Hoval TopTronic E Instructions Manual

Hoval TopTronic E Instructions Manual

Tte-glt module

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CST instructions TopTronic
Content
1.
1.1.
System overview .................................................................................................................... 3
2.
GLT module TTE-GLT .................................................................................................... 4
2.1.
Module expansion TTE-FE .................................................................................................... 5
2.2.
Control module TTE-(R)BM ................................................................................................... 6
3.
Technical data ................................................................................................................ 7
4.
Setting the address of modules (DIP switches) .......................................................... 8
5.
Overview ......................................................................................................................... 9
5.1.
Overview menu .................................................................................................................... 10
6.
Information menu ......................................................................................................... 11
7.
Function name ............................................................................................................. 12
7.1.
Function name menu ........................................................................................................... 12
8.
Configuration ............................................................................................................... 12
8.1.
Configuration menu ............................................................................................................. 12
9.
Temperature requirements .......................................................................................... 13
9.1.
Input signal, characteristic curve ....................................................................................... 13
9.2.
Send requirement ................................................................................................................ 13
9.3.
Heating / cooling change-over ............................................................................................ 14
9.4.
Temperature requirement menu ......................................................................................... 14
10.
Output requirement...................................................................................................... 15
10.1.
Input signal, characteristic curve .................................................................................... 15
10.2.
Send request .................................................................................................................... 15
10.3.
Heating / cooling change-over ........................................................................................ 16
10.4.
Power requirement menu ................................................................................................ 16
11.
Reference value detection ........................................................................................... 17
11.1.
Reference value detection menu ..................................................................................... 17
12.
Information sensor / information 0-10V ..................................................................... 18
12.1.
Information sensor ........................................................................................................... 18
12.2.
Information 0-10V ............................................................................................................. 18
4 214 174 V00 KDT GLT-Modul TTE_EN.docx
TTE-GLT module
®
E ............................................................................. 3
®
E
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Summary of Contents for Hoval TopTronic E

  • Page 1: Table Of Contents

    ® CST instructions TopTronic TTE-GLT module Content ® Controller generation TopTronic E ................3 1.1. System overview ........................3 GLT module TTE-GLT ....................4 2.1. Module expansion TTE-FE ....................5 2.2. Control module TTE-(R)BM ....................6 Technical data ........................ 7 Setting the address of modules (DIP switches) ............
  • Page 2 12.3. Info values menu ......................19 Date time menu ......................20 Sensor balancing menu ....................21 Faults ..........................22 Fault output ..........................22 15.1. Faults menu ........................22 Relay test ........................23 16.1. Relay test menu ........................ 23 Sensors ......................... 23 17.1.
  • Page 3: Controller Generation Toptronic ® E

    1. Controller generation TopTronic ® The TopTronic E controller system is based on independent controller units (modules) that are connected together via the Hoval CAN bus. The individual modules can be set using one or more control modules.  A maximum of 16 intelligent modules can be connected. Of these, max. 8 modules can be equipped as TTE H-Gen modules.
  • Page 4: Glt Module Tte-Glt

    GLT module TTE-GLT The specific tasks of the TTE – GLT module are: It should a) read in temperature reference values for heating, cooling and hot water via 0-10V inputs and output them to the heat manager or buffer b) read in power reference values for heating, cooling and hot water via 0-10V inputs and output them to the heat generator c) detect reference values from consumers and display them at outputs d) provide inputs for the setpoint increase/decrease...
  • Page 5: Module Expansion Tte-Fe

    2.1. Module expansion TTE-FE Universal module for hardware expansion of inputs/outputs. Can be used for each control module, as well as the GLT module. Max. 2 module expansions are possible per control/GLT module. The connection to the particular control module is made using a ribbon cable (unit bus GB) and mains connection plug set.
  • Page 6: Control Module Tte-(R)Bm

    2.2. Control module TTE-(R)BM 4 214 174 V00 KDT GLT-Modul TTE_EN.docx 6 / 26...
  • Page 7: Technical Data

    0 … 50°C 0 … 50°C Ambient temperature Storage temperature - 20 ... 60°C - 20 ... 60°C Bus system (Hoval CAN bus) max. 4 control modules / Capacity 3 control modules + 1 gateway Bus supply none Bus line...
  • Page 8: Setting The Address Of Modules (Dip Switches)

    Setting the address of modules (DIP switches) The addresses of the individual modules are set using the DIP switches on the circuit board. Each module must have a different address. The addresses do not have to be set in consecutive sequence. The factory settings for the modules were selected so that there is no need to change the address settings, as long as no module occurs twice.
  • Page 9: Overview

    Overview The following overview shows the main functions and the relationship with inputs and outputs. What are involved are HW inputs and outputs, or information via the system bus. 4 214 174 V00 KDT GLT-Modul TTE_EN.docx 9 / 26...
  • Page 10: Overview Menu

    5.1. Overview menu Resource Address Service (controller) Function group (FunctionGroup 0) General (FunctionGroupName) Function Operation (FunctionNumber 0) (DisplayGroup) General Information Info values (FunctionName) General (DefaultValue) Function Clock date name Sensor Configuration balancing 0-10V Faults temp. HT 0-10V Relay test temp. cool 0-10V Sensors temp.
  • Page 11: Information Menu

    Information menu Parameters Designation Value Min. Max. Comments 77.1 °C 21-120 Info 1 Info 1 21-121 Info 2 --- °C Info 2 --- °C 21-122 Info 3 Info 3 21-123 Info 4 --- °C Info 4 --- °C 21-124 Info 5 Info 5 21-112 Info 1 IMP...
  • Page 12: Function Name

