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Installation and serviceinstructionsfor contractors
VIESMANN
Electronic temperature differential control unitVitosolic 100Type SD1
For applicability, see the last page
VITOSOLIC 100
5442 276 GB 10/2009 Please keep safe.
2
Please follow these safety instructions closely to prevent accidents and mate-rial losses.
Safety instructions explained
DangerThis symbol warns against therisk of injury.
! Please noteThis symbol warns against therisk of material losses and envi-ronmental pollution.
NoteDetails identified by the word "Note" con-tain additional information.
Target group
These instructions are exclusivelydesigned for qualified personnel.■ Work on electrical equipment must
only be carried out by a qualified elec-trician.
■ The system must be commissioned bythe system installer or a qualified per-son authorised by the installer.
Regulations
Observe the following when working onthis system ■ all legal instructions regarding the pre-
vention of accidents,■ all legal instructions regarding envi-
ronmental protection,■ the Code of Practice of relevant trade
associations.■ all current safety regulations as
defined by DIN, EN, DVGW, VDE andall locally applicable standards
Working on the system
■ Isolate the system from the power sup-ply and check that it is no longer 'live',e.g. by removing a separate fuse or bymeans of a main isolator.
■ Safeguard the system against unau-thorised reconnection.
! Please noteElectronic modules can be dam-aged by electrostatic dis-charges.Touch earthed objects, such asheating or water pipes, to dis-charge static loads.
Repair work
! Please noteRepairing components that fulfil asafety function can compromisethe safe operation of your heatingsystem.Replace faulty components onlywith original Viessmann spareparts.
Safety instructions
Safety instructions
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3
Ancillary components, spare andwearing parts
! Please noteSpare and wearing parts thathave not been tested togetherwith the heating system can com-promise its function. Installingnon-authorised components andnon-approved modifications orconversions can compromisesafety and may invalidate ourwarranty.For replacements, use only orig-inal spare parts supplied orapproved by Viessmann.
Safety instructions
Safety instructions (cont.)
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4
Installation instructionsPreparing for installationInstallation information......................................................................................... 6System example 1................................................................................................ 6System example 2................................................................................................ 11System example 3................................................................................................ 18System example 4................................................................................................ 25
Installation sequenceFitting the solar control unit.................................................................................. 32Overview of electrical connections....................................................................... 33Solar circuit pump................................................................................................. 33Pump/valve at output R2...................................................................................... 35High limit safety cut-out........................................................................................ 36Collector temperature sensor............................................................................... 37Cylinder temperature sensor................................................................................ 38Temperature sensor............................................................................................. 38Power supply........................................................................................................ 39
Service instructionsCommissioningSwitching the power ON....................................................................................... 41Navigation through the menu............................................................................... 41Selecting the system scheme............................................................................... 43Setting system parameters................................................................................... 43Resetting system parameters............................................................................... 43Carrying out a relay test....................................................................................... 43
Service scansScanning temperatures and operating conditions................................................ 45
TroubleshootingFault messages.................................................................................................... 46Checking sensors................................................................................................. 46Changing the fuse................................................................................................ 47
Function descriptionParameter overview............................................................................................. 48System scheme.................................................................................................... 51Collector limit temperature................................................................................... 61Collector cooling function..................................................................................... 61Minimum collector temperature limit..................................................................... 61
Index
Index
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5
Frost protection function....................................................................................... 62Reverse cooling function...................................................................................... 62Interval function.................................................................................................... 62Heat statement..................................................................................................... 63Speed control....................................................................................................... 63
Parts list.............................................................................................................. 65
Specification....................................................................................................... 66
Appendix............................................................................................................. 67
CertificatesDeclaration of conformity...................................................................................... 68
Keyword index.................................................................................................... 69
Index
Index (cont.)
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6
DangerSubject to system configuration,DHW temperatures above 60 °Ccan occur. DHW with tempera-tures in excess of 60 °C cancause scalding.
To limit the temperature to 60 °C,install mixing equipment, e.g. athermostatically controlled mix-ing valve (accessory). Install amixer tap as anti-scalding deviceat the draw-off point.
System example 1
DHW heating with dual-mode DHW cylinder
Main components
■ Viessmann solar collectors■ DHW cylinders Vitocell 100-B or
Vitocell 300-B■ Vitosolic 100, type SD1■ Solar-Divicon■ Wall mounted oil/gas boiler or oil/gas
boiler
Function description
DHW heating with solar energy
Solar circuit pump R1 eE starts andDHW cylinder qP is heated up if the tem-perature differential between collectortemperature sensor S1 eQ and cylindertemperature sensor S2 qQ exceeds thestarting temperature differential DT E.Solar circuit pump R1 eE stops if:■ The actual temperature falls below the
stop temperature differential DT A■ The electronic temperature limit of
control unit eZ is exceeded (max.90 °C)
■ The temperature selected at high limitsafety cut-out qW (if installed) isreached
Additional function for DHW heating
The requirements for the additional func-tion are achieved through circulationpump R2 qT.
Suppression of DHW cylinder reheat-ing by the boiler
Coding address "67" in boiler control unit2 defaults a third set DHW temperature(setting range 10 to 95 °C). This valuemust be below the first set DHW temper-ature. DHW cylinder qP will only beheated by boiler 1 (solar circuitpump R1 eE runs) if this set value cannotbe achieved by the solar thermal sys-tem.
DHW heating without solar energy
The upper section of DHW cylinder qP isheated by boiler 1. The cylinder ther-mostat with cylinder temperature sen-sor 3 of boiler control unit 2 regulatescylinder heating 4.
Preparing for installation
Installation information
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7
Required settings at the solar control unit
Parameter
Deliveredcondition
Description Setting
ANL 1 Without auxiliary function for DHW heating 1With auxiliary function for DHW heating (seepage 55)
4
DT E 8° C Start temperature differential for solar circuit pumpat R1
DT A 4 °C Stop temperature differential for solar circuit pumpat R1
S SL 60 °C Set cylinder temperature (see page 52) For further functions, see chapter "Function description" from page 48.
Note"DT E" can be set at least 0.5 K higherthan "DT A" and up to 0.5 K lower than"DT S" (see page 50)."DT A" can be set up to 0.5 K below"DT E".
Information regarding speed controlof the solar circuit pumpObserve chapter "Speed control" (seepage 63).
Preparing for installation
System example 1 (cont.)
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GB
Inst
alla
tion
8
Hydraulic installation scheme ID: 4605028_0906_02
qE 3
qP
qTqR
qW
P
eP
eW
eQ eE
1
2
M
4
2
11
S2S1
eZ
R1
R2
KM BUS
230
V / 5
0 H
z
Preparing for installation
System example 1 (cont.)
5442
276
GB
9
Equipment required
ID: 4605028_0906_02Pos. Description1 Oil/gas boiler or wall mounted oil/gas boiler with2 Boiler and heating circuit control unit3 Cylinder temperature sensor4 Circulation pump for cylinder heating
(integrated for wall mounted oil/gas boiler)qP Dual-mode DHW cylinderqQ Cylinder temperature sensor S2qW High limit safety cut-out (accessory)qE DHW circulation pump (on site)
(internal/external extension may be required for connecting a wall mountedoil/gas boiler)
qR Thermostatic mixing valve (accessory)qT Circulation pump R2 (transfer) (on site)eP Solar collectorseQ Collector temperature sensor S1eW Solar-Divicon (accessory)
witheE Solar circuit pump R1eZ Vitosolic 100, type SD1eU Junction box (on site)eI ON/OFF switch (on site)
Preparing for installation
System example 1 (cont.)
