KNX Capacitive Colour Touch Panel Application Program Version: [2.1] User Manual Version: [2.1]_a www.zennio.
InZennio Z41 DOCUMENT UPDATES Version Changes Page(s) Changes in the application program: • Parameter added for setting the attenuation of the backlight (total, partial or none) on inactivity. • Support added for TrueType fonts. • Compatibility with Greek and Cyrillic characters. • Driver update to offer compatibility with newer capacitive touch panels. • Minor changes in the handling of graphics, themes and transitions between themes.
InZennio Z41 Changes in the application program: General improvement of the capacities and functionality. Changes in the user interface and in the page browsing. More versatility: • 6 general-purpose pages and 2 specific pages. • Possibility of implementing different controls (climate, scenes, etc.) within the same page. 2.0_a • Self-alignment of the boxes in a page (optional). New functionality: - • RGB control. • RGBW control. • Energetic consumption monitoring. • Daily timer. • Alarm log.
InZennio Z41 Contents Document updates ................................................................................................................... 2 1 Introduction ...................................................................................................................... 6 1.1 InZennio Z41.............................................................................................................. 6 1.2 Z41 2.x..........................................................................
InZennio Z41 3.4.2.4 Climate control ...................................................................................... 52 3.4.2.5 Other ..................................................................................................... 60 3.5 Profile page ............................................................................................................. 72 3.5.1 3.6 Configuration page ..................................................................................................
InZennio Z41 1 INTRODUCTION 1.1 INZENNIO Z41 InZennio Z41 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 InZennio Z41 are: 4.1 inch backlit capacitive touch panel.
InZennio Z41 Function Z41 1.x General-purpose pages 2 Specific-purpose pages (climate, scenes, timers) 4 Z41 2.x 6 (***) Binary indicators (text / icon) Enumerated indicators (text / icon) Numerical indicators (percentage, floating point, etc.) (**) Chronological data log for numerical indicators 1-button controls (binary, scene, percentage, floating point, etc.) (**) 2-button controls (binary, scene, percentage, floating point, etc.
InZennio Z41 1.2 Z41 2.x The Z41 2.0 application program features the following functions: 6 general-purpose pages, with up to 8 fully-customizable boxes each, which the integrator may configure as indicators or controls. Indicators: o Binary (icon or text). o Signed integer (8 / 16 bits). o Enumerated (icon or text). o Scaling (percentage). o Unsigned integer (8 / 16 bits). o Floating point (16 bits). o Scaling (percentage). o Floating point (16 bits). o Scene (run / save).
InZennio Z41 1 Configuration page (optionally), which contains the controls for setting the time/date and for calibrating the built-in temperature probe. It also shows the alarm log, the software version and the current IP address. 1.3 INSTALLATION Figure 1 shows the connection outline of the InZennio Z41 screen: 9 1.- KNX bus connection 3 2 5 2.- Programming button 6 7 3.- Programming LED 4.- External power input 1 5.- USB connection 4 6.- Ethernet connection 7.- Slot for the button battery 8.
InZennio Z41 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.
InZennio Z41 Last, the “SW Version” box shows the version of the application program currently loaded to the device. The Status page will also show up during bus failures in case the external power (1224-29v) 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.).
InZennio Z41 2 CONFIGURATION 2.1 MENU PAGE The user interface of the InZennio Z41 touch screen is organised into pages (up to eight different pages), each of which can be accessed from the Menu page, which (unless parameterized the contrary) is automatically shown after the start-up of the device. Figure 3 Menu page (example) As Figure 3 shows, the access to the pages is provided by a set of icons, which eventually may show other (smaller) icons overlaid, such as an exclamation or a lock.
InZennio Z41 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 parameterization. For more details on the box distribution, refer to section 2.6.
InZennio Z41 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 (however alarm beeps will still work). Note that the labels of the controls in the Profile page, as well as the title of the page itself, are customizable in ETS.
