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Zennio Z41 Lite Touch Panel Manual

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KNX Capacitive Colour Touch Panel
ZVI-Z41LIT
USER MANUAL
Application Program Version: [1.0]
User Manual Version: [1.0]_a
www.zennio.com
Z41 Lite
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Contents
1 Introduction .......................................................................................................................... 4
1.1 Z41 Lite .......................................................................................................................... 4
1.2 Functionality .................................................................................................................. 5
1.3 Installation ..................................................................................................................... 6
1.3.1 Firmware Updates .................................................................................................. 8
2 Configuration......................................................................................................................... 9
2.1 Menu Page .................................................................................................................... 9
2.2 General-Purpose Pages ............................................................................................... 10
2.3 Profile Page ................................................................................................................. 10
2.4 Configuration Page ...................................................................................................... 12
2.5 Backlight ...................................................................................................................... 14
2.6 Page Shaping ............................................................................................................... 15
3 ETS Parameterisation .......................................................................................................... 17
3.1 Default Configuration .................................................................................................. 17
3.2 Main Configuration ..................................................................................................... 19
3.2.1 General ................................................................................................................. 20
3.2.2 Security................................................................................................................. 22
3.2.3 Touch Lock ........................................................................................................... 25
3.2.4 Internal Temperature Sensor ............................................................................... 27
3.2.5 Energy Monitor Objects ....................................................................................... 28
3.2.6 White-Channel Objects ........................................................................................ 29
3.2.7 Firmware Update ................................................................................................. 29
3.3 Menu ........................................................................................................................... 30
3.3.1 Configuration ....................................................................................................... 30
3.4 Page n .......................................................................................................................... 31
3.4.1 Configuration ....................................................................................................... 31
3.4.2 Box i ...................................................................................................................... 33
3.4.2.1 Indicator ................................................................................................... 33
3.4.2.2 1-button Control ....................................................................................... 38
3.4.2.3 2-button Control ....................................................................................... 41
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3.4.2.4 Climate Control ......................................................................................... 50
3.4.2.5 Other......................................................................................................... 58
3.5 Profile Page ................................................................................................................. 74
3.5.1 Configuration ....................................................................................................... 74
3.6 Configuration Page ...................................................................................................... 75
3.6.1 Configuration ....................................................................................................... 75
3.7 Thermostat n ............................................................................................................... 76
3.8 Inputs ........................................................................................................................... 77
ANNEX I. Communication Objects............................................................................................... 78
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1 INTRODUCTION
1.1 Z41 LITE
Z41 Lite is an easily and intuitively controllable high-performance colour touch
screen. Its built-in features and functions make it the ideal solution for integral room
control in hotels, offices or any other environments where controlling climate systems,
lighting systems, shutters, scenes, etc. is required.
The most outstanding features of Z41 Lite are:
4.1 inch backlit capacitive touch panel.
User interface with various pre-set colour patterns and themes.
Multiple direct action functions, fully customisable.
Control distribution across up to 6 customisable pages.
Full climate management.
Programmable timers.
Scene control.
Alarm control.
2 independent thermostats.
Built-in temperature sensor.
2 customisable analogue-digital inputs.
Elegant design, available in various colours.
Note: overall, Z41 Lite offers similar functionality to other Z41 products from Zennio,
although some specific design features have been slimmed down to make it an even
more competitive product. Please note that Z41 Lite does not incorporate an
Ethernet interface, and therefore is not intended for installations where a remote
control (i.e., through the Z41 Remote application) of the device is required.
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1.2 FUNCTIONALITY
The Z41 Lite application program features the following functions:
6 General-Purpose Pages, with up to 8 Fully-Customisable Boxes each,
which the integrator may configure as indicators or controls.
Indicators:
o Binary (icon or text).
o Enumerated (icon or text).
o Unsigned integer (8 / 16 bits).
o Signed integer (8 / 16 bits).
o Scaling (percentage).
o Floating point (16 bits).
1-button Controls:
o Binary (pre-set value; switch; hold &
release; short press, long press…).
o Unsigned integer (8 / 16 bits).
o Signed integer (8 / 16 bits).
o Scaling (percentage).
o Floating point (16 bits).
o Scene (run / save).
2-button Controls:
o Binary (icon, text, number).
o Enumerated (icon, text).
o Unsigned integer (8 / 16 bits).
o Signed integer (8 / 16 bits).
o Percentage (Scaling).
o Floating point (16 bits).
o 2 scenes (run / save).
o Shutters.
o Light dimming.
Climate Specific Controls:
o Temperature setpoint control.
o Mode (cool/heat or extended).
o Special modes
o Fan.
Other Controls:
o RGB.
o RGBW.
o Energy consumption (4 Bytes).
o Daily timer.
o Weekly timer.
o Alarm.
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1 Profile Page (optionally), which lets the user modify, directly from the user
interface, parameters such as the brightness, contrast and colour pattern of
the screen, and the sound of the button press beeps.
1 Configuration Page (optionally), which contains the time/date setting, the
built-in temperature probe calibration and the alarm log, among others.
1.3 INSTALLATION
Figure 1 shows the connection outline of Z41 Lite:
Figure 1 Schematic diagram
Z41 Lite connects to the KNX bus through the built-in terminal (4). An external DC
power supply (12v / 24v / 29v) which delivers at least 150 mA of current is also
required. The KNX power and the external power must be electrically isolated and
provided by separate supplies, in order to avoid interference to the KNX bus. This
external power must be supplied to the device through the corresponding terminal (2)
provided within the original packaging, ensuring that each cable is properly connected
and respecting the electrical polarities positive and negativefrom the supply to the
device.
In addition to the external supply, Z41 Lite makes use of a button battery (LR44),
located at the corresponding slot (6), to help maintain the time and date updated in
case of a failure of the external power supply.
1.- Mini-USB connector.
2.- External power input.
3.- Temperature sensor.
4.- KNX bus connection.
5.- Analogue/digital inputs.
6.- Slot for the button battery.
7.- Prog./Test button.
8.- Prog./Test LED.
9.- Magnet.
9
8
6
1
3
5
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Note: immediately after connecting the external supply, the device will perform an
automatic calibration, which may result deviated if it takes place while any type of
pressure is being made over the front panel. In case of an unexpected behaviour in
touch recognition, it will be necessary to disconnect and connect the device back,
avoiding making pressure over the panel, in order to perform a new calibration.
After the connection of the external power supply, the screen will blink for an instant. A
few seconds later, a welcome screen containing the Zennio logo and the Loading…
label will be shown. Once the load process ends, the Status page will come up (see
Figure 2).
Figure 2 Status Page
This screen is divided into boxes, which contain the following information:
The KNXbox shows the individual address assigned to the screen (in case
of no assignment, this will show as “x.x.x”).
TheSoftwarebox will show empty in absence of an application program. In
general, it will indicate if the download software is correct (“OK”) or if it is
found to be corrupt due to download issues (“ERROR”).
The Sync box shows, as a percentage, the progress of the internal
synchronisation of the device during the start-up. Once it reaches 100%, the
Status page will disappear and the Menu page will come up.
Last, the SW Version box shows the version of the application program
currently loaded to the device.
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The Status page will also show up during bus failures in case the external power (12-
24-29v) is not interrupted.
Note: although the device will not turn functional until it is powered with the external
supply, the KNX bus power should be enough to perform downloads from ETS
(application program, group addresses, etc.).
A short press on the programming button (7) will make the device enter the
programming mode. The programming LED (8) will then light in red. On the contrary,
if this button is held while the device gets connected to the bus, Z41 Lite will enter the
safe mode. In such case, the programming LED will blink in red colour.
The Mini-USB connector (1) is provided for firmware updates (see section 1.3.1).
For detailed information about the technical features of Z41 Lite, as well as on security
and installation procedures, please refer to the device Datasheet, included within the
device packaging and also available at www.zennio.com.
1.3.1 FIRMWARE UPDATES
Z41 Lite incorporates two separate microcontrollers. One of them is focused on
interfacing with the KNX bus and on running the application program itself, while the
second one is dedicated to running the firmware that implements the operating system
and the management of the peripherals.
Therefore, an occasional update of Z41 Lite may consist in two phases:
Downloading the new application program (from ETS),
Downloading the new firmware.
For the latter, it is necessary to connect of a flash memory USB drive to the Mini-USB
port (see 5 in Figure 1), through the proper adapter cable. Please note that Z41 Lite
does not provide an Ethernet interface for firmware update purposes.
For further details on the update process, please refer to the specific document “Z41
USB firmware update, available at www.zennio.com.
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2 CONFIGURATION
2.1 MENU PAGE
The user interface of the Z41 Lite touch screen is organised into pages (up to eight
different pages), each of which can be accessed from the Menu page, which (unless
the contrary has been parameterised) is automatically shown after the start-up.
Figure 3 Menu Page (example)
As Figure 3 shows, the access to the pages is provided by a set of icons, which may
show other (smaller) icons overlaid, such as an exclamation or a lock. Exclamations
reflect that there are active alarms (see epigraph g) in section 3.4.2.5) within the page,
while a lock reflects that the access to the page is password-protected (see section
3.2.2).
On the other hand, 6 out of the 8 pages are general-purpose pages at the entire
disposal of the integrator, who may include up to 8 controls/indicators (with different
functionalities) per page, being even possible to combine alarm, climate or any other
controls within the same page. The remaining two pages (Profile and Configuration)
are specific-purpose, as they are provided for user customisation of the device in
runtime.
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The user interface permanently shows a top bar (containing the name of the current
page as well as the current time of day and temperature) and a button at the bottom of
every page to get back to the Menu page:
Figure 4 Menu button
2.2 GENERAL-PURPOSE PAGES
The integrator can make use of up to 6 general-purpose pages, each of which can hold
up to 8 different indicators or controls (with no restrictions for combining them) which
will show inside the pages, automatically distributed or not, according to page
parameterisation. For more details on the box distribution, refer to section 2.6.
The parameterisable controls for the general-purpose pages and their behaviour will be
described in detail in section 3.
2.3 PROFILE PAGE
The Profile page lets the final user perform certain adjustments on the visual and
audible side of the user interface:
Figure 5 Profile Page
The specific controls that can be made available for the Profile page are:
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Contrast.
Brightness.
Theme: desired colour combination, among eight different options:
Figure 6 Themes
Melody: desired tune (among three different options) for the beeps emitted
on button presses or as a feedback on action executions. One more
possibility is to make these beeps silent (alarm beeps will still sound).
Note that the labels of the controls in the Profile page, as well as the title of the page
itself, are customisable in ETS. Moreover, it is possible to make any of the described
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controls remain hidden for the final user. These details are explained in section 3,
together with the entire parameterisation process.
2.4 CONFIGURATION PAGE
The Configuration page lets the user know or adjust certain technical values about the
device.
Figure 7 Configuration Page
Date / Time: even though the device implements two communication objects
(see section 3.1) for setting the internal time and date from an external
device, they can also be adjusted (if such option has been enabled by
parameter) directly from the user interface. Therefore, by pressing this button,
a set of controls will pop up to let the user set the current hour (0-23),
minutes, day, month and year.
Figure 8 Time Set Control
Z41 features an internal clock powered by a battery (see section 1.3),
because of which the time/date will not be lost after downloads or reboots.
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Programming Button: control/indicator that shows the status of the
programming LED of the device. In particular, it permits entering/leaving the
programming mode as by pressing the actual programming button of the
device (see section 1.3) in case the rear side of Z41 Lite cannot be accessed.
Reset: holding this button for a few seconds (i.e., a long press is required)
sets the device back to a certain state, which can be set in ETS:
ETS Reset Device: similar to a device reset from ETS, with the
subsequent reset of the object values, alarm controls, timers, etc.
Z41 Reboot: simple device reset, with no data loss (zeroing).
ETS Reset Device and Z41 Reboot: the above two, combined.
Note: alarm logs, consumption logs or any other historic logs are not reset to
zero in any case (such thing takes only place after a firmware download; see
section 1.3.1). Nevertheless, a device reset from ETS does reset any
adjustment performed by the final user from the Profile and Configuration
pages (excepting the time / date, which is controlled by an internal clock).
Alarm Log: log file where alarm events will be incorporated as soon as they
occur. This centralised file may be useful when the user needs to check the
status of a set of alarm controls distributed across several pages.
Figure 9 Alarm Log
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Hence, the alarm log will contain a listing, in reverse chronological order,
where the name, time and date of every alarm event will be shown. In
addition, the log will show the current status of each of them, which may be:
“ON”: the alarm is still active or has not been acknowledged by the
user.
“OK”: the user has acknowledged the alarm event, but the
corresponding object is still in the alarm state.
“OFF”: the user has acknowledged the alarm event and the
corresponding object has already left the alarm state.
For more information on alarms, see epigraph g) in section 3.4.2.5.
Software Version: indicator that shows the version of the device firmware
currently installed on the device (see section 1.3.1).