5442
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GB
Inst
alla
tion
10
Electrical installation scheme
eQ
qW
eE
eZ
230 V / 50 Hz?
212015
191814?
M1~ R1
171613?
1211145
109
4321
65
eU
SOL
KOL
STB
230
V / 5
0 H
zLo
w v
olta
ge
R2M1~ qT
KM BUS 2
eI
ID: 4605028_0906_02
Preparing for installation
System example 1 (cont.)
5442
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GB
11
Vitodens – DHW heating and central heating backup with a multi-mode heating water buffer cylinder
Main components
■ Viessmann solar collectors■ Vitocell 340-M or Vitocell 360-M multi-
mode heating water buffer cylinderwith integral DHW heating, with orwithout stratification system
■ Vitosolic 100, type SD1■ Solar-Divicon■ Wall mounted gas boiler from the year
of manufacture 2008– Vitodens 200-W, type WB2B– Vitodens 300-W, type WB3C
Function description
DHW heating with solar energy
Solar circuit pump R1 eE starts andheating water buffer cylinder qP isheated up if the temperature differentialbetween collector temperature sen-sor S1 and cylinder temperature sen-sor S2 qQ exceeds the start temperaturedifferential DT E.Solar circuit pump R1 eE stops if:■ The actual temperature falls below the
stop temperature differential DT A■ The electronic temperature limit of
control unit eZ is exceeded (max.90°C)
■ The temperature selected at high limitsafety cut-out qW (if installed) isreached
Entire heating water buffer cylinder qP isheated by the solar thermal system if theinsolation is adequate.
The upper part of heating water buffercylinder qP will only be reheated byboiler 1 if the actual water temperaturefalls below the set temperature selectedat boiler control unit 2.If the solar energy is inadequate to coverthe entire heating demand, the DHW inthe lower part of heating water buffer cyl-inder qP will be preheated by solarenergy. The DHW in the upper part of thecylinder is heated to the required tem-perature by boiler 1.The burner starts and three-way divertervalve rZ switches to position "AB-A" viacylinder temperature sensor qZ of theboiler control unit. When the set DHWtemperature has been reached, theburner stops and three-way divertervalve rZ switches to position "AB-B".
Suppression of DHW cylinder reheat-ing by the boiler
Coding address "67" in boiler controlunit 2 defaults a third set DHW tem-perature (setting range 10 to 95 °C). Thisvalue must be below the first set DHWtemperature. Heating water buffer cylin-der qP is only heated by boiler 1 (solarcircuit pump R1 eE runs) if this set valuecannot be achieved by the solar thermalsystem.
Preparing for installation
System example 254
42 2
76 G
B
Inst
alla
tion
12
DHW heating without solar energy
The upper area of heating water buffercylinder qP is heated by boiler 1. Theintegral instantaneous water heater/standby section is heated by the sur-rounding buffer cylinder water.The cylinder thermostat with cylindertemperature sensor qZ of boiler controlunit 2 controlsthree-way diverter valve rZ.
Central heating with solar energy
The system provides central heating ifthe temperature at sensor qT is ade-quate.
Central heating without solar energy
If the temperature at sensor qT is inad-equate, the burner and circulation pumpin the Vitodens are started. The areabetween HV2/HR1 and HR2 in heatingwater buffer cylinder qP is heated up tothe set temperature for the heating cir-cuits in weather-compensated mode.When this set temperature is exceeded,the burner and, after a delay, the circu-lation pump in the Vitodens are stop-ped.
Required settings at the solar control unit
Parameter
Deliveredcondition
Description Setting
ANL 1 Without auxiliary function for DHW heating 1DT E 8° C Start temperature differential for solar circuit pump
at R1
DT A 4 °C Stop temperature differential for solar circuit pumpat R1
S SL 60 °C Set cylinder temperature (see page 52) For further functions, see chapter "Function description" from page 48.
Note"DT E" can be set at least 0.5 K higherthan "DT A" and up to 0.5 K lower than"DT S" (see page 50)."DT A" can be set up to 0.5 K below"DT E".
Information regarding speed controlof the solar circuit pumpObserve chapter "Speed control" (seepage 63).
Preparing for installation
System example 2 (cont.)
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13
Codes required at the boiler and heating circuit control unit
Code Function51:1 The internal circulation pump is only switched on when the burner
has been started (time delay off)53:3 System without DHW circulation pump:
Three-way diverter valve rZ is connected to output sK of inter-nal extension H1 or H2
5b:1 Internal diverter valve without function(DHW cylinder connected downstream of three-way divertervalve rZ)
Preparing for installation
System example 2 (cont.)
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Inst
alla
tion
14
Hydraulic installation scheme ID: 4605029_0906_02
P
eP
eW
eQ eE
M
1
rZ
M
qZ
wW
2
5/28
5/21
HV2
/HR
1
HR
2
HV1 HR
3
qW
qR
qE
qP
qT
S2S1
eZ
R1
R2
KM BUS
230
V / 5
0 H
z
5
Preparing for installation
System example 2 (cont.)
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GB
15
Equipment required
ID: 4605029_0906_02Pos. Description1 Wall mounted gas boiler with2 Boiler and heating circuit control unit3 Internal extension H1 (standard delivery for the Vitodens 300-W)
or4 Internal extension H2 (accessory)
or System with DHW circulation pump:5 External extension H1 (accessory)6 KM BUS distributor (accessory)qP Heating water buffer cylinder withwW Threaded DHW circulation pump (accessory)qT Temperature sensor (flow temperature sensor for low loss header; in this
scheme with heating water buffer cylinder) (accessory)qZ Cylinder temperature sensor (accessory)qQ Cylinder temperature sensor S2qW High limit safety cut-out (accessory)qE DHW circulation pump (on site)qR Thermostatic mixing valve (accessory)eP Solar collectorseQ Collector temperature sensor S1eW Solar-Divicon (accessory)
witheE Solar circuit pump R1eZ Vitosolic 100, type SD1eU Junction box (on site)eI ON/OFF switch (on site)rZ Three-way diverter valve (accessory)
Preparing for installation
System example 2 (cont.)
5442
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GB
Inst
alla
tion
16
Electrical installation scheme
Vitosolic 100
eQ
qW
eE
eZ
230 V / 50 Hz?
212015
191814?
M1~ R1
171613?
1211145
109
4321
65
eU
SOL
KOL
High limit safety cut-out
230
V / 5
0 H
zLo
w v
olta
ge
A
eI
ID: 4605029_0906_02
Preparing for installation
System example 2 (cont.)
5442
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GB
17
Control unit, wall mounted gas boiler
fÖ
2
L?
lH ?
1
230 V / 50 Hz
aBJ
sK
3 4
fÖ?
sÖ
sA ?
sK ?
aVG 21
M1~
M1~ ZP
45
67
% STS
230
V / 5
0 H
zLo
w v
olta
ge
qE
5
rZ
qZ
qT
212aVG
12aVG
6
12aVG
12aVG
6
?
?
gÖ
12aVG 12aVG
?
gD
sK
lH lH
A
ID: 4605029_0906_02
Preparing for installation
System example 2 (cont.)
