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Zennio InZennio Z38 Touch Panel Manual

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INZENNIOZ38
KNXTouchPanel
ZN1VITP38
Edition9
Version4.3
PRODUCTMANUAL
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INDEX
1.
INTRODUCTION.....................................................................................................................4
1.1. PRODUCT.....................................................................................................................4
1.2. INSTALLATION..............................................................................................................6
1.3. CONFIGURATION.........................................................................................................7
2. PARAMETERIZATION.............................................................................................................9
2.1. GENERAL......................................................................................................................9
2.1.1. «DISPLAYBRIGHTNESS»OBJECT.........................................................................12
2.2. PAGES.........................................................................................................................12
2.2.1. «HOME»&«HOMEII»PAGES...........................................................................13
2.2.1.1. BINARYCONTROL.........................................................................................14
2.2.1.2. LIGHTCONTROL............................................................................................14
2.2.1.3. SHUTTERCONTROL.......................................................................................16
2.2.1.4. CLIMACONTROL...........................................................................................16
2.2.1.5. 1BYTECONTROL...........................................................................................17
2.2.1.6. SCENECONTROL...........................................................................................18
2.2.1.7. TEMPERATURECONTROL.............................................................................20
2.2.1.8. BINARYINDICATOR.......................................................................................21
2.2.1.9. ONEBYTEINDICATOR...................................................................................21
2.2.1.10. FLOATINGPOINTINDICATOR...................................................................22
2.2.1.11. SECURITYCONTROL..................................................................................22
2.2.1.12. PRESENCESIMULATION...........................................................................22
2.2.2. “SPECIFIC”PAGES..................................................................................................23
2.2.2.1. SCENES..........................................................................................................23
2.2.2.2. SCHEDULEPROGRAMMING..........................................................................23
2.2.2.3. CLIMA............................................................................................................26
2.2.3. tECHNICALALARMS...............................................................................................34
2.2.4. CONFIGURATION...................................................................................................35
2.3. INPUTS......................................................................................................................37
2.3.1. SHORTPRESS.........................................................................................................38
2.3.1.1. ONEBITSENDING“0/1”...............................................................................38
2.3.1.2. SHUTTERCONTROL.......................................................................................38
2.3.1.3. DIMMERCONTROL.......................................................................................39
2.3.1.4. SENDINGASCENE.........................................................................................40
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2.3.2. LONGPRESS...........................................................................................................41
2.3.3. THRESHOLDTIME..................................................................................................41
2.3.4. RESPONSEDELAY...................................................................................................41
2.3.5. INPUTLOCK...........................................................................................................41
ANNEXI.COMMUNICATIONOBJETS..........................................................................................42
ANNEXII.INDIVIDUALCONTROLS..............................................................................................42
ANNEXIII.DOUBLECONTROLS...................................................................................................49
ANNEXIV.INDICATORS...............................................................................................................52
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1. INTRODUCTION
1.1. PRODUCT
INZennio Z38 is an LCD Touch Panel with Room Thermostat, Binary Inputs and
IR Receiver built-in. Some of its most important features are mentioned below:
¾ KNX 3.8” back-lighted monochrome Touch Panel
¾ Room Thermostat
¾ Presence Simulation
¾ Full Climate Management
¾ 12 Configurable Direct Control Functions
¾ 5 Additional Pages with up to 6 independent Functions
o Scene Control [5 Functions]
o Schedule Programming [4 Functions]
o Climate Control [5 Functions]
o Technical Alarms [6 Functions]
o Display Parameters
¾ IR Receiver buit-in (Remote Control)
¾ 4 Binary Inputs for Voltage free push buttons.
¾ No external supply required.
¾ KNX BCU included.
¾ Total Data Saving when Power Failure occurs.
The Touch Panel InZennio Z38 is organized into "Pages"; every page consists of
several "parametrizable boxes" and a "header".
Header
“HOME”PAGE
“MENU”PageShortcut
“HOMEII”Shortcut
IRReceiver
RoomThermostat
PARAMETRIZABLE
BOX
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The next schema represents available pages to be "enabled" and its hierarchy.
Figure 1.1
“Home”Page
MENU”Page
SpecificPagesAccess
“HomeII”Page
‐SCENES1
‐SCH.PROGRAMMING
‐CLIMA
SCENES2
‐SCH.PROGRAMMING
CLIMA
‐SCENES3
‐SCH.PROGRAMMING
CLIMA
SCENES3
‐SCH.PROGRAMMING
‐CLIMA
TECHNICAL5
ALARMS
CONFIGURATION6
BacktoHomePage
MENUPAGE
CONFIGURATION
PAGE
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Next sections in this manual, will detail the correct way to configure and program the
LCD Panel InZennio Z38, so that a user can control all (or part of) the KNX
installation from a single device.
o <<PAGES>>
¾ Home & Home II
The “Home” page is the InZennio Z38 “Welcome” page; this
will be the starting point (once the necessary boxes have been
enabled) to access, the most commonly required functions.
The "Home II" page is just like the "Home" one, as far as
functionality and potential programming terms is concerned.
Consider the "Home II" page as an extension of the own
"Home" page.
¾ MENU Page:
Access to Specific Pages
Users in this case, have the option to "enable" up to six
different pages, and even, when talking about the "Specific 1,
2, 3 & 4" ones, to associate them with a particular function:
o Scenes
o Schedule Programming
o Clima
Figure 1.1 shows the schematic page organization in the InZennio Z38
Panel.
Note
: "Home", "Home II" and the “Technical Alarms” pages in the
InZennio Z38 Panel have 6 parametrizable boxes
each.
"Clima", “Scenes", and the “Configuration" pages have 5 parametrizable
boxes each, while the “Schedule Programming” one has only 4 parametrizable
boxes
1.2. INSTALLATION
Please refer to the Product Data Sheet, for up to date information on the installation of
the InZennio Z38 Panel, as well as to gather detailed information on its technical
characteristics.
The Data Sheet is included in the original packaging of the product, and is available to
be downloaded from the website www.zennio.com
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1.3. CONFIGURATION
The INZennio Z38 includes 217 Communication Objects responsible to transmit and
receive data through the BUS.
To begin with the InZennio Z38 module configuration, it will be necessary to import in
ETS, a project that contains an InZennio Module of the device, or a database .vd file of
the product (See www. Zennio.com)
This manual starts from the "default" product configuration, to gradually configure the
device according to the user requirements.
o Default Z38 Panel Configuration (Communication Objects)
To make Communication Objects working easier, as well as to facilitate its
understanding, these have been reorganized as selected by parameters.
The Communication Object arrangement has been also substantially improved by
ordering them alphabetically by sections on the ETS.
Note:
For this arrangement to be effective, it is necessary to click on the “NAME”
column, instead of the “NUMBER” one.
o Parameters will be shown as they appear initially
In order to visualise and configure the parameters of an ETS device, click the right-
mouse button on the BUS device you want to configure, then click left-mouse button on
“Edit Parameters”.
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o Main Parameterization Window appears
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2. PARAMETERIZATION
Access via ETS to the Main Parameterization Page on the ETS, has three main sections:
<<GENERAL>>
<<PAGES>>
<<INPUTS>>
Every section is detailed next:
2.1. GENERAL
This parameterization section, allow users to enable the remote control zones as well as
to associate them with the “Home” or “Home II” pages for its control; this section also
allows to configure various aspects of the display backlight and other general
parameters.
Available configuration options involving the display backlight are represented
in the next diagram.
Figure 2.1
DISPLAYBRIGHTNESS
AutoDimming AlwaysON
DimmingLevel
Minimum
Of
f
StatuswhileDimming
DisplayActive
DisplayLocked
(Unlockwithasingletouch)
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DISPLAY BRIGHTNESS (Figure 2.1)
¾ Always ON
: Light on the display remains always ON, even when the
page is not in use.