Probe Calibration: control for setting a certain correction over the values
thrown by the internal temperature probe. This way, if the value of the
measurement is found to be slightly over (or below) the actual temperature
due to external factors, the final user will have the option to set an adjustment
of between -5.0ºC and +5.0ºC, in steps of 0.C. In addition, it is possible to
set an initial value for such correction by parameter.
Note: any changes made on the calibration of the internal probe will be
applied beginning with the next measurement performed. Therefore, they
may not be perceived immediately.
The labels of the controls in the Configuration page, as well as the title of the page
itself, are customisable in ETS. Moreover, it is possible to make any of the described
controls stay hidden for the final user. These details are explained in section 3,
together with the entire parameterisation process.
2.5 BACKLIGHT
In order to prevent unnecessary power consumption while the device is idle, Z41
automatically fades partially out the backlight of the screen after a few minutes without
any user interaction. After that, if the inactivity persists for a few more minutes, the
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backlight is completely turned off. While partially or totally faded out, any press on the
screen will bring back the normal light level.
The timings for the above behaviour may differ in case a pop-up window is open, as
well as depending on the configuration set in parameters (see section 3.2.1).
2.6 PAGE SHAPING
Each of the pages of the user interface including Menu and Profile can be
independently parameterised to display its control/indicator boxes statically distributed
or automatically ordered.
Static (grid) Distribution: all the 8 boxes of the page will be shown,
remaining empty those not having been assigned a function.
Figure 10 Static Distribution
Automatic Distribution: the active boxes will be dynamically ordered, so that
they make use of all the available space. The final distribution of the page will
therefore depend on the number of boxes with a function assigned.
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Figure 11 Dynamic Distribution of the enabled boxes
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3 ETS PARAMETERISATION
To begin with the parameterisation of Z41 Lite, once the ETS program is running it is
necessary to import the product database (Z41 Lite application program). Next, the
device is added to the project and, after right-clicking on the name of the device, the
option “Edit parametersmust be selected to start the configuration process.
The next sections explain the ETS parameterisation of the device in depth.
Note: the amount of characters permitted for text parameters (labels, etc.) by ETS may
differ depending on whether they contain special characters (symbols, accents…)
coded with more than one byte. It is advisable to verify that these texts fit properly on
the screen, with independence of whether they reach the maximum text length allowed
by ETS or not.
Important: whenever the device is updated to a new version of the application program
from ETS, it is also necessary to update the firmware of the secondary microcontroller
(responsible for the operating system; see section 1.3.1) in case an updated version
exists. If the installed versions of the application program and the firmware do not
match, the device may not work correctly (the Software box in the Status page will
show the word Error”).
3.1 DEFAULT CONFIGURATION
This section illustrates the default initial state of the device.
Figure 12 Default Topology
The general objects enabled by default are:
[General] Time: 3-byte object for setting the internal time of the device, for
example, by linking it to a KNX clock. This object also allows read requests,
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so the current time of the device can be checked. It is also automatically sent
after time changes made by the user from the screen itself.
Note: although the DPT of this object considers a field for setting the day of
the week, Z41 Lite calculates it from the date and therefore ignores that field.
[General] Date: 3-byte object for setting the internal date of the device, for
example, by linking it to a KNX clock. This object also allows read requests,
so the current date of the device can be checked. It is also automatically sent
after date changes made by the user from the screen itself.
[General] Scenes: send: 1-byte object through which scene run/save orders
(1 to 64 according to the KNX standard) can be sent to the bus in case any of
the boxes is configured as a scene control or as a timer.
[General] Internal Temperature: 2-byte object through which the value of
the current measurement of the built-in sensor will be sent to the bus,
according to the parameterisation (see section 3.2.4).
[General] Illumination: 1-bit object that, after the reception of the value “1”
from the bus, will bring the backlight of the screen to the maximum level,
while the reception of the value “0” will have no effect. This maximum
illumination will last for a certain time, according to the explanation in section
2.5.
[General] Touch Lock: 1-bit object that, after the reception of the value “1”
from the bus, will lock the touch panel so that user presses are ignored from
that moment. Touch locking will be interrupted as soon as the value “0” is
received through this object. See section 3.2.3.
During the parameter configuration, a screen similar to Figure 13 will be shown.
Figure 13 Parameter Screen shown by default
As shown in Figure 13, the parameter window is initially divided into four main tabs:
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Main Configuration, which contains a few more tabs:
General,
Security,
Touch lock,
Internal Temperature Sensor,
Energy Monitor Objects,
White Channel Objects.
Firmware Update.
Menu, which contains one more screen by default:
Configuration, from which it is possible to activate and configure each of
the six general-purpose pages of the device (see section 2.2).
Profile Page, which itself will contain one more screen:
Configuration, from which it is be possible to activate and configure the
Profile page (see section 2.3).
Configuration Page, which itself will contain one more screen:
Configuration, from which it will be possible to activate and configure the
Configuration page (see section 2.4).
The following sections will detail the parameterisation process of each of the above
tabs, including the initially hidden screens, which will become visible depending on the
selected options.
3.2 MAIN CONFIGURATION
This tab is divided into multiple screens, all of which contain a set of global parameters
regarding the general functionality of the device, and therefore not specifically related
to a particular page of the user interface.
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3.2.1 GENERAL
Figure 14 General (Main Configuration)
The General screen contains the following parameters:Power Supply
Voltage: lets the integrator specify the particular voltage of the external
supply powering Z41 Lite. The available values are 12 (by default), 24 and 29
volts. Selecting one option or another will only cause an internal correction
over the temperature value measured by the built-in probe.
Default Theme (after programming): permits selecting the user interface
colour scheme (out of 8 different options) to be loaded after the ETS
download. The final user will have the option to switch the scheme from the
Profile page (see section 2.3), unless such option is disabled by parameter.
Screen Illumination: lets defining whether the backlight should behave
during inactivity according to section 2.5 (Turn off screen), or if on the
contrary the screen should never turn off entirely (Attenuate the screen) or
not even attenuate the light level (Max illumination always).
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Note: the default option is encouraged. Permanent illumination may affect
adversely the device lifetime, and is only intended for special circumstances.
Show Time: sets whether the current time (according to the internal clock)
should show in the upper left corner of every page. The default is “Yes”.
Show Temperature: sets whether the current temperature should show or
not in the upper right corner of every page, being necessary in such case to
choose the source of the temperature value: “Internal temperature probe” or
External value”. If the latter is chosen, an object named [General] External
temperature will be enabled, so that it can be grouped with any other object
that sends temperature values.
Time/Date Sending Period: when enabled (value different from zero),
whenever the device is restarted, the date and time objects (“[General] Date
and “[General] Time”) will be sent to the bus, and thereafter, they will be sent
again every time the period expires. Setting a new time to the device either
through object or from the date/time configuration window will not restart the
count of the sending period. Range: [0-65535] x 1 min. The default value is
10 min.
Thermostat 1: checkbox (unselected by default) that activates/deactivates
the Thermostat 1 parameter screen. See section 3.7.
Thermostat 2: idem for Thermostat 2. See section 3.7.
Weekdays Initials (Mon... Sun): field that permits customising the label that
represents each of the weekdays within the configuration pages of the weekly
timers (see epigraph e) in section 3.4.2.5). A 7-character string (including
letters or numbers) should be entered, so each of the characters will
represent one weekday. The default value is “MTWTFSS, according to the
initial letters of the day names in English.
Label for Time ON”: field that permits customising the label that will be
shown within the configuration pages of the weekly timers (see epigraph e) in
section 3.4.2.5), next to the checkbox that enables/disables the sending of
the switch-on order. The default value is Time ON”.
Label for Time OFF”: field that permits customising the label that will be
shown within the configuration pages of the weekly timers (see epigraph e) in
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section 3.4.2.5), next to the checkbox that enables/disables the sending of
the switch-off order. The default value is Time OFF”.
Label for Scene: field that permits customising the label that will be shown
within the configuration pages of the weekly timers (see epigraph e) in section
3.4.2.5), next to the checkbox that enables/disables the sending of scenes.
The default value is Scene”.
3.2.2 SECURITY
Figure 15 Security (Main Configuration)
This screen permits selecting how many security levels (one or two) will be available
for the configuration of the access to the control pages. In other words, it permits
setting one or two different passwords, so the integrator can afterwards configure
whether the access to each page will be protected by one password or another, or
remain unprotected every page can be independently configured. Figure 16 shows
the “enter password” dialog shown to the user when trying to access a protected page.
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Figure 16 Password Insertion Dialog (for password-protected pages)
In case of setting up two levels, the first one is assumed to be enclosed by the second
one. This means that whenever the device asks the user to type password #1 (to enter
a certain page); password #2 will also be accepted. On the contrary, password #1
cannot be used instead of password #2. This behaviour permits, therefore, making
password #2 available to users with further privileges while password #1 is assigned to
users with fewer privileges.
The parameters on the Security screen are:
Security Levels: dropdown list for selecting whether one (default option) or two
security levels will be available. Depending on the selection, the parameter
below (Password) may show once or twice.
Note: with independence of the option selected here, it will be necessary to
establish the security level desired for each specific page of controls.
Password: parameter made of four additional textboxes, each of which should
contain one of the four consecutive digits (0-9) that will compose the password.
The default password is “1234”.
In case of enabling two security levels, the Password parameter will show twice,
being the first one referred to the password of Level 1, and the second one to
the password of Level 2. The default password for Level 2 is “5678”.
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Figure 17 Two Security Levels
Important: the password insertion dialog features a specific option (lower left
button) that lets the user change, in runtime, the passwords originally set by
parameter. After accessing this option and prior to typing the new password,
the user will be required to type the corresponding old password (level 1 or
level 2). Note that although it will be possible to type password 2 even if the
device asks for password 1, the new password typed afterwards will be
anyway stored as the new password for level 1.
Security Pad Levels: parameter consisting in six additional textboxes,
intended for the customisation of the messages that the device shows (or
may show) when the user interacts with the password insertion dialog. Up to
15 characters are permitted per label.
Label for Password 1”: message shown when the user is required to
type in the password for level 1. By default, Password 1”.
Label for Password 2”: message shown when the user is required to
type in the password for level 2. By default, Password 2”.
Label for “Error”: message shown to the user when the typed password
is not valid. By default, ERROR”.
Label for New password: message shown to ask the user for a new
password, during the password change process. By default, New
password”.
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Label for Repeat password: message shown when the user is required
to re-type the new password. By default, Repeat password”.
Label for Updated: message shown to the user as a confirmation of the
password change. By default, Updated”.
Buttons that lead to a protected page from the Menu page (see section 2.1) will show a
little lock icon overlaid on their lower left corner.
3.2.3 TOUCH LOCK
Figure 18 Touch Lock (Main Configuration)
This screen is provided for the configuration of the “welcome” and “touch lock” objects.
By default two parameters are shown:
Touch Locking: dropdown list with the following options: 0=Touch enabled;
1=Touch disabled” (default value) and 0=Touch disabled; 1=Touch enabled”.
Depending on the selection, sending one value or another (“0” or 1”) to
object [General] Touch lock will lock/unlock the touch panel. The detailed
behaviour of this object is described in section 3.1.
Welcome Object: dropdown list with the following options: Disabled” (default
value), “1-bit objectandScene”.
If Disabledis selected, this functionality will remain inactive. Therefore,
nothing will happen when, after a certain standby period, the user resumes
the interaction with the touch panel.
If “1-bit objectis selected, the [General] Welcome Object binary object is
enabled and two more parameters turn visible:
Value: value (“0or “1”) that will be sent to the bus. By default it is “1”.
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Time to Activate the Welcome Object: minimum time of inactivity (in
minutes) before a new press on the touch panel triggers the sending of
the welcome object. By default, it is 1 minute.
Figure 19 Touch Lock (Time to activate the welcome object configuration1 bit object)
If Scene is selected, the [General] Scenes: Send object, already
enabled in the beginning, will work as the welcome object. In this case, the
following two parameters come up:
Scene Number: number of the scene (1-64) that will be sent to the bus.
The default value is “1”.
Time to Activate the Welcome Object: minimum time of inactivity (in
minutes) before a new press on the touch panel triggers the sending of
the parameterised scene. By default, it is 1 minute.
Figure 20 Touch Lock (Time to activate the welcome object configuration - Scene)
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3.2.4 INTERNAL TEMPERATURE SENSOR
Figure 21 Internal Temperature Sensor (Main Configuration)
This screen permits configuring the internal temperature sensor of the device. Three
parameters are provided for this:
Sensor Calibration: permits setting a certain correction over the values
thrown by the internal temperature probe. This way, if the value of the
measurement is found to be slightly over (or below) the actual temperature
due to external factors, it is possible to set an adjustment between -5.0ºC and
5.0ºC (0.0ºC by default), in steps of 0.1ºC. The value set here may be
optionally changed, in runtime, from the Configuration page (see section 2.4).
Sending Period: cycle time (in tens of a second) for sending the value of the
measured temperature to the bus. This sending is made through the
[General] Internal temperature object (see section 3.1), enabled by default.
The permitted values are 0 to 100 tens of a second. The value “0” (set by
default) deactivates this sending to the bus.