InZennio Z41 2.4 CONFIGURATION PAGE The Configuration page lets the user know or adjust certain technical values about the device. Figure 7 Configuration page The specific controls that can be made available for the Configuration page are: 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.
InZennio Z41 programming mode as by pressing the actual programming button of the device (see section 1.3) in case the rear of Z41 cannot be accessed. Reset: a long press (~5 seconds) on this button sets the device back to the state it had after being programmed. It is equivalent to performing a reset from ETS. Nevertheless, data and alarm logs are not set to zero after a reset.
InZennio Z41 For more information on alarms, see epigraph f) in section 3.4.2.5. IP address: in case the device has been connected to an IP network through an Ethernet cable (see section 1.3), the IP address it has been assigned (if any) will be shown here. Version: indicator that informs about both, the version of the application program and, next to that, the version of the firmware that have been downloaded to the device (see section 1.3.1).
InZennio Z41 2.6 PAGE SHAPING Each of the pages of the user interface –including Menu, Profile and Configuration– can be independently parameterized 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.
InZennio Z41 3 ETS PARAMETERIZATION To begin with the parameterization of InZennio Z41, once the ETS program is running it is necessary to import the product database (Z41 application program). Next, the device is added to the project and, after right-clicking on the name of the device, the option “Edit parameters” must be selected to start the configuration process. The next sections explain in depth the ETS parameterization of the device.
InZennio Z41 [General] Date: 3-byte object for externally (for example, by linking it to a KNX clock) setting the internal date of the device. This object can also accept 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.
InZennio Z41 Main configuration, which will contain six more screens by default: General, Security, Touch lock, Internal temperature sensor, Energy monitor objects, White channel objects. Menu, which will contain one more screen by default: Configuration, from which it will be possible to activate and configure each of the six general-purpose pages of the device (see section 2.2).
InZennio Z41 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. 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.
InZennio Z41 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.
InZennio Z41 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.
InZennio Z41 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 in 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.
InZennio Z41 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 customization of the messages that the device shows (or may show) when the user interacts with the password insertion dialog.
InZennio Z41 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.
InZennio Z41 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 parameterized scene. By default, it is 1 minute. 3.2.
InZennio Z41 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.
InZennio Z41 From the Ethernet parameter screen it is possible to give a name or description to the device (Device description), so that identifying the device from the PC application for the firmware update via Ethernet turns easier, as this application may detect other Z41 devices connected to the local network. Currently, Z41 only permits automatic IP address assignment (through the DHCP protocol). Therefore, the IP Address Assignment parameter implements no functionality at the moment. 3.2.
InZennio Z41 [Energy x] Cost estimation: 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.
InZennio Z41 3.3.1 CONFIGURATION Figure 23 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 that can be accessed from the Menu page. The available parameters are: Title: text field that defines the title that will be shown on the top of the Menu page.
InZennio Z41 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 any of the boxes in the page. Depending on that, more parameter screens will appear.
InZennio Z41 Protected: dropdown list that permits setting whether the access to the page will be password protected or not. Depending on the security levels parameterized (one or two; see section 3.2.2) this list will contain the following options: One level: No: no password protection for the page. All users can access it. Yes: the page will implement password protection. Users will be asked to type the password when trying to access it. Two levels: No: no password protection for the page.
InZennio Z41 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 control with one push button), 2-button control (the box will work not only as a status indicator, but also as a control with two push buttons), Climate control (the box will act as a climate indicator and control) or Other (the box will implement some other functionality).
InZennio Z41 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 turn visible, as well as two more parameters that permit typing the texts to be shown when the object acquires the value “0” (Text Off) and the text to be shown when it acquires the value “1” (Text On).
InZennio Z41 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 “Two” will be shown. And when it receives the value “5”, icon “Three” will show. In case of receiving any other value, no icon will be shown.
InZennio Z41 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.
InZennio Z41 Figure 33 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 34) depending on the zoom level set by the user by means of the on-screen magnifying glass control.