¾
Auto Dimming: 45 seconds after the last interaction on the
display, this will recover its stand-by mode.
o DIMMING LEVEL (Stand-by Mode)
¾ Off
: After 45 seconds (Auto Dimming), the own
auxiliary light on the display will remain OFF (until
a new touch on it is made)
¾
Minimum: After 45 seconds (Auto Dimming),
the display will light slightly, (this is useful to
identify it in dark places).
o DISPLAY STATUS WHILE DIMMING
¾ Display Active:
Display remains always active;
this means that any interaction with it will obtain an
immediate response.
¾ Display Locked (unlock with a single touch):
The
display needs a first touch onto it to be unlocked,
after this, this can be normally operated.
INDICATORS UPDATE WHEN INITIATING
When recovering the BUS voltage (or after a program download), the InZennio
Z38 may ask the rest of devices in the installation for their corresponding
values, in order to update the display indicators.
¾ Delay
: This field allows a user to set a delay (in seconds) to put off the
indicators update, until the rest of devices on the installation are
completely initiated.
WEEKDAY INITIALS
Seven free characters are available to enter the weekday initials.
Both the date and the week-day will appear on any page header, when the
Time Zone” is pressed.
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
Note
: Week days are automatically calculated by the own display when
adjusting the date on it.
REMOTE CONTROLLER

¾ Zone 1
: This field will allow users to associate this zone of the control
to either any of both “Home” or “Home II” pages.
¾ Zone 2:
This field will allow users to associate this zone of the control
to either any of both “Home” or “Home II” pages.
¾ Note
: Buttons arrangement on the remote controller is similar to the
“Home & Home II” boxes structure to make its control easier.
TEMPERATURE SENSOR CALIBRATION
Allow users to recalibrate the Temperature Sensor referred to the own
temperature measured by the sensor itself when the calibration parameter
remains unchanged (value “0”).
Example
: If we have a really accurate thermometer at home, we can take its
measure as a reference for the Z38.
Measurement shown by the Z38 internal sensor x ºC
Measurement shown by the accurate thermometer y ºC
Positive difference between measures x – y = z ºC
Positive Calibration parameter z ºC
Negative difference between measures x – y = - z ºC
Negative calibration parameter - z ºC
Zone1
Zone2
TimeZone
Date‐(M)Monday
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TEMPERATURE SENDING PERIOD
This field is meant to set a period of time for the Z38 to send the registered
temperature to the BUS through the “Temperature-Internal Sensor value”
Communication object.
2.1.1. « DISPLAY BRIGHTNESS » OBJECT
The Z38 Panel has a Communication Object “Display Brightness” which has
the same effect than touching onto the display.
¾ When this object receives a “1” from the BUS, the display lights up and
gets active.
¾ A Display active implies that any interaction with it by the user will
always get an immediate response, regardless of the “Status while
Dimming” parameterized before. (See page 10)
Note:
When receiving a “0” nothing happens
Example:
This functionality allows a presence detector or a door
contact to send a “1” to the BUS notifying the user that someone
entered the room, or that someone got up during the night. When
receiving a “1”, the display lights up (either to welcome the user
entering the room or to let him see the display in the dark).
2.2. PAGES
This Manual section is intended to detail the different pages the InZennio Z38
provides the user, including the submenus offered in each of these pages.
When a Panel page is enabled, two parameterization fields become available:
NAME
Æ This field allow users to associate a name to any of the InZennio
Z38 pages; this name will appear on any of the page headers the user is moving
through (12 free characters are available to set the name).
Note:
The only page which cannot be renamed is the MENU one (to access
Specific Pages).
SECURITY
Æ A restricted page prevents unauthorized access to it. A 4 digits
password is required to enter a protected page.
The default password is “1234”
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Note: The “Home” page is enabled by default. Access to the “Home”
page cannot be restricted.
Resetting the paswword:
Push NEW Old: Enter old password
New: Enter new password
Repeat: Confirm new password
2.2.1. « HOME » & « HOME II » PAGES
These two pages are intended to parameterize their boxes so that a user can easily
access the most common used functions when controlling an installation.
As well as the pages, every box on “Home” and “Home II” pages has a
parametrizable field:
NAME
Æ This field allows a user to associate a name with the corresponding
box in the page, (11 free characters are available to set the name).
4DIGITSPASSWORD
CANCEL/DELETE
RESETPASSWORD
NAME
BOX2
BOX1
NAME
SINGLEBUTTON
COUPLEDBUTTONS
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Note: “Home” Page will be shown again 90 seconds after last interaction on
the display took place.
2.2.1.1. BINARY CONTROL
This is a generic control to communicate all those devices susceptible to
be, by sending a single bit (0 / 1).
BUTTON 1 Æ
In “Binary Control”, this button will always appear as
“enabled” by default.
¾ Short Press:
Choose whether to send: Nothing/0/1 or Toggle
to the BUS through its Communication Object.
¾ Long Press:
Same case than before, the only difference is that
now users will need to keep the button on the display pressed
during at least 0.5 seconds to send the corresponding data
through its Communication Object.
¾ ICON:
An icon can be associated to the page box. (See Annexe
I).
BUTTON 2 Æ
It might be possible to have two buttons on the same
BOX, by simply activating this option in the corresponding field.
Although both buttons will transmit data independently; both of them
also share the same Communication Object.
The way to parameterize this button is the same than the explained for
BUTTON 1.
¾ Indicator: By activating this parameter, an status indicator will
be inserted between both buttons:
o ON/OFF
o 0/1
2.2.1.2. LIGHT CONTROL
This control is specifically designed for lighting control. Through its
Communication Objects, users will be able to turn On/Off any kind of
incandescent lamps, low voltage lamps, compact fluorescent lamps…,
and even controlling their output intensity.
Note
: When trying to control compact fluorescent lamps (CFL), an
electronically reactance or a specific KNX actuator would be necessary
to control their intensity.
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TYPE Æ Select the control type to use:
¾ On/Off:
This is the most basic control type; Turn On/Off;
pretends to simulate a common switch action.
¾ On/Off + Simple Regulation (4 bits):
Users can simulate a
common switch action, turn On/Off (short press on the
buttons), or a discreet regulation (long press on the buttons),
where depending on the “dimming step” set, keeping the
button pressed will reduce or increase the brightness on the
controlled lamps.
Dimming Step: Six different regulation levels are
available for this duty. A long press on the display
buttons will reduce or increase the brightness level step
by step the percentage set in this parameter; once the
desired level is reached, stop pressing the button on the
display to keep the desired value.
Dimming Step Necessary button presses for a
complete regulation (0 – 100%)
6. 100% 1
5. 50% 2
4. 25% 4
3. 12.5% 8
2. 6.25% 16
1. 3.1% 32
0. 1.5% 64
Indicator:
This will inform users about the brightness
percentage applied at any time.
Note: In this case, for this indicator to be
functional, it is necessary to use a KNX
dimmer to give back the brightness applied to
the load.
¾ Precise Dimming (1 byte): This is the most accurate control
method, as any short press on the display buttons will increase
or reduce (1%) the brightness level.
A long press on any of the two buttons will increase or reduce
gradually 10 % the brightness level.
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Indicator: This will inform users about the brightness
percentage applied at any time.
ICON Æ
An icon can be associated to the page box. (See Annexe II).
2.2.1.3. SHUTTER CONTROL
Specifically designed to control any type of shutters, blinds, sun blinds,
or any other drive. Through its communication objects, users will be
able to raise / lower shutters, and even knowing its exact position at any
time.
The basic shutter control is made as follows:
¾ Long Press: Move the shutter
Raise Shutter:
“0” is sent trough the object “Move
Shutter”.
Lower Shutter:
“1” is sent trough the object “Move
Shutter”.
Note: When the object “Move Shutter” sends “0” or “1”, the
shutter will start moving, and won’t stop unless the whole shutter
length is covered or that any other order is received.
¾ Short Press: Stop the shutter
To stop a moving shutter, a “0” or a “1” must be sent
through the object “Stop Shutter”.
ICON Æ
An icon can be associated to the page box. (See Annexe II).
INDICATOR Æ
By activating this parameter, users can insert an
indicator between both buttons to get a percentual estimation of the
shutter position.