Send with a Temperature Change: permits performing a specific sending of
the temperature value to the bus through the [General] Internal
Temperature object whenever an increase or decrease greater or equal
than a certain value is detected between two consecutive measurements, no
matter if a periodic sending has been enabled or not. Such value (unsigned)
must be entered here, in terms of tenths of a degree. To avoid having this
extra sending on temperature changes, simply leave the default value (“0”).
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3.2.5 ENERGY MONITOR OBJECTS
Figure 22 Energy Monitor Objects (Main Configuration)
This screen contains six checkboxes, each of which allows enabling or disabling one
communication channelthat may be used for bus reception of energy consumption
data.
Every channel implements four communication objects:
[Energy x] Power: 2-byte object to be linked to external objects that send
power values, such as the power measuring objects implemented by KES,
the energy saver device from Zennio.
[Energy x] Energy: 4-byte object to be linked to external objects that send
energy values, such as the energy measuring objects implemented by KES,
the energy saver device from Zennio.
[Energy x] CO2: 2-byte object to be linked to external objects that reflect CO
2
volumes, such as those implemented in KES, the energy saving device from
Zennio, which represent in floating-point format the kilograms of CO
2
emitted
to the atmosphere due to a certain energetic consumption.
[Energy x] Cost: 2-byte object to be linked to external objects that express,
as floating point values, the cost of the energy consumption, in terms of the
local currency. For example, the cost estimation objects implemented by
KES, the energy saver device from Zennio.
So, when any of the six channels is enabled, the four communication objects
corresponding to that channel will show up.
For further information about these objects and about power consumption monitoring in
Z41 Lite, please refer to epigraph c) in section 3.4.2.5.
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3.2.6 WHITE-CHANNEL OBJECTS
Figure 23 White-Channel Objects (Main Configuration)
This screen contains four checkboxes that allow the integrator enable or disable up to
four 1-byte communication objects independently, named [RGBW] White Channel x,
through which regulation orders (expressed as percentage values) may be sent to the
white colour channels of one or more RGBW light dimmers.
For further information about the usage of these objects and about the per-channel
dimming controls implemented by Z41 Lite, please refer to epigraph b) in section
3.4.2.5.
3.2.7 FIRMWARE UPDATE
Figure 24 Firmware Update (Main Configuration)
This tab lets the integrator enable or disable the device firmware update function (see
section 1.3.1) through the USB port. The only parameter is:
USB Updating: “Enabled” (default option) or “Disabled”.
Note: Z41 Lite does not provide an Ethernet interface for firmware update
purposes.
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3.3 MENU
The Menu tab contains only one screen, Configuration.
3.3.1 CONFIGURATION
Figure 25 Configuration (Menu)
The Configuration screen, under the Menu tab, permits configuring the Menu page
itself, as well as a set of general options related to the enabled pages of controls that
can be accessed from the Menu page.
The parameters available are:
Title: text field that defines the title that will be shown on the top of the Menu
page.
Automatic Page Shaping: dropdown list that allows choosing whether the
boxes in the Menu page should be automatically distributed (option Yes”)
depending on the number of boxes configured, or be displayed as a static 2x4
grid (option No”). See section 2.6.
Default Page: dropdown list that sets the page (Menu, or any of the general-
purpose pages) that will behave as the default page. This page will be the
one shown after one minute of inactivity, assuming that such page has been
enabled and it is not protected with password.
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In addition, one checkbox is shown per general-purpose page (that is, pages 1 to 6), as
well as two more checkboxes for the Profile and Configuration pages. Each of these
checkboxes will allow enabling or disabling the corresponding page in the device a
specific ETS tab will appear upon the activation of a page. The next sections of this
manual describe these tabs in detail.
3.4 PAGE n
When any of the general-purpose pages is enabled from the Configuration screen
under the Menu tab, a new tab named Page n will appear, where n is the number of
the page.
Under this tab, one screen (Configuration) will be initially displayed to let the
integrator enable or disable each of the boxes in the page. Depending on that, more
parameter screens will appear.
Note: figures in this section will show the parameters of a certain page (for instance,
page 1) or a certain box (for instance, box 1). The parameters for other pages or boxes
are totally analogous.
3.4.1 CONFIGURATION
Figure 26 Configuration (Page n)
This screen contains the following parameters:
Title: text field that sets the title shown on the top of the Menu page.
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Automatic Page Shaping: dropdown list that allows choosing whether the
boxes in the Menu page should be automatically distributed (option “Yes”)
depending on the number of boxes configured, or be displayed as a static 2x4
grid (option “No”). See section 2.6.
Icon: sets the icon that will represent the page in the Menu page.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
Protected: dropdown list that allows setting whether the access to the page
will be protected by password or not. Depending on the security levels
configured (one or two; see section 3.2.2) this list will contain the following
options:
One level:
No: the page will not be protected by password. All users can access it.
Yes: the page will be protected by password. Users will be asked to type
the password when trying to access it.
Two levels:
No: the page will not be protected by password. All users can access it.
Level 1: the page will implement security level 1. To access it, users will
be required to enter password 1 or password 2.
Level 2: the page will implement security level 2. To access it, users will
be required to enter password 2.
Finally, eight checkboxes are provided to let the integrator enable or disable each of
the eight boxes in the page. When enabled, every box will have its own parameter
screen (Box i) under the corresponding Page n tab. The next section explains the
parameterisation process of these boxes.
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3.4.2 BOX i
Figure 27 Box i (Page n)
This screen contains the following parameters:
Label: identifying title for the box.
Visualization: box format, which may be: Indicator (default option; the box
will simply work as a status indicator), 1-button control (the box will work as a
one-button control), 2-button control (the box will work not only as a status
indicator, but also as a two-button control), Climate control (the box will act as
a climate indicator and a climate control) or Other (the box will implement
some other functionality).
Depending on the Visualization type selected, the parameters below will change.
The following sections explain the available parameters depending on the
visualization type selected.
3.4.2.1 INDICATOR
Figure 28 Indicator (Box)
Boxes configured as indicators permit implementing a set of different functions. The
desired function must be selected through the Function parameter. The available
functions and the related parameters are:
a) Binary Indicator (Icon)
The box will behave as a binary state indicator. Each of the two states will be
shown in the box through the selected icon. When this function is assigned to
the box, the [Pn][Bi] Binary indicator communication object become available,
as well as the parameters that permit selecting the icon to be displayed when
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the object acquires the value “0” (Icon Off) and the icon to be displayed when it
acquires the value “1” (Icon On).
Figure 29 Binary Indicator (Icon)
Therefore, when the device receives the values “0” or “1” through the
aforementioned object, the box will show one icon or another.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
b) Binary Indicator (Text)
The box will behave as a binary state indicator. Each of the two states will be
shown in the box through a different label. When the box is assigned this
function, the [Pn][Bi] Binary indicator object will become available, as well as
the parameters that permit typing the text to be shown when the object receives
a “0” (Text Off) and that to be shown when it becomes “1” (Text On).
Therefore, when the device receives the values “0” or “1” through the
aforementioned object, the box will show one text or another.
Figure 30 Binary Indicator (Text)
c) Enumerated Indicator (Icon)
The box will behave analogously to the case of the Binary indicator, (Icon)
however, it will be possible to distinguish up to 6 states (configurable through
the # Enums parameter) instead of only two. The states will be determined by
the reception of any values between 0 and 255, instead of only values 0 and 1.
When this function is assigned to the box, a 1-byte communication object,
[Pn][Bi] Enumerated Indicator, will become available as well as two more
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parameters (Value and Icon) for each of the states to be distinguished. This
allows setting which icon will be shown in the box upon the reception of which
value through the communication object.
Figure 31 Enumerated Indicator (Icon)
Example: a three-state enumerated indicator (“3” under “# Enum”) is
parameterised as follows:
Value 1 = “1” Icon 1 = “One”
Value 2 = “3” Icon 2 = “Two”
Value 3 = “5” Icon 3 = “Three
When the [Pn][Bi] Enumerated Indicator object receives the value “1”, the
box will show icon One”. When it receives the value “3”, icon “Twowill be
shown. And when it receives the value 5”, icon Threewill show. In case of
receiving any other value, no icon will be shown.
d) Enumerated Indicator (Text)
The box will behave analogously to the case of the Binary indicator (Text)
however it will be possible to distinguish up to 6 states (configurable through the
# Enums parameter) instead of only two. The states will be determined by the
reception of any values between 0 and 255, instead only by values 0 and 1.
When this function is assigned to the box, one 1-byte communication object,
[Pn][Bi] Enumerated Indicator, will become available as well as two additional
parameters (Value and Text) for each of the states to be distinguished. This
allows setting which texts will be displayed in the box upon the reception of
which values through the communication object.
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Figure 32 Enumerated Indicator (Text)
e) Numerical Indicators
Figure 33 1-Byte Indicator (Unsigned Integer)
The remaining functions under Indicator are shown in Table 1. In all of these
cases, the box will behave as a numerical state indicator that permanently
displays the value of a certain communication object, which is enabled when
the function is assigned to the box.
Function Range Related object
1-byte (unsigned int.) 0– 255 [Pn][Bi] 1-byte unsigned int indicator
1-byte (signed int.) -128 127 [Pn][Bi] 1-byte signed int indicator
Percentage indicator 0% 100% [Pn][Bi] Percentage indicator
2-byte (unsigned int.) 0 65535 [Pn][Bi] 2-byte unsigned int indicator
2-byte (signed int.) -32768 32767 [Pn][Bi] 2-byte signed int indicator
2-byte (floating point) -671088.64 670760.96 [Pn][Bi] 2-byte float indicator
Table 1 Numerical indicators
The table contains the allowed value ranges and the name of the object for
each case.
In the particular case of the 2-byte floating point indicator, the integrator will be
shown a text field (Float Unit), empty by default, that permits specifying the
measuring units (up to 6 characters) of the displayed value, for instance “ºC”.
Moreover, for this particular case, the device will dynamically adjust the number
of the decimal figures shown depending on the order of magnitude of the
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current value: two for values greater than 0 and lower than 0.1; one for values
between 0.1 and 100; and none for other cases (and analogously for negative
values).
All these numerical indicators incorporate an additional parameter, Save Log?.
In case of enabling this option (Yes”), any changes in the value of the indicator
will be continuously saved to an internal log file, so the final user can be
afterwards offered a visual representation that reflects the chronological
evolution of such value. Boxes for which this option has been enabled will show
a small icon overlaid on their upper left corner.
Figure 34 Indicator implementing the Log Function
Boxes showing this icon let the user press them, which will bring up a pop-up
window similar to Figure 35.
Figure 35 Graphical representation of the Log File
The graph (where the vertical scale will dynamically adapt to the values being
represented) shows the chronological evolution of the value, with higher or
lower detail (hourly, daily, weekly, monthly; see Figure 36) depending on the
zoom level set by the user by means of the on-screen magnifying glass control.
In the case of the lower detail levels, the graph will show the average values per
time unit (day or month) as well as the maximum and minimum values.
Finally, the bin icon (lower right corner of the screen) lets the user, by
performing a long press, delete the contents of the log file, thus setting the
values of the monitor to zero.
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Figure 36 Different Detail Levels (log file)
3.4.2.2 1-BUTTON CONTROL
Boxes configured as 1-button controls show one centred button and a title.
Figure 37 1-Button Control (Box)
The desired function must be selected through the Function parameter. The available
functions and the parameters related to each are:
a) Binary Control
The central button of the box will react to user presses by sending a binary
value to the bus through the [Pn][Bi] Binary control object, which turns visible
as soon as this function is assigned to the box.
Figure 38 Binary control
On the other hand, Action permits setting what value will be sent to the bus
through the mentioned object, and on what events. The options are:
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Toggle: pressing the button will cause an alternate sending of the
values “1and “0”. Particularly, on the first press one “1” will be sent; on
the second, one “0”; on the third, one “1”; and so on.
0: one “0” will be sent whenever the button is pressed.
1: one “1” will be sent whenever the button is pressed.
Short 1 Long 0: short presses will cause the sending of the value “1”,
while long presses will cause the sending of the value “0”.
Short 0 Long 1: inverse to the previous case.
Hold 0 Release 1: one “0will be sent when the button press starts,
and one “1as soon as the button is released.
Hold 1 Release 0: one “1” will be sent when the button press starts,
and one “0” as soon as the button is released.
Finally, the dropdown list next to Button (in the middle) permits selecting the
icon to be displayed inside the button.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
b) Numerical Constant Controls
If the box is assigned any of the remaining constant control options, the
central button in the box will react to user presses by sending a certain
numerical value, which is required to be specified under Constant value.
Figure 39 1-byte constant (unsigned int)
Table 2 shows, for every available Function, the permitted value range and the
name of the object through which the values are sent to the bus.
