Viessmann VITOSOLIC 200 Instructions d'exploitation

Naviguer en ligne ou télécharger Instructions d'exploitation pour Thermostats Viessmann VITOSOLIC 200. Viessmann VITOSOLIC 200 Operating instructions Manuel d'utilisatio

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  • MARQUE LIVRES
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Résumé du contenu

Page 1 - VIESMANN

Installation and serviceinstructionsfor contractorsVIESMANNElectronic temperature differential control unitVitosolic 200Type SD4For applicability, see

Page 2 - Safety instructions

10 Actual temperature dropping belowthe stop temperature differential ΔToff Exceeding the electronic temperaturelimit of control unit eZ (max. 90 °C

Page 3

100Hydraulic type 3S1R2R4S2 S4R1Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x x

Page 4 - Service instructions

101System 4Hydraulic type 1S1 S9R1 R2S2 S4R4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment bysch

Page 5

102Hydraulic type 2S1 S9R1 R2S2 S4R3 R4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex

Page 6

103Hydraulic type 3S1 S9R1 R2S2 S4R4R3Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x

Page 7 - General information

104Hydraulic type 4S1 S9R1 R2S2 S4R4R3Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x

Page 8 - Overview of system examples

105System 5Hydraulic type 1S1S2 S4 S5R2 R4 R5R1Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment by

Page 9

106Hydraulic type 2S1S2 S4 S5R1 R2 R4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x

Page 10 - System example 1

107System 6Hydraulic type 1R1 R2S1 S9S2 S4 S5R4 R5 R6Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignm

Page 11

108Hydraulic type 2R5 R6S1 S9S2 S4 S5R1 R2 R4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment bysc

Page 12

109Hydraulic type 3R1 R2S1 S9S2 S4 S5R4 R5 R6R3Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment by

Page 13

11Hydraulic installation diagramPM12412eZePeWeQqEqQqPeEqTqRqW3System examplesSystem example 1 (cont.)5414 620 GBInstallation

Page 14 - System example 2

110System 7Hydraulic type 1R2 R4 R5 R6S1S2S4 S5 S6R1Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignme

Page 15

111Hydraulic type 2R1 R2 R4 R5S1S2S4 S5 S6Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschem

Page 16

112 If the relays 3, 6 and 7 have not beenassigned by the scheme ("System"),they could, for example, be used forthe Function blocks 1 to 3

Page 17

113Function block 1R3Thermost.1(Sensor S3)Th1onTh1offThermost.2(Sensor S4)Th2onTh2off(S3-S4)∆T-Fct5∆T5on∆T5offt-onTime switch 1t-offR6Thermost.3(Senso

Page 18

114Different effects can be achieved by determining the start and stop tempera-tures:"Thon" < "Thoff"Adjusting the values see f

Page 19

115Thermost.1 R3Time switch 1S3R3Th1on < 50 °CTh1off > 55 °CTo switch a DHW circulation pump, acti-vating the time switch is sufficient. TheDHW

Page 20

116R3ΔT-Fct5S3-S5 > ΔT5onTh1on > 65 °CTh1off < 60 °CThermost. 1S5S3R3 Boiler circuit pump R3 on:Temperature differential "ΔT5on" i

Page 21 - System example 3

117The solar circuit pump stops; cylinderheating terminates in accordance withthe following criteria: When the selected stop temperaturedifferential

Page 22

118Make the following settings at thesolar control unit:Main menu "Solar" "Setting values"– "Priority Cyl1" etc.Set a

Page 23

119Version 1 – bypass circuit with collector temperature sensor andbypass sensorS1R1RS9R1 Solar circuit pumpR Bypass pump (at R2, R6 or R7)S1 Collecto

Page 24

12Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 25

120Version 2 – bypass circuit with solar cellR1CSS1CS Solar cellR1 Solar circuit pumpS1 Collector temperature sensor The solar circuit pump also assu

Page 26 - System example 4

121Version 3 – bypass circuit with solar cell and collector tempera-ture sensorR1RS1CSCS Solar cellR1 Solar circuit pumpR Bypass pump (at R2, R6 or R7

