stop)
0xD (Inc. by 100%)
…
0xF (Inc. by 1%)
| __
__
__
[Btn][Px] Light – Dimming| __
__
(Long Press) Left = Darker; Right
= Brighter
__
__
__
4 Bit
| __
__
__
I
| __
__
__
C – W T –
| __
__
__
DPT_Control_Dimming
| 0x0 (Stop)
0x1 (Dec. by 100%)
…
0x7 (Dec. by 1%) 0x8 (Stop)
0xD (Inc. by 100%)
…
0xF (Inc. by 1%)
| __
__
__
[Btn][Px] Light – Dimming| __
__
(Long Press) Left = Brighter; Right
= Darker
__
__
__
4 Bit
| __
__
__
I
| __
__
__
C – W T –
| __
__
__
DPT_Control_Dimming
| 0x0 (Stop)
0x1 (Dec. by 100%)
…
0x7 (Dec. by 1%) 0x8 (Stop)
0xD (Inc. by 100%)
…
0xF (Inc. by 1%)
| __
__
__
[Btn][Px] Light – Dimming| __
__
(Long Press) Lower = Darker; Upper = Brighter
__
__
__
4 Bit
| __
__
__
I
| __
__
__
C – W T –
| __
__
__
DPT_Control_Dimming
| 0x0 (Stop)
0x1 (Dec. by 100%)
…
0x7 (Dec. by 1%) 0x8 (Stop)
0xD (Inc. by 100%)
…
0xF (Inc. by 1%)
| __
__
__
[Btn][Px] Light – Dimming| __
__
(Long Press) Lower = Brighter; Upper = Darker
__
__
__
__
__
__
__
__
__
__
__
87, 93, 99, 105, 111
| 1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Long
Press| Left = 0; Right = 1
---|---|---|---|---|---|---|---
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Long
Press| Left = 1; Right = 0
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Long
Press) Left = Down; Right = Up
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Start
Pressing) Left = Down; Right = Up
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Long
Press) Left = Up; Right = Down
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Start
Pressing) Left = Up; Right
= Down
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Long
Press) Lower = Down; Upper = Up
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Long
Press) Lower = Up; Upper = Down
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Start
Pressing) Lower = Down; Upper = Up
1 Bit| | C – – T –| DPT_UpDown| 0/1| [Btn][Px] Shutter – Move| (Start
Pressing) Lower = Up; Upper = Down
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Long
Press| Lower = 0; Upper = 1
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] Two Objects – Long
Press| Lower = 1; Upper = 0
88, 94, 100, 106, 112| 1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px]
LED On/Off| 0 = On; 1 = Off
1 Bit| I| C – W T –| DPT_Switch| 0/1| [Btn][Px] LED On/Off| 0 = Off; 1 =
On
89, 95, 101, 107, 113| 1 Byte| I| C – W T –| DPT_Scaling| 0% – 100%|
[Btn][Px] Light – Dimming (Status)| 0 – 100 %
115| 1 Byte| I| C – W – –| DPT_SceneControl| 0-63; 128-191| [Thermostat]
Scene Input| Scene Value
116| 2 Bytes| I| C – W T U| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Temperature Source 1| External Sensor Temperature
117| 2 Bytes| I| C – W T U| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Temperature Source 2| External Sensor Temperature
118| 2 Bytes| O| C R – T –| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Effective Temperature| Effective Control Temperature
__
__
119
| __
__
1 Byte
| __
__
I
| __
__
C – W – –
| __
__
DPT_HVACMode
| 1=Comfort 2=Standby 3=Economy 4=Building
Protection
| __
__
[Tx] Special Mode| __
__
1-Byte HVAC Mode
120| 1 Bit| I| C – W – –| DPT_Ack| 0/1| [Tx] Special Mode: Comfort| 0 =
Nothing; 1 = Trigger
1 Bit| I| C – W – –| DPT_Switch| 0/1| [Tx] Special Mode: Comfort| 0 =
Off; 1 = On
121| 1 Bit| I| C – W – –| DPT_Ack| 0/1| [Tx] Special Mode: Standby| 0 =
Nothing; 1 = Trigger
1 Bit| I| C – W – –| DPT_Switch| 0/1| [Tx] Special Mode: Standby| 0 =
Off; 1 = On
122| 1 Bit| I| C – W – –| DPT_Ack| 0/1| [Tx] Special Mode: Economy| 0 =
Nothing; 1 = Trigger
1 Bit| I| C – W – –| DPT_Switch| 0/1| [Tx] Special Mode: Economy| 0 =
Off; 1 = On
123| 1 Bit| I| C – W – –| DPT_Ack| 0/1| [Tx] Special Mode: Protection| 0
= Nothing; 1 = Trigger
| 1 Bit| I| C – W – –| DPT_Switch| 0/1| [Tx] Special Mode: Protection|
0 = Off; 1 = On
---|---|---|---|---|---|---|---
124| 1 Bit| I| C – W – –| DPT_Window_Door| 0/1| [Tx] Window Status
(Input)| 0 = Closed; 1 = Open