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Function Range Object
1-byte constant (unsigned int.) 0 – 255 [Pn][Bi] 1-byte unsigned int control
1-byte constant (signed int.) -128 127 [Pn][Bi] 1-byte signed int control
Constant percentage value 0% 100% [Pn][Bi] Percentage control
2-byte constant (unsigned int.) 0 65535 [Pn][Bi] 2-byte unsigned int control
2-byte constant (signed int.) -32768 32767 [Pn][Bi] 2-byte signed int control
2-byte constant (float) -671088.64 670760.96 [Pn][Bi] 2-byte float control
Table 2 Numerical constant controls
Finally, the dropdown list next to Button (in the middle) permits selecting an
icon to be displayed inside the button.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
c) Scene Control
In this case, the central button of the box will react to user presses by sending
a scene value to the KNX bus through the [General] Scenes: send object,
which is enabled by default. Parameter Scene number permits specifying the
number of the scene (1 64) to be sent. Moreover, Action (which shows the
options Run and Run and save”) sets whether the device will only send
scene execution orders (after a short press) or if it will be possible, in addition
to sending execution orders upon short presses, to send scene save orders in
the case of a long press.
Figure 40 Scene control
Finally, the dropdown list next to Button (in the middle) permits selecting an
icon to be displayed inside the button.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
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3.4.2.3 2-BUTTON CONTROL
Figure 41 2-button control (Box)
Boxes configured as 2-button controls consist in an indicator and two buttons that,
when touched, trigger the sending of an action to the KNX bus through a certain object.
This category also includes some specific controls such as light dimming and shutter
control.
As a general rule, most of the 2-button controls permit configuring a pair of parameters,
Left button and Right button, each containing a dropdown list for the selection of the
icons to be displayed inside the buttons in the box.
Notes:
A list with all icons available in Z41 Lite can be found in document “Z41 Lite
Icon list”, available at www.zennio.com.
When multiple presses are made consecutively on the buttons of a control
that regulates (e.g. increases / decreases) the value of a certain variable, only
the final value selected by the user will be sent to the bus, to prevent an
unnecessary bus traffic due to all the intermediate values.
On the other hand, the Function parameter contains a dropdown list for the selection
of the particular two-button control type to be assigned to the box. The available
options (and their related parameters) are:
a) Binary Control (Icon)
Figure 42 Binary Control (Icon)
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When the user touches the buttons, a binary value will be sent through the
[Pn][Bi] Binary control object, while the status object, [Pn][Bi] Binary
indicator, will determine the icon shown in the box.
The parameters available are:
Action: sets the value to be sent on button touches. This can be Left 0,
Right 1” (by default) or “Left 1, Right 0”.
Off Icon and On Icon: dropdown lists for the selection of the icons that will
represent the two states (0 / 1) of the [Pn][Bi] Binary Indicator object,
which gets automatically updated whenever an order is sent through the
control object. It may also receive values from the bus.
b) Binary Control (Text)
Figure 43 Binary Control (Text)
When the user touches the buttons, a binary value will be sent through the
[Pn][Bi] Binary Control object, while the status object, [Pn][Bi] Binary
Indicator, will determine the text that will be shown in the box.
The parameters available are:
Action: sets the value to be sent on button touches. This can be Left 0,
Right 1” (default) or “Left 1, Right 0”.
Text Off and Text On: indicative texts that will be shown in the box
depending on the state (0 / 1) of the [Pn][Bi] Binary Indicator object,
which gets automatically updated whenever an order is sent through the
control object. It may also receive values from the bus.
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c) Enumerated Control (Icon)
The box will behave analogously to the case of the Binary control (Icon)
however it will be possible to distinguish up to 6 states (configurable through
the # Enums parameter) instead of only two. The states will be determined by
the reception of any values between 0 and 255, as the control ([Pn][Bi]
Enumerated Control) and the status ([Pn][Bi] Enumerated Indicator) objects
are not binary but 1-byte objects.
Figure 44 Enumerated Control (Icon)
The parameters available are:
# Enums: number of states (up to 6) that will be distinguished. For every
distinguished state, the parameters Value and Icon will become available,
in order to relate every significant value of the communication object to a
certain icon that will represent it.
Value j: numerical value (0 255) that will be sent through the control
object when the user, after pressing the buttons, sets the control box to
state j.
Icon j: indicative icon that will be displayed in the box when the status
object (which gets automatically updated whenever a control order is sent,
although it may also receive values from the bus) acquires the numerical
value defined in the above parameter.
d) Enumerated Control (Text)
The box will behave analogously to the case of the Binary control (Text)
however it will be possible to distinguish up to 6 states (configurable through
the # Enums parameter) instead of only two. The states will be determined by
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the reception of any values between 0 and 255, as the control ([Pn][Bi]
Enumerated Control) and the status ([Pn][Bi] Enumerated Indicator) objects
are not binary but 1-byte objects.
Figure 45 Enumerated Control (Text)
The parameters available are:
# Enums: number of states (up to 6) that will be distinguished. For every
distinguished state, the parameters Value and Icon will become available,
in order to relate every significant value of the communication object to a
certain icon that will represent it.
Value j: value (0 255) that will be sent through the control object when
the user, after pressing the buttons, sets the control box to state j.
Text j: indicative text that will be displayed in the box when the status
object (which gets automatically updated whenever a control order is sent,
although it may also receive values from the bus) acquires the numerical
value defined in the above parameter.
e) Numerical Controls
If the box is assigned any of the six numerical functions, user touches over the
buttons will trigger the sending of a certain numerical value to the bus (which
will be progressively increased or decreased with every touch on one button or
the other) through the control object, while the box itself will permanently reflect
the current value of the status object (which gets automatically updated after a
control order is sent, although it may also receive values from the bus).
Table 3 shows, for each of the six functions, the permitted value range and the
name of the control and status objects
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Table 3 Numerical Controls
For all the six functions, the parameters available are:
Figure 46 1-Byte (Unsigned Int.) 2-Button Control
Action: sets which of the two buttons will increase the current numerical
value and which will decrease it on user presses. The allowed options are
Left Decrease, Right Increase” (default) and Left increase, Right
Decrease”.
Range Control object Status object
1-byte (unsigned int.)
0 255 [Pn][Bi] 1-byte unsigned int control [Pn][Bi] 1-byte unsigned int indicator
1-byte (signed int.)
-128 127 [Pn][Bi] 1-byte signed int control [Pn][Bi] 1-byte signed int indicator
Percentage control
0% 100% [Pn][Bi] Percentage control [Pn][Bi] Percentage indicator
2-byte (unsigned int.)
0 65535 [Pn][Bi] 2-byte unsigned int control [Pn][Bi] 2-byte unsigned int indicator
2-byte (signed int.)
-32768 32767 [Pn][Bi] 2-byte signed int control [Pn][Bi] 2-byte signed int indicator
2-byte (float)
-671088.64 670760.96 [Pn][Bi] 2-byte float control [Pn][Bi] 2-byte float indicator
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Initial Value: sets which value from the permitted range will be assumed
by the control prior to any button presses. It is always 0 by default.
Minimum Value: sets which value from the available range will be the
minimum value permitted by the control after a number of presses on the
decrease button.
Maximum Value: sets which value from the available range will be the
maximum value permitted by the control after a number of presses on the
increase button.
Short Increment: sets the increase or decrease to be applied to the
current value on every short press over the increase or decrease buttons,
respectively (i.e., the smaller the increment is, the more presses will be
required). It is 1 by default, except for the case of the 2-byte floating point
control, where it is 0.5.
Long Increment: sets the increase or decrease to be applied to the
current value on every long press over the increase or decrease buttons,
respectively (i.e., the smaller the increment is, the more presses will be
required). It is 10 by default, except for the case of the 2-byte floating point
control, where it is 1.
f) Two-button Scene Control
Figure 47 2-Button Scene Control
Analogously to the 1-button scene control, 2-button scene controls allows
sending the KNX bus a scene value through the [General] Scenes: send
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object, however in this case there will be two buttons in the box, each of which
can be configured independently.
Through the Scene parameter it is possible to assign each of the two buttons
(left / right) the number of the scene to be sent (1 64). In addition, Action
(which permits the options “Run” and “Run and save”) lets the integrator set
whether the device will only send execution orders for the specified scene (after
a short press), or it will possible, apart from sending execution orders on short
presses, to also send save orders for such scene, in the case of performing a
long press on the button
Last, the dropdown list under Button Icon sets the icon to be displayed by the
buttons.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
g) Shutter Control
Shutter controls permit sending move up, move down, stop or step shutter
orders to the KNX bus by pressing the buttons in the box. In addition, the box
will contain an indicator that will permanently show, as a percentage, the value
of the status object.
Figure 48 Shutter Control
The only specific parameter for this function is:
Action: sets which of the two buttons will send the move up orders and
which the move down orders. Options are Left Down, Right Up” (default)
andLeft Up, Right Down”.
Setting up a box as a shutter control enables three communication objects,
[Pn][Bi] Shutter Position (1 byte), [Pn][Bi] Move Shutter and [Pn][Bi] Stop
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Shutter (both, binary objects). The first one acts as the status object, which
determines the value shown in the box; it will be necessary to link it to the
analogous object from the shutter actuator (as it does not get automatically
updated on user presses) so it receives the value 100% when the shutter is
completely down, and the value 0% when it is totally up. On their side, control
orders will be sent through one of the two remaining objects:
Orders to move the shutter up/down (completely) are sent through [Pn][Bi]
Move Shutter after a long press on the corresponding button. Value “0”
represents the move up order, while “1” represents the move down order.
Orders to perform a step movement (value “0” for steps up and “1” for
steps down) are sent through [Pn][Bi] Stop Shutter after a short press on
the corresponding button. If the shutter was already in movement, these
orders are interpreted by the actuator as a stop order.
h) Light Dimming
The light control function permits making use of the two buttons in the box to
send orders to a light dimmer, either through a binary object or through a 4-bit
object. Moreover, the box will permanently display the current value of the
dimming status object, which needs to be linked to the analogous object from
the dimmer (as it does not get automatically updated on button presses).
Figure 49 Light Dimming
The parameters available are:
Action: sets which of the two buttons will send the turn onorders and
which the turn off orders. Options are “Left Off, Right On(default) and
Left On, Right Off.
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Dimming Step: sets the increase or decrease in the light level (in terms of
percentage) the dimmer must perform with every step order. How step
dimming works is detailed below.
Setting up a box as a dimming control brings up the objects [Pn][Bi] Light
Indicator (1 byte), [Pn][Bi] Light On/Off (1 bit) and [Pn][Bi] Light
Dimming (4 bits). The first one acts as the dimming status object, which is
required to be linked to the analogous object from the dimmer and whose
value, in percentage, will be permanently reflected in the box. On their
side, control orders will be sent through one of the two remaining objects:
After a short press on the “turn on” button, the value “1” will be sent
through the [Pn][Bi] Light On/Off binary object, while a short press on the
“turn off” button will trigger the sending of the value “0”.
When a long press on the “turn on” button takes place, the object [Pn][Bi]
Light Dimming will send the light increment order corresponding to the
parameterised dimming step, while a stop order (value “8”) will be sent
through the same object as soon as the user releases the button.
When a long press on the “turn off” button takes place, the object [Pn][Bi]
Light Dimming will send the light decrement order corresponding to the
parameterised dimming step, while a stop order (value “0”) will be sent
through the same object as soon as the user releases the button.
Table 4 shows the number of steps (that is, of long presses) required for a
complete light regulation (from totally off to totally on, or vice versa) depending
on the value parameterised as the dimming step.
Dimming Step
Button Presses Required for
Complete Dimming (0 100%)
(1) 100% 1
(2) 50% 2
(3) 25% 4
(4) 12,5% 8
(5) 6,25% 16
(6) 3,1% 32
(7) 1,5% 64
Table 4 Dimming Steps
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Note: most light dimmers implement light step dimming progressively (i.e.,
sending a dimmer a step order of 25% typically does not imply that the light
level is suddenly incremented/decremented by 25%, but a progressive
increment or decrement of the light level by 25% which is in fact interrupted if a
stop order arrives (such order is sent by Z41 Lite when the user releases the
button). Due to this behaviour, it is advised to parameterise dimming steps of
100%, so that the user can perform a complete dimming (from totally off to
totally on, or vice versa) or a partial dimming by simply holding the button and
then releasing it as soon as he gets the desired light level, therefore with no
need of performing successive long presses for regulations greater than the
parameterised step.
3.4.2.4 CLIMATE CONTROL
This category covers a set of functions related to the climate control. The available
options for Function (and for the dependent parameters) are as follows:
a) Setpoint Control
This function permits controlling the temperature setpoint of an external
thermostat by means of a two-button box and of the parameters enabled to that
effect: [Pn][Bi] Temperature Control for the control and [Pn][Bi]
Temperature Indicator for the status. In addition, the box itself will
permanently reflect the value (in ºC) of the status object, whose value gets
automatically updated after sending control orders (that is, after pressing the
buttons), being even possible to receive values from the bus, for example, from
the corresponding setpoint status object from the external thermostat.
Figure 50 Setpoint
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Therefore, after every press on the temperature increment button, the bus will
be sent (through the control object) a certain value, progressively increased on
every button press until the parameterisable maximum setpoint value has been
reached. Analogously, after every press on the temperature decrement button,
the bus will be sent a progressively decreased value until the parameterisable
minimum setpoint value has been reached.