2.2.1.4. CLIMA CONTROL
Configuring a box with the “Climate Control” function, a
SHORTCUT is created to some of the four available “Climate
Specific Pages”
TYPE OF CONTROLÆ
Choose the specific climate function to
control
ON/OFF
Set Temperature
Mode (Heat/Cool)
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Fan
Blinds
Special Mode (Comfort)
Special Mode (Night)
Special Mode (Out)
Note I: Depending on the selected option, a communication object
associated to the specific box will appear in the ETS environment;
the same object type corresponding the selected option.
This characteristic allows users to control also external climate
systems.
Note II: The Special Modes control from the “Home” & “Home II”
boxes is different from the control from the Clima “Specific Pages”, as
in this case, it will be necessary to use a different box (with a single
button) per mode to control
LINKED TO Æ
Users can associate this box with any of the 4
“Specific Pages” enabled as CLIMA.
For this association to work properly, it is necessary that the
mentioned Climate Specific Page is enabled.
ICON Æ
A couple of icons can be associated to the page box (See
Annexe II).
2.2.1.5. 1 BYTE CONTROL
This is a generic control to communicate all those devices susceptible to
be, by sending a single byte (value in the range 0….255)
TIPO Æ
: Three possible options available in this case:
¾ Fixed Value (one button, no indicator)
By pressing the button on the display, the same value will
always be sent; the value selected in the field “Value”.
¾ Percentage (2 buttons + indicator)
To send a percentage
Short Press: Rise or lower 1% with every short key
press.
Long Press: Rise or lower 10% with every long key
press
¾ [0….255] value (2 buttons + indicator)
To send values in the range [0...255].
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Short Press: Rise or lower one single point in the
range with every short key press.
Long Press: Rise or lower 10 points in the range with
every long key press.
Note:
Please notice that
Value 0 corresponds with 0%
………………………………….
………………………………….
Value 255 corresponds with 100%
ICON Æ
A couple of icons can be associated to the corresponding
display box. (See Annexe II).
2.2.1.6. SCENE CONTROL
Scenes or “lifestyles” consist of a synchronized activation of some
devices in the domotic installation, so that different predefined
atmospheres are generated.
There is an only Communication Object associated with “Scenes”. All
the scenes will be always sent through the object “[GN] Scenes”.
Before continuing with the parameterization of this type of control, a
small introduction to the Communication Object “[GN] Scenes” is
done next:
The DPT (Datapoint Type) Scene Control is a one byte Object with the
following format.
C 0 = Activate the scene corresponding the field Scene Number N
1 = Learn the scene corresponding the field Scene Number N
R Reserved field with value “0
N Scene Number Range [0…..63]
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Note I: If C=0, the DPT valid range is [0….63], whereas if C=1, the DPT
valid range is [128…..191]
Note II
: Activate Scene 1 Æ DPT=0
Activate Scene 2 Æ DPT=1
Activate Scene 64 Æ DPT=63
Learn Scene 1 Æ DPT=128
Learn Scene 2 Æ DPT=129
..
Learn Scene 64 Æ DPT=191
Therefore, a single Communication Object will be valid to Activate Scenes
and /or learn them (depending on the C value).
TYPE Æ
Users can choose between (by using the same button on the
display):
Run Scene:
A single press on the display button will generate
the atmosphere predefined by the user for that scene.
Run + Learn Scene:
A short press on the button will generate
the atmosphere predefined by the user for that scene (same than
above).
Additionally, a long press (3 seconds) on the display button
gives users the possibility to Learn (Modify) new scenes:
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¾ Example: Guess a user defines the “Scene Night”
(programming the Panel with parameters and group
addresses via ETS):
9 Turn all the lights Off.
9 Turn Off the Heating and the A/C Systems.
9 Activate the Alarm System.
Once the scene is defined, every time we run it, a predefined
atmosphere is generated…
How does a user modify and learn a scene, with the devices used
in the scene described above?
For example if the user wants this instead:
9 Turn all the lights Off except one (the one
to remain ON, will be a guiding light)
9 Turn Off the Heating and the A/C Systems.
9 Activate the Alarm System.
The way to do this is:
1. Run the scene to be modified.
2. Turn the light we want it to be the guiding
light On.
3. Just save the new scene into the Panel by
keeping a long press (3 seconds) on the
original scene “Run” button.
THIS PROCESS REPLACES THE
ORIGINAL SCENE BY THE
MODIFIED ONE.
SCENE NUMBER Æ This is a number defined by the user to identify
the scene or the “lifestyle” to be created.
ICON Æ
An icon can be associated to the screen box. (See Annexe I).
2.2.1.7. TEMPERATURE CONTROL
This is an additional and generic temperature control. When enabled,
this control uses a 2 byte Communication Object (with a measurable
range selectable by parameter). This control is totally independent from
the Climate Control.
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CONTROL RANGE Æ Choose between 2 available options:
¾ Normal Æ
[10ºC…..30ºC]
¾ Extended Æ
[0ºC…..95ºC]
ICON Æ
A couple of icons can be associated to the screen box. (See
Annexe II).
Note:
Do not confuse the generic temperature control with the Climate
Control associated to the set temperature (See Section 2.2.1.4). The
generic Temperature Control can not be linked with any of the Climate
Specific Pages.
2.2.1.8. BINARY INDICATOR
This control enables a binary status indicator on the display box.
An icon specifically enabled for this function, may be associated to the
page box when a “0” is received through the (1 bit) corresponding
Communication Object.
Same case if data received is a “1”
ACTION WHEN VALUE “0” IS RECEIVED Æ
This box should be
enabled when a users need to know when a “0” has been received
through the specific Communication Object.
ACTION WHEN VALUE “1” IS RECEIVED Æ
This box should
be enabled when a users need to know when a “1” has been received
through the specific Communication Object.
ICON Æ
Different icons can be associated to both of the (ACTION)
cases, so that users can identify what is received through the specific
Communication Object (a “0” or a “1”) (See Annexe III).
2.2.1.9. ONE BYTE INDICATOR
One byte provides much more information relating to an event than one
bit. This indicator is normally used with percentages (%) relating to
particular events (shutter position, wind speed…), however another
possible configuration option is a numerical range among 0….255.
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2.2.1.10. FLOATING POINT INDICATOR
Floating Point is a real number representation method that can be
adapted to the order of magnitude of the value represented.
In this particular case, enabling a box as “Floating Point indicator”,
integrators can select the type of data represented on the display,
choosing among:
Temperature (ºC) Æ Range [-273ºC….670,760ºC]
Wind Speed (m/s)
Æ Range [0m/s….670,760m/s]
Humidity (%)
Æ Range [0%….670,760%]
Luminosity (lux)
Æ Range [0lux…670,760lux]
Other (no simbol)
Æ Range [-670,760……670,760]
Note I:
Depending on the data type selected a different unit
symbol will be shown.
2.2.1.11. SECURITY CONTROL
“Home” and “Home II” individual boxes may also be protected
against unauthorised access.
In this case, the Panel will not send any binary data to the BUS unless
the correct password is entered
ICON Æ An icon can be associated to the display box. (See Annexe
II).
INDICATOR Æ
By activating this parameter, an status indicator will
be inserted between both buttons:
ON/OFF
0/1
2.2.1.12. PRESENCE SIMULATION
This function is designed to simulate presence in a house, once the
devices on the KNX installation have been correctly parameterized,
two new Communication Objects become active:
¾ Presence Simulation (1 bit): Enable/Disable the function
¾ Simulation Channel (1 bit):
Generate the ON/OFF
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This function consists on the cyclical sending of “0” & “1” while
activated. A random semi-cycle duration is applied for the ON/OFF
within the parameterized limits.
Note: This simulation can be enabled / disabled through the
display or through an object; and once activated; this will only be
running during the parameterized time range.
STARTING TIME / FINISH TIMEÆ This parameter adjusts the
time for the daily simulation to start/stop running (once enabled the
function).
¾ Max/Min ON/OFF time
: Users can adjust by parameter the
minimum and maximum ON/OFF time for the devices on the
installation.