125| 1 Bit| I| C – W – –| DPT_Trigger| 0/1| [Tx] Comfort Prolongation| 0
= Nothing; 1 = Timed Comfort
__
__
126
| __
__
1 Byte
| __
__
O
| __
__
C R – T –
| __
__
DPT_HVACMode
| 1=Comfort 2=Standby 3=Economy 4=Building Protection| __
__
[Tx] Special Mode Status| __
__
1-Byte HVAC Mode
127| 2 Bytes| I| C – W – –| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Setpoint| Thermostat Setpoint Input
2 Bytes| I| C – W – –| DPT_Value_Temp| -273.00º – 670433.28º| [Tx] Basic
Setpoint| Reference Setpoint
128| 1 Bit| I| C – W – –| DPT_Step| 0/1| [Tx] Setpoint Step| 0 =
Decrease Setpoint; 1 = Increase Setpoint
129| 2 Bytes| I| C – W – –| DPT_Value_Tempd| -671088.64º – 670433.28º|
[Tx] Setpoint Offset| Float Offset Value
130| 2 Bytes| O| C R – T –| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Setpoint Status| Current Setpoint
131| 2 Bytes| O| C R – T –| DPT_Value_Temp| -273.00º – 670433.28º| [Tx]
Basic Setpoint Status| Current Basic Setpoint
132| 2 Bytes| O| C R – T –| DPT_Value_Tempd| -671088.64º – 670433.28º|
[Tx] Setpoint Offset Status| Current Setpoint Offset
133| 1 Bit| I| C – W – –| DPT_Reset| 0/1| [Tx] Setpoint Reset| Reset
Setpoint to Default
1 Bit| I| C – W – –| DPT_Reset| 0/1| [Tx] Offset Reset| Reset Offset
134| 1 Bit| I| C – W – –| DPT_Heat_Cool| 0/1| [Tx] Mode| 0 = Cool; 1 =
Heat
135| 1 Bit| O| C R – T –| DPT_Heat_Cool| 0/1| [Tx] Mode Status| 0 =
Cool; 1 = Heat
136| 1 Bit| I| C – W – –| DPT_Switch| 0/1| [Tx] On/Off| 0 = Off; 1 = On
137| 1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] On/Off Status| 0 = Off;
1 = On
138| 1 Bit| I/O| C R W – –| DPT_Switch| 0/1| [Tx] Main System (Cool)| 0
= System 1; 1 = System 2
139| 1 Bit| I/O| C R W – –| DPT_Switch| 0/1| [Tx] Main System (Heat)| 0
= System 1; 1 = System 2
140| 1 Bit| I| C – W – –| DPT_Enable| 0/1| [Tx] Enable/Disable Secondary
System (Cool)| 0 = Disable; 1 = Enable
141| 1 Bit| I| C – W – –| DPT_Enable| 0/1| [Tx] Enable/Disable Secondary
System (Heat)| 0 = Disable; 1 = Enable
142, 148| 1 Byte| O| C R – T –| DPT_Scaling| 0% – 100%| [Tx] [Sx]
Control Variable (Cool)| PI Control (Continuous)
143, 149| 1 Byte| O| C R – T –| DPT_Scaling| 0% – 100%| [Tx] [Sx]
Control Variable (Heat)| PI Control (Continuous)
1 Byte| O| C R – T –| DPT_Scaling| 0% – 100%| [Tx] [Sx] Control
Variable| PI Control (Continuous)
144, 150| 1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control
Variable (Cool)| 2-Point Control
1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control Variable (Cool)|
PI Control (PWM)
__
145, 151
| 1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control Variable
(Heat)| 2-Point Control
1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control Variable (Heat)|
PI Control (PWM)
1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control Variable|
2-Point Control
1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] Control Variable| PI
Control (PWM)
146, 152| 1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] PI State
(Cool)| 0 = PI Signal 0%; 1 = PI Signal
Greater than 0%
__
147, 153
| 1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] PI State (Heat)| 0 = PI Signal 0%; 1 = PI Signal
Greater than 0%
1 Bit| O| C R – T –| DPT_Switch| 0/1| [Tx] [Sx] PI State| 0 = PI Signal 0%; 1 = PI Signal
Greater than 0%
162| 2 Bytes| O| C R – T –| DPT_Value_Temp| -273.00º – 670433.28º|
[Internal Probe] Current Temperature| Temperature Sensor Value
---|---|---|---|---|---|---|---
163| 1 Bit| O| C R – T –| DPT_Alarm| 0/1| [Internal Probe] Overcooling|
0 = No Alarm; 1 = Alarm
164| 1 Bit| O| C R – T –| DPT_Alarm| 0/1| [Internal Probe] Overheating|
0 = No Alarm; 1 = Alarm
Join and send us your inquiries about Zennio devices:
https://support.zennio.com
Zennio Avance y Tecnología S.L. C/ Río Jarama, 132. Nave P-8.11 45007 Toledo
(Spain).
Tel. +34 925 232 002.
www.zennio.com
info@zennio.com
Technical Support: https://support.zennio.com
https://www.zennio.com
References
Read User Manual Online (PDF format)
Read User Manual Online (PDF format) >>