Page 27

122In systems with several consumers,either an individual or all consumers canbe heated via the external heatexchanger. The consumers can beassigned v

Page 28

123Example122 consumers, hydraulic connection viapumps:System: 3Hydraulic type: 2Consumer 1 is heated via the externalheat exchanger.According to the

Page 29

124Primary pump (collector/ext. heatexchanger) to R3 on: S1−S2 > "ΔTon"Delivered condition 8 K (seepage 152)Secondary pump (heat exchange

Page 30

125Temperature differential between thesensor in the external heat exchangerand the cylinder temperature sensor >start temperature differential &qu

Page 31

1262 consumers, hydraulic connection viavalves:System: 3Hydraulic type: 3Consumer 1 is heated via the externalheat exchanger.According to the table on

Page 32

127 Activation of this function in systemswith unfavourably located collectortemperature sensor. Consequentlydelays in capturing the collector tem-pe

Page 33

128 Solar circuit pump off:When reaching the selected set tem-perature "Tcyl set". The solar circuit pump will start longenough to enable

Page 34

129 Activating this function is only appro-priate if the collector cooling functionhas been enabled. The collector cooling function leavesthe solar

Page 35 - System example 5

13Electrical installation diagramqTuQ2eESTBKOLSOLeQ223R1S1S2eU...S12CS10Imp 1Imp 2V BUS145uW2uE/uR22R2R3R4R5R7R6qWqQKM BUSN,L,PE230 V / 50 HzM3230 V /

Page 36

130 Constant collector temperaturethrough speed control subject to theset temperature "Tcolset". The speed control will no longer beinflue

Page 37

131Systems with Vitotronic control units and KM BUS Function enabled:– The consumer is heated by the solarthermal system.– Connection of the KM BUS t

Page 38

132Systems with additional Viessmann control units Function enabled:The consumer is heated by the solarthermal system. A resistor simulates an actua

Page 39

133Cylinder temperature sensor as PTC Cylinder temperature sensor as NTCAR7-AR7-MR7-RAC 250V 0,8 AAC 250V 4(2) AR1-R6R7T40IP20230V ~ 50-60 HzP = 3VACB

Page 40

134Make the following settings at thesolar control unit:1. Main menu "Solar" "Options"– "Heat.interr."Set "Yes&q

Page 41 - System example 6

135Minimum start temperature "TColmin"that must be exceeded before the solarcircuit pump can start. This prevents thepump starting too frequ

Page 42

1362. Main menu "Solar" "Setting values"– "Tcyl2 set 1" to "Tcyl2 set 4"Delivered condition 60 °CSet a valu

Page 43

137Systems with additional Viessmann control units Connection of the transfer pump to R3or R5 (subject to the selected systemand hydraulic type, see

Page 44

138Make the following settings at thesolar control unit:1. Main menu "System" "Options"– "Add. fct."Set "Yes&quo

Page 45

1393. Main menu "System" "Setting values"– "Th3on"Delivered condition 40 °CSet a value.– "Th3off"Delivered

Page 46

14Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 95) 1 1Set

Page 47

1402. Main menu "Solar" "Contractor"– "Control unit"– "Rise"Set a value.Activating speed controlMake the fo

Page 48 - System example 7

141The zero volt output R7 can, for exam-ple, be used as central fault messageoutput (see page 73) (see also tablesfrom page 94).The relay is switched

Page 49

142Statement without flow meter Statement:As an estimate through the differentialbetween the flow and return tempera-ture and the set throughput (see

Page 50

143Statement with flow meterConnectionBCDEV1V2145145GNDS1S2S3S4S5S6S7S8S9S10S11S12CS10Imp1Imp2PWM R1PWM R2VBusPWM R3PWM R41 2 43 5 76 8 9 10 11 12 13

Page 51

144 Statement:Through determining the temperaturedifferential between the flow andreturn temperature and the throughputcaptured by the flow meter. S

Page 52

145 To record the operating values of thesolar thermal system. Saving the values to the module in atext file. This may, for example, beopened in a t