InZennio Z41 Figure 35 1-button control (box) The desired function must be selected through the Funtion 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.
InZennio Z41 • 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: the list with all the icons available in Z41 can be found in the document “Z41 Icon list”, downloadable from www.zennio.com.
InZennio Z41 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.
InZennio Z41 Note: the list with all the icons available in Z41 can be found in the document “Z41 Icon list”, downloadable from www.zennio.com. Note: when multiple presses are made consecutively on the buttons of a control that regulates (increases / decreases) the value of a certain status, only the final value selected by the user will be sent to the bus, so it is not overloaded by sending all the intermediate values.
InZennio Z41 b) 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. Figure 41 Binary control (text) The available parameters are: Action: sets the value to be sent on button touches. This can be “Left 0, Right 1” (default) or “Left 1, Right 0”.
InZennio Z41 Figure 42 Enumerated control (icon) 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.
InZennio Z41 The available parameters 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.
InZennio Z41 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.
InZennio Z41 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.
InZennio Z41 Note: the list with all the icons available in Z41 can be found in the document “Z41 Icon list”, downloadable from 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.
InZennio Z41 the corresponding button. If the shutter was already in movement, these orders are interpreted by the actuator as a stop order. h) Lighting control The lighting control function permits making use of the two buttons in the box to send orders to a light dimmer, either though a binary object or through a 4-bit object.
InZennio Z41 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 parameterized dimming step, while a stop order (value “8”) will be sent through the same object as soon as the user releases the button.
InZennio Z41 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.
InZennio Z41 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 setpoint temperatures will be delimited by a maximum value and a minimum value, defined by the so-named parameters.
InZennio Z41 Figure 51 Relative (float object) setpoint control Example: a floating point relative setpoint control is parameterized with a minimum offset of -10 and a maximum offset of 10, and then the objects are linked to those from the external thermostat, which can be supposed to have a base setpoint temperature of 25ºC. After the parameter download, the first touch on the increase button will trigger the sending of the value “0.5”, so that the thermostat sets the setpoint to 25.5ºC.
InZennio Z41 been sent the value “1.5” to the bus), it will happen that on the forth press the value sent will be “0.5” and not “2”. Z41 Control object Offset Thermostat Offset (status) Status object Setpoint T. (status) Figure 52 Relative (float) setpoint control. Object linking. Note: the parameterized setpoint type becomes transparent to the final user, as the aspect of the on-screen box remains the same in all cases.
InZennio Z41 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 54 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.
InZennio Z41 Figure 56 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 6), after which the box will display the icon that corresponds to the new mode.
InZennio Z41 Tabla 7 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.
InZennio Z41 • 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: the list with all the icons available in Z41 can be found in the document “Z41 Icon list”, downloadable from www.zennio.com.
InZennio Z41 Special mode Icon Object value Comfort 1 (0x001) Standby 2 (0x002) Economy 3 (0x003) Protection 4 (0x004) Table 9 Special modes vs. icon vs. object value The remaining parameters for this function are: Allow protection mode: this parameter permits including (“Yes”, default option) or excluding (“No”) the “building protection” mode from the special modes listed in the sequential scrolling performed by the buttons.
InZennio Z41 Figure 59 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)”.
InZennio Z41 Figure 60 RGB (casilla) 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 channel, 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 preset colours, or by separately selecting the level of each channel (R, G, B).
InZennio Z41 Figure 62 RGBW Therefore, the functionality is similar to that of the RGB control (including the possibility of controlling the RGB channels both through binary 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.
InZennio Z41 Figure 64 RGBW colour palette c) Energy monitor (KES) Figure 65 Energy monitor (KES) This function permits making use of one of the boxes of Z41 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 66 Energy monitor (KES). Box. When the user touches any of these boxes, a pop-up window similar to Figure 67 will be shown.
