Hoval TopTronic E Instructions Manual Download

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4 214 174 V00 KDT GLT-Modul TTE_EN.docx

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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) .......................................................... 8

Overview ......................................................................................................................... 9

5.1.

Overview menu .................................................................................................................... 10

Information menu ......................................................................................................... 11

Function name ............................................................................................................. 12

7.1.

Function name menu ........................................................................................................... 12

Configuration ............................................................................................................... 12

8.1.

Configuration menu ............................................................................................................. 12

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

Summary of Contents for TopTronic E

Page 1: ...tion 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 men...

Page 2: ...14 Sensor balancing menu 21 15 Faults 22 Fault output 22 15 1 Faults menu 22 16 Relay test 23 16 1 Relay test menu 23 17 Sensors 23 17 1 Sensors menu 23 18 Reference value increase decrease 24 Reference value increase reference value reduction function 24 19 Bootloader 26 20 Commissioning 26 ...

Page 3: ... 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 Max two TTW FE expansion modules can be connected to the intelligent modules Exception max 1 expansion module for TTE H Gen module 1 1 System overview ...

Page 4: ...ting 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 e provide information sensors f display the presence of controller faults at an output 10AT TTE HK WW TTE SOL TTE PS TTE GLT L PE N Netz in N VA1 VA2 L L N L VA3 SK VA3 N PE L1 Netz out L OP VA3 2 ...

Page 5: ...t bus GB and mains connection plug set 2 1 VE1 2 1 VE2 2 1 VE3 IMP VA10V PWM VE10V TTE FE L PE N Netz in N VA1 VA2 L L N L VA3 SK VA3 T F T FVT N PE L1 Netz out GB GB L OP VA3 Legend CAN System data bus FVT F Flow rate sensor F flow rate FVT T Flow rate sensor T temperature Netz In Mains input 230V 13A slow blow Netz out Mains output 230V max 4 A slow blow SK VA3 Safety chain VA3 output VA1 2 3 Va...

Page 6: ...4 214 174 V00 KDT GLT Modul TTE_EN docx 6 26 2 2 Control module TTE R BM ...

Page 7: ... Inputs flow rate sensor 1 1 Pulse input 1 can be switched over to sensor 1 can be switched over to sensor Voltage measuring circuit 15 V with protective isolation 2 9 kV 15 V with protective isolation 2 9 kV Expansion module expansion Max number 2 Casing Assembly Top hat rail mounting 35x15 Top hat rail mounting 35x15 Dimensions W H D in mm incl plug 150x100x75 150x100x75 Ambient temperature 0 50...

Page 8: ...ules were selected so that there is no need to change the address settings as long as no module occurs twice DIP switch Addr Factory setting DIP switch Addr Factory setting 4 3 2 1 4 3 2 1 Off 1 TTE WEZ TTE FW Off 9 TTE HK WW On On 4 3 2 1 4 3 2 1 Off 2 Off 10 On On 4 3 2 1 4 3 2 1 Off 3 Off 11 On On 4 3 2 1 4 3 2 1 Off 4 Off 12 TTE GLT On On 0 10V 4 3 2 1 4 3 2 1 Off 5 Off 13 TTE MWA On On M bus ...

Page 9: ...0 KDT GLT Modul TTE_EN docx 9 26 5 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 ...

Page 10: ...up 0 Information Operation DisplayGroup 0 10V temp HT Configuration Function name 1 2 3 4 5 6 7 0 10V temp cool 0 10V temp DHW 0 10V power HT Relay test Faults 13 14 Sensors 15 Bootloader 16 Clock date Info values 11 12 Sensor balancing 96 0 10V power cool 0 10V power DHW Ref value det 8 9 10 The unit only comprises the function group General function General All data points and SW functions are a...

Page 11: ... 20 093 Name info 4 Info 4 0 13 Name info 4 4 4 04 093 HW version 0 0 0 HW version of the unit 0 7 21 106 Temperature requirement heating 0 C 0 0 Temperature requirement heating 0 7 20 094 Name info 5 Info 5 0 13 Name info 5 4 4 21 107 Temperature requirement cooling 0 C 0 0 Temperature requirement cooling 0 7 21 108 Hot water temp requirement 0 C 0 0 Hot water temp requirement 0 7 20 095 Name inf...

Page 12: ...Parameter Designation Value Min Max Comment R W 04 005 Function name General 0 13 Function name 0 5 8 Configuration In the Configuration menu the controller can be reset to the factory settings and a reference value increase or reduction can be activated In addition it is possible to perform a factory reset under par 04 045 reset to factory settings 8 1 Configuration menu Parameter Designation Val...

Page 13: ...has a parameter set A function is only active if its input is allocated Parameter Input allocation request 9 1 Input signal characteristic curve Using a 0 10V signal a temperature is read in using linear conversion The characteristic curve is defined by two adjustable coordinates X1 Y1 X2 Y2 Only voltages between 0V and 10V can be read in The temperature resulting from the conversion is limited do...

Page 14: ...n requirement cooling 5 C 0 0 100 0 Min requirement cooling 3 3 07 115 Max requirement cooling 100 C 0 0 120 0 Max requirement cooling 3 3 07 059 Cooling requirement type 1 Heat generator Cooling requirement type 3 3 30 064 Allocation cooling requirement input 0 OFF Allocation cooling requirement input 3 3 06 117 Characteristic curve X1 cooling 0 5 V 0 0 10 0 Characteristic curve X1 cooling 3 3 06...