The parameters available are:
Action: sets which of the two buttons will permit increasing the setpoint
value and which one will permit decreasing it. Options are Left decrease,
Right increase” (default) andLeft increase, Right decrease”.
Setpoint Type: it may be “Absolute” (default), “Relative (1-bit object)” or
“Relative (Float Object).
If the first is selected, the control object will be a 2-byte floating point object
and its value will correspond to the actual setpoint value to be sent to the
thermostat, being progressively higher or lower as the user touches the
control buttons. On the other hand, the permitted temperature setpoints
will be delimited by a maximum value and a minimum value, defined by
the so-named parameters.
Figure 51 Absolute Setpoint Control
If the second option is selected (1-bit object setpoint control), the control
object will be binary, and it will throw a “0” to the bus whenever the user
asks for a setpoint decrement, and a “1” when the user asks for an
increment. How much it is incremented or decreased after every order is
defined through the offset parameter (which accepts values between 1
and 255 tenths of a degree), thus permitting a consistent self-update of the
label in the box after every user press, although the status object will also
admit the reception of feedback from the bus, i.e., the updated absolute
setpoint value sent from the external thermostat.
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Figure 52 Relative (1 Bit) Setpoint Control
Finally, when “Relative (float object)” is selected, the control will send 2-
byte floating point values. However, these values will correspond to the
particular increment or decrement (or offset) to be applied each time. This
offset refers to a base temperature and will always be a multiple of 0.5ºC.
As the user touches the increase/decrease buttons in the box, this offset
will vary, always within a certain range defined through the Minimum
Offset and Maximum Offset parameters.
Figure 53 Relative (Float Object) Setpoint Control
Example: suppose the following parameterisation:
- Relative setpoint with a floating point object,
- Minimum offset = -10ºC,
- Maximum offset = 10ºC.
The objects are linked to those from an external thermostat, which can be supposed to
have a base temperature setpoint of 25ºC. After the parameter download:
1. The first touch on the increase button will trigger the sending of the value0.5”, so
that the thermostat sets the setpoint to 25.C. This value will be then sent through
the status object, and afterwards shown by Z41 Lite in the corresponding box.
2. A second touch will trigger the value “1”, after which the setpoint will become 26ºC.
3. On the third touch, the value sent will be “1.5”, so the setpoint will be set to 26.C.
And so on until the offset sent becomes 10 (setpoint of 35ºC). Any further presses on
the increase button will send the value 10” again, so the setpoint will remain at 35ºC,
while touching the decrease button for the first time will trigger the sending of the value
“9.5”, setting the temperature back to 34.5ºC. On the second button press, the value
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“9” will be sent, and the setpoint will become 34ºC. And so on until an offset of “-10
(setpoint of 15ºC) is reached. From that moment, any further presses on the decrease
button will re-send the value “-10 and the setpoint will remain at 1C.
Important: the control object for the floating point relative setpoint control
has its Write flag enabled with the intention of permitting the reception of
feedback from the thermostat, which may reset or modify the status of the
offset for any reason at any time. This feedback allows that Z41 Lite
updates its own value to equal that from the external thermostat. Thinking
of the above example, if Z41 Lite receives the value 0after having the
user performed three presses on the increase button (therefore, after
having been sent the value “1.5to the bus), it will happen that on the forth
press the value sent will be “0.5and not 2”.
Figure 544 Relative (Float) Setpoint Control. Object Linking.
Note: the parameterised setpoint type becomes transparent to the final
user, as the aspect of the on-screen box remains the same in all cases. In
addition, the setpoint status object is always a 2-byte floating point object
and will represent, in any case, the absolute value of the current
temperature setpoint.
Left Button and Right Button: permit selecting the desired icon to be
displayed inside each button in the box.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
b) Mode Control
This function turns the box into a climate mode control.
Z41
Lite
Thermostat
Control object
Status object
Offset
Offset (status)
Setpoint T. (status)
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Figure 55 Heat/Cool Mode Type
Two mode control types are possible: the Heat / Cool control type and the
Extended (HVAC) control type. Selecting the former or the latter is possible
through the Mode Type parameter.
Heat / Cool
Selecting this type of mode control turns the box into a 2-button control
one of which will activate the Heat mode, while the other one will activate
the Cool mode. A centred indicator will reflect, as an icon, the currently
active mode.
Figure 56 Heat/cool Mode (Box)
Two communication objects are also enabled: the [Pn][Bi] Mode Control
control object and the [Pn][Bi] Mode Indicator status object. When the
user activates the Cool mode, the device will send the value “0” through
the control object, while on the activation of the Heat mode the value “1”
will be sent. Moreover, the box will automatically commute between one
icon and the other every time the user executes a mode change, and also
on the reception of a new value (from the bus) through the status object.
Extended
Selecting this type of mode control turns the box into a 2-button control,
which permit sequentially commuting among the different HVAC climate
modes. A centred indicator will reflect, as an icon, the currently active
mode.
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Figure 57 Extended Mode (Box)
Up to five modes (Heat, Cool, Auto, Fan and Dry) are available, each of
which can be enabled/disabled in ETS by means of the proper checkbox,
which permits setting which of all the five extended modes will be included
into the sequential scrolling implemented by the buttons.
Figure 58 Extended Mode
When this type of mode control is assigned to the box, two 1-byte
communication objects are enabled: the [Pn][Bi] Mode Control control
object, and the [Pn][Bi] Mode Indicator status object. Depending on the
mode selected by the user, the control object will be sent to the bus a
certain value (see Table 5), after which the box will display the icon that
corresponds to the new mode. Additionally, if the status object receives
from the bus a value that represents any of the modes, the box will adopt
the corresponding icon, while if an unrecognised value is received, no icon
will be shown.
Mode Value sent
Heat
1 (0x01)
Cool 3 (0x03)
Auto 0 (0x00)
Fan 9 (0x09)
Dry 14 (0x0E)
Table 5 HVAC Mode vs. Object Value
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Finally, the Left Button and Right Button parameters permit selecting the
icon that will be displayed inside the buttons of the box.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
c) Fan Control
This function implements a 2-button (increase / decrease) fan control, as well
as an icon indicator.
Figure 59 Fan Control
When this function is assigned to the box, a binary control object ([Pn][Bi] Fan
Control) and a 1-byte status object ([Pn][Bi] Fan Indicator) are enabled. The
former will be sending the value “1” to the bus when the user touches the
increase button, while the value “0” will be sent when the decrease button is
touched. On the other hand, the status object (which needs to be linked to the
status object of the fan actuator) will express, as a percentage, the value of the
current fan level, which will be represented with a variable icon on the box.
The parameters available are:
Action: permits setting the increase or decrease actions to one button or
another. Options are: “Left: decrease, Right increase” (default) and Left
increase, Right decrease”.
Fan Type: defines the number of states to be distinguished depending on
the value of the status object, so more or less different icons will be used
to represent the fan level in the box.
Min / Max: the first state (minimum) will correspond to any value within
the range 0% to 49%, both included; the second state (maximum) will
correspond to all values greater than 49%.
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Min / Med / Max: levels between 0% and 33%, both included,
correspond to the minimum state; values between 34% and 66%, to
the medium state; and values over 67% to the maximum state.
Auto / Min / Med / Max: a level of 0% will be interpreted as the Auto
state; levels between 1% and 33%, both included, correspond to the
minimum state; levels between 34% and 66% will be considered as
the medium state; and a value of 67% or more will correspond to the
maximum state.
Off / Min / Med / Max: 0% will be associated to the off fan state;
between 1% and 33%, both included, to the minimum state; values
between 34% and 66% will be interpreted as the medium state; and
67% and over will correspond to the maximum state.
Left Button and Right Button: permit selecting the icon that will be
displayed inside the buttons of the box.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
d) Special Mode Control
Figure 60 Special Mode Control (Box)
Boxes configured as special mode controls include two buttons that let the user
sequentially commute between the different special climate modes, as well as
an icon indicator that will adopt an aspect or another depending on the
currently active special mode.
Figure 61 Special Modes
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When this function is assigned to the box, two 1-byte objects ([Pn][Bi] Special
Mode Control as the control object, and [Pn][Bi] Special Mode Indicator as
the status object) will be enabled. The former will be sending the bus the value
that corresponds to the mode that the user selects by touching the buttons (see
Table 6), while the status object (which can receive values from the bus
although it gets self-updated as well on button presses) will determine the
indicative icon represented in the box at any time. If this object receives an
unrecognised value from the bus, no icon will be displayed in the indicator.
Special Mode Icon Object Value
Comfort
1 (0x001)
Standby
2 (0x002)
Economy
3 (0x003)
Protection
4 (0x004)
Table 6 Special Modes vs. Icon vs. Object Value
The remaining parameters for this function are:
Allow Protection Mode: this parameter permits excluding (“No”, default
option) or including (“Yes”) the building protectionmode from the special
modes listed in the sequential scrolling performed by the buttons.
Left Button and Right Button: permit selecting the icon that will be
displayed inside the buttons in the box.
Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
3.4.2.5 OTHER
Figure 62 Other
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This category involves the following functions, which can be selected through the
Function parameter.
a) RGB
This function is intended for sending orders to thee-colour LED light regulators,
such as LUMENTO X3 RGB from Zennio.
Figure 63 RGB
When the function is assigned to the box, the following parameters come up:
Object Type: permits selecting what type of object will be used for
controlling the light level of the RGB channels. It may be Three single
colour objects (DPT 5.001)” (by default) or One RGB object (DPT
232.600)”. If the former is selected, three 1-byte objects will be enabled
(with their Write and Read flags activated, so they can work as control and
status objects) named:
[Pn][Bi] Red Channel
[Pn][Bi] Green Channel
[Pn][Bi] Blue Channel
Control orders will consist in sending the light level (as a percentage) of
the different channels through the corresponding objects.
If the second option is selected, only one 3-byte object will be enabled:
[Pn][Bi] RGB Colour
In this case, the light levels of the three channels are sent (and received)
concatenated into the above 3-byte object.
Left Button and Right Button: permit selecting the icon that will be
displayed inside the buttons in the box.
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Note: a list with all icons available in Z41 Lite can be found in document “Z41
Lite Icon list”, available at www.zennio.com.
Regarding the RGB control boxes themselves, a central label will permanently
show, as a percentage, the current light level (which is determined by the
channel with the highest current light level). This indicator gets updated
automatically as the user interacts with the box, but is also conditioned by the
values received from the bus through the already described objects.
Figure 64 RGB (Box)
Moreover, two buttons can be found in the box:
The button on the left, which is an On/Off switch, permits commuting
between a total absence of light in the three channels, and their respective
states previous to the switch-off.
The button on the right, when pressed, launches a colour palette that
permits the selection of a light level for every channel, either by touching
on any of the pre-set colours, or by separately selecting the level of each
channel (R, G, B).
Figure 65 RGB Colour Palette
A set of recently used colours is shown at the bottom of the palette. These
colours refer to those recently used within that particular box.
Confirmation Button &
Current Colour
Pre-set
Colours
Recent Colours
Precise Per-Channel
Controls
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b) RGBW
Although totally analogous to the function just described, the RGBW control
additionally permits controlling one extra channel specifically for white light,
intended for dimmers that implement such function, such as LUMENTO X4
RGBW from Zennio.
Figure 66 RGBW
Therefore, the functionality is similar to that of the RGB control (including the
possibility of controlling the RGB channels both through 1-byte objects or
through a sole 3-byte object), however one additional parameter (RGBW
Channel) is provided to let the integrator select which of the four white
channels available will be regulated by the box. The channel selected here
must have been specifically enabled from the White Channel Objects screen
(see section 3.2.6) under the Main configuration tab, which will make the
[RGBW] White Channel x available for sending dimming orders to the white
channel.
Important: although it is possible to assign the “RGBW controlfunction to any
box from any page, it is only permitted to control as many as four different white
channels, as it is not possible to have a different [RGBW] White Channel x for
each of the boxes. This restriction does not apply to the R, G and B channels
from the RGB or RGBW controls: each box will make use of its own
communication objects for regulating such channels.
Finally, RGBW control boxes look similarly to RGB control boxes:
Figure 67 RGBW (Box)
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Nevertheless, when the colour palette of an RGBW box is brought up, a forth
increase/decrease regulator is shown together with the three regulators shown
in the case of the RGB control boxes:
Figure 68 RGBW Colour Palette
c) Energy Monitor (KES)
This function permits making use of one of the boxes of Z41 Lite as a monitor of
information related to energy consumption which may be reported by devices
such as KES from Zennio– and in particular, as a monitor of the evolution of the
instant power.
Figure 69 Energy Monitor (KES). Box.
Figure 70 Energy Monitor (KES)
When the user touches any of these boxes, a pop-up window similar to Figure
71 will be shown.
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Figure 71 Energy Monitor (KES). Pop-Up Window.