Page 53

146Parameter "Linear log"No (delivered condition): Yes:When the memory reaches its capacity limit, theoldest data will be overwritten (ring

Page 54 - System example 8

147MessagesMessages that are only displayed if thesolar control unit displays "!SD-CardError" or "SD Error" in case the systemhas

Page 55

148When ordering spare partsQuote the part and serial no. (see typeplate) and the position no. of the requiredpart (as per this parts list).Obtain sta

Page 56

14925047204Rated voltage230 V∼Rated frequency 50 HzRated current 6APower consumption 6 W(in standby mode 0.9 W)Protection class IIProtection IP 20 D t

Page 57

15 Actual temperature dropping belowthe stop temperature differential ΔToff Exceeding the electronic temperaturelimit of control unit eZ (max. 90 °C

Page 58

150Main menuActual valuesMessagesSolarSystemHMManual modeOperator codeSolarbackStatementOptionsExpertsSystembackOptionsExpertsHMSetting valuesSetting

Page 59 - System example 9

151The parameter display depends on thesystem equipment level.Menu "Solar"Setting values Solar set-ting:Description DeliveredconditionSetti

Page 60

152Setting values Solar set-ting:Description DeliveredconditionSetting range Set valueΔTon Start temperature dif-ferential for solar cir-cuit pump*48

Page 61

153Setting values Solar set-ting:Description DeliveredconditionSetting range Set valueΔT4set Differential tempera-ture for the start ofspeed regulati

Page 62

154Setting values Solar set-ting:Description DeliveredconditionSetting range Set valueTcolmax Maximum collectortemperature*7 (seepage 128)110 °C 80 t

Page 63

155Options Solar options: Description DeliveredconditionSet valueHeat.interr. Suppression of reheating by theboiler (see page 131)No Cyl.2 on Cylind

Page 64

156Contractor Solar contrac-tor:Description DeliveredconditionSetting range SetvalueCyl2 set Heating to the secondset temperature, con-sumer 2(see pa

Page 65

157Contractor Solar contrac-tor:Description DeliveredconditionSetting range SetvalueInt time In case the intervalfunction has been acti-vated:Time wh

Page 66

158Contractor Solar contrac-tor:Description DeliveredconditionSetting range SetvalueColmax cyl You can select theconsumer to which thecollector cooli

Page 67

159Setting values Sys. set-ting:Description Deliv-eredcondi-tionSetting range SetvalueTime switch1Period function block 1 00:00 00:00 to 23:00 t1–on

Page 68

16Central heating without solar energyThree-way diverter valve R6 rZ remainsat zero volt (position "AB-B") if the tem-perature differential

Page 69

160Setting values Sys. set-ting:Description Deliv-eredcondi-tionSetting range SetvalueΔT7on Start temperature differen-tial function block 35 K 1.5 t

Page 70 - Connection

161Options Sys. options: Description DeliveredconditionSet valueΔT Fct6 ΔT6 differential tempera-ture control, functionblock 2No Time switch 2 Tim

Page 71 - High limit safety cut-out

162Contractor Sys.contractor: Description DeliveredconditionSettingrangeSetvalueSen.Th3 Reference sensor for ther-mostat function 3, functionblock 25

Page 72

163Menu "HM" (heat meter)Options HM options: Description DeliveredconditionSet valueHM 1 Heat meter with state-ment calculation (seepage 14

Page 73 - Temperature setting

164Contractor HM 1 contractor:/HM 2 contractor:Description DeliveredconditionSettingrangeSetvalueThroughput Will only be displayed if"Flow trans

Page 74

165Contractor: Description Deliv-ered con-ditionSettingrangeSet value SC offset Do not adjust Temp.units Temperature unit °CCelsius°FFahrenhei

Page 75

166Contractor: Description Deliv-ered con-ditionSettingrangeSet valueClock KMBus time Adopting the timefrom the boiler controlunit via KM BUSYes

Page 76

167Control unit Electronics PCBVitotronic 200, type KW1,part no. 7450 351, 7450 740Part no. 7828 192Vitotronic 200, type KW2,part no. 7450 352, 7450 7