2.2.2. “SPECIFIC” PAGES
The InZennio Z38 has three specific pages to configure:
Available options are:
¾ SCENES (5 boxes available)
¾ SCHEDULE PROGRAMMING (4 boxes available)
¾ CLIMATE (5 boxes available)
To enable these pages, just go to the Main Menu <<PAGES>> when “Editing
Parameters”.
2.2.2.1. SCENES
The way to parameterize a “Specific Page” to control scenes, is exactly
the same as that described in section “2.2.1.6 SCENE CONTROL”;
please refer to this section to obtain detailed information on this topic.
2.2.2.2. SCHEDULE PROGRAMMING
The daily/weekly programming of certain events the user wants them to
happen on the KNX installation is much easier using this Page.
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The Schedule programming is associated to the On/Off of the devices in
the KNX installation.
Every time a user enables a specific “Schedule Programming” page;
four free boxes with their respective Programming Channel
Communication Objects will become available to be enabled if
necessary.
NAME Æ
This field allow users to associate a name with the
corresponding box in the display, (11 free characters are available to set
the name).
LINKED TO CLIMAÆ
Once the Specific Page to be associated with
the Schedule Programming has been identified, the possible control
associations will be the following:
On/Off
Comfort (Only ON)
Night (only ON)
Stand-By (only ON)
LINKED TO SCENES? Æ
When this box is enabled, a user can
control Scenes by mean of a programming; the possible control
associations are:
Only for ON
Only for OFF
For both ON & OFF
¾ Scene Number OFF:
Scene number to execute when the OFF
programming set by the user is fulfilled.
¾ Scene Number ON:
Scene number to execute when the ON
programming set by the user is fulfilled.
Note I: These associations are solved through internal links;
this means it is not necessary any kind of addressing process to
Buttonto:
‐Increasetimevalues
‐Flagweekdays
‐ Change the type of
response of the Channel:
ON
OFF
BOTH
Buttonto:
‐ Tomovetothe
nextitemtochange
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carry out Schedule Programming associated to Clime and/or
Scenes.
Figure 3.1
Note: We just mentioned that the schedule programming is associated with the
On/Off of the installed devices. Figure 3.1 and Figure 3.2 show how the
THERMOSTAT and the A/C systems are affected when a “1” or a “0” is sent
through the corresponding channel.
Sending a “0” through the Channel “X” does not affect the thermostat modes.
Figure 3.2
PROG“ON”
THERMOSTAT
On/OffÆ“1”
A/C
Scenes
On/OffÆ“1” ONÆ“SceneNº”
OFFÆ“N/A”
BothÆ“SceneNº”
ComfortÆ“1”
OutÆ“1”
NightÆ“1”
PROG“OFF”
THERMOSTAT
On/OffÆ“0”
A/C
Sceenes
On/OffÆ“0” ONÆ“N/A”
OFFÆ“SceneNº”
AmbosÆ“SceneNº”
ComfortÆ“N/A”
OutÆ“N/A”
NightÆ“N/A”
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2.2.2.3. CLIMA
Air Conditioning, Thermostat and Fan Coil Control have been
unified in a unique Specific Page called “Clima”. Thus, due to the
possibility of enabling up to 4 different Climate Specific Pages, up to
4 different Climate Systems can be now controlled from the Z38.
The number of “Specific Pages” to control Climate Systems will
mainly depend on the number of different Systems to control in the
installation.
Every time a user enables a specific “Climate” page, two different
configurable fields become available:
NAME Æ
This field allow users to associate a name with the
corresponding box in the display, (11 free characters are available to set
the name).
ICON Æ
A couple of icons can be associated to the page box. (See
Annexe II).
The parameterization of the different boxes is detailed next:
BOX 1 (ON/OFF) Æ
Allow users to Turn On/Off the Climate System
connected to the KNX BUS through the display.
BOX 2 (SET TEMPERATURE) Æ
To set users preferred
temperatures.
Once this parameter is set and the System is ON, this value will be the
system temperature reference to keep.
Note:
It is REALLY IMPORTANT to notice that, any of the “Home”
or “Home II” boxes enabled as “Climate Control” with a specific
“Temperature” control type associated to any of the Climate Specific
Pages, will always update the Temperature box in the “Specific Page”,
while changes on the Temperature box in the “Specific Page” won’t
update specific boxes in the “Home” or “Home II” pages.
BOX 3 (MODE) Æ
Two different configuration options available
Heat/Cool
- 1=Heat
- 0=Cool
Auto/Heat/Dry/Fan/Cool
- 0=Auto
- 1=Winter
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- 2=Dry
- 3=Fan
- 4= Summer
Note I:
This second option can only be selected to control Air
Conditioning Systems
Note II:
Enabling the Thermostat has no sense when this
second Mode option has been selected, as the Thermostat
can only control the Heat/Cool contribution.
BOX 4 (FAN SPEED) Æ
This is an Up/Down (1 bit) control, but its
indicator may be three different types:
No indicator
Percentage indicator
- 0%= Auto
- 1-33%= Mín
- 34-66%= Med
- 67-100%= Max
Note:
This option is only compatible with IRSC-Plus
version 4.0 and further.
Nota II:
The central indicator in the box varies its size
depending on the value received.
Integer Indicator
- 0=Auto
- 1=Mín
- 2=Med
- 3=Max
Note I:
This option is only compatible with IRSC-Plus
versions previous to V4.0.
Note II:
The central indicator in the box varies its size
depending on the value received.
Note III:
The “1 byte indicator” option is the one to
choose when controlling a “Fan Coil system”.
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BOX 5 (SPECIAL MODES) Æ
This box is customizable asBlinds”
(for Air Conditioning control), or as “Special Modes – Comfort,
Night, Stand-By” (for Thermostat). This last option is controlled as a
rotary box (with two buttons, “Left arrow” and “Right arrow” to
change modes, and a Mode indicator in the middle), but with the 3
typical “1 bit” objects together with their respective “1 bit” indicator
objects
¾ TYPE (Response to a Special Mode)
This section allows integrators to select the response of
the Thermostat when this is Off and a Special Mode
(Night, Comfort, Stand-by) is selected.
- Remains Off and nothing changes
- Remains Off but the Set Temperature is updated
- Set Temperature changes and Clima is turned On
Two possible Climate (Specific Pages) configuration Options are
shown in the Pictures below.
 
C
Any “Climate Specific Page” includes the THERMOSTAT
funcionality to choose by parameter whether to include this
feature or not.
Climate Page set for Air
ConditioningControl
Climate Page set for Air
Conditioning control with
Thermostatincluded
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THERMOSTAT Æ Select the type of control to carry out:
Only Heat
Only Cool
Heat & Cool
REFERENCE TEMPERATURE Æ
 For every enabled
thermostat in the Z38, users will be asked by parameter whether to
use the internal sensor measure as a reference, or if on the other
hand an external sensor will be used. The same parameterization
field offers also the possibility to choose a proportion between both
measures (Z38 internal sensor + external sensor).
Proportion Z38 Internal Sensor External Sensor
1 75% 25%
2 50% 50%
3 25% 75%
The resulting measure is exclusively used by the thermostat in the
Z38, and cannot be shown through any available Communication
object.
FREEZING PROTECTION Æ Regardless of the status the
thermostat may be (On/Off), when “Freezing Protection” is
activated, the system will be warned to automatically keep the
temperature always above a value (Protection Temperature) selected
by parameter.
¾ Protection Temperature
: This parameter fixes the minimum
temperature the user will accept.
9 Protection Temperature is measured in ºCelsius.
9 There is no connection between the “Set Temperature”
and the “Protection Temperature”.
9 This is the real temperature to be applied as freezing
protection.
9 Thermostat will turn Off when temperature in the room
reaches “Protection Temperature + 1ºC”
OVERHEATING PROTECTION Æ Regardless of the status the
thermostat may be (On/Off), when “Overheating Protection” is
activated, the system will be warned to automatically keep the
temperature always below a value (Protection Temperature) selected
by parameter.
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¾ Protection Temperature: This parameter fixes the maximum
temperature the user will accept.