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GB
Inst
alla
tion
18
Vitodens – DHW heating with freshwater module and centralheating backup with heating water buffer cylinder
Main components
■ Viessmann solar collectors■ Freshwater module■ Heating water buffer cylinder
Vitocell140-E or Vitocell 160-E■ Vitosolic 100, type SD1■ Solar-Divicon■ Wall mounted gas boiler from the year
of manufacture 2008– Vitodens 200-W, type WB2B– Vitodens 300-W, type WB3C
Function description
Freshwater module qP heats DHWwhen hot water is drawn. The energysupply to freshwater module qP is pro-vided via heating water buffer cylin-der rP. Buffer cylinder rP is heated bythe solar thermal system or, in the upperarea, by boiler 1.The heated DHW is heated by freshwa-ter module qP according to the instanta-neous water heater principle. An internalpump transports the heating water fromheating water buffer cylinder rP into thefreshwater module qP. This heats theDHW in the heat exchanger of the fresh-water module qP according to the coun-tercurrent principle. The freshwatermodule qP is regulated by its internalcontrol unit.
When utilising the freshwater modulewith integral DHW circulation pump, thethree-way diverter valve qQ in conjunc-tion with sensors S3 qE and S4 qW of thefreshwater module qP can be regulatedby its control unit to provide an optimumstratification of the return water into theheating water buffer cylinder rP.
DHW heating with solar energy
Solar circuit pump R1 eE starts andheating water buffer cylinder rP isheated up if the temperature differentialbetween collector temperature sensorS1 eQ and cylinder temperature sensorS2 rQ exceeds the start temperature dif-ferential DT E.Solar circuit pump R1 eE stops if:■ The actual temperature falls below the
stop temperature differential DT A■ The electronic temperature limit of
control unit eZ is exceeded (max.90°C)
■ The temperature selected at high limitsafety cut-out rR (if installed) isreached
Entire heating water buffer cylinderrP isheated by the solar thermal system if theinsolation is adequate.The upper part of heating water buffercylinder rP will only be reheated byboiler 1 if the actual water temperaturefalls below the set temperature selectedat boiler control unit 2.
Preparing for installation
System example 3
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19
The burner starts and three-way divertervalve rZ switches to position "AB-A" viacylinder temperature sensor rW of theboiler control unit. When the set DHWtemperature has been reached, theburner stops and three-way divertervalve rZ switches to position "AB-B".
Suppression of DHW cylinder reheat-ing by the boiler
Coding address "67" in boiler controlunit 2 defaults a third set DHW tem-perature (setting range 10 to 95 °C). Thisvalue must be below the first set DHWtemperature. Heating water buffer cylin-der rP is only heated by the boiler (solarcircuit pump R1 eE runs) if this set valuecannot be achieved by the solar thermalsystem.
DHW heating without solar energy
The upper area of heating water buffercylinder rP is heated by boiler 1.
The cylinder thermostat with cylindertemperature sensor rW of boiler controlunit 2 controlsthree-way diverter valve rZ.
Central heating with solar energy
Central heating is provided via heatingwater buffer cylinder rP if the tempera-ture at sensor rE is adequate.
Central heating without solar energy
If the temperature at sensor rE is inad-equate, the burner and circulation pumpin the Vitodens are started. The areabetween HV3/HR1 and HR3 in heatingwater buffer cylinder rP is heated up tothe set temperature for the heating cir-cuits in weather-compensated mode.When this set temperature is exceeded,the burner and, after a delay, the circu-lation pump in the Vitodens are stop-ped.
Required settings on the solar control unit
Parameter
Deliveredcondition
Description Setting
ANL 1 Without auxiliary function for DHW heating 1DT E 8° C Start temperature differential for solar circuit pump
at R1
DT A 4 °C Stop temperature differential for solar circuit pumpat R1
S SL 60 °C Set cylinder temperature (see page 52) For further functions, see chapter "Functions" from page 48.
Preparing for installation
System example 3 (cont.)
5442
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GB
Inst
alla
tion
20
Note"DT E" can be set at least 0.5 K higherthan "DT A" and up to 0.5 K lower than"DT S" (see page 50)."DT A" can be set up to 0.5 K below"DT E".
Information regarding speed controlof the solar circuit pumpObserve chapter "Speed control" (seepage 63).
Codes required on the boiler and heating circuit control unit
Code Function51:1 The internal circulation pump is only switched on when the
burner has been started (time delay off)53:3 System without DHW circulation pump:
Three-way diverter valve rZ is connected to output sK of inter-nal extension H1 or H2
5b:1 Internal diverter valve without function(DHW cylinder connected downstream of three-way divertervalve rZ)
Preparing for installation
System example 3 (cont.)
5442
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GB
21
Hydraulic installation scheme ID: 4605030_0906_2
P
eP
eW
eQ
rP
HV2
HV3
/HR
1
HR
3H
R4
HV1
HR
2
M
1rZ
2
M
MrQ
rR
rW
rE
eE
qP
qE
qW
S2S1
eZ
R1
R2
KM BUS
230
V / 5
0 H
z
Preparing for installation
System example 3 (cont.)
5442
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GB
Inst
alla
tion
22
Equipment required
ID: 4605030_0906_2Pos. Description1 Wall mounted gas boiler with2 Boiler and heating circuit control unitrW Cylinder temperature sensor STS3 Internal extension H1 (standard delivery for the Vitodens 300-W)
or4 Internal extension H2 (accessory)qP Freshwater moduleqQ Three-way diverter valve R3 (accessory for qP)qW Temperature sensor S4 (accessory for qP)qE Temperature sensor S3 (accessory for qP)qR ON/OFF switch (on site)rP Heating water buffer cylinderrQ Cylinder temperature sensor S2rR High limit safety cut-out (accessory)eP Solar collectorseQ Collector temperature sensor S1eW Solar-Divicon (accessory)
witheE Solar circuit pump R1eZ Vitosolic 100, type SD1eU Junction box (on site)eI ON/OFF switch (on site)rE Temperature sensor (flow temperature sensor for low loss header) (acces-
sory)rZ Three-way diverter valve (accessory)
Preparing for installation
System example 3 (cont.)
5442
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GB
23
Electrical installation scheme
Vitosolic 100
eQ
rQ
rR
eE
eZ
230 V / 50 Hz?
212015
191814?
M1~ R1
171613?
1211145
109
4321
65
eU
SOL
KOL
High limit safety cut-out
230
V / 5
0 H
zLo
w v
olta
ge
A
eI
ID: 4605030_0906_2
Preparing for installation
System example 3 (cont.)
5442
276
GB
Inst
alla
tion
24
Control unit, wall mounted gas boiler
fÖ
2
L?
lH ?
1
230 V / 50 Hz
aBJ
sK
3 4
M1~
45
67
% STS
230
V / 5
0 H
zLo
w v
olta
ge
rZ
rW
rE
??
gD
sK
lH lH
A
ID: 4605030_0906_2
Preparing for installation
System example 3 (cont.)
5442
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25
Control unit, freshwater moduleG
ND
S1 L N
N
R1
R2
R3
R4
R5-
RR
5-M
R5-
A
S2 S3 S4 S5 S6 S7
?
230 V / 50 HzLN?
M1~
qP
qE qW qQ
qR
ID: 4605030_0906_2
System example 4
DHW heating with solar retrofit system
There are two control versions for thissystem example:■ Version A:
Anti-stratification with sensor S3 inDHW cylinder 2 (existing)Differential temperature control
■ Version B:Transfer with sensor S3 in DHW cylin-der 1 (retrofit)Control via thermostat function
If it is possible to position the tempera-ture sensor for the DHW circulationtransfer in the existing cylinder, we rec-ommend version A.
Main components
■ Viessmann solar collectors■ Mono-mode DHW cylinder (existing)
Preparing for installation
System example 3 (cont.)