Page 77

168We, Viessmann Werke GmbH&Co KG, D-35107 Allendorf, declare as sole respon-sible body, that the product Vitosolic 200 complies with the followin

Page 78 - Power supply

169AActivating speed control...140Additional function for DHWheating...136, 160Adjusting the display

Page 79

17Hydraulic installation diagramPHV2HV3/HR1HR3HR4HV1HR2MMBAABeZePeWeQrP3qPeEqTqRqW112eTeRqE6rQrErR52rZrT4qQSystem examplesSystem example 2 (cont.)5414

Page 80

170NNavigation through the menu...79OOverview of electrical connections...68PParallel relay...130, 154Parameter

Page 81

1715414 620 GB

Page 82 - Setting the time and date

172ApplicabilityApplicable for the Vitosolic 200, type SD4Part no. 7418 202Viessmann LimitedHortonwood 30, TelfordShropshire, TF1 7YP, GBTelephone: +4

Page 83 - Setting pump parameters

18Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 84

19Electrical installation diagram2rQSTBrR3rZM3uW2qTuQ2eESTBKOLSOLeQ223R1S1S2eU...S12CS10Imp 1Imp 2V BUS145uW2uE/uR22R2R3R4R5R7R6qWqQKM BUSN,L,PE230 V

Page 85 - Scanning the statement

2Please follow these safety instructions closely to prevent accidents and mate-rial losses.Safety instructions explainedDangerThis symbol warns agains

Page 86

20Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 99) 1 3 Hy

Page 87 - Scanning messages

21In conjunction with a wall mounted oil/gas boilerCodes required at the boiler and heating circuit control unitCode Function53:3 System without DHW c

Page 88

22Suppression of DHW cylinder reheat-ing by the boilerCoding address "67" in boiler control unit2 defaults a third set DHW temperature(setti

Page 89 - Fault messages

23Hydraulic installation diagramMP21112qEqIqReZePeWeQqQqPeEqWqTqZqU234System examplesSystem example 3 (cont.)5414 620 GBInstallation

Page 90

24Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 91

25Electrical installation diagramuW2qTuQ2eESTBKOLSOLeQ3223R1S1S2eU...CS10Imp 1Imp 2V BUS145uW2uE/uR22R2R3R4R5R7R6qWqQKM BUSN,L,PE230 V / 50 Hz3S3S42S5

Page 92 - Resistance in kΩ

26Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 95) 1 1Set

Page 93

27Function descriptionDHW heating with solar energySolar circuit pump R1 eE starts andDHW cylinder qP is heated up if the tem-perature differential be

Page 94 - Overview

28Swimming pool water heating byboiler:If the solar energy is inadequate to heatthe swimming pool water, it will beheated by boiler 1 via temperature

Page 95 - System 1

29Hydraulic installation diagramPM12eZePeWeQqE3qPeEqTqRqW12tWeTeRtPtItQtZtRtUtOtEtTzP4qQSystem examplesSystem example 4 (cont.)5414 620 GBInstallation

Page 96 - System 2

3Ancillary components, spare andwearing parts!Please noteSpare and wearing parts thathave not been tested togetherwith the heating system can com-prom

Page 97

30Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 98 - System 3

31Pos. DescriptiontIFilter pump AccessoriesuQSolar celluWHeat meter extension kit (flow meter)uELarge displayuRDatalogger For boiler and heating cir

Page 99

32Electrical installation diagramuW22tT2tWuQ2KOLSOLeQ22S1S2...CS10Imp 1Imp 2V BUS145uW2uE/uR22qQKM BUSS3S42S5tUS6Low voltageR7-AR7-MR7-RR629NR530?R431

Page 100

33A Start signal for filter pump tIBExternal burner start in conjunctionwith the following control units:Vitotronic 200, types KW1, KW2, KW4,KW5, Vito

Page 101 - System 4

34Main menu DeliveredconditionSettingSolar contractor t-stop (duration of the pump runtime interruption) 2 minutes 7 minutes t-circ. (break inte

