K-BUS CHTF-05 User Manual
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K-BUS CHTF-05 User Manual

Colour touch panel 5.0?
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Guangzhou Video-Star Electronics E urope
K-BUS Colour Touch Panel 5.0"
User manual-Ver. 1
CHTF-05/01.1
Intelligent installation systems
video-star-electronics.eu

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Christian Facius
May 15, 2025

Hallo, ich benötige die Produktdatenbank vom CHTF-05.Wie komm ich dazu

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Summary of Contents for K-BUS CHTF-05

  • Page 1 Guangzhou Video-Star Electronics E urope K-BUS Colour Touch Panel 5.0″ User manual-Ver. 1 CHTF-05/01.1 Intelligent installation systems video-star-electronics.eu...

  • Page 2: Table Of Contents

    Contents Overview ---------------------------------------------------------------------------------------------------------- 3 Technical data --------------------------------------------------------------------------------------------------- 4 Dimension and circuit diagram ------------------------------------------------------------------------------ 5 3.1 Dimension diagram --------------------------------------------------------------------------------------------- 5 3.2 Circuit diagram -------------------------------------------------------------------------------------------------- 5 Project design and programming ---------------------------------------------------------------------------- 6 Parameter setting description in the ETS ------------------------------------------------------------------ 7 5.1. Parameter window ―General Setting‖------------------------------------------------------------------------ 7 5.2.

  • Page 3: Overview

    1. Overview The Colour Touch Panel 5.0″ (hereinafter referred to as TFT) is used to display status and control various devices in the EIB/KNX system. When you touch some graphic button in the TFT operation system, the TFT will execute a predefined function, such as switch lighting, scene control or blinds/shutter control etc.

  • Page 4: Technical Data

    2. Technical data Bus voltage 21-30V DC, via the EIB Power supply External power supply 20-30V DC Bus current consumption <12mA Bus power consumption <360mW External power consumption <6W EIB / KNX Via bus connection terminal(black/red) Connections External power supply Via bus connection terminal(grey/yellow) Cable cross-section Single core 0.2—6.0mm...

  • Page 5: Dimension And Circuit Diagram

    3. Dimension and circuit diagram 3.1 Dimension diagram 3.2 Circuit diagram ① Reset button, reset screen display, but not reset application ⑤ External power supply connection terminal ② Programming button ⑥ IR transmitter probe, proximity function (now unavailable) ③ Red LED for entering the physical address, green LED for ⑦...

  • Page 6: Project Design And Programming

    4. Project design and programming Max. number of Max. number of Max. number of Application program communication objects group address associations Colour Touch Panel 5.0″ Overview of the functions: General setting General functions include system menu language, warning tone, indicator LED, proximity function, operation block, screen saver, backlight brightness, show date/time, show indoor and outdoor temperature.

  • Page 7: Parameter Setting Description In The Ets

    the TFT can control air condition via IR transmitter on the bus, for example, the TFT send a control telegram to the IR transmitter, the IR transmitter will send a message with the function code to the air-condition, thus the air-condition can be turned on or off, switched to different operation mode, or regulated wind speed etc via the application.
  • Page 8 Options: Parameter “Indicator LED” This parameter is used to set whether the indicator LED (K-BUS logo) is turned on. If turned on, the place where the TFT is mounted is known easily in the evening. Options: Parameter “Operation password”...
  • Page 9 the follow parameter ―Backlighting day/night when does not under operating‖. If selecting ―album‖, when the TFT enters into the screen saver, electronic photo album pictures in a SD card will be shown in the screen, and the backlight of screen will also be not switched off. At this time, the backlight is set in the follow parameter ―Backlighting day/night when does not under operating‖.
  • Page 10 Fig. 5.1 parameter window ―General Setting‖ (2) Parameter “backlighting after bus voltage recovery” This parameter is used to set the backlight brightness of screen after bus voltage recovery or reset. Option: 10…100% Parameter “backlighting day (%)” This parameter is used to set the backlight brightness of screen in the day. Option: 10…100% Parameter “Backlighting night (%)”...
  • Page 11 telegram value, and the TFT does not under operating, then the backlight is changed to brightness of day under no operating. Parameter “Switch day/night mode automatically” The parameter defines whether the function that backlight of the TFT switch between the day and night mode automatically is activated.
  • Page 12 If selecting ―active‖, the objects ―date‖ and ―time‖ will visible, the date and the time can be modified via them. Temperature setting The following parameters are used to set temperature display in the TFT operation system. Parameter “Temperature display units” Here set temperature display units.
  • Page 13 The parameter is visible if the option ―External temperature sensor‖ is selected with the parameter ―type of indoor temperature sensor‖. The parameter is used to define the time that the TFT device monitors the external temperature sensor. If the TFT device does not receive a special telegram from the external temperature sensor during the time, it will judge that the external temperature sensor goes out of order, and start using the internal temperature sensor.