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Inst
alla
tion
26
■ Solar retrofit system with the followingcomponents:– Solar-Divicon SR– Vitosolic 100, type SD1– DHW cylinder Vitocell 100-W, type
CUG■ Wall mounted oil/gas boiler or oil/gas
boiler (existing)
Function description
DHW heating with solar energy
Solar circuit pump R1eE starts and DHWcylinder qP is heated up if the tempera-ture differential between collector tem-perature sensor S1 eQ and cylinder tem-perature sensor S2 qQ exceeds the starttemperature differential DT E.Solar circuit pump R1 eE stops if:■ The actual temperature falls below the
stop temperature differential DT A■ The electronic temperature limit of
control unit eZ is exceeded (max.90°C)
■ The temperature selected at high limitsafety cut-out qW (if installed) isreached
Version A
Transfer pump R2 qT starts if the tem-perature differential between sensor S2qQ and sensor S3 qU exceeds the starttemperature differential DT 3E. Thewater heated in DHW cylinder qP istransferred to DHW cylinder 2 qI.The transfer pump R2 qT also starts ifthere is a demand for DHW heatingissued by the auxiliary function.Transfer pump R2 qT stops if:
■ The actual temperature falls below theshutdown temperature differentialDT 3A
■ When the auxiliary function for DHWheating ends
DHW circulation pump qE (if installed)for DHW cylinder 2 qI is controlled byboiler control unit 2.
Version B
Transfer pump R2 qT starts if the tem-perature at sensor S3 qU exceeds thestart temperature NH E.The water heated in DHW cylinder qP istransferred to DHW cylinder 2 qI.The transfer pump R2 qT also starts ifthere is a demand for DHW heatingissued by the auxiliary function.Transfer pump R2 qT stops if:■ The actual temperature falls below the
stop temperature N HA■ When the auxiliary function for DHW
heating endsDHW circulation pump qE (if installed)for DHW cylinder 2 qI is controlled byboiler control unit 2.
Suppression of DHW cylinder reheat-ing by the boiler
Coding address "67" in boiler control unit2 defaults a third set DHW temperature(setting range 10 to 95 °C). This valuemust be below the first set DHW temper-ature. DHW cylinder 2 qI will only beheated by boiler 1 (solar circuitpump R1 eE runs) if this set value cannotbe achieved by the solar thermal sys-tem.
Preparing for installation
System example 4 (cont.)
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27
DHW heating without solar energy
DHW cylinder 2 qI is heated by boiler1. The cylinder thermostat with cylindertemperature sensor 3 of boiler controlunit 2 regulates cylinder heating.
Required settings on the solar control unit
Version AParameter
Deliveredcondition
Description Setting
ANL 1 With auxiliary function for DHW heating (seepage 55)
8
DT E 8° C Start temperature differential for solar circuit pumpat R1
DT A 4 °C Stop temperature differential for solar circuit pumpat R1
DT 3E 8° C Start temperature differential for transfer pump atR2
DT 3A 4 °C Stop temperature differential for transfer pump atR2
S SL 60 °C Set cylinder temperature (see page 52) For further functions, see chapter "Function description" from page 48.
Version BParameter
Deliveredcondition
Description Setting
ANL 1 With auxiliary function for DHW heating (seepage 55)
9
DT E 8° C Start temperature differential for solar circuitpump at R1
DT A 4 °C Stop temperature differential for solar circuitpump at R1
N HE 40° C Start temperature for transfer pump at R2 WWset + 4 KN HA 45 °C Stop temperature for transfer pump at R2 WWset + 2 KS Sl 60 °C Set cylinder temperature (see page 52) For further functions, see chapter "Function description" from page 48.
Preparing for installation
System example 4 (cont.)
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Inst
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28
Note■ "DT E" can be set at least 0.5 K higher
than "DT A" and up to 0.5 K lower than"DT S" (see page 50).
■ "DT A" can be set up to 0.5 K below"DT E".
■ WWset is the set DHW temperature ofthe DHW cylinder 2 (existing). Scanthis value at the boiler control unit.When adjusting "N HE" observe theset cylinder temperature "S SL". Ifnecessary, adjust the set DHW tem-perature of DHW cylinder 2 a littlelower at the boiler control unit.
Installation and service instruc-tions of the boiler control unit
Information regarding speed controlof the solar circuit pumpObserve chapter "Speed control" (seepage 63).
Preparing for installation
System example 4 (cont.)
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29
Hydraulic installation scheme ID: 4605031_0906_01
4
1
2
M
2
11
qE
qI
qR
qT
2
3
P
eP
eW
eQ eE
qP
qU 1qW
qU
BA
S2S1
eZ
R1
R2
KM BUS
230
V / 5
0 H
zS3
A/B For a description of these ver-sions, see page 26.
Preparing for installation
System example 4 (cont.)
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Inst
alla
tion
30
Equipment required
ID: 4605031_0906_01Pos. Description1 Oil/gas boiler or wall mounted oil/gas boiler with2 Boiler and heating circuit control unit3 Cylinder temperature sensor4 Circulation pump for cylinder heating
(integrated for wall mounted oil/gas boiler)qI DHW cylinder 2, mono-mode (existing)qP DHW cylinder 1, mono-mode (solar retrofit system)qQ Cylinder temperature sensor S2qW High limit safety cut-out (accessory)qE DHW circulation pump (on site)
(internal/external extension may be required for connecting a wall mountedoil/gas boiler)
qR Thermostatic mixing valve (accessory)eP Solar collectorseQ Collector temperature sensor S1eW Solar-Divicon SR (solar retrofit system)
witheE Solar circuit pump R1
andeZ Vitosolic 100, type SD1eU Junction box (on site)eI ON/OFF switch (on site) DHW circulation diversionqT Circulation pump R2 (transfer) (accessory)qU Temperature sensor S3
Preparing for installation
System example 4 (cont.)
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Electrical installation scheme
eQ
qW
eE
eZ
230 V / 50 Hz?
212015
191814?
M1~ R1
171613?
1211145
109
4321
65
eU
SOL
KOL
STB
230
V / 5
0 H
zLo
w v
olta
ge
R2M1~ qT
KM BUS 2
qU
eI
ID: 4605031_0906_01
Preparing for installation
System example 4 (cont.)
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Select an installation location near theDHW cylinder, taking account of theelectrical connections and their cablelengths.
155
150
2.
5.
1.
6.
3.
2x
4.
Before closing the solar control unit,make all electrical connections andapply a strain relief to all cables/leads.
Installation sequence
Fitting the solar control unit
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E
?
13 14 15 16 17 18 19 20 21N R2
T 4 A
R1 N L
250 V
P = 2 VAAC 250 V 0,8 AAC 250 V 4(2) A
IP 20, l, T40 230 V50 Hz
R1R2
N11 12145
9 10PWM
GND +
1 2S1
3 4S2
5 6S3
A
B C D
A Wiring chamber of the solar controlunit
B Sensor inputsC PWM signal for the solar circuit
pump
D KM BUSE Fuse, 4.0 A (slow)R1 Semiconductor relay (suitable for
speed control)R2 Electromechanical relay
Solar circuit pump
Possible pumps
Standard solar circuit pumps High efficiencypumps
Pumps with PWMinput
Without individualspeed control(with integral auxili-ary capacitor)
With individualspeed control
NoteUse only solarpumps, not heatingcircuit pumps.
"RPM" = 1 "RPM" = 0Delivered condi-tion
"RPM" = 0 ■ WILO pumps:"RPM" = 2
■ GRUNDFOSpumps:"RPM" = 3
Installation sequence
Overview of electrical connections54
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Installation
The circulation pump with connectingcable is part of the Solar-Divicon pumpstation.