Page 102 - 5414 620 GB

35DHW heating and central heating backup with a multi-mode heat-ing water buffer cylinderMain components Viessmann solar collectors Vitocell 340-M o

Page 103

36Central heating with solar energyThree-way diverter valve R6 rZ isswitched to position "AB-A" if the tem-perature differential between buf

Page 104

37Hydraulic installation diagramBAABMPHV2/HR1HR2HV1HR3MeZePeWeQeEqWqRqEqQqPrZqZwW34121652rTSystem examplesSystem example 5 (cont.)5414 620 GBInstallat

Page 105 - System 5

38Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 106 - R1 R2 R4

39Electrical installation diagramrZMuQ2eESTBKOLSOLeQ3223R1S1S2eU...S12CS10Imp 1Imp 2V BUS145uW2uE/uR22R2R3R4R5R7R6qWqQKM BUSN,L,PE230 V / 50 Hz3S3S42S

Page 107 - System 6

4Installation instructionsSystem examplesGeneral information...

Page 108

40Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 95) 1 1Set

Page 109 - R4 R5 R6

41DHW heating with freshwater module and central heating backupwith heating water buffer cylinderMain components Viessmann solar collectors Freshwat

Page 110 - System 7

42Central heating with solar energyThree-way diverter valve R6 rZ isswitched to position "AB-A" and the heat-ing return water is routed to b

Page 111 - S4 S5 S6

43Hydraulic installation diagramPHV2HV3/HR1HR3HR4HV1HR2MABBAM12qEABBAqQrZMrTeZePeWeQrPeErQrRrW436512qPqWSystem examplesSystem example 6 (cont.)5414 62

Page 112 - Function blocks

44Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 113 - Thermostat function

45Electrical installation diagramVitosolic 200rZMuQ2eESTBKOLSOLeQ3223R1S1S2eU...S12CS10Imp 1Imp 2V BUS145uW2uW2uE/uR22R2R3R4R5R7R6rRrQKM BUSN,L,PE230

Page 114

46Control unit, freshwater moduleGNDS1LNNR1R2R3R4R5-RR5-MR5-AS2S3S4S5S6S7?230 V / 50 HzLN?M1~qPqE qW qQRequired settings on the solar control unitMain

Page 115

47Main menu DeliveredconditionSettingSet system values ΔT6on (start temperature differential for R6) 5.0 K ΔT6off (stop temperature differenti

Page 116 - Cylinder temperature control

48DHW heating with mono-mode DHW cylinder and central heatingbackup with multi-mode heating water buffer cylinderMain components Viessmann solar coll

Page 117 - Cylinder priority control

49Central heating without solar energyThree-way diverter valve R6 rZ remainsat zero volt (position "AB-B") if the tem-perature differential

Page 118 - Collector emergency stop

5TroubleshootingFault messages... 88Checking sensors.

Page 119

50Hydraulic installation diagramPMHV2/HR1HR2HV1HR3BAABM12eZePeWeQeEqP3rRrQrPrWqR1652rZrTqE4rESystem examplesSystem example 7 (cont.)5414 620 GB

Page 120

51Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 121

52Electrical installation diagramrZMuQ2eESTBKOLSOLeQ3223R1S1S2eU...S12CS10Imp 1Imp 2V BUS145uW2uW2uE/uR22R2R3R4R5R7R6rRrQKM BUSN,L,PE230 V / 50 Hz3S3S

Page 122 - External heat exchanger

53Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 95) 1 1Set

Page 123

54Large solar thermal systems for DHW heatingMain components Viessmann solar collectors DHW cylinder Vitocell 100-V orVitocell 300-V Vitocell 100-L

Page 124 - Version 2

55Hydraulic installation diagramPHV2HV3/HR1HR3HR4HV1HR2MMqIqZqO12eZePeWeQrPeErQrWrE12qPqEqWqTqQ34qRqUqZSystem examplesSystem example 8 (cont.)5414 620