  • Page 14: Parameter Window -Lighting

    temperature is 20+50*0.1=25℃. Parameter “Temperature units of measurement” — It is used to set the outdoor temperature units of measurement. Options: Celsius (C) Fahrenheit (F) Note: The indoor temperature sensor may be the temperature sensor inside the TFT device, or other temperature sensor in the TFT outside (other sensors on the bus), but the both are used to measure the indoor temperature, and then the temperature is displayed in the TFT operation system.
  • Page 15 Fig. 5.2 parameter window ―Lighting‖ (switching) Fig. 5.2 parameter window ―Lighting‖ (dimming) Parameter “Lighting x, x=1…18” This parameter defines whether the lighting x is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. — Parameter “Lighting x function” The parameter is used to set the function of lighting x.

  • Page 16: Parameter Window -Blind/Shutter

    If selecting ―Switching‖, the function can only be used for switching lighting. The objects ―switching‖ and ―status‖ are visible. General, the two objects are used together, e.g. the ―switching‖ is linked to ―switch‖ object of dimmer, the ―status‖ is linked to ―switch status‖ object of dimmer, if the ―status‖...
  • Page 17 Fig. 5.3 parameter window ―Blind/Shutter‖ (Shutter) Fig. 5.3 parameter window ―Blind/Shutter‖ (Roller blind) Parameter “Blind/Shutter x function, x=1…6” This parameter defines whether blind/shutter x control function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. —...

  • Page 18: Parameter Window -Scene

    This parameter is used to set the name that is shown in the TFT operation system for blind/shutter x, at most 10 characters can be input here. — Parameter “Function switchover blind/shutter” The parameter is used to define whether a roller blind or shutter is to be driven by an operation of the TFT.

  • Page 19: Parameter Window -Hvac

    This parameter defines whether scene x control function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. Parameter “Name of scene x” — This parameter is used to set the name that is shown in the TFT operation system for scene x, at most 10 characters can be input here.
  • Page 20 Fig. 5.5 parameter window ―HVAC‖ Parameter “HVAC active” This parameter defines whether HVAC control function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. Parameter “Operating mode after reset” This parameter is used to set the operating mode after bus voltage recovery or reset. Options: Comfort Standby Night...
  • Page 21 operation modes switchover. In this case, the object values mean: 1—comfort, 2—standby, 3—night, 4—frost/heat protection. Parameter “Setpoint can be changed by bus” The parameter defines whether the setpoint can be changed via bus. Options: With the setting ―Yes‖, the setpoint can be changed via the object ―Setpoint‖. Parameter “Send setpoint value”...
  • Page 22 Parameter ―Heating‖ Parameter ―cooling‖ Parameter ―heating and cooling‖ Parameter “Operation mode after reset” This parameter will be visible if the option ―Heating and cooling‖ is selected with the parameter ―Control function‖. It is used to set the control function after bus voltage recovery or reset. Options: Heating Cooling...
  • Page 23 setpoint for operating modes. Options: Relative Absolute If selecting relative setpoint, mean that a comfort temperature (base setpoint) is defined and other setpoints such as temperature at standby or night refer to this point. For example, the standby temperature 2℃ is set lower than the comfort temperature (base setpoint). At a comfort temperature of 21℃, the standby temperature is 19℃.
  • Page 24 temperature for the heating/cooling mode. The temperature value specified does not depend on the base setpoint configured for heating/cooling. Option: 10…40 — Parameter “Setpoint night heating, absolute (Celsius) ” / Parameter “Setpoint night cooling, absolute (Celsius)” These parameters are only visible if the option ―absolute‖ is selected with the parameter ―setpoint temperatures for operating modes‖, which are used to specify the individual night temperature for the heating/cooling mode.
  • Page 25 2-point 1-bit (Off/On) / 2-point 1-byte (0/100%) PI continuous...
  • Page 26 PI PWM (1-bit)
  • Page 27 Fan coil — Parameter “Mode of the control value for heating/Cooling” The parameter can be used to adapt control value to "normal" or "inverse" valves. Options: Normal Inverse If selecting ―normal‖, the object ―Heating/Cooling control value‖ sends out the control value normally.
  • Page 28 only send out the telegrams “0%” and “100%”. Parameter “Hysteresis heating/Cooling =entry*0.1(Celsius) ” — These parameters are only available if the "2-point control" is set as control type, which are used to set a hysteresis value to ensure that the valve does not constantly switch with each minor under and overshoot when using 2-point control of the actuator.