9 Protection Temperature is measured in ºCelsius.
9 There is no connection between the “Set Temperature”
and the “Protection Temperature”.
9 This is the real temperature to be applied as
overheating protection.
9 Thermostat will turn Off when temperature in the room
reaches “Protection Temperature – 1ºC”
A small introduction to the Temperature Control methods used by the Z38 is
detailed below.
HYSTERESIS Æ This is one of the control methods the thermostat may use to control a room
temperature. Hysteresis can be used to filter signals so that the output reacts slowly by taking
recent history into account. The only factor to consider when applying this method is the
sensivity range; in this case, by setting this parameter we’ll be setting both the upper and lower
level of the sensivity range (hysteresis).
Next an example: a thermostat controlling a heater may turn the heater on when the temperature
drops below A degrees, but not turn it off until the temperature rises above B degrees. Thus the
On /Off output of the thermostat to the heater when the temperature is between A and B
depends on the history of the temperature. This prevents rapid switching On and Off as the
temperature drifts around a set point.
Consider that, if the GAP (interval between the upper and lower hysteresis points) is too narrow,
devices in charge to transmit and receive the On/Off to the system might be damaged because of
a rapid switching.
The default configuration sets a 2ºC GAP referred to the “Set Temperature”
Note:
The control method the Thermostat uses when this reacts autonomously to the “Freezing
or Overheating Protection” is “2 Points with Hysteresis”.
In this case the lower hysteresis point is 0ºC (referred to the parameterized Temperature) while
the upper point is 1ºC. This means that the system will start working exactly when the
“Protection Temperature” is detected and won’t stop until the room temperature raises one
degree exactly.
LOWERHYSTERESIS
Time
UPPERHYSTERESIS
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PI CONTROL (Proportional-Integral Æ This control follows the Standard KNX rules.
There are different systems to get a room conditioned:
HEAT COOL
-Warm Water -Cooling Ceiling
-Floor Heating -Blow Convector
-Electric Heating -A/C Split
-Blowi Convector
- A/C Split
Depending on the climate control system used on the installation, the user must choose the
suitable option.
Any available option is internally parameterized for best performance in each case. The pre-Set
options correspond to practical tests, ensuring a perfect performance control when controlling a
room temperature.
Note: Advanced users may customize their own parameterizable constants: Proportional Band
& Integral Time
The PI Control Method may be applied following two different Control Types:
¾ PWM (1 bit):
Acts over the ON/OFF. This type of control
makes an internal estimation on the “Cycle Time” prefixed by
parameter, for the climatization system to be ON, to comply
with the user requirements.
¾ Continuous (1 byte): Acts over the ON/OFF. This type of
control makes an internal estimation on the “Cycle Time”
prefixed by parameter, for the climatization system to be ON, to
comply with the user requirements.
The only difference with the PWM control consists on that in
this case, the decision to turn the system ON/OFF is up to the
corresponding actuator.
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Note
: The HEATING section has been parameterized following the “Hysteresis
control method”, while the COOLING one has been parameterized following
the “PI Control method”.
However, both control methods can be used in either zone.
HEATING
CONTROL METHOD Æ To choose between “Hysteresis” or
“PI Control” method
¾ Upper Hysteresis (tenths of a degree):
This parameter sets
the upper hysteresis point referred to the “Set Temperature”
¾ Lower Hysteresis(tenths of a degree): This parameter sets the
lower hysteresis point referred to the “Set Temperature”
ADDITIONAL HEATING Æ
Under normal conditions, Climatization
Systems are responsible by themselves for the global regulation of the
room temperature. However, “auxiliary systems” are more and more
installed everyday, so these systems may be used to complement the
heating system.
It is when a user relays on one of this auxiliary systems, (A/C split, Heat
Pump…) when this parameter has a major importance.
Enabling this field, the auxiliary system is asked to contribute to reach
the “Set temperature” as soon as possible.
¾ Additional Heating Band:
As mentioned before, the extra
heating contribution must be complementary to the Heating
System, this implies, that it would be inconsistent that the
“Auxiliary” system provides heat until the “Set temperature” is
reached. It is because of this that this parameter sets the number
of degrees below the “Set Temperature” we want our “auxiliary
system” to be referred.
The real operation will be as follows
And the Auxiliary System in this case will be providing heat to the
room until its Reference Temperature is reached, to leave the Main
System acting alone from that moment.
AuxiliarySystemReference(Tª)=“SetTemperature”‐“AdditionalBand”
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COOL
CONTROL METHOD Æ
To choose between “Hysteresis” or “PI
Control” method
¾ Control Type
: To choose between “PWM (1 bit)” and
“Continuous (1 byte)” Control.
¾ Cycle Time
:
9 PWM (1bit):
This parameter it used to set a cycle period
during which it’s calculating the pulse width modulation.
9 Continous (1 byte):
This parameter set the cycle
transmission of “control variable” Object. In this case, this
variable is send after a value changing or periodically (time
defined in this area).
¾ Control Parameters:
Depending on if the system is working
with COOL or HEAT, this parameter sets the cooling or
heating system type used in the installation.
ADDITIONAL COOLING Æ
Under normal conditions, Climatization
Systems are responsible by themselves for the global regulation of the room
temperature. However, “auxiliary systems” are more and more installed
everyday, so these systems may be used to complement the Main Cooling
System.
It is when a user relays on one of these auxiliary systems, when this parameter
has a major importance. Enabling this field, the auxiliary system is asked to
contribute to reach the “Set Temperature” as soon as possible.
¾ Additional Cooling Band:
As mentioned before, the extra
cooling contribution must be complementary to the Main
Cooling System, this implies, that it would be inconsistent that
the “Auxiliary System” provides cool until the “Set
temperature” is reached. It is because of this that this parameter
sets the number of degrees over the “Set Temperature” we
want our “auxiliary system” to be referred.
And the Auxiliary System in this case will be providing cool to the
room until its reference temperature is reached, to leave the Main
System acting alone from that moment.
ESTADO INICIAL (al volver la tensión al BUS) Æ
En el caso en el
que se produzca una pérdida de tensión en el BUS, se puede fijar
mediante este parámetro, el estado en el que el usuario quiere que
comience a funcionar el TERMOSTATO cuando se recupere la tensión.
AuxiliarySystemReference(Tª)=“SetTemperature”+“AdditionalBand”
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Until now, when PWM or HYSTERESIS (1 bit control methods) were selected, there was no
possibility to know whether the thermostat was in the “0” or in the “1” status.
This makes users don’t know when the system is heating up and when is stopped.
To display this status, a new LED (based on 4 pixels) has been added in the upper right side of
the "ON" indicator in the first box of the Climate Page.
This new LED will blink every second when the control variable is sending a “1”.
2.2.3. TECHNICAL ALARMS
This is a specific screen, with up to six independent boxes in charge to monitor
the BUS looking for possible warning conditions in the KNX installation (gas,
smoke...).
Every “Enabled” box on the screen has some parameterizable fields at the user’s
disposal:
NAME Æ
This field allows a user to associate a name with the
corresponding box in the screen, (11 free characters are available to set
the name).
ALARM TRIGGER VALUE Æ
Choose whether it will be a (“0” or
“1”); this will mainly depend on the warning device installed.
CYCLICAL MONITORING Æ
The state of the detection devices
will be cyclically monitored by enabling this parameter.
CYCLE Æ
Defines a particular interval of time to monitor the BUS
looking for Technical Alarms or a detection device failure (in minutes).
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Note: When an error or accident is detected on the KNX installation, InZennio
Z38 will show the “Technical Alarms Screen”, and a danger icon will appear in
the box affected; at the same time, the Panel blinks and emits a “beep” to warn
the user.
Once the warning reception is confirmed by the user (pressing the OK button),
the screen will recover its normal state:
After 90 seconds, Inzennio Z38 display will again show the “Home” default
screen.
It is Really Important to know that confirming a warning doesn’t make the
Danger icon disappear from the box affected; this icon will only disappear from
the screen when the detector device sends again to the BUS its “normal status”;
if cyclical monitoring is enabled, it will be the own device which sends this
status when danger disappears.