Separate installation and serviceinstructions
Alternative pumps must be type-testedand installed in accordance with themanufacturer's details.
Connection
3-core cable with a cross-section of0.75 mm2.Rated current: 0.8 A
NotePumps that draw more than 190 W mustbe connected via an additional relay(coupler relay). Disable the speed con-trol for this pump (see chapter "Speedcontrol").
Standard pump
A
M~1
A Wiring chamber of the solar controlunit
R1 Solar circuit pump
Installation sequence
Solar circuit pump (cont.)
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Pump with PWM input
A
M~1
A Wiring chamber of the solarcontrol unit
R1/PWM Solar circuit pump
Pump/valve at output R2
Installation
Pump and valve must be type-tested andinstalled in accordance with manufactur-er's details.
Connection
3-core cable with a cross-section of0.75 mm2.
Rated current: max. 4(2) A
Installation sequence
Solar circuit pump (cont.)
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A
M~1
B
A Wiring chamber of the solar controlunit
B Pump or valve
High limit safety cut-out
A high limit safety cut-out in the con-sumer is required when less than40 litres cylinder volume is available perm2 absorber area. This installation safelyprevents temperatures in excess of95 °C in the consumer.
NoteFor the Vitocell 100, observe the max.collector area that can be connected.
Installation
Install the sensor of the high limit safetycut-out inside the cylinder cap (Vitocell300 accessory).
Cylinder cap installation instruc-tions
Connection
3-core cable with a cross-section of1.5 mm2.
Installation sequence
Pump/valve at output R2 (cont.)
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M~1C B
D
A
A Wiring chamber of the solar controlunit
B High limit safety cut-out
C Solar circuit pumpD Junction box (on site)
Temperature setting
Delivered condition: 120 °CRequires adjustment to 95 °C
High limit safety cut-out installa-tion instructions
Collector temperature sensor
Installation
Collector installation instructions
Connection
Connect the sensor to S1 (terminals 1and 2).Extension of the connecting cable:2-core cable with a cross-section of1.5 mm2.
NoteNever route this cable immediately nextto 230/400 V cables.
Installation sequence
High limit safety cut-out (cont.)
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Installation
With the threaded elbow. DHW cylinder installation instruc-tions
Connection
Connect the sensor to S2 (terminals 3and 4).Extension of the connecting cable:2-core cable with a cross-section of1.5 mm2.
NoteNever route this cable immediately nextto 230/400 V cables.
Temperature sensor
Installation
1.
4.
3.
2.
Installation sequence
Cylinder temperature sensor
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NoteNever wrap insulating tape around thesensor.Seal in the sensor well.
Connection
Connect the sensor to S3 (terminals 5and 6).Extension of the connecting cable:2-core cable with a cross-section of1.5 mm2.
NoteNever route this cable immediately nextto 230/400 V cables.
Power supply
Regulations
Carry out the power supply connectionand all earthing measures (i.e. RCD cir-cuit) in accordance with IEC 364, therequirements of your local power supplyutility, VDE or national regulations.
Protect the power cable to the controlunit with an appropriate fuse/MCB.
Installation sequence
Temperature sensor (cont.)
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LN?
C
B
A
A Solar control unit wiring chamberB ON/OFF switch (on site)C Mains voltage 230 V/50 Hz
Provide the power supply connection(230 V~) via a two-pole mains isolator(on site).Disconnect the system by means of adevice which simultaneously separatesall non-earthed conductors with at least3 mm contact separation.
DangerIncorrect core termination cancause severe injuries and dam-age to the equipment.Never interchange cores "L" and"N":L Terminal 21N Terminal 20
Installation sequence
Power supply (cont.)
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1. Check whether all electrical connec-tions have been correctly made.
2. Check that the high limit safety cut-out (if required) is connected.
3. Switch ON the power; the solar con-trol unit then implements an initiationphase.The solar control unit is now in auto-matic mode.
4. Check which type of solar circuitpump is connected and set parame-ter "RPM" accordingly (seepages 33 and 43).
Navigation through the menu
Controls
KOL°C
AB
A OK key; to confirm your menuselection or adjustment
B Symbols lineTerminating an adjustmentalready begun (the value revertsto its previous setting)
/ Cursor keysNavigation through the menu
/ Cursor keysTo set a valueFlashing "SET" means that val-ues can be changed.
Commissioning
Switching the power ON54
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Calling up the menuThe symbol line on the displayshows which keys to use to makeadjustments and scans.
NoteAfter approx. 4 min, the display changesto show the collector temperature, if nofurther adjustments are made.
Symbols on the display
These symbols are not always dis-played, but appear subject to the systemoperating condition.
Symbol Permanent display FlashingFully functioning system —
 Relay 1 ON(solar circuit pump)
—
à Relay 2 ON —È Set DHW temperature
reachedCollector cooling function,return cooling enabled
Ç Frost protection active Failed to reach minimum col-lector temperature
¨ — Emergency collector shut-down (collector limit tempera-ture reached) or cylinderemergency stop active
¨+Ä Sensor fault: Ä ¨
¨+Æ Manual mode: Æ ¨
SET Parameters can be changed Change parameter with /
Commissioning
Navigation through the menu (cont.)
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Press the following keys:
1. "ANL 1" and the display willshow the respective scheme.
2. OK "SET" flashes.
3. for the required scheme.
4. OK to confirm.
See system scheme from page 51.
Setting system parameters
Press the following keys:
1. "ANL" and the display willshow the respective scheme.
2. until the required parameter isshown (see table onpage 48).
3. OK "SET" flashes.
4. / for the selected value.
5. OK to confirm.
Resetting system parameters
If a different system scheme is selected,all parameters are returned to their orig-inal state.
Carrying out a relay test
Press the following keys:
1. "ANL" and the display willshow the respective scheme.
2. select "HND 1" or "HND 2".HND 1 Relay 1HND 2 Relay 2
3. OK "SET" flashes.
Commissioning
Selecting the system scheme54
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4. / for the required setting.Auto Control modeOn in (100%)
"Æ" and "Â" or "Ã" aredisplayed and "¨"flashes.
OFF OFF"Æ" is shown and "¨"flashes.
5. OK to confirm.
6. After the relay test has been comple-ted, select "Auto".
Commissioning
Carrying out a relay test (cont.)
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Subject to system configuration and set-tings made, the following values can bescanned with keys / :
Display DescriptionKOL °C Collector temperatureTSPU °C DHW temperatureS3 °C Temperature at a sensor S3 that may be
connectedn1 % Relative speed of the solar circuit pumpn2 Status of relay R2:
OFF: Relay offOn: Relay on
hP1 h Hours run of the device at output relay R1(solar circuit pump)
hP2 h Hours run of the device at output relayR2
kWh Amount of heat if a heat meter is ena-bled
NoteAdd the values for MWh and kWhtogether.
MWh
Resetting the hours run and theenergy volume
Whilst this value is displayed, press thefollowing keys:
1. OK "SET" flashes; value 0 is dis-played.
2. OK to confirm.
Service scans
Scanning temperatures and operating conditions54
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Sensor faults:■ Display background light flashes■ The sensor symbol in the system
scheme flashes quickly■ ¨ flashes
Example - collector temperature sen-sor short circuit
KOL°C
Possible displays:–88.8 Sensor short circuit888.8 Sensor break
NoteFurther scans can be carried out withkeys / .