Page 15: ...eristic curve is set on the points 1V 1 and 10V 100 Voltages between 0V and 0 5V are interpreted as Auto No requirement is transferred Voltages 0V 0 5V Heat generator not activated 0 5V 1 0V Heat generator off 1 0V 10 0V Heat generator on voltage produces reference output 10 2 Send request The Allocation heat generator parameter determines which heat generator to which the requirement is sent As r...

Page 16: ...equirement menu Parameter Designation Value Min Max Comment R W 20 016 Allocation heat generator heating 0 0 8 Allocation heat generator heating 3 3 30 067 Allocation output setpoint input heating 0 OFF Allocation output setpoint input heating 3 3 20 017 Allocation heat generator cooling 0 0 8 Allocation heat generator cooling 3 3 30 068 Alloc output setpoint input cooling 0 OFF Alloc output setpo...

Page 17: ...o output is allocated the function has no effect Note The reference value ID acts on consumer reference values heating cooling hot water 11 1 Reference value detection menu Parameter Designation Value Min Max Comment R W 29 080 Set point detect output delay heating 0 5 min 0 0 99 0 Set point detect output delay heating 3 3 29 081 Stpt detection output delay cooling 0 5 min 0 0 99 0 Set point detec...

Page 18: ...formation 0 10V 3 information values 0 10V can be defined Individual designations names can be defined for each of these information values The value is shown without unit If a unit is required this must be put in the freely selectable designation name The voltage applied to the input is converted with a linear characteristic and displayed The characteristic passes through the zero point 0 volt di...

Page 19: ... info 4 0 OFF Alloc inp information 4 0 OFF 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 4 4 20 093 Name info 4 Info 4 0 13 Name information 4 0 4 30 075 Alloc inp info 5 0 OFF Alloc inp information 5 0 OFF 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 4 4 20 0...

Page 20: ... VE10V 10 VE10V FE1 16 VE10VFE2 4 4 20 100 Conversion for 10V info 1 10 10 10000 Conversion for 10V Info 1 4 4 20 095 Name info 1 0 10V Info 1 VE 0 10V 0 13 Name information 1 0 10V 0 4 30 077 Alloc inp info 2 0 10V 0 OFF Alloc inp information 2 0 10V 0 OFF 4 VE10V 10 VE10V FE1 16 VE10VFE2 4 4 20 101 Conversion for 10V info 2 10 10 10000 Conversion for 10V Info 2 4 4 20 096 Name info 2 0 10V Info ...

Page 21: ...VE2 FVT T 4 4 33 055 Balance sensor input FE1 VE1 0 K 10 0 10 0 Balance sensor input FE1 VE1 4 4 33 056 Balance sensor input FE1 VE2 0 K 10 0 10 0 Balance sensor input FE1 VE2 4 4 33 057 Balance sensor input FE1 VE3 0 K 10 0 10 0 Balance sensor input FE1 VE3 4 4 33 058 Balance sensor input FE1 FVT T 0 K 10 0 10 0 Balance sensor input FE1 FVT T 4 4 33 059 Balance sensor input FE2 VE1 0 K 10 0 10 0 ...

Page 22: ...lt occurs the output is switched off If no output is allocated the function has no effect 15 1 Faults menu Parameter Designation Value Min Max Comment R W 29 042 Active error 1 xxx 0 0 Active error 1 0 7 29 043 Active error 2 xxx 0 0 Active error 2 0 7 29 044 Active error 3 xxx 0 0 Active error 3 0 7 29 045 Active error 4 xxx 0 0 Active error 4 0 7 29 046 Active error 5 xxx 0 0 Active error 5 0 7 ...

Page 23: ...activation 0 OFF 1 ON 3 3 21 040 VA2 FE1 HW output 0 0 1 Status output activation 0 OFF 1 ON 3 3 21 041 VA3 FE1 HW output 0 0 1 Status output activation 0 OFF 1 ON 3 3 21 043 VA1 FE2 HW output 0 0 1 Status output activation 0 OFF 1 ON 3 3 21 044 VA2 FE2 HW output 0 0 1 Status output activation 0 OFF 1 ON 3 3 21 045 VA3 FE2 HW output 0 0 1 Status output activation 0 OFF 1 ON 3 3 17 Sensors In the S...

Page 24: ...PT1000 4 4 33 017 FVT F FE2 input type 3 IMP sensor 3 IMP active flow rate sensor 4 IMP passive only contact 4 4 18 Reference value increase decrease The input side of the reference value increase decrease is provided in the GLT module The evaluation of the inputs is sent to the controllers Remark the reference value increase decrease does not act on the local temperature requirements Reference va...

Page 25: ...r is configured for increase reduction if the corresponding parameter is not zero Effect If an increase or reduction is active the corresponding offset is allocated to the reference value in any event To achieve a reduction effectively this means a negative offset must be set If both the reference value increase and the reference value reduction are active in a function the two offsets are added t...

Page 26: ...d offset buffer setpoint heating 0 K BUFFER Parameter 06 054 Setpoint red offset buffer setpoint cooling 0 K BUFFER Parameter 06 055 19 Bootloader Internal data points for the bootloader function No settings are required here 20 Commissioning Internal data points for the commissioning wizard function No settings are required here ...

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