2.2.4. CONFIGURATION
This is a specific page where to adjust some basic parameters.
Every “enabled” Box in the display has a field “Name”:
NAME Æ This field allows a user to associate a name with the
corresponding box in the display, (11 free characters are available to set
the name).
BOX 1 (Programming Mode)
When programming a device physical address, users can set the
“Programming Mode” directly from this box. This characteristic
makes this process easier as the user won’t need to access the rear
side of the panel to push the “Programming Button” any more
BOX 2 (Time Setting)
To set the time on the display:
¾ Time (together with the room temperature) is always displayed
in the middle upper section of the display.
¾ When setting the time, the display will send the new settings to
the BUS through its own Communication Objects.
¾ The refresh rate is 1 minute.
¾ When the display recovers from a BUS Power failure, this will
show the time it had just before the incident.
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Note I: When a Power BUS failure occurs, please have on mind the
delay this implies to correct it.
Note II: There are different KNX devices on the market which can
synchronize periodically the time and date of every single device in
the installation. Such devices can be really useful when the
installation is based on any kind of Schedule programming.
Note I: Disabled boxes appear “blank” in the display
BOX3(DateSetting)
To set the date in the display
To see the date in the display, users only have to press on any of
the enabled pages “header”. The date will be shown during 3
seconds.
Nota
: The day of the week does not appear on the display;
however, when programming the display, this is
automatically configured when setting the date
BOX4(DisplayContrastSetting)
The adjustment range for this function lies between 0 and 20.
The default value is 12.
BOX5(Reset)
Reset button to reinitialize the device.
RESET
SetTIME
SetDATE
Display
Contrast
Setting
ProgrammingMode
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2.3. INPUTS
The INZennio Z38 has 4 binary inputs for voltage-free contacts at the user’s disposal;
these inputs can be individually configured, and connected to a “push button” if
necessary.
Joining an input with the global “common” of the inputs, results in a “Closed Contact”;
the other option is an “Open Contact”.
A push button connected to an input consists of a device, which allows, or not, the
current flow while this is being pushed; in normal conditions, push buttons contacts are
always “open”.
Depending on the “Threshold Time”, we can distinguish two different actions:
¾ Short Press
¾ Long Press
Note: InZennio Z38 cannot be used neither with switches/sensors nor push buttons
(with closed contacts in normal conditions).
Note I: Once the InZennio Z38 display is parameterized via ETS, a calibration screen
will appear to delimit the Touch Zone on the display.
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Available configuration options for the enabled “inputs” are detailed next:
2.3.1. SHORT PRESS
Several configuration options are available for a “Short Press” on an
Input:
2.3.1.1. ONE BIT SENDING “0/1”
This function results on sending 1 bit to the BUS.
RESPONSE Æ
Depending on the function parameterization, the value
sent to the BUS will be, “0”, “1” or an alternative switching between “0
and 1”
CYCLICAL RESPONSE SENDINGÆ
This parameter allows a user
to choose the cyclically data sent, “0”, “1” or both (if the option
“Always” is selected).
PERIOD:
Defines the elapsed time between two consecutive
sendings in the “Cyclical Sending”
2.3.1.2. SHUTTER CONTROL
This function results on sending 1 bit to the BUS in order to control
shutters.
RESPONSE Æ The corresponding Control Object may be used to:
¾ Raise:
Raise the shutter. The BUS receives a “0”.
¾ Lower:
Lower the shutter. The BUS receives a “1”.
It is necessary to repeat this delimitation
process of the touch zone every time a user
makesadownloadtothescreenviaETS.
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¾ Raise/Lower Switching: Alternative switching between the
Pull Up/Down orders (to manage the shutter with an only
input).
¾ Stop/Pull Up Step:
Stops the shutter. When talking about
shutters with lamellas, this mode allows the user to control
them; this parameter moves lamellas a pull up step. The BUS
receives a “0”.
¾ Stop/Pull Down Step:
Stops the shutter; when talking about
shutters with lamellas, this mode allows the user to control
them; this parameter moves lamellas a pull down step. The
BUS receives a “1”.
¾ Stop/Step Switching:
Stops the shutter; when talking about
shutters with lamellas, this mode allows the user to control
them; this parameter alternatively switches the lamellas pull up
and down steps.
Note I:
When no directional lamellas are present, any of the 3 last
options will “stop” the shutter.
Note II:
Este último modo "parar persiana" incluye las 3 opciones de
paso arriba, paso abajo y paso conmutado para el control de lamas;
pero si la persiana no dispone de lamas orientables, cualquiera de las 3
opciones serviría para realizar la función parada de la persiana.
Note III:
Si se elige la función “subir/bajar” para la pulsación corta, no
se podrá realizar la función “parar persiana” en cualquier punto del
recorrido con otra pulsación corta de la misma entrada.
2.3.1.3. DIMMER CONTROL
This function results on sending a (4 bits) Dimming Control Object to
the BUS.
Dimming is typically quantified using percentages, such as 10%
dimming, and usually refers to the reduction in measured lumen output.
Therefore, a 100-lumen light source in a 10% dimmed system would
produce 10 lumens.
RESPONSE Æ Depending on the chosen option, the Control Object
may be:
¾ Light ON:
Turn the light ON. “The BUS receives a “1”.
¾ Light OFF:
Turn the light OFF. “The BUS receives a “0”.
¾ Light ON/OFF (toggle):
Alternative switching between the
ON/OFF orders (to manage the lighting level with an only
input).
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¾ Increase Light:
Every press on the screen increases the
lighting level, this parameter depends on the “Dimming Step”
set, (See below).
A short press reduces the lighting level; a second press stops
the “Increase”.
¾ Reduce Light:
Reduces the lighting level with every press on
the screen, this parameter depends on the “Dimming Step” set,
(See below).
A short press reduces the lighting level; a second press stops
the “Reduction”.
¾ Increase/Reduce Light Switching:
Alternative Switching
between the orders Increase and Reduce Light level.
DIMMING STEP Æ Depending on the value selected, different
lighting levels are offered. Once selected the “DIMMER CONTROL
option, it is necessary to set this parameter.
Dimming Step Necessary pulsations for a
complete regulation (0 – 100%)
6. 100% 1
5. 50% 2
4. 25% 4
3. 12.5% 8
2. 6.25% 16
1. 3.1% 32
0. 1.5% 64
2.3.1.4. SENDING A SCENE
This function results on sending a (1 byte) Scene Control Object to the
BUS; a scene on the BUS may be managed with the input through this
Object.
RESPONSE Æ
Choose whether the scene will be “Run” or “Saved”.
SCENE Æ
This parameter identifies the scene to Run/Save with the
corresponding Input.
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2.3.2. LONG PRESS
Configuration options are exactly the same as in the previous case “Short
Press”.
2.3.3. THRESHOLD TIME
This parameter defines the time limit where a short press turns into a long press.
If a press on the screen ends before the long press time, then it is a short press.
This value must be set with precision to tenths of a second (e.g. to get “0.5”
seconds, set “5”)
2.3.4. RESPONSE DELAY
This parameter sets the time to wait for the object to be sent to the BUS since
the action on the input took place. This value must be set with precision to
tenths of a second (e.g. to get “1” second, set “10”).
Note: To get an immediate sending (no delay), set the value “0” in this field.
2.3.5. INPUT LOCK
Selecting “Yes” on the pull down menu, the corresponding “Communication
Object” will disable the input.
¾ When receiving a “1” through this object, the InZennio Z38
will ignore any pulsation on the input.