Checking sensors
0.1
1
10
100
0 20 40 60 80 100 120 140Temperature in °C
Res
ista
nce
in k
Ω
AB
25
A Resistor 20 kΩ (sensor S1, collectortemperature sensor)
B Resistor 10 kΩ (sensors S2 andS3)
1. Disconnect the respective sensorand measure its resistance.
2. Compare the measurement with theactual temperature (for scanning seepage 45). Check the installation and,in case of severe deviation, replacethe sensor.
Troubleshooting
Fault messages
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Specification
Sensor NTC 10 kΩ at 25 °C 20 kΩ at 25 °CIP rating IP 53 IP 53Permissible ambienttemperature
■ during operation −20 to + 90 °C −20 to + 200 °C■ during storage and
transport−20 to + 70 °C −20 to + 70 °C
Changing the fuse
B
A
A Solar control unit wiring chamberB Fuse, 4 A (slow)
Open the solar control unit wiring cham-ber.A spare fuse is included in the fuseholder.
Troubleshooting
Checking sensors (cont.)
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The following parameters can be set subject to the actual system configura-tion:Display Parameter Delivered
conditionSetting range System
schemeANL System scheme 1 1–10 —DT E Start temperature differen-
tial for solar circuitpump R1
8 °C 1.5 – 20 °C
1 to 9 DT E < DT SDT A Stop temperature differen-
tial for solar circuitpump R1
4 °C 1.0 – 19.5 °C
S SL Set cylinder temperature(see page 52)
60 °C 4 – 90 °C
DT 1E Start temperature differen-tial for solar circuit pump R1(consumer 1)
8 °C 1.5 – 20 °C
10
DT 1E < DT 1SDT 1A Stop temperature differen-
tial for solar circuit pump R1(consumer 1)
4 °C 1.0 – 19.5 °C
S 1SL Set cylinder temperature(consumer 1)(see page 52)
60 °C 4 – 90 °C
DT 2E Start temperature differen-tial for solar circuit pump R1and valve R2 (consumer 2)
8 °C 1.5 – 20 °C
DT 2E < DT 2SDT 2A Stop temperature differen-
tial for solar circuit pump R1and valve R2 (consumer 2)
4 °C 1.0 – 19.5 °C
S 2SL Set cylinder temperature(consumer 2)(see page 52)
60 °C 4 – 90 °C
Function description
Parameter overview
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Display Parameter Deliveredcondition
Setting range Systemscheme
NOT Collector limit temperature(see page 61)
130 °C 110 – 200 °C
1 to 10
OKX Collector cooling function(maximum collector temper-ature limit)(see page 61)
OFF OFF/ONKMX 110 °C 90 – 190 °C
OKN Minimum collector tempera-ture limit(see page 61)
OFF OFF/ONKMN 10 °C 10 – 90 °C
OKF Frost protection(see page 62)
OFF OFF/ONKFR 4 °C −10 – +10 °CPRIO Sequence in which the con-
sumers are heated up1 0 – 2
10ISP Pump run break duration,cycle pause time
2 min 1 – 30 min
tUMW Break intervals 15 min 1 – 30 minORUE Return cooling function
(see page 62)OFF OFF/ON
1 to 10ORK Interval function(see page 62)
OFF OFF/ON
DT 3E Start temperature differen-tial for transfer pump R2
8 °C 0 – 20 °C
7
DT 3A Stop temperature differen-tial for transfer pump R2
4 °C 0.5 – 19.5 °C
MX3E Maximum limit S3 on 58 °C 0 – 94.5 °CMX3A Maximum limit S3 off 60 °C 0.5 – 95 °CMN3E Minimum limit S3 on 10 °C 0.5 – 90 °CMN3A Minimum limit S3 off 5 °C 0 – 89.5 °CNH E Starting temperature for the
thermostat function40 °C 0 – 89.5 °C 3, 5, 9
NH A Switch-off temperature forthe thermostat function
45 °C 0.5 – 90 °C 3, 5, 9
Function description
Parameter overview (cont.)
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Display Parameter Deliveredcondition
Setting range Systemscheme
OWMZ Heat statement(see page 63)
OFF OFF/ON
1 to 10
VMAXat 100%pumpspeed
5.0 l/min 0.1 – 20 l/min
MEDT 3 0 – 3MED% 40 20 – 70RPM Speed control
(see page 63)0 0 – 3
n1MN*1 Minimum speed(see page 63)
30 % 30/20 – 100 %
DT S*1 Differential temperature forthe start of the speed regu-lation(see page 63)
10 K 0.5 – 30 K
1 to 9
ANS*1 Rise(see page 63)
2 K 1 – 20 K
DT 1S*1 Differential temperature forthe start of speed regulation(consumer 1)(see page 63)
10 K 0.5 – 30 K
10
ANS1*1 Rise (consumer 1)(see page 63)
2 K 1 – 20 K
DT 2S*1 Differential temperature forthe start of speed regulation(consumer 2)(see page 63)
10 K 0.5 – 30K
ANS2*1 Rise (consumer 2)(see page 63)
2 K 1 – 20 K
HND1 Manual mode relay 1(see page 43)
AUTO OFF/ON
1 to 10HND2 Manual mode relay 2(see page 43)
AUTO OFF/ON
PROG Software version of the solarcontrol unit
— — —
VERS Hardware version — — —
*1 Only adjustable with setting RPM > 0.
Function description
Parameter overview (cont.)
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10 system schemes can be achievedwith the solar control unit. Selection viaparameter "ANL" (see page 43). All sys-tem schemes include the "ANL 1" func-tions (system scheme 1):■ Dual-mode DHW heating■ Suppression of reheating by the boiler
in conjunction with control units withKM BUS
■ Maximum DHW cylinder temperaturelimit
Auxiliary functions can be enabled forevery system scheme.■ Collector limit temperature (see
page 61)■ Collector cooling function (see
page 61)
■ Collector minimum temperature limit(see page 61)
■ Frost protection function (seepage 62)
■ Reverse cooling function (seepage 62)
■ Interval function (see page 62)■ Heat statement (see page 63)■ Speed control (see page 63)
Function description
System scheme54
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"ANL" = 1— Standard scheme
Dual-mode DHW heating with suppression of reheating by the boiler in con-junction with control units with KM BUSDisplay Temperature differential control
Determination of the temperature differential between col-lector temperature sensor S1 and cylinder temperaturesensor S2.■ Solar circuit pump R1 on:
"DT E" is exceeded■ Solar circuit pump R1 off:
The actual temperature falls below the stop temperaturedifferential "DT A"
Cylinder temperature limitSolar circuit pump R1 off:When reaching the set cylinder temperature "S SL".Symbol "È" is shown.Suppression of reheating by the boiler in conjunctionwith control units with KM BUS■ Function enabled:
– The DHW cylinder is heated by the solar thermal sys-tem.
– Connection of the KM BUS to terminals 11 and 12 inthe solar control unit.
■ In the boiler control unit, coding address "67" defaults athird set DHW temperature(This value must be below the first set DHW tempera-ture).See the installation and service instructions of the boilercontrol unit.
■ The DHW cylinder will only be heated by the boiler, if thisset value cannot be achieved by the solar thermal sys-tem.
NoteIn some boiler control units, the PCB must be replaced (seepage 67).
Function description
System scheme (cont.)
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"ANL" = 2
Dual-mode DHW heating with suppression of reheating by the boiler in con-junction with control units without KM BUS and/or control of the secondarypump of an external heat exchangerDisplay Suppression of reheating by the boiler in conjunction
with control units without KM BUS■ Relay R2 is started in parallel with the solar circuit pump.■ Function enabled:
– The DHW cylinder is heated by the solar thermal sys-tem.
– A resistor simulates an actual DHW temperature thatis 10 K higher (for connections, see the followingtable).