InZennio Z41 monitoring the values received through the [Energy x] Power, [Energy x] Energy, [Energy x] CO2 and [Energy x] Cost estimation 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.
InZennio Z41 Note: the energy monitor objects in Z41 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.
InZennio Z41 the parameterization) at a certain time (either everyday or only once) or at the end of a countdown. Binary value to be sent, or “Scene” icon Figure 69 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.
InZennio Z41 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.
InZennio Z41 Hence, when the user presses on the box, a window similar to Figure 73 will pop up Day selector Value to be sent (ON / OFF) Time selector Figure 73 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.
InZennio Z41 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.
InZennio Z41 Figure 75 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.
InZennio Z41 trigger, should be interpreted by Z41 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 adopts the alarm situation.
InZennio Z41 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 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 77 Configuration (Profile page) By default, all controls are marked as active. Please refer to section 2.3 for details.
InZennio Z41 Figure 78 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. 3.
InZennio Z41 Note: for further information about the behaviour and the parameterization of the Zennio “Building” thermostat implemented by Z41, please refer to the specific documentation (“Zennio Building Thermostat”) available at www.zennio.com. http://www.zennio.com Tecnical Support: http://zennioenglish.zendesk.
InZennio Z41 ANNEX. COMMUNICATION OBJECTS Note: columns 1st TIME and RESET show the initial value of the object, but do not necessarily imply it is automatically sent to the bus after download or after bus failure. VALUES NUMBER SIZE I/O FLAGS DATA TYPE (DPT) 0 3 Bytes I/O CTRW U [10.001] DPT_TimeOfDay 0 0 Last [General] Time Current Time I/O CTRW U [11.001] DPT_Date 01/01/1990 – 31/12/2089 01/01/2000 Last [General] Date Current Date CT–-- [18.
InZennio Z41 NUMBER SIZE I/O FLAGS 1ST TIME RESET NAME FUNCTION 1 Bit I C–-WU [1.100] DPT_Heat_Cool 0/1 0 Last [PX][BX] Mode Indicator 0 = Cool; 1 = Heat I C–-WU [9.001] DPT_Value_Temp -20.00 – 95.00 25 Last [PX][BX] Temperature Indicator Absolute Float Value 1 Byte I C–-WU [5.001] DPT_Scaling 0-100 0 Last [PX][BX] Light Indicator 0%=Off; 100%=On 1 Byte I C–-WU [5.001] DPT_Scaling 0 – 100 0 Last [PX][BX] Shutter Position 0%=Top; 100%=Bottom 2 Bytes I C–-WU [9.
InZennio Z41 NUMBER SIZE I/O FLAGS DATA TYPE (DPT) 2 Bytes O CTR–- [8.001] DPT_Value_2_Count VALUES RANGE -32768 – 32767 1ST TIME 0 RESET NAME FUNCTION Last [PX][BX] 2-byte Signed Int Control -32768...32767 0...65535 2 Bytes O CTR–- [7.001] DPT_Value_2_Ucount 0 – 65535 0 Last [PX][BX] 2-byte Unsigned Int Control 1 Byte O CTR–- [5.001] DPT_Scaling 0 – 100 0 Last [PX][BX] Percentage Control 0-100% Last [PX][BX] 1-byte Signed Int Control -128...
InZennio Z41 SIZE I/O FLAGS 166, 193 2 Bytes O CTR–- [9.001] DPT_Value_Temp 5.00 – 45.00 Paramet. Last [TX] Basic Setpoint Status 167, 194 2 Bytes O CTR–- [9.002] DPT_Value_Tempd -10.00 – 10.00 Paramet. Last [TX] Setpoint Offset Status Current setpoint offset 1 Bit I C–-W- [1.015] DPT_Reset 0/1 0 Last [TX] Offset Reset Reset offset 168, 195 DATA TYPE (DPT) VALUES NUMBER RANGE 1ST TIME NAME RESET FUNCTION Current basic setpoint 1 Bit I C–-W- [1.
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