  • Page 29: Parameter Window -Customize

    The PI control values of “PI continuous” and “PI PWM (1bit)” are same, but their control objects are not same, the object of “PI continuous” sends the PI control value (1byte) directly, while the object of “PI PWM (1bit)” sends an “on/off” according to the duty cycle of the PI control value.
  • Page 30 values are sent for an operation in the TFT system. Their parameters are the same for each group. Take a group as an example, describing their parameter. Fig. 5.6 parameter window ―Customize‖ Parameter “Customize active” This parameter defines whether customize values function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible.

  • Page 31: Parameter Window-Audio

    Currently workable icon number is 0…23, other is reserved, the icons are same as the scene‘. — Three values of different data type can be sent for each group, parameter settings is the same for each value in this group, take a value as an example: Value y of group x (y=1…3, x=A…R) Value y of group x can be set via the following parameters.
  • Page 32 Fig. 5.7 parameter window ―Audio‖ Parameter “Audio” This parameter defines whether the audio control function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. Parameter “Duration of sleep mode (s)” This parameter defines the duration time of sleep mode for the audio. For example, when you want listen music during sleeping, you can enable the sleep mode and set the duration play time here.

  • Page 33: Parameter Window-Air Condition

    5.8. Parameter window“Air condition” Parameter window ―Air condition‖ can be shown in fig. 5.8. Here specify functional blocks for controlling air condition. The application offers two object types for output control commands: 1bit and 1byte. In the case of 1bit, the commands are sent out via several 1-bit objects, you can see also the communication object chapter description.
  • Page 34 Fig. 5.8 parameter window ―Air condition‖ (1byte) Parameter “Air condition active” This parameter defines whether air-condition control function is active. Options: Active Inactive If selecting ―active‖, the following parameters will be visible. Parameter “Setpoint can be changed by bus” The parameter defines whether the setpoint can be changed via bus. Options: With the setting ―Yes‖, the setpoint can be changed via the object ―Setpoint‖.
  • Page 35 ―setpoint‖. If the setpoint value changes, it will be sent immediately and the time of cyclical sending will re-start. — Parameter “Time of cyclical sending setpoint (min) ” This parameter is only visible if the option ―Send cyclically‖ is selected with the above parameter ―Send setpoint value‖.

  • Page 36: Parameter Window-Security

    The parameter defines the value that the object ―IR command number‖ sends out for air volume high. Option: 0…255 — Parameter “Command for fan speed medium” The parameter defines the value that the object ―IR command number‖ sends out for air volume medium.
  • Page 37 Fig. 5.9 parameter window ―Security‖ Parameter “Security active” This parameter defines whether security function is active. Options: Active Inactive If selecting ―active‖, the following parameter will be visible. Parameter “Security x (1…6) active” This parameter defines whether security function x is active. Options: Active Inactive If selecting ―active‖, the following two parameters will be visible.