Page 125

56Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 126 - Cooling function

57Electrical installation diagram3qIMuQ2230 V / 50 HzLow voltageeESTBKOLSOLeQ3223R1S1S2eZeU...S12CS10Imp 1Imp 2V BUS145uW2uW2uE/uR22R2R3R4R5R7R6rErQKM

Page 127 - Interval function

58Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 95) 1 1Set

Page 128 - Collector cooling function

59Main menu DeliveredconditionSettingSys.contractor Sen.Th2 4 6 Sen1 ΔT5Fct 3 5 Sen2 ΔT5Fct 4 6For pump speed, see page 139.System example 9Lar

Page 129 - Reverse cooling function

6CertificatesDeclaration of conformity... 168Keyword index...

Page 130 - Target temperature

60Additional function for DHW heatingThe requirements for the additional func-tion are achieved through circulationpump R5 qT.Suppression of DHW cylin

Page 131 - Booster suppression

61A low loss header 6 with flow temper-ature sensor 5 is required in conjunc-tion with a wall mounted oil/gasboiler.System examplesSystem example 9 (c

Page 132

62Hydraulic installation diagramP21MBAABMHV2HV3/HR1HR3HR4HV1HR21qEqIqReZePeWeQqQqPeEqWqTqZqU3rZrTrP4126rQrErR52eTeRSystem examplesSystem example 9 (co

Page 133

63Equipment requiredPos. Description1Wall mounted oil/gas boiler or oil/gas boiler with2Boiler and heating circuit control unit3Cylinder temperature

Page 134 - Utilisation of excess heat

64Electrical installation diagramuW22rQuQ2KOLSTBeQ22S1S2S12CS10Imp 1Imp 2V BUS145uW2uE/uR22qQKM BUSS3S42S5rES6Low voltageR7-AR7-MR7-RR629R530R431R332R

Page 135 - Cyclical heating

65Required settings on the solar control unitMain menu DeliveredconditionSettingOperator code 0000 0200Solar options System (see page 99) 1 3 Hy

Page 136

66For pump speed, see page 139.In conjunction with a wall mounted oil/gas boilerCodes required at the boiler and heating circuit control unitCode Func

Page 137

67When selecting the installation location,take note of the electrical connectionsand cable/lead lengths.1532.3.4.2335.1.6.2xBefore closing the solar

Page 138 - Cylinder heating

68R6R5R4R3R2R1LR7-AR7-MR7-R145145GNDS1S2S3S4S5S6S7S8S9S10S11S12CS10Imp1Imp2PWM R1PWM R2VBusPWM R3PWM R4N1 2 43 5 76 8 9 10 11 12 13 14 15 16 17 18 19

Page 139 - Speed in %

69DZero volt relay outputEKM BUSFV BUS (e.g. connection to a largedisplay or to the datalogger, acces-sories)GPWM signals for pumps at R1 toR4HPulse c

Page 140 - Speed control

7Anti-scalding protectionDangerSubject to system configuration,DHW temperatures above 60 °Ccan occur. DHW with tempera-tures in excess of 60 °C can re

Page 141 - Heat statement

70InstallationThe circulation pump with connectingcable is part of the Solar-Divicon pumpstation.Separate installation and serviceinstructionsAlternat

Page 142 - Statement without flow meter

71Example: Connection of one pump with PWM input to R1AM~1B145145PWM R1PWM R2VBusPWM R3PWM R416 17 18 19 2027 30 31 32 33 34 35AWiring chamber of the

Page 143 - Statement with flow meter

72Connection 3-core cable with a cross-section of1.5 mm2. Systems with two collector arrays withone solar circuit pump require 2 highlimit safety cu

Page 144

73Temperature settingDelivered condition: 120 °CRequires adjustment to 95 °CHigh limit safety cut-out installa-tion instructionsCentral fault message

Page 145 - SD module

74Collector temperature sensorInstallationCollector installation instructionsConnectionIn accordance with system example andpage 68.Connect sensor to

Page 146 - Possible displays

75ConnectionIn accordance with system example andpage 68.Extension of the connecting lead:Connect sensor to S2.2-core cable with a cross-section of1.5