    Parameters Designation Value Min. Max. Comments 02-067 SO/WI display Summer/winter operation display 20-009 Software version Software version expansion expansion module 2 module 2 20-019 Hardware version Hardware version expansion expansion module 2 module 2 20-203 Version_CommonLib 1.3.0 Library version 20-200 Version_VMLib 1.3.0 Library version...
  • Page 13: Temperature Requirements

    Parameter Designation Value Min. Max. Comment 30-055 Allocation 5=VE2 Allocation setpoint reduction input setpoint reduction input 0=OFF, 1=AF, 2=SF, 3=VF1, 4=VE1, 5=VE2, 7=VE1-FE1, 8=VE2-FE1, 9=VE3-FE1, 10=FVT-T-FE1, 12=VE1-FE2, 13=VE2-FE2, 14=VE3-FE2, 15=FVT-T-FE2 Temperature requirements A function with the analog behaviour is implemented for each of the three energy types of heating, cooling and hot water.
  • Page 14: Heating / Cooling Change-Over

    9.3. Heating / cooling change-over If an input is allocated for switching over between heating and cooling, one each of the two functions is blocked and the other is enabled: Input open: Heating requirement function is active. Cooling requirement is blocked. If the input is closed: Heating requirement function is blocked.
  • Page 15: Output Requirement

    Output requirement A function with the analog behaviour is implemented for each of the three energy types of heating, cooling and hot water. Each energy type has a parameter set. A function is only active if its input is allocated ("Input allocation request"...
  • Page 16: Heating / Cooling Change-Over

    10.3. Heating / cooling change-over If an input is allocated for switching over between heating and cooling, one each of the two functions is blocked and the other is enabled: Input open: Heating requirement function is active, cooling requirement is blocked Input closed: Heating requirement function is blocked, cooling requirement is active 10.4.
  • Page 17: Reference Value Detection

    Reference value detection Reference values for heating, cooling and hot water are registered and each one signalled on an output. The reference values of the consumers are registered for the functions of heating, cooling and hot water, and are displayed on the allocated output. If the reference value is > 0, the correspondingly allocated output is switched on after the set triggering delay has expired.
  • Page 18: Information Sensor / Information 0-10V

    Information sensor / information 0-10V 12.1. Information sensor Various inputs can be used as information values in the Info values menu. Variant 1: Information sensor temperature 5 Temperature inputs can be defined as information sensors. Individual designations/names can be defined for each of these information sensors.
  • Page 19: Info Values Menu

    12.3. Info values menu Parameters Designation Value Min. Max. Comments 30-071 Alloc.inp.info 1 0=OFF Alloc. inp. information 1: 0=AUS, 1=VE1, 2=VE2, 3=VE3, 5=FVT-T, 7=VE1-FE1, 8=VE2-FE1, 9=VE3-FE1, 11=FVT-T-FE1, 13=VE1- FE2, 14=VE2-FE2, 15=VE3-FE2, 17=FVT-T-FE2 Info 1 20-090 Name info 1 Name information 1 0=OFF 30-072 Alloc.inp.info 2...
  • Page 20: Date Time Menu

    20-071 Vol. flow pulse gen 5000.0 Volume flow rate sensor (pulses per litre) pulse rate info 2 IMP 20-081 Volume flow pulse -10.00 10.00 Offset (for flow rate sensor) gen. offset info 2 30-081 Alloc.inp.info 3 IMP 0=OFF Alloc. inp. information 3 pulse: 0=OFF, 3=VE3, 6=FVT-F, 9=VE3-FE1, 12=FVT-F FE1, 15=VE3-FE2, 18=FVT- F FE2...
  • Page 21: Sensor Balancing Menu

    Sensor balancing menu In the Sensor balancing menu, it is possible to match the individual sensors with one another for each sensor input. A range +/-10 Kelvin is available for the balancing on each sensor input. The factory setting is 0K. Parameter Designation Value Min.
  • Page 22: Faults

    Faults In the Faults menu, it is possible to read out the active faults. In addition, the last 20 faults can be requested in the error memory. Fault output If one or more controllers signal a fault, the correspondingly allocated output is switched on after the set triggering delay has expired.
  • Page 23: Relay Test

    Relay test The current status of the output relay can be requested in the Relay test menu. If the relay test is activated, all outputs are switched off at the same time. Following that, each output can be switched on or off individually. If you forget to switch off the relay test at the end of the test, it is ended automatically after 15 minutes.
  • Page 24: Reference Value Increase/Decrease

    Parameter Designation Value Min. Max. Comment 33-007 VE2-FE1 config. input 0=KTY 0=KTY 1=PTC 2=PT1000 0=KTY 33-008 VE3-FE1, config. input 0=KTY 1=PTC 2=PT1000 4=IMP (passive = only contact) 0=…. 33-009 VE10V-FE1 input type 1= ….. 0=KTY 33-010 FVT-T FE1 input type 0=KTY 1=PTC 2=PT1000...
  • Page 25 Triggering: For this, two digital inputs are defined as reference value increase and/or reference value reduction. If the digital input is assigned to reference value increase and the input is short-circuited, the system reference value increase is active. If the digital input is assigned to reference value reduction and the input is short-circuited, the system reference value reduction is active.
  • Page 26: Bootloader

    BUFFER Setpoint incr. (offset) buffer setpoint cooling Parameter 06-053 BUFFER Setpoint red. (offset) buffer setpoint heating Parameter 06-054 BUFFER Setpoint red. (offset) buffer setpoint cooling Parameter 06-055 Bootloader Internal data points for the bootloader function. No settings are required here. Commissioning Internal data points for the commissioning wizard function.

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