  • Page 38: Parameter Window-Rgb Led Dimming

    5.10. Parameter window“RGB LED dimming” Parameter window ―RGB LED dimming‖ can be shown in fig. 5.10. Here set RGB LED dimming. When the function is activated, the dimming objects will be visible. R (red), G (green) and B (blue) three-channel colour have their own corresponding object. Via their own object can make the three colour change, as well as superposition and change the three colours can get a variety of colour.

  • Page 39: Parameter Window-Logic

    5.11. Parameter window“Logic” Parameter window ―Logic‖ can be shown in fig. 5.11. Here can set up to 5 logic operation functions. Each logic function has two input logic values that are received via the objects ―input1‖ and ―input2‖. Logic value of Input1 makes ―AND‖, ―OR‖ or ―XOR‖ operation with logic value of input2, and then the operation result is sent to the bus via the object ―output‖.
  • Page 40 Parameter “Object type of input 1/2” The parameter is used to define the size of the input objects ―input1/2‖ for input logic values. Options: 1byte 1bit With the ―1byte‖ setting, if the object value is greater than 0, it is true. Parameter “Initial value input 1/2”...

  • Page 41: Description Of Communication Object

    output object will send the operation result to the bus. With the ―With a change of output object‖ setting, if value of the output object is changed, the output object will send the operation result to the bus. With the ―Always‖ setting, when each time the input objects receive a new input value, the output object always will send the operation result to the bus.

  • Page 42: Communication Object -Lighting

    3MSB 1LSB Hour Minutes Seconds Day — 0…7, 1=Monday, …, 7=Sunday, 0=no day Hour — 0…23 Minutes — 0…59 Seconds — 0…59 Date General 3Byte The communication object is used to modify the show date in the TFT system via receiving a telegram with date.

  • Page 43: Communication Object -Blind/Shutter

    Object function Name Data type Flags Switching Lighting x 1bit C, T The communication object is used to send out an ON telegram or an OFF telegram, to turn on or off lighting. Telegram value: 1——ON 0——OFF Status Lighting x 1bit The communication object is used to receive a telegram with on/off status response from dimmer or other bus device, and in the TFT system display the current status via graphic button.

  • Page 44: Communication Object -Scene

    6.4. Communication object “Scene” Fig. 6.4 communication object ―Scene‖ Object function name Data type Flags Number of scene Scene x 1byte The communication object is used to send out a scene number and the information as to whether a scene should be recalled or the current scene should be stored.
  • Page 45 Setpoint HVAC 2 byte C,R,W,T This communication object is used to modify the temperature setpoint or send out the setpoint, read out the setpoint on the bus according to the parameter setting. Temperature range: 10…40℃ Heating control value HVAC 1bit/byte C,R,T The communication object is used to send out the control value for heating function on the bus to control temperature controller on/off.

  • Page 46: Communication Object -Customize

    Frost/heating protection mode HVAC 1bit C,R,W,T The communication object will be visible with ―1bit‖ in the parameter ―object for operating mode change‖. If a telegram ―1‖ is sent out at this communication object, the operating mode is switched to the frost/heating protection mode for the temperature controller.
  • Page 47 On/off Audio 1bit C,W,T The communication object is used to send out a telegram with on/off, to turn on or off a music module. Telegram value: 1——on 0——off If the object has not sent or received a telegram ―on‖, other operations cannot be used and cannot receive telegrams from the bus.

  • Page 48: Communication Object -Air Condition

    Repeat mode Audio 1bit C,R,W,T This communication object is used to activate and deactivate the repeat mode. Telegram value: 1——enable repeat mode 0——disable repeat mode Shuffle mode Audio 1bit C,R,W,T This communication object is used to activate and deactivate the shuffle mode. Telegram value: 1——enable shuffle mode 0——disable shuffle mode...
  • Page 49 Object function Name Data type Flags Setpoint Air condition 2byte C,R,W,T This communication object is used to read out the setpoint, modify the temperature setpoint or send out the setpoint on the bus according to the parameter setting. In the default parameter settings, the setpoint can only be read out.