■ The DHW cylinder will only be heated by the boiler, if theset DHW temperature cannot be achieved by the solarthermal system.
System with an external heat exchanger
S1
S2
R1
R2
Function description
System scheme (cont.)
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Cylinder temperature sensor as PTC Cylinder temperature sensor as NTC
B
C
DE
?
13 14 15 16 17 18 19 20 21N R2 R1 N LN
IP 20, l, T40 230 V50 HzA
C Resistor 20 Ω, 0.25 W (on site)
?
13 14 15 16 17 18 19 20 21N R2 R1 N LN
IP 20, l, T40 230 V50 Hz
C
B
E
D
A
C Resistor 10 kΩ, 0.25 W (on site)
A Solar control unit wiring chamberB Contactor relayE To the boiler control unit; connection for cylinder temperature sensorD Cylinder temperature sensor of the boiler control unit
Function description
System scheme (cont.)
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"ANL" = 3
Dual-mode DHW heating and thermostat functionDisplay Thermostat function
Output R2 is used for this function.Relay R2 switches subject to the temperature at S3 (seethe following table).
Different effects can be achieved by determining the start and stop tempera-tures:"NH E" < "NH A" "NH E" > "NH A"e.g. for reheating e.g. for utilising excess heat
ThoffThon
R2offR2on
ThonThoff
R2offR2on
"ANL" = 4
Dual-mode DHW heating and auxiliary functionDisplay Additional function for DHW heating
■ Connection of the transfer pump at R2.■ Signal for starting the transfer pump R2 via the KM BUS
of the boiler control unit. This also heats the lower areaof the DHW cylinder to the required temperature.
NoteIn some boiler control units, the PCB must be replaced (seepage 67).
Function description
System scheme (cont.)
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1. Connect the KM BUS at terminals 11and 12 in the solar control unit.
2. Program the second set DHW tem-perature at the boiler control unit.
Installation and serviceinstructions; boiler controlunit
3. Adjust the fourth DHW phase at theboiler control unit.
Operating instructions, boilercontrol unit
DangerDHW with temperatures inexcess of 60 °C can cause scald-ing.To limit the temperature to 60 °C,install mixing equipment, e.g. athermostatically controlled mix-ing valve (accessory). Install amixer tap as anti-scalding deviceat the draw-off point.
"ANL" = 5
Dual-mode DHW heating, thermostat function and auxiliary functionDisplay Output R2 enables the thermostat function (see page 55)
and the auxiliary function (see page 55) to be achieved.
Function description
System scheme (cont.)
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"ANL" = 6
Dual-mode DHW heating and maximum cylinder temperature controlDisplay ■ When exceeding the set cylinder temperature "S SL"
(see page 52) the transfer pump R2 will start.■ Excess heat is transferred, e.g. to the pre-heating stage.
"ANL" = 7
Dual-mode DHW heating and transferDisplay Determination of the temperature differential between col-
lector temperature sensor S2 and cylinder temperaturesensor S3.■ Transfer pump R2 on:
"DT 3E" is exceeded■ Transfer pump R2 off:
The actual temperature falls below the stop temperaturedifferential "DT 3A"
"ANL" = 8
Dual-mode DHW heating, auxiliary function and transfer with sensor S3 in DHWcylinder 2 (existing)Display The transfer pump R2 circulates the heating water to pre-
vent stratification (see page 57) and implements the aux-iliary function (see page 55).
Function description
System scheme (cont.)
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"ANL" = 9
Dual-mode DHW heating, auxiliary function and transfer with sensor S3 in DHWcylinder 1 (retrofit)Display The transfer pump R2 circulates the heating water to pre-
vent stratification (see page 57) and implements the aux-iliary function (see page 55).
Function description
System scheme (cont.)
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"ANL" = 10
Dual-mode DHW heating, heating of consumer 2 via the three-way divertervalveDisplay Temperature differential control
Determination of the temperature differential between col-lector temperature sensor S1 and cylinder temperaturesensor S2.■ Solar circuit pump R1 on:
"DT 1E" is exceededConsumer 1 is being heated.
■ Solar circuit pump R1 off:The actual temperature falls below the stop temperaturedifferential "DT 1A"
Determination of the temperature differential between col-lector temperature sensor S1 and cylinder temperaturesensor S3.■ Solar circuit pump R1 and three-way diverter valve R2
on:"DT 2E" is exceeded.Consumer 2 is being heated.
■ Solar circuit pump R1 and three-way diverter valve R2off:The actual temperature falls below the stop temperaturedifferential "DT 2A"
Cyclical heating■ If the DHW cylinder cannot be heated with priority
("PRIO" 1), the next consumer in line will be heated foran adjustable cycle time "tUMW".
■ After expiry of this time, the solar control unit checks thetemperature rise at the collector during the cycle pausetime "tSP".
■ As soon as the start conditions for the consumer withpriority ("PRIO" 1) have been met, that consumer will beheated again. Otherwise, the consumer with lower rank-ing will continue to be heated.
■ Once the consumer with priority has reached its set tem-perature "S SL", no cyclical heating will be implemented.
Function description
System scheme (cont.)
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Consumer 1Parameter Delivered condition Setting rangeDT 1E 8.0 K 1.5 – 20.0 KDT 1A 4.0 K 1.0 – 19.5 KS1 SL 60 °C 4 – 90 °C
Note"DT 1E" can be set at least 0.5 K higherthan "DT 1A" and up to 0.5 K lower than"DT 1S" (see page 50)."DT 1A/" can be set at least 0.5 K lowerthan "DT 1E".
Consumer 2Parameter Delivered condition Setting rangeDT 2E 8.0 K 1.5 – 20.0 KDT 2A 4.0 K 1.0 – 19.5 KS2 SL 60 °C 4 – 90 °C
Note"DT 2E" can be set at least 0.5 K higherthan "DT 2A" and up to 0.5 K lower than"DT 2S" (see page 50)."DT 2A" can be set at least 0.5 K lowerthan "DT 2E".
Parameter Delivered condition Setting rangePRIO 1 0 – 2tSP 2 min 1 – 30 mintUMW 15 1 – 30 min
0 Priority consumer 1, no cyclical heat-ing
1 Priority consumer 1, with cyclicalheating
2 Priority consumer 2, with cyclicalheating
Function description
System scheme (cont.)
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The solar circuit pump is switched OFFto protect the system components if the"NOT" temperature has been exceeded;the symbol "¨" flashes.
Set value for "NOT" (see page 43).
Setting parameters Delivered condition Setting rangeNOT 130 °C 110 – 200 °C
NoteThis function is disabled at setting200 °C.
Collector cooling function
The solar circuit pump will be switchedoff when the set cylinder temperature"S SL" is reached.If the collector temperature rises to theset maximum collector temperature"KMX", the pump will be switched onlong enough to enable this temperatureto fall 5 K lower (the symbol "È" flashes).The cylinder temperature can then riseagain, but only up to 90 °C; at that point,the solar circuit pump is switched off (thesymbol "¨" flashes).
1. Set "OKX" to "ON" (see page 43).
2. Select the "KMX" value.
Setting parameters Delivered condition Setting rangeKMX 110 °C 90 – 190 °C
Minimum collector temperature limit
Minimum starting temperature "KMN"that must be exceeded before the solarcircuit pump can start.This prevents the pump starting too fre-quently (cycling).
The pump is switched off, if the actualtemperature falls 5 K below this temper-ature; symbol "e" flashes.