Prior to detailing the elements shown in the pop-up window, the ETS
parameters for this type of function will be described:
Energy Monitor Channel: dropdown list for the selection of the channel (1
6) that will be associated to the box. The channel selected here must
have been enabled from the Energy Monitor Objects screen (see section
3.2.5) under the Main configuration tab. This way, the box will be
monitoring the values received through the [Energy x] Power, [Energy x]
Energy, [Energy x] CO2 and [Energy x] Cost objects, where “x” is the
number of the assigned channel.
Important: although it is possible to assign the “Energy monitor (KES)”
function to any box from any page, it is only possible to control as many as
six different energy channels, as it is not possible to have an exclusive
channel for each of the boxes.
Energy Consumption: determines whether the pop-up window should
show the instant value of the [Energy x] Energy object or not.
CO2: determines whether the pop-up window should show the instant
value of the [Energy x] CO2 object or not.
Cost: determines whether the pop-up window should show the instant
value of the [Energy x] Cost object or not.
When this function is assigned to the box, two 1-bit communication objects
show up: [Pn][Bi] Energy Monitor: Request and [Pn][Bi] Energy Monitor:
Evolution of the Power
Consumption Object.
Instant Value of the
Energy, CO
2
and Cost
Objects.
Zoom Level
Validation / Reset / Refresh
Buttons
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Reset. The first of them is intended for sending a request from Z41 Lite to KES
asking for the updated values of the energy measurement, which requires
having the object properly linked to the request object from KES, while the
second object will permit sending reset orders from Z41 Lite to KES, so that all
the energy consumption, CO
2
and cost variables are set to zero, which requires
having the object properly linked to the reset object from KES. Please refer to
the user manual of KES for further information.
Note: the energy monitor objects in Z41 Lite have no restrictions about the
meaning of the data they receive from the bus, so it is entirely at the integrator’s
choice whether the box will monitor estimations, average consumptions, real
consumptions, etc.
Finally, in the pop-up window that shows up when the box is pressed, the
following elements are present:
Evolution of the Power Consumption object: shows, as a graph, the
chronological evolution of the value of the power object ([Energy x]
Power). The horizontal axis will show different time lapses (hours, days, or
months), depending on the selected zoom level.
Instant Value of the Energy, CO
2
and Cost objects: indicator that,
depending on whether the Energy consumption, CO2 and Cost
parameters have been enabled, will show the current value of,
respectively, the [Energy x] Energy, [Energy x] CO2 and [Energy x]
Cost objects.
Zoom Level: two-button control that lets the user change the time scale, so
more / less detail is shown in the graph of the evolution of the power
object. The behaviour and the representation of the data are similar to
those of the numeric data log (see epigraph e) in section 3.4.2.1).
Validation / Refresh / Reset buttons: permit, respectively, closing the pop-
up window, sending a reset order (value “1” through the [Pn][Bi] Energy
Monitor: Reset object) and requesting an updated consumption report
(value “1” through the [Pn][Bi] Energy Monitor: Request object).
d) Daily Timer
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Figure 72 Daily Timer
Boxes configured as daily timers let the final user program a timed sending of a
value to the bus, being possible to send binary or scene values (according to
the parameterisation) at a certain time (either every day or only once) or at the
end of a countdown.
Figure 73 Daily Timer (Box)
Hence, when the user presses on the box, a window containing the necessary
controls for setting up a timed sending (either at a specific time or after a
countdown) will pop up.
Figure 74 Daily Timer (Pop-Up Window)
This window contains the following elements:
Timer Type: two-button selector to step through the following options:
Timer
inactive.
Timer active
(every day).
Timer active
(no repetition).
Timer active
(countdown).
Timer type
selector
Time selector
Value to be sent
Binary value to be sent, or
“Scene” icon
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Time Selector: depending on the selected timer type, permits setting the
time for the automated sending, or the length of the countdown.
Value to be Sent: in case of having parameterised the sending of a binary
value, this control lets the user determine the concrete value to be sent
(“OFF” or “ON”). In the case of the sending of a scene, this control is not
shown, as the scene number is set by parameter.
Hence, at the time set by the user or once the countdown ends, the bus will be
automatically sent the corresponding value, through the [Pn][Bi] Daily Timer
Control object (for binary values) or through the [General] Scenes: Send
object (in case of scene values). In both cases the [Pn][Bi] Daily Timer
Enabling binary object will be available, making it possible to disable (by
sending the value “0”) or to enable (value “1”) the execution of the timed
sending set by the user. By default, timed sending is always enabled.
Note: in case of disabling a sending through [Pn][Bi] Daily Timer Enabling,
the corresponding box will show the “forbidden” icon, although the box will not
lose the configuration previously set by the user.
Finally, this function offers the following parameters in ETS:
Timer Type: switches between “1-bit value” (default option) andScene”.
Scene Number: shown only after selecting “Scene for the above
parameter. This field defines the number of the scene (1-64) that will be
sent to the bus on the execution of the timed sending.
e) Weekly Timer
Figure 75 Weekly Timer
Boxes configured as weekly timers let the final user program a timed sending of
a binary or scene value to the bus (according to the parameterisation) at a
certain time on certain days (on a weekly basis).
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The difference between the daily and the weekly timers is that the latter does
not permit the countdown-based sending, although it does permit that a time-
based sending takes place every week, on the days selected by the user.
Figure 76 Weekly Timer (Box).
Hence, when the user presses on the box, a window similar to Figure 77 will
pop up
Figure 77 Weekly Timer (Pop-Up Window).
This window contains the following elements:
Day Selector: lets the user select the days on which the timed sending will
take place.
Value to be Sent (ON / OFF): lets the user set the value to be sent. It can
be “ON” or “OFF”, or even both at different times. One time selector is
provided for each of the two values.
Note: if instead of the sending of a binary value, the sending of a scene
value has been parameterised, only one checkbox and one time selector
will be shown, so the user can enable/disable the sending of the scene
value and, if enabled, set the desired time.
Time Selector: let the user set the time at which the automatic sending will
take place.
Day selector
Value to be sent
(ON / OFF)
Time selector
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Hence, at the specified time on the days selected by the user, the bus will be
automatically sent the corresponding value through the [Pn][Bi] Weekly
Timer Control object (in the case of sending a binary value) or through the
[General] Scenes: Send object (in the case of sending a scene number). In
both cases the [Pn][Bi] Weekly Timer Enabling binary object will be
available, making it possible to disable (by sending the value “0”) or to enable
(value “1”) the execution of the timed sending set by the user. By default,
timed sending is always enabled.
Note: in case of disabling a sending through [Pn][Bi] Weekly Timer
Enabling, the corresponding box will show the “forbidden” icon, although the
box will not lose the configuration previously set by the user.
Finally, this function offers the following parameters in ETS:
Timer Type: switches between “1-bit value” (default option) and “Scene”.
Scene Number: shown only after selecting “Scene” for the above
parameter. This field defines the number of the scene (1-64) that will be
sent to the bus on the execution of the timed sending.
Note: the execution of user-defined timers is triggered on the detection of
state transitions, even if the clock does not specifically pass through the
specified time. In other words, supposing one timed sending of the value “ON
at 10:00h am and one timed sending of the value “OFFat 8:00h pm, if the
internal clock is set to 9:00h pm just after 10:00h am (and therefore after
having sent the value “ON), then the “OFF order corresponding to 8:00h pm
will take place immediately after the time change.
f) Chrono-thermostat:
Boxes configured as chrono-thermostats let the final user schedule the timed
sending of temperature setpoint orders (preceded by switch-on orders) or
switch- off orders to a thermostat through the KNX bus.
To that end, it is necessary to configure the following two parameters:
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Figure 78 Chrono-thermostat
Minimum Setpoint Value: minimum setpoint value the user will be able
to set. Range: [-20, 95] x 1ºC. Default value: 18ºC.
Maximum Setpoint Value: maximum setpoint value the user will be able
to set. Range: [-20, 95] x 1ºC. Default value: 30ºC.
When a box is configured as a chrono-thermostat, it looks as follows:
Figure 79 Chrono-thermostat (box)
The switch button on the left activates / deactivates the chrono-thermostat,
that is, resumes or stops the execution of the timed actions that may have
been configured (the configuration is not lost during the deactivation). While
the chrono-thermostat is not active, icon is shown next to the switch button.
On the other hand, when the user touches on the calendar icon, a new
window will pop up to let the user set the actions to be executed:
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Figure 80 Chrono-thermostat (pop up)
Each box configured as a chrono-thermostat contains four pages with six
customisable timers each, being possible for the user to configure up to 24
timed actions.
The buttons on the bottom of the window let switching across the four pages,
as well as closing the pop-up window (button ).
For each of the six timed actions of each page it is necessary to select, on the
first hand, the days of the week on which the action should be performed, as
well as the specific time of day.
After that, the user should select (through controls and ) the
temperature setpoint that will be sent. The range of this value is restricted
by parameters “Minimum Setpoint Value” and “Maximum Setpoint Value”.
Note: the timed sending of a temperature setpoint is always preceded by a
switch-on order.
Instead of a temperature setpoint, it is also possible to send a switch-off
order to the thermostat. In such case, the user must successively press on the
above control until one of the range limits is reached, after which the word
OFF” will show on the screen instead of a temperature value.
On the other hand, it is possible to activate or deactivate each action
separately by marking its corresponding checkbox. While this checkbox
remains unmarked, the action configured will not take place.
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On power failures and ETS downloads, chrono-thermostat boxes behave
the same as other user-defined timers: the user configuration will not be lost,
although after an ETS download it will be necessary to enable the chrono-
thermostat manually.
Each chrono-thermostat box entails the following three objects:
[Pn][Bi] Chrono-thermostat: Enabling”: permits activating (value “1”)
or deactivating (value “0”) the chrono-thermostat analogously as from
the on-screen switch button of the box, which will show the icon
while deactivated.
[Pn][Bi] Chrono-thermostat: Temperature Setpoint”: this is the
object through which the timed temperature setpoints will be sent.
[Pn][Bi] Chrono-Thermostat: On/Off”: this is the object through which
the timed switch-off orders will be sent.
g) Alarm
Figure 81 Alarm
Boxes configured as alarms perform user warnings on anomalous events. For
this purpose, boxes of this type are related to a binary object ([Pn][Bi] Alarm
Trigger) that permits receiving alarm messages from the bus, thus making
Z41 Lite emit a continuous beep while the screen light blinks. In addition, the
screen will automatically browse to the page containing the alarm box that has
been triggered. After that moment, pressing on any button of the screen will
interrupt the beeps and blinks although the box will still show an intermitting
icon, which means that the alarm is still active and unconfirmed. Additionally,
the icon of the page that contains the box will also show an exclamation.
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Figure 82 Alarm (Box).
The intermitting exclamation means that the alarm is active and unconfirmed.
However, alarm boxes implement an additional binary object, [Pn][Bi] Alarm
Confirmation, intended for receiving the value “1” from the bus, which will be
interpreted as an acknowledgement of the alarm, thus making the icon
intermittence stop. Alternatively, the alarm can be acknowledged by touching
on the “OK” button in the box itself, which will cause the sending of the value
“1” through the mentioned object.
The alarm will definitely become inactive once it has been confirmed and, in
addition, once the [Pn][Bi] Alarm Trigger object goes back to the “no alarm
state (the order of these two events is irrelevant), after which the icon will
finally turn off.
Figure 83 Alarm state diagram (case of confirmation previous to the alarm end)
There is also the possibility of periodically monitoring the status of the
trigger object, for situations where this object is periodically received from the
bus. This will let Z41 Lite automatically assume the alarm situation if the “no
alarm” value does not get sent through the trigger object after a certain time,
for example upon failures of the transmitter. The maximum time window can
be defined by parameter.
Consequently, alarm boxes permit configuring the following parameters:
Trigger: defines the value that will trigger the alarm (“0or “1”; it is “1” by
default), i.e., the value that, when received through [Pn][Bi] Alarm
Trigger
Not(Trigger)
No
Alarm
Alarm
Alarm
Muted
Alarm
Confirmed
Acknowledgmt.
Random
Button Press
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Trigger, should be interpreted by Z41 Lite as an alarm situation. Implicitly,
this parameter also defines the inverse no alarm” value.
Periodic Monitoring: activates (“Yes”) or deactivates (“No”, default
option) periodic monitoring of the alarm trigger object.
Cycle Time (x 1min.): in case of having selected Yes under the above
parameter, sets the maximum accepted time space without receiving the
“no alarm” value before Z41 Lite adopts the alarm situation.
Example I: supposing a certain sensor responsible for sending the value 1
(once) to the bus when a flood is detected, and the value “0” (again, only
once) when such situation terminates, if the object sent is linked to the alarm
trigger object from an alarm box in Z41 Lite where no periodical monitoring
has been parameterised and where the value “1” has been set as the alarm
value, then Z41 Lite will notify an emergency every time a flood takes place.
The notification will stop as soon as the user touches any button, although a
warning icon will still blink on the screen. After that, if the user acknowledges
the alarm, the icon will stop blinking; switching then off once the sensor sends
a 0”.