¾ When receiving a “0” through this object, the input turns into
the “enabled” state again (without taking into consideration the
actions carried out while being disabled)
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42
ANNEX I. COMMUNICATION OBJETS
SECTION
NUMBER
SIZE
IN/OUT
FLAGS
VALUE
NAME
DESCRIPTION
RANGE
1ª TIME
RESET
0 3bytes I/O WT RANGO
1ª V0:00
EZ
Previous Time Current Time
1 3bytes I/O WT
01/01/2000 Previous Cate Current Date
2 1byte O T
Any Any Scenes
One only object used by device
GENERAL
3 2bytes O RT
0ºC
60ºC
Any Any Real Temperature
Internal sensor value
4 1bit I W Display brightness
1=Light the Display;0=NoAction
5 1bit I W
Any
Any
Touch Block
1=Touch Disabled; 0=Touch Free
6 - 17 1bit O T
Any
Any
[Home X Box X] Binary Control
1 bit generic control
1bit
O T
Any
Any
[Home X Box X] Light On/Off
0=Off; 1=On
1bit
O T
Any
Any
[Home X Box X] Move Shutter
0=Up; 1=Down
1bit
O T
Any
Any
[Home X Box X] Security
0=Deactivate; 1=Activate
1bit
O T
Any
Any
[Home X Box X] Simulation Channel
0=Off; 1=On
1bit
O T
Any
Any
[Home X Box X] Clima Control On/OFF
0=Off; 1=On
1bit
O T
Any
Any
[Home X Box X] Mode Control
0 = Cool; 1 = Heat
1bit
O T
Any
Any
[Home X Box X] Blinds Control
1=Swing, 0=Stop/Step
1bit
O T
Any
Any
[Home X Box X] Comfort mode
1 = Set mode; 0 = Nothing
1bit
O T
Any
Any
[Home X Box X] Night Mode
1 = Set mode; 0 = Nothing
1bit
O T
Any
Any
[Home X Box X] Out Mode
1 = Set mode; 0 = Nothing
18 – 29 1bit I WU
0 Previous [Home X Box X] Binary Indicator
1 bit generic indicator
1bit
I WU
0 Previous [Home X Box X] Light Indicator
0=Off; 1=On
1bit
I T
Any Any [Home X Box X] Stop Shutter
0 or 1 -> Stop
HOME & HOME II
1bit
I WU
0 Previous [Home X Box X] Security indicator
0=Deactivated; 1=Activated
1bit
I
0 Previous [Home X Box X] Presence Simulation
0=Disabled; 1=Enabled
1bit
I
[Home X Box X] Clima Indicator On/Off
0=Off; 1=On
1bit
I
[HomeXBoxX]ModeIndicator
0 = Cool; 1 = Heat
1bit
I
[Home X Box X] Blind Indicator
1=Swing, 0=Stop/Step
30 - 41 4bits O T
Any Any [Home X Box X] Light dimming
4 bits dimmer control
42-53 1byte O T
Any Any [Home X Box X] Precise light dimming
1 byte precise dimmer control
O T
Any Any
[Home X Box X] 1 byte control
1 byte generic control
O T
Any Any
[Home X Box X] Mode Control
0=Auto,1=Ht,2=Dry,3=Fan,4=Cool
O T
Any Any
[Home X Box X] Fan Control
0%Au;11-33%Mi;34-
66%Mid;>67%Ma
O T
Any Any
[Home X Box X] 1 byte control Control de 1 byte genérico
54 - 65 1byte I WU
0 Previous [Home X Box X] light indicator
0%=Off; 100%=On
I WU
0 Previous [Home X Box X] Shutter Position
0%=Top; 100%=Bottom
I WU
0 Previous [Home X Box X] 1 byte indicator
1 byte generic indicator
I WU
0 Previous [Home X Box X] Mode indicator
0=Auto,1=Ht,2=Dry,3=Fan,4=Cool
I WU
0 Previous [Home X Box X] Fan indicator
0%Au;11-33%Mi;34-
66%Mid;>67%Ma
66 - 77 2bytes O T
10ºC-
30ºC
Any Any [Home X Box X] Temperature control
from 10ºC to 30ºC
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78 - 89 2bytes I WU
-
99.9ºC-
99,9ºC
25ºC Previous [Home X Box X] Floating Point indicator
from -99.9 to 99.9
90 - 93 1bit O T
[Clima X] On/Off control
0=Off; 1=On
94 - 97 1bit O T
[Clima X] Fan Control
0=Auto; 1=Min; 2=Med; 3=Max.
O T
[Clima X] Fan Control
0%Au;11-33%Mi;34-
66%Mid;>67%Ma
98 - 101 1bit O T
[Clima X] Blind control
1=Swing, 0=Stop/Step
SPECIFIC X
102 - 105 1bit O T
[Clima X] Moe control
0 = Cool; 1 = Heat
(CLIMA)
106 – 109 1byte O T
[Clima X] Mode Control (1 byte)
0=Auto;1=Ht;2=Dry;3=Fan;4=Cool
110 - 113 2byte O T
[Clima X] Temperature Control
Value sent to the machine
114 - 117 1bit I WU
[Clima X] On/Off indicator
0=Off; 1=On
SECTION
NUMBER
SIZE
IN/OUT
FLAGS
VALUE
NAME
DESCRIPTION
RANGE
1ª TIME
RESET
118 - 121 1byte I WU
[Clima X] Fan indicator
0=Auto;1=Ht;2=Dry;3=Fan;4=Cool
122 - 125 1byte I WU
[Clima X] blinds indicator
0=Stop; 1= Moving
126 - 129 1bit I WU
[Clima X] Mode indicator
0=Cool; 1=Heat
130 - 133 1byte I WU
[Clima X] Mode indicator (1 byte)
0=Auto;1=Ht;2=Dry;3=Fan;4=Cool
134 - 137 2byte I WU
[Clima X] Temperature indicator
Value returned by the machine
142 - 145 1bit I WT
[Clima X] Comfort
1 = Set mode; 0 = Nothing
146 - 149 1bit I WT
[Clima X] Night
2 = Set mode; 0 = Nothing
150 - 153 1bit I WT
[Clima X] Out
2 = Set mode; 0 = Nothing
138 - 141 2bytes I WT
[Clima X] External temperature sensor
0=Auto; 1=Min; 2=Med; 3=Max.