Page 147 - Relay kick

76ConnectionIn accordance with system example andpage 68.Extension of the connecting lead:2-core cable with a cross-section of1.5 mm2.NoteNever route

Page 148 - Parts list

77SettingsSee page 164.Power supplyRegulationsMake the power supply connection andimplement all earthing measures (i.e.RCD circuit) in accordance with

Page 149 - Specification

78 Protect the cable to the control unitwith an appropriate fuse/MCB. Disconnect the system by means of adevice that simultaneously separatesall non

Page 150 - Menu structure overview

791. Check whether all electrical connec-tions have been correctly made.2. Check that the high limit safety cut-out and temperature limiter (ifrequi

Page 151 - Overview of system parameters

8System example 1, see page 9.MSystem example 4, see page 26.MSystem example 2, see page 14.MMSystem example 5, see page 35.MMSystem example 3, see pa

Page 152

80 / Cursor keysTo display values (with graphicsupport; see the following dia-gram)ΔT1on8.0K1.5=8.0 20.0AB CAParametersBMinimum valueCMaximum valueEn

Page 153

814. / for "0200".Confirm every figure with OK.Key sequence: OK/ / / OK/OK/ OKNoteAfter commissioning set the operatorcode to "000

Page 154

82Make the following settings at thesolar control unit:Main menu "System" "Setting values"– "Time"First set the hour,

Page 155

83NoteAll parameters are reset into their deliv-ered condition when the setting for "Sys-tem" is changed.Setting pump parametersCheck which

Page 156

84Resetting parameters into their delivered stateMake the following settings at thesolar control unit:Main menu "Solar" "Options"

Page 157

85Subject to system configuration, the fol-lowing values can be scanned with keys / :Main menu "Actual values""Actual values:" E

Page 158 - Menu "System"

86"Solar statement:" ExplanationColmax °C Maximum collector temperature, collector array 1Col2max °C Maximum collector temperature, collecto

Page 159

87Main menu "Messages""Messages:" ExplanationLoading cyl...(only with several consumers)Consumer displayed is being heated.Pause

Page 160

88If the system develops faults, the displaybacklighting flashes and "Fault" will bedisplayed.30.04.2009TcolTcylb10:5947.7 °C35.4 °CFaultChe

Page 161

89Displayed faults"Messages:""Fault" Cause Remedy!Interruption>Sensor <The sensor has suffered abreakCheck the sensor con-ce

Page 162

9System example 7, see page 48.MMSystem example 9, see page 59.MMSystem example 8, see page 54.M System example 1DHW heating with dual-mode DHW cylind

Page 163

90Faults without display Solar circuit pump runs hot, but no heat transport from the collector arrayto the consumer Flow and return lines are equall

Page 164 - Menu "Contractor"

91Very large temperature differential between the collector array and consumersduring operation (heat cannot be dissipated):Solar circuit pump faulty?

Page 165

920.11101001000-20 0 20 40 60 80 100 120 140Temperature in °CResistance in kΩAB25AResistance 20 kΩ(sensor S1, S9, collector tempera-ture sensor)BResis

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93BR6R5R4R3R2R1LNetzRed eléctricaRéseau électriqueT6,3A230VR7-AR7-MR7-RAC 250V 0,8 AAC 250V 4(2) AR1-R6R7T40IP20230V ~ 50-60 HzP = 3VANN N N N N NN27

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94 With the Vitosolic 200 solar control unit7 systems with different hydraulictypes can be implemented. System selection in accordance withthe numbe

Page 168 - Declaration of conformity

95System 1S1R1S2Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x x

Page 169 - Keyword index

96System 2Hydraulic type 1S1 S9R1 R2S2Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x

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97Hydraulic type 2S1 S9R1 R2S2R4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x x

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98System 3Hydraulic type 1S1R1R4S2 S4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex

Page 172 - Applicability

99Hydraulic type 2S1R1R4S2 S4Relay and sensor assignmentFunctions Relay R... Sensor S...1 2 3 4 5 6 7 1 2 3 4 5 6 7 8 9Assignment byschemex x

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