  • Page 50: Communication Object -Security

    Wind LR/UD Air condition 1bit The communication object will be visible with ―1bit‖ in the parameter ―object type for control air condition‖, which is used to send out a telegram with wind LR/UD. Telegram value: 1——wind left/right 0——wind up/down Wind auto/stop Air condition 1bit The communication object will be visible with ―1bit‖...

  • Page 51: Communication Object -Rgb Led Dimming

    6.10. Communication object “RGB LED dimming” The following objects are used to dim for RGB LED. Three objects among them used to send out brightness value telegrams for R (red), G (green) and B (blue) three-channels, another three objects are used to receive brightness status of the three-channel response. Therefore, the TFT can be used for dimming RGB LED, and we can see brightness status of RGB LED in the TFT system.

  • Page 52: Appendix

    7. Appendix TFT operation interfaces and icons instruction 7.1 The main interface There are two main page styles: To enter the setting interface Cover flow Squares There can display time, date, indoor and outdoor temperatures and function blocks in the main interface.

  • Page 53: Password Interface

    7.2 Password interface The password interface is shown as the picture at right. It needs to input the password to entry the setting interface. The waiting time of input password is 7s, once the time has passed, turn the password interface off. After block operation, it also need to input the password to deblocking, its waiting time is relate to screensaver time, if the screensaver...

  • Page 54: Lighting Control Interface

    7.4 Lighting control interface 1. Icons instruction The follow is the icon number 0…7 corresponding pictures, color icon – light on, grey icon – light off, the images with arrow mean that the lights can be dimmed. General Desk lamp Droplight Fluorescent General light...

  • Page 55: Shutter / Blind Control Interface

    7.5 Shutter / blind control interface 1. Icons instruction A color icon and a grey icon form an operating action. Move up/ Stop move Move down/ Open blind Stop Close blind lamella up lamella down 2. Operation interface The shutter/blind control interface is shown as the picture at right.

  • Page 56: Scene Control Interface

    7.6 Scene control interface 1. Icons instruction Relaxation Movie Meeting Read Relaxation Public facilities visitor light off At home Cleaning Game All light off All light on Dinner Movie Sleep Leave Dance Sports Reception Read Music General home 2. Operation interface The scene control interface is shown as the picture at right.

  • Page 57: Hvac Control Interface

    7.7 HVAC control interface 1. Icons instruction Setpoint Setpoint Comfort Standby Night Frost/heating Middle High down mode mode mode protection wind wind wind mode speed speed speed Cooling Heating Setpoint display box 2. Operation interface The HVAC control interface is shown as the picture at left.

  • Page 58: Audio Control Interface

    7.9 Audio control interface 1. Icons instruction Backward Backward Forward Forward Mute Shuffle Repeat Sleep/ switch playlist song song playlist mode mode timing Hip Hop knight Dance Popular Classical Start/stop Pause Volume Volume decrease increase Song name display 2. Operation interface The Audio control interface is shown as the picture at right.

  • Page 59: Air Conditioning Control Interface

    7.10 Air conditioning control interface 1. Icons instruction Auto Heating Cooling Dry mode Setpoint Setpoint Low wind Middle High wind mode mode mode down speed wind speed speed Wind Wind auto Wind Wind stop Air condition Setpoint display box, up/down left/right on/off on/off display...

  • Page 60: Security Setting Interface

    7.11 Security setting interface 1. Icons instruction Open arming Close arming Open disarming Close disarming Armed Disarmed window window window window 2. Operation interface Open arming Open disarming interface interface and input password Arming/disarming interface The current arming Already arming, the icon shows green...

  • Page 61: Rgb Led Dimming Interface

    7.12 RGB LED dimming interface Operation interface The RGB LED operation interface is shown as the picture at right. The current color is probably effect of R, G and B three color mixtures. If the three-color LED lighting effect you need is similar with the colors of squares at the bottom of the interface, you can click the corresponding color squares to recall it...

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