154 - 161 1bit O T
[Clima X] control variable (Heat // Cool Hysteresis )
2 Point Control
[Clima X] control variable (Heat // Cool PWM )
Proportional Integral (PWM)
THERMOSTAT
162 - 169 1byte O T
[Clima X] control variable (Heat // Cool Continuous )
Proport. Integral (Continuous)
170 - 177 1bit O T
Any Any
[Clima X] control variable (Heat // Cool additional )
Proport. Integral (Continuous)
SPECÍFIC 5
(TECHNICAL ALARMS)
178 - 183 1bit I WU
No alarm Previous
[Tech Alarms, Box X] Alarm
Trigger value (0/1) -> Alarm
184 - 189 1bit I/O WT
Any Any
[Tech Alarms, Box X] Confirm
1=Alarm Confirmed; 0=No action
190 - 193 1bit I W 0/1 0 Previous [Ex] Block
1=Input Disabled; 0=Input Free
194 - 201 1bit O WT 0/1 0 Previous [Ex] [Short. Press] "0"
Short Pr. -> Sending of "0"
[Ex] [Long Press] "0"
Short Pr. -> Sending of "0"
[Ex] [Short Press] "1"
Short Pr. -> Sending of "1"
[Ex] [Long Press] "1"
Short Pr. -> Sending of "1"
[Ex] [Short Press] Switch
Short Pr. -> Switching "0/1"
[Ex] [Long Press] Switch
Short Pr. -> Switching "0/1"
[Ex] [Short Press] Raise Shutter
Short Pr. -> Sending of 0 (Up)
[Ex] [Long Press] Raise Shutter
Short Pr. -> Sending of 0 (Up)
[Ex] [Short Press] Lower Shutter
Short Pr. -> Send. of 1 (Down)
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44
[Ex] [Long Press] Lower Shutter
Short Pr. -> Send. of 1 (Down)
[Ex] [Short Press] Raise/Lower Shutter
Short Pr. -> Switching "0/1"
[Ex] [Long Press] Raise/Lower Shutter
Long Pr. -> Switching "0/1"
[Ex] [Short Press] Stop / Step up shutter
Short Pr. -> Sending of "0"
[Ex] [Long Press] Stop / Step up shutter
Long Pr. -> Sending of "0"
[Ex] [Short Press] Stop / Step down shutter
Short Pr. -> Sending of "1"
[Ex] [Long Press] Stop / Step down shutter
Long Pr. -> Sending of "1"
INPUTS
[Ex] [Short Press] Stop / Step switched shutter
Short Pr. -> Switching "0/1"
[Ex] [Long Press] Stop / Step switched shutter
Long Pr. -> Switching "0/1"
[Ex] [Short Press] Dimmer ON
Short Pr. -> Sending of 1 (ON)
[Ex] [Long Press Dimmer ON
Long Pr. -> Sending of 1 (ON)
[Ex] [Short Press] Dimmer OFF
Short Pr. -> Send. of 0 (OFF)
[Ex] [Long Press] Dimmer OFF
Long Pr. -> Send. of 0 (OFF)
[Ex] [Short Press] Dimmer ON/OFF
Short Pr. -> Switching "0/1"
[Ex] [Long Press] Dimmer ON/OFF
Long Pr. -> Switching "0/1"
202 - 209 4bits O T 0 -15 Any Any [Ex] [Short Press] Light up
Sh.Pr.->Bright; Sh.Pr.->Stop
[Ex] [Long Press] Light up
Lg.Pr.->Bright; Lg.Pr.->Stop
[Ex] [Short Press] Light down
Sh.Pr.->Dark; Sh.Pr.->Stop
[Ex] [Long Press] Light down
Lg.Pr.->Dark; Lg.Pr.->Stop
SECTION
NUMBER
SIZE
IN/OUT
FLAGS
VALUE
NAME
DESCRIPTION
RANGE
1ª TIME
RESET
[Ex] [Short Press] Light up / down
Sh.Pr->Bright/Dark;Sh.Pr->Stop
[Ex] [Long Press] Light up / down
Lg.Pr->Bright/Dark;Lg.Pr->Stop
210 - 217 1byte O T
0-
63 128-
192
Any Any [Ex] [Short Press] Run Scene
Short Pr. -> Sending of 0-63
[Ex] [Long Press] Run Scene
Long Pr. -> Sending of 0-63
[Ex] [Short Press] Learn Scene
Short Pr. -> Send. of 128-191
[Ex] [Long Press] Learn Scene
Long Pr. -> Send. of 128-191
OTHER
174 1bit I W
0 Previous Touch Block 1=Touch Bloqueado; 0=Libre
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45
ANNEX II. INDIVIDUAL CONTROLS
BINARY
(1)TurnOff (9)TurnOffLight2
(2)TurnOn (10)TurnOnLight2
(3)TurnOff2 (11)Exit
(4)TurnOn2 (12)In
(5)TurnOff3 (13)Cancel
(6)TurnOn3 (14)Accept
(7) – Turn Off Light (19) – Off
(8) – Turn On Light (20) – On
(21) – Disarmed (22) - Armed
DIRECTIONAL & INCREMENTAL
(30)Down (38)LowerShutter
(31)Up (39)RaiseShutter
(32)Left (40)LowerShutter2
(33)Right (41)RaiseShutter2
(34)DownArrow (50)‐Minus
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(35)UpArrow (51)Plus
(36)LeftArrow (52)LowerTemperature
(37)RightArrow (53)RaiseTemperature
AIR CONDITIONING
(70)TurnOff (82)StopBlades
(71)TurnOn (83)MoveBlades
(72)CoolMode (84)Stop
(73)HeatMode (86)Auto
(74)AutoMode (87)Auto2
(75)FanMode (88)Auto3
(76) – Dry Mode (89) – Auto 4
(77) – Very Low Fan (78) – Low Fan
(79) – Medium Fan (80) – High Fan
(81) – Very High Fan
NUMBERS
(100)‐Zero (105)‐Five
(101)‐one (106)‐Six
(102)‐Two (107)‐Seven
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(103)‐Three (108)‐Eight
(104)‐Four (109)Nine
(110)0 (111)‐1
SOUND & IMAGE
(150)Stop (159)LowerVolume
(151)Play (160)RaiseVolume
(152)Rewind (161)‐Mute
(153)Forward (162)SoundOn
(154)Before (163)‐TV
(155)Next (164)‐Audio/Video
(156)Record (165)‐AUX
(157)Pause (166)‐Movie
(158) – Eject (167) -Claqueta
OTHER
(200)‐Clock1 (208)‐Comfort
(201)‐Clock2 (209)‐Nigh t
(202)‐ClockOff (210)‐Out
(203)‐ClockOn (211)Strong
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(204)‐ClockOff2 (212)VeryStrong
(205) - Clock On 2 (218) – Key 2
(206) - Set (219) – New
(207) - Ok
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ANNEX III. DOUBLE CONTROLS
BINARY
(1)TurnOn/Off (9)‐TurnOn/OffLight2
(3)‐TurnOn/Off2 (11)Out/In

(5)‐TurnOn/Off3 (13)Cancel/Accept
(7) - Turn On/Off Light (19) - Off / On
(21) – Disarmed / Armed
DIRECTIONAL & INCREMENTAL
(30)Down/Up (38)Lower/RaiseShutter
(32)Left/Right (40)Lower/RaiseShutter2
(34)‐Down/UpArrow (50)Minus/Plus
(36)Left/RightArrow (52)Lower/RaiseTemperature
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AIR CONDITIONING
(70)‐TurnOn/OffA/C (82)Stop/SwingBlades
(72)‐Cool/Heat (84)‐Stop/SwingBlades2
(79) - Minus / More Fan
NUMBERS
(100)Zero/One (106)Six/Seven
(102)Two/Three (108)Eight/Nine
(104) – Four / Five (110) – 0 / 1
SOUND & IMAGE
(150)Stop/Play (159)Minus/MoreVolume
(152)Rewind/Forward (161)SoundOff/On
(154)Befote/Next (163)‐TV/AV
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OTHER
(202) - Clock Off / On (211) - Strong / Stronger
(204)‐ClockOff/On2 (217)Key1/Key2
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ANNEX IV. INDICATORS
BINARY
(1)On (13)‐Rejected
(2)‐Off (14)‐Ok
(7)LightOff (15)OpenDoor
(8)LightOn (16)ClosedDoor
(9)LightOff2 (17)OpenWindow
(10)LightOn2 (18)ClosedWindow
(19)Off (20)On
(21)Disarmed (22)‐Armed
DIRECTIONAL & INCREMENTAL
(38)LoweringShutter (40)LoweringShutter2
(39)RaisingShutter (41)RaisingShutter2
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AIR CONDITIONING
(70)A/COff (82)StopBlades
(71)‐A/COn (83)MoveBlades
(72)CoolMode (84)Stop
(73)HeatMode (85)MoveBlades2
(74)AutoMode (86)Auto
(75)FanMode (87)Auto2
(76)DryMode (88)Auto3
(77)VeryLowFan (89)Auto4
(78) – Low Fan (79) – Medium Fan
(80) – High Fan (81) – Very High Fan
NUMBERS
(100)Zero (105)‐Five
(101)One (106)‐Six
(102)Two (107)‐Seven
(103)Three (108)‐Eight
(104)Four (109)‐Nine

(110)0 (111)‐1
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SOUND & IMAGE
(162) – Sound Off
(163) – Sound On
OTHER
(200)‐Clock1 (208)‐Comfort
(201)‐Clock2 (209)‐Nigh t
(202)‐ClockOff (210)‐Out
(203)‐ClockOn (211)‐Strong
(204)‐ClockOff2 (212)VeryStrong
(205)‐ClockOn2 (213)‐Danger
(206) – Set (214) – Danger Cold
(207) – Ok (215) – Danger Hot
(216) – Danger Wind (217) – Key 1
(218) – Key 2 (219) - New
ZENNiOAVANCEYTECNOLOGÍA www.zennio.com
55
ZENNIOTECHNICALDOCUMENTATION
SIGNUP!
http://zennioenglish.zendesk.com
TECHNICALSUPPORT
9


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