Example II: suppose a certain CO
2
sensor responsible for sending the value
“0” to the bus every two minutes, except when it detects a dangerous CO
2
level; in such case, it will immediately send the value “1”. If the object being
sent is linked to the alarm trigger object from an alarm box in Z41 Lite where
periodic monitoring has been parameterised and where the value “1” is
configured as the alarm trigger value, then Z41 Lite will notify the user about
the emergency both if the CO
2
level reaches a dangerous level and if the
sensor stops sending the value “0”, for example due to failures or sabotage.
The user should proceed in the same manner as in the above example to
manage the alarm notification.
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3.5 PROFILE PAGE
The Profile Page tab contains a sole screen, Configuration.
3.5.1 CONFIGURATION
This screen permits the integrator configure the controls that will be available for the
final user within the Profile page (see section 2.3), as well as the label that will identify
them on the screen. Note that the Profile page itself can be activated or hidden from
the Configuration screen, under the Menu tab (see section 3.3.1).
Figure 84 Configuration (Profile Page)
By default, all controls are marked as active. Please refer to section 2.3 for details.
On the other hand, for the Profile page as for any other page, a label (parameter
Title), a box shaping (parameter Automatic Page Shaping; see section 2.6) and a
security level (parameter Protected; see section 3.2.2) can be set.
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3.6 CONFIGURATION PAGE
The Configuration Page tab contains a sole screen, Configuration.
3.6.1 CONFIGURATION
This screen permits the integrator configure the controls that will be available for the
final user within the Configuration page (see section 2.4), as well as the label that will
identify them on the screen. Note that the Configuration page itself can be activated or
hidden from the Configuration screen, under the Menu tab (see section 3.3.1).
Figure 85 Configuration Screen (Configuration Page)
By default, the Time/Date and Programming Button controls are marked as active.
Please refer to section 2.4 for details.
On the other hand, for the Configuration page as for any other page, a label
(parameter Title), a box shaping (parameter Automatic Page Shaping; see section
2.6), and a security level (parameter Protected; see section 3.2.2) can be set.
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3.7 THERMOSTAT n
Figure 86 Configuration Screen (Thermostat n)
When the functions “Thermostat 1” and “Thermostat 2” from the General screen under
the Main configuration tab are enabled, the integrator will be shown two more tabs,
both similar to each other, for the parameterisation of these functions independently.
Under each of the tabs, a set of screens (Configuration, Setpoint, etc.) is provided to
define the type of the thermostatic control the user will be performing from Z41 Lite.
Note: for further information about the behaviour and the parameterisation of the
Zennio Building thermostat implemented by Z41 Lite, please refer to the specific
documentation (“Building Thermostat”) available at www.zennio.com.
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3.8 INPUTS
Z41 Lite incorporates two analogue/digital inputs, each configurable as a:
Binary Input, for the connection of a pushbutton or a switch/sensor.
Temperature Probe, to connect a temperature sensor (model ZN1AC-
NTC68 S/E/F from Zennio).
Motion Detector, to connect a motion detector (models ZN1IO-DETEC-X
and ZN1IO-DETEC-P from Zennio).
Important: older models of the Zennio motion detector (e.g., ZN1IO-DETEC
and ZN1IO-DETEC-N) will not work properly with Z41 Lite, even if they do
with different Z41 models.
For detailed information about the functionality and the configuration of the related
parameters, please refer to the following specific manuals, all of them available at the
Zennio homepage (www.zennio.com):
Binary Inputs in Z41 Lite.
Temperature Probe in Z41 Lite.
Motion Detector in Z41 Lite.
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ANNEX I. COMMUNICATION OBJECTS
Functional range” shows the values that, with 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.
Number
Size
I/O
Flags
Data Type (DPT)
Functional range
Name
Function
1
3 Bytes
I/O
C T R W U
DPT_TimeOfDay
0:00:00 23:59:59
[General] Time
Current Time
2
3 Bytes
I/O
C T R W U
DPT_Date
01/01/1990 -
31/12/2089
[General] Date
Current Date
3
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[General] Scenes: send
Scene Value
4
2 Bytes
O
C T R - -
DPT_Value_Temp
-273,00 - 670760,00
[General] Internal
Temperature
Current Temperature (built
-in sensor)
5
2 Bytes
I
C - - W U
DPT_Value_Temp
-273,00 - 670760,00
[General] External
Temperature
Temperature to show in the display
6
1 Bit
I
C - - W -
DPT_Ack
0/1
[General] Illumination
0=No action; 1=Light Display
7
1 Bit
I
C - - W -
DPT_Switch
0/1
[General] Touch Lock
0=Unlocked; 1=Locked
1 Bit
I
C - - W -
DPT_Switch
0/1
[General] Touch Lock
0=Locked; 1=Unlocked
8
1 Bit
O
C T R - -
DPT_Switch
0/1
[General] Welcome Object
1-bit Generic Control
9, 12, 15, 18,
21, 24, 27, 30,
33, 36, 39, 42,
45, 48, 51, 54,
57, 60, 63, 66,
69, 72, 75, 78,
81, 84, 87, 90,
93, 96, 99, 102,
105, 108, 111,
114, 117, 120,
123, 126, 129,
132, 135, 138,
141, 144, 147,
150
1 Bit
I
C - - W U
DPT_Switch
0/1
[Px][By] Binary Indicator
1-bit Indicator
1 Byte
I
C - - W U
DPT_Value_1_Ucount
0 - 255
[Px][By] Enumerated Indicator
0...255
1 Byte
I
C - - W U
DPT_Value_1_Ucount
0 - 255
[Px][By] 1-byte Unsigned Int
Indicator
0...255
1 Byte
I
C - - W U
DPT_Value_1_Count
-128 - 127
[Px][By] 1-byte Signed Int
Indicator
-
128...127
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Percentage Indicator
0-100%
2 Bytes
I
C - - W U
DPT_Value_2_Ucount
0 - 65535
[Px][By] 2-byte Unsigned Int
Indicator
0...65535
2 Bytes
I
C - - W U
DPT_Value_2_Count -32768 - 32767
[Px][By] 2-byte Signed Int
Indicator
-
32768...32767
2 Bytes
I
C - - W U
9.xxx
-671088,64
670760,96
[Px][By] 2
-byte Float Indicator
-
671088.64...670760.96
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Shutter Position
0%=Top; 100%=Bottom
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Light Indicator
0%=Off; 100%=On
2 Bytes
I
C - - W U
DPT_Value_Temp
-273,00 - 670760,00
[Px][By] Temperature
Indicator
Absolute Float Value
1 Bit
I
C - - W U
DPT_Heat_Cool
0/1
[Px][By] Mode Indicator
0 = Cool; 1 = Heat
1 Byte
I
C - - W U
DPT_HVACContrMode
0 = Auto
[Px][By] Mode Indicator
Heat, Cool, Auto, Fan and Dry
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1 = Heat
3 = Cool
9 = Fan
14 = Dry
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Fan Indicator
0-49%=Min; 50-100%=Max
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Fan Indicator
0-33%=Min; 34-66%=Med; >66%=Max
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Fan Indicator
0=Auto; 1-33%=Min; 34-66%=Med; >66%=Max
1 Byte
I
C - - W U
DPT_Scaling
0% - 100%
[Px][By] Fan Indicator
0=Off; 1-33%=Min; 34-66%=Med; >66%=Max
1 Byte I C - - W U
DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Px][By] Special Mode
Indicator
Comfort, Standby, Economy and Building Protection
1 Byte
I/O
C T R W U
DPT_Scaling
0% - 100%
[Px][By] Red Channel
0-100%
1 Bit
I
C - - W U
DPT_Enable
0/1
[Px][By] Alarm Trigger
Trigger
1 Bit
I
C - - W U
DPT_Alarm
0/1
[Px][By] Weekly Timer
Enabling
0 = Disabled; 1 = Enabled
1 Bit
I
C - - W U
DPT_Enable
0/1
[Px][By] Daily Timer Enabling
0 = Disabled; 1 = Enabled
1 Bit
I
C - - W U
DPT_Enable
0/1
[Px][By] RGB Color
Red, Green and Blue components
3 Bytes
I/O
C T R W U
DPT_Colour_RGB
[0 255] * 3
[Px][By] Chrono-thermostat:
enabling
0 = Disabled; 1 =
Enabled
10, 13, 16, 19,
22, 25, 28, 31,
34, 37, 40, 43,
46, 49, 52, 55,
58, 61, 64, 67,
70, 73, 76, 79,
82, 85, 88, 91,
94, 97, 100,
103, 106, 109,
112, 115, 118,
121, 124, 127,
130, 133, 136,
139, 142, 145,
148, 151
1 Bit
O
C T R - -
DPT_Switch
0/1
[Px][By] Binary Control
1-bit Control
1 Byte
O
C T R - -
DPT_Value_1_Ucount
0 - 255
[Px][By] 1-byte Unsigned Int
Control
0...255
1 Byte
O
C T R - -
DPT_Value_1_Count
-128 - 127
[Px][By] 1-byte Signed Int
Control
-
128...127
1 Byte
O
C T R - -
DPT_Scaling
0% - 100%
[Px][By] Percentage Control
0-100%
2 Bytes
O
C T R - -
DPT_Value_2_Ucount
0 - 65535
[Px][By] 2-byte Unsigned Int
Control
0...65535
2 Bytes
O
C T R - -
-32768 - 32767
-32768 - 32767
[Px][By] 2-byte Signed Int
Control
-
32768...32767
2 Bytes
O
C T R - -
9.xxx
-671088,64
670760,96
[Px][By] 2
-byte Float Control
-
671088.64...670760.96
1 Byte
O
C T R - -
DPT_Value_1_Ucount
0 - 255
[Px][By] Enumerated Control
0...255
1 Bit
O
C T R - -
DPT_UpDown
0/1
[Px][By] Move Shutter
0=Up; 1=Down
1 Bit
O
C T R - -
DPT_Switch
0/1
[Px][By] Light On/Off
0=Off; 1=On
2 Bytes
O
C T R - -
DPT_Value_Temp
-273,00 - 670760,00
[Px][By] Temperature Control
Absolute Float Value
2 Bytes
I/O
C T R W -
DPT_Value_Tempd
-670760,00 -
670760,00
[Px][By] Temperature Offset
Control
Relative Float Value
1 Bit
O
C T R - -
DPT_Step
0/1
[Px][By] Temperature Offset
Control
0=Decrease; 1=Increase
1 Bit
O
C T R - -
DPT_Heat_Cool
0/1
[Px][By] Mode Control
0 = Cool; 1 = Heat
1 Byte
O
C T R - -
DPT_HVACContrMode
0 = Auto
1 = Heat
[Px][By] Mode Control
Heat, Cool, Auto, Fan and Dry
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3 = Cool
9 = Fan
14 = Dry
1 Bit
O
C T R - -
DPT_Step
0/1
[Px][By] Fan Control
0=Decrease; 1=Increase
1 Byte O C T R - - DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Px
][By] Special Mode Control
Comfort, Standby, Economy and Building Protection
1 Byte
I/O
C T R W U
DPT_Scaling
0% - 100%
[Px][By] Green Channel
0-100%
1 Bit
O
C T R - -
DPT_Switch
0/1
[Px][By] Daily Timer Control
1-bit Control
1 Bit
O
C T R - -
DPT_Switch
0/1
[Px][By] Weekly Timer Control
1-bit Control
2 Bytes
O
C T R - -
DPT_Value_Temp
-20 95 °C
[Px][By] Alarm Confirmation
0=No Action; 1=Confirm
1 Bit
I
C T - W -
DPT_Ack
0/1
[Px][By] Energy Monitor:
request
0=No Action; 1=Request
1 Bit
O
C T R - -
DPT_Trigger
0/1
[Px][By] Chrono-thermostat:
temperature setpoint
Absolute Float Value
11, 14, 17, 20,
23, 26, 29, 32,
35, 38, 41, 42,
47, 50, 53, 56,
59, 62, 65, 68,
71, 74, 77, 80,
83, 86, 89, 92,
95, 98, 101,
104, 107, 110,
113, 116, 119,
122, 125, 128,
131, 134, 137,
140, 143, 146,
149, 152
1 Bit
O
C T R - -
DPT_Step
0/1
[Px][By] Stop Shutter
0 or 1 -> Stop
4 Bit O C T R - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Px][By] Light Dimming
4
-bit Dimming Control
1 Bit
O
C T R - -
DPT_Switch
0/1
[Px][By] Blue Channel
0-100%
1 Byte
I/O
C T R W U
DPT_Scaling
0% - 100%
[Px][By] Energy Monitor: reset
0=No Action; 1=Reset
1 Bit
O
C T R - -
DPT_Reset
0/1
[Px][By] Chrono-thermostat:
on/off
0 = Off; 1 = On
153, 180
2 Bytes
I
C - - W -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Temperature Source 1
External Sensor Measure
154, 181
2 Bytes
I
C - - W -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Temperature Source 2
External Sensor Measure
155, 182 1 Byte I C - - W - DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Tx] Special Mode
1
-byte HVAC Mode
156, 183
1 Bit
I
C - - W -