1. Set "OKN" to "ON" (see page 43).
2. Select the "KMN" value.
Function description
Collector limit temperature54
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Setting parameters Delivered condition Setting rangeKMN 10 °C 10 – 90 °C
Frost protection function
Enable this function only when usingwater as heat transfer medium.The solar circuit pump will be switchedon to avoid collector damage, if the col-lector temperature falls below the"KFR" value.The symbol "e" is displayed if this func-tion is enabled and flashes if the solarcircuit pump is running.
1. Set "OKF" to "ON" (see page 43).
2. Select the "KFR" value.
Setting parameters Delivered condition Setting rangeKFR 4 °C −10 – +10 °C
Reverse cooling function
Enable only in systems with flat-platecollectors.The "ORUE" function only makes senseif the collector cooling function has beenenabled (see page 61).The collector cooling function enablesthe heating of the DHW cylinder to ahigher temperature than "S SL" (seepage 52).
In the evening, the pump will continue torun (symbol "È" flashes) until the DHWcylinder has been cooled down via thecollector and the pipework to the set cyl-inder temperature "S SL".
Set "ORUE" to "ON" (see page 43).
Interval function
Activate the interval function in systemswhere the collector temperature sensoris not in an ideal location to prevent atime delay in capturing the collector tem-perature.
For this, the solar circuit pump is startedfor 30 s when the collector temperaturerises by 2 K.
Set "ORK" to "ON" (see page 43).
Function description
Minimum collector temperature limit (cont.)
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The heat statement is calculated fromthe temperature differential between thecollector and cylinder temperature aswell as the selected throughput (seeservice instructions "Vitosol").
1. Set "OWMZ" to "ON" (seepage 43).
2. Check the throughput at the flowmeter of the Solar-Divicon at 100 %speed and set that value as"VMAX".
3. Adjusting the frost protection of theheat transfer medium "MEDT".
4. If necessary, adjust the mixing ratioof the heat transfer medium "MED%".
MEDT setting Heat transfer medium0 Water1 Propylene glycol2 Ethylene glycol3 Viessmann heat transfer medium
Setting parameters Delivered condition Setting rangeVMAX 5.0 l/min 0.1 – 20 l/minMEDT 3 0 – 3MED % 40 % 20 – 70 %
Speed control
Speed control is disabled at the factory("RPM" set to 0, see page 33). It canonly be enabled for relay output R1(solar circuit pump).The solar circuit pump must not have itsown speed control. Set multi-stagepumps to the required stage.
NoteWhen using pumps with their own varia-ble speed control, set "RPM" to 0.
The solar circuit pump will be switchedon, if "DT E" is exceeded.If the temperature differential rises to"DT S" (differential temperature for thestart of the speed control), the speed isincreased by 10% with every rise by thevalue selected in "ANS" (rise).
Function description
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Setting parameters Delivered condition Setting rangen1MN 30 % 30 – 100 %DT S 10 K 0.5 – 30 KANS 2 K 1 – 20 K
Example
Temperature differential in K
Spee
d in
%
00
2 6 10 12 144 8
102030405060 DT E = 5 K
DT S = 10 KANS = 2 K
Enabling speed control
Set the required value for "RPM" (seepage 33).1 Standard solar circuit pumps (with
integral auxiliary capacitor)2 WILO pump with PWM input3 GRUNDFOS pump with PWM input
Function description
Speed control (cont.)
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When ordering spare partsQuote the part and serial no. (see typeplate) and the position no. of the requiredpart (as per this parts list).Obtain standard parts from your localsupplier.
Parts010 Collector temperature sensor020 Cylinder temperature sensor030 Strain relief pack, capacitor and
fuse040 Fuse, 4 A (slow)050 Installation and service instructions060 Operating instructions
Parts list
Parts list54
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170 47
204
Rated voltage 230 V~Rated frequency 50 HzRated current 4 A∼Power consumption 2 W
(in standby mode 0.7 W)Protection class IIIP rating IP 20 D to EN 60529, ensure through design/instal-
lationFunction Type 1 B to EN 60730-1Permiss. ambient temperature ■ during operation 0 to +40 °C
Installation in living spaces or boiler rooms (stand-ard ambient conditions)
■ during storage and transport -20 to +65 °C
Rated breaking capacity of the relayoutputs at 230 V~:■ R1 0.8 A∼■ R2 4 (2) A ∼
Specification
Specification
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Replace the PCB in the stated boilercontrol units in conjunction with the fol-lowing functions:■ Suppression of reheating by the boiler■ Auxiliary function for DHW heating,
achieved by the solar control unit
Control unit PCBVitotronic 200, type KW1,Part no. 7450 351, 7450 740
Part no. 7828 192
Vitotronic 200, type KW2,Part no. 7450 352, 7450 750Vitotronic 300, type KW3,Part no. 7450 353, 7450 760Vitotronic 200, type GW1,Part no. 7143 006
Part no. 7828 193
Vitotronic 300, type GW2,Part no. 7143 156Vitotronic 333, type MW1,Part no. 7143 421
Part no. 7824 030
Appendix
Appendix54
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We, Viessmann Werke GmbH & Co KG, D-35107 Allendorf, confirm as sole respon-sible body that the product Vitosolic 100 complies with the following standards:
EN 55 014-1EN 60 730
This product is designated _ in accordance with the following Directives:
2004/108/EC2006/95/EC
Allendorf, 1 October 2009 Viessmann Werke GmbH&Co KG
pp. Manfred Sommer
Certificates
Declaration of conformity
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AAnti-scalding protection..................6, 56Applicability........................................72Automatic mode...........................41, 43Auxiliary function for DHW heating....55
CChanging settings..............................43Changing the fuse..............................47Changing values................................43Checking sensors..............................46Collector cooling function...................61Collector limit temperature.................61Collector temperature sensor.............37Commissioning..................................41Cyclical heating..................................59Cylinder temperature limit..................52Cylinder temperature sensor..............38
DDeclaration of conformity...................68
EExternal heat exchanger....................53
FFault messages..................................46Fitting the solar control unit................32Frost protection function....................62
HHardware version...............................50Heat statement...................................63High limit safety cut-out......................36
IInterval function..................................62
MManual mode.....................................43Manual operation...............................43Maximum collector temperature limit. 61
Maximum cylinder temperaturecontrol................................................57Minimum collector temperature limit. .61
NNavigation through the menu.............41
OOperating steps..................................41Overview of electrical connections.....33
PParts list.............................................65Power supply.....................................39Pump at R2........................................35Pumps................................................33
RRelay test...........................................43Restoring the delivered condition.......43Reverse cooling function....................62
SScanning temperatures......................45Selecting the system scheme............43Setting system parameters................43Software version of the solar controlunit.....................................................50Solar circuit pump..............................33Spare fuse..........................................47Speed control.....................................63Starting the solar control unit.............41Suppressing reheating■ Control units with KM BUS.............52■ Control units without KM BUS........53Switching the power ON....................41
TTemperature differential control...52, 59Temperature sensor...........................38Thermostat function...........................55Transfer..............................................57
Keyword index
Keyword index54
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VValve at R2........................................35
Keyword index
Keyword index (cont.)
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Applicability
Applicable for the Vitosolic 100, type SD1Part no. 7438 086Part no. 7418 199Part no. 7418 200Part no. 7418 201
Viessmann LimitedHortonwood 30, TelfordShropshire, TF1 7YP, GBTelephone: +44 1952 675000Fax: +44 1952 675040E-mail: [email protected]
Viessmann Werke GmbH&Co KGD-35107 AllendorfTelephone: +49 6452 70-0Fax: +49 6452 70-2780www.viessmann.com
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