DPT_Trigger
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
157, 184
1 Bit
I
C - - W -
DPT_Trigger
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
158, 185
1 Bit
I
C - - W -
DPT_Trigger
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
159, 186
1 Bit
I
C - - W -
DPT_Trigger
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
Z41 Lite
http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.com
81
160, 187
1 Bit
I
C - - W -
DPT_Window_Door
0/1
[Tx] Window Status (input)
0=Closed; 1=Open
161, 188
1 Bit
I
C - - W -
DPT_Trigger
0/1
[Tx] Comfort Prolongation
0=Nothing; 1=Timed Comfort
162, 189 1 Byte O C T R - - DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Tx] Special Mode Status
1
-byte HVAC Mode
163, 190
2 Bytes
I
C - - W -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Setpoint
Thermostat setpoint input
2 Bytes
I
C - - W -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Basic Setpoint
Reference setpoint
164, 191
1 Bit
I
C - - W -
DPT_Step
0/1
[Tx] Setpoint Step
0=-0.5ºC; 1=+0.5ºC
165, 192
2 Bytes
I
C - - W -
DPT_Value_Tempd
-670760,00 -
670760,00
[Tx] Setpoint Offset
Float offset
value
166, 193
2 Bytes
O
C T R - -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Setpoint Status
Current setpoint
167, 194
2 Bytes
O
C T R - -
DPT_Value_Temp
-273,00 - 670760,00
[Tx] Basic Setpoint Status
Current basic setpoint
168, 195
2 Bytes
O
C T R - -
DPT_Value_Tempd
-670760,00 -
670760,00
[Tx] Setpoint Offset Status
Current setpoint offset
169, 196
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
170, 197
1 Bit
I
C - - W -
DPT_Heat_Cool
0/1
[Tx] Mode
0 = Cool; 1 = Heat
171, 198
1 Bit
O
C T R - -
DPT_Heat_Cool
0/1
[Tx] Mode Status
0 = Cool; 1 = Heat
172, 199
1 Bit
I
C - - W -
DPT_Switch
0/1
[Tx] On/Off
0=Off; 1=On
173, 200
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] On/Off Status
0=Off; 1=On
174, 201
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Control Variable (Cool)
2-Point Control
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Control Variable (Cool)
PI Control (PWM)
175, 202
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Control Variable (Heat)
2-Point Control
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Control Variable (Heat)
PI Control (PWM)
176, 203
1 Byte
O
C T R - -
DPT_Scaling
0% - 100%
[Tx] Control Variable (Cool)
PI Control (Continuous)
177, 204
1 Byte
O
C T R - -
DPT_Scaling
0% - 100%
[Tx] Control Variable (Heat)
PI Control (Continuous)
178, 205
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Additional Cool
Temp >= (Setpoint+Band) => "1"
179, 206
1 Bit
O
C T R - -
DPT_Switch
0/1
[Tx] Additional Heat
Temp <= (Setpoint-Band) => "1"
207, 211, 215,
219, 223, 227
2 Bytes
I
C - - W -
DPT_Power
-670760,00
670760,00
[Energy X] Power
kW
208, 212, 216,
220, 224, 228
4 Bytes
I
C - - W -
DPT_ActiveEnergy_kWh
-2147483648
2147483647
[Energy X] Energy
kWh
209, 213, 217,
221, 225, 229
2 Bytes I C - - W -
CO2 emission
(non-standardized
datapoint type)
-670760,00
670760,00
[Energy X] CO2
kg CO2
210, 214, 218,
222, 226, 230
2 Bytes I C - - W -
Currency
(non-standardized
datapoint type)
-670760,00
670760,00
[Energy X] Cost
Local Currency
231-234
1 Byte
I/O
C T R W U
DPT_Scaling
0% - 100%
[RGBW] White Channel 4
0-100%
235, 241
1 Bit
I
C - - W -
DPT_Switch
0/1
[Ix] Input Lock
1 = Locked; 0 = Unlocked
Z41 Lite
http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.com
82
236, 242
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Short Press] 0
Sending of 0
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Short Press] 1
Sending of 1
1 Bit I C T - W - DPT_Switch 0/1
[Ix] [Short Press] 0/1
Switching
Switching 0/1
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Short Press] Move Up
Shutter
Sending of 0 (Up)
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Short Press] Move Down
Shutter
Sending of 1 (Down)
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Short Press] Move
Up/Down Shutter
Switching 0/1 (Up/Down)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Short Press] Stop/Step
Up Shutter
Sending of 0
(Stop/Step up)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Short Press] Stop/Step
Down Shutter
Sending of 1 (Stop/Step down)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Short Press] Stop/Step
Shutter (switched)
Switching of 0/1 (Stop/Step up/down)
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Ix] [Short Press] Brighter
Increase Brightness
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Ix] [Short Press] Darker
Decrease Brightness
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Ix] [Short Press]
Brighter/Darker
Switch Bright/Dark
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Short Press] Dimmer ON
Sending of 1 (ON)
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Short Press] Dimmer OFF
Sending of 0 (OFF)
1 Bit I C T - W - DPT_Switch 0/1
[Ix] [Short Press] Dimmer
ON/OFF
Switching 0/1
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[Ix] [Short Press] Run Scene
Sending of 0 - 63
Z41 Lite
http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.com
83
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[Ix] [Short Press] Save Scene
Sending of 128 - 191
1 Bit
I/O
C T R W -
DPT_Switch
0/1
[Ix] [Switch/Sensor] Edge
Sending of 0 or 1
1 Byte
C T - - - DPT_Value_1_Ucount 0 - 255
[Ix] [Short Press] Constant
Value (Integer)
0
- 255
1 Byte
C T - - - DPT_Scaling 0% - 100%
[Ix] [Short Press] Constant
Value (Percentage)
0%
- 100%
2 Bytes
C T - - - DPT_Value_2_Ucount 0 - 65535
[Ix] [Short Press] Constant
Value (Integer)
0
- 65535
2 Bytes
C T - - - 9.xxx
-671088.64 -
670760.96
[Ix] [Short Press] Constant
Value (float)
Float value
237, 243
1 Byte I C - - W - DPT_Scaling 0% - 100%
[Ix] [Short Press] Shutter
Status (input)
0% = Top; 100% = Bottom
1 Byte I C - - W - DPT_Scaling 0% - 100%
[Ix] [Short Press] Dimming
Status (input)
0%
- 100%
238, 244
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Long Press] 0
Sending of 0
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Long Press] 1
Sending of 1
1 Bit I C T - W - DPT_Switch 0/1
[Ix] [Long Press] 0/1
Switching
Switching 0/1
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Long Press] Move Up
Shutter
Sending of 0 (Up)
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Long Press] Move Down
Shutter
Sending of 1 (Down)
1 Bit
C T - - - DPT_UpDown 0/1
[Ix] [Long Press] Move
Up/Down Shutter
Switching 0/1 (Up/Down)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Long Press] Stop/Step Up
Shutter
Sending of 0 (Stop/Step up)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Long Press] Stop/Step
Down Shutter
Sending of 1 (Stop/Step down)
1 Bit
C T - - - DPT_Step 0/1
[Ix] [Long Press] Stop/Step
Shutter (switched)
Switching of 0/1 (Stop/Step up/down)
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Ix] [Long Press] Brighter
Long Pr.
-> Brighter; Release -> Stop
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
[Ix] [Long Press] Darker
Long Pr.
-> Darker; Release -> Stop
Z41 Lite
http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.com
84
0xF (Inc. by 1%)
4 Bit
C T - - - DPT_Control_Dimming
0x0 (Stop)
0x1 (Dec. by 100%)
0x7 (Dec. by 1%)
0x8 (Stop)
0x9 (Inc. by 100%)
0xF (Inc. by 1%)
[Ix] [Long
Press]
Brighter/Darker
Long Pr.
-> Brighter/Darker; Release -> Stop
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Long Press] Dimmer ON
Sending of 1 (ON)
1 Bit
C T - - -
DPT_Switch
0/1
[Ix] [Long Press] Dimmer OFF
Sending of 0 (OFF)
1 Bit I C T - W - DPT_Switch 0/1
[Ix] [Long Press] Dimmer
ON/OFF
Switching 0/1
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[Ix] [Long Press] Run Scene
Sending of 0 - 63
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[Ix] [Long Press] Save Scene
Sending of 128 - 191
1 Bit O C T R - - DPT_Alarm 0/1
[Ix] [Switch/Sensor] Alarm:
Breakdown or sabotage
1 = Alarm; 0 = No Alarm
2 Bytes
C T - - - 9.xxx
-671088.64 -
670760.96
[Ix] [Long Press] Constant
Value (float)
Float value
2 Bytes
C T - - - DPT_Value_2_Ucount 0 - 65535
[Ix] [Long Press] Constant
Value (Integer)
0
- 65535
1 Byte
C T - - - DPT_Scaling 0% - 100%
[Ix] [Long Press] Constant
Value (Percentage)
0%
- 100%
1 Byte
C T - - - DPT_Value_1_Ucount 0 - 255
[Ix] [Long Press] Constant
Value (Integer)
0
- 255
239, 245 1 Bit
C T - - - DPT_Trigger 0/1
[Ix] [Long Press/Release] Stop
Shutter
Release
-> Stop Shutter
240, 246
1 Byte I C - - W - DPT_Scaling 0% - 100%
[Ix] [Long Press] Dimming
Status (input)
0%
- 100%
1 Byte I C - - W - DPT_Scaling 0% - 100%
[Ix] [Long Press] Shutter
Status (input)
0% = Top; 100% = Bottom
247
1 Byte
I
C - - W -
DPT_SceneControl
0-63; 128-191
[Motion Sensor] Scene Input
Scene Value
248
1 Byte
C T - - -
DPT_SceneControl
0-63; 128-191
[Motion Sensor] Scene Output
Scene Value
249, 273
1 Byte
O
C T R - -
DPT_Scaling
0% - 100%
[Ix] Luminosity
0-100%
250, 274
1 Bit
O
C T R - -
DPT_Alarm
0/1
[Ix] Open Circuit Error
0 = No Error; 1 = Open Circuit Error
251, 275
1 Bit
O
C T R - -
DPT_Alarm
0/1
[Ix] Short Circuit Error
0 = No Error; 1 = Short Circuit Error
252, 276
1 Byte
O
C T R - -
DPT_Scaling
0% - 100%
[Ix] Presence State (Scaling)
0-100%
253, 277 1 Byte O C T R - - DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Ix] Presence State
(HVAC)
Auto, Comfort, Standby, Economy, Building Protection
254, 278
1 Bit
O
C T R - -
DPT_Occupancy
0/1
[Ix] Presence State (Binary)
Binary Value
Z41 Lite
http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.com
85
1 Bit
O
C T R - -
DPT_Trigger
0/1
[Ix] Presence: Slave Output
1 = Motion Detected
255, 279
1 Bit
I
C - - W -
DPT_Trigger
0/1
[Ix] Presence Trigger
Binary Value to Trigger the Presence Detection
256, 280
1 Bit
I
C - - W -
DPT_Trigger
0/1
[Ix] Presence: Slave Input
0 = Nothing; 1 = Detection from slave device
257, 281
1 Bit
I
C - - W -
DPT_Trigger
0/1
[Ix] External Motion Detection
0 = Nothing; 1 = Motion detected by an external sensor
258, 263, 268,
282, 287, 292,
1 Byte O C T R - - DPT_Scaling 0% - 100%
[Ix] [Cy] Detection State
(Scaling)
0
-100%
259, 264, 269,
283, 288, 293
1 Byte O C T R - - DPT_HVACMode
1=Comfort
2=Standby
3=Economy
4=Building Protection
[Ix] [Cy] Detection State
(HVAC)
Auto, Comfort, Standby, Economy, Building Protection
260, 265, 270,
284, 289, 294
1 Bit O C T R - - DPT_Switch 0/1
[Ix] [Cy] Detection State
(Binary)
Binary
Value
261, 266, 271,
285, 290, 295
1 Bit I C - - W - DPT_Switch 0/1
[Ix] [Cy] Channel Lock
According to parameters
262, 267, 272,
286, 291, 296
1 Bit I C - - W - DPT_Switch 0/1
[Ix] [Cy] Force State
0 = No Detection; 1 = Detection
297, 301
2 Bytes
O
C T R - -
DPT_Value_Temp
-273,00 - 670760,00
[Ix] Current Temperature
Temperature sensor value
298, 302
1 Bit
O
C T R - -
DPT_Alarm
0/1
[Ix] Overcooling
0 = No Alarm;1 = Alarm
299, 303
1 Bit
O
C T R - -
DPT_Alarm
0/1
[Ix] Overheating
0 = No Alarm;1 = Alarm
300, 304
1 Bit
O
C T R - -
DPT_Alarm
0/1
[Ix] Probe Error
0 = No Alarm;1 = Alarm
Join and send us your inquiries
about Zennio devices:
http://zennioenglish.zendesk.com
Zennio Avance y Tecnología S.L.
C/ Río Jarama, 132. Nave P-8.11
45007 Toledo (Spain).
Tel. +34 925 232 002.
Fax. +34 925 337 310.
www.zennio.com
info@zennio.com
4


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