Vitocrossal 300 CU3A 26 to 199 Service
5673 649 - 18
40
Example Layout 3
System version 3
One heating circuit without mixing valve and two heating
circuits with mixing valve and DHW heating (optional
solar DHW heating)
Applications
Heating system with different heat sources and methods
of DHW heating
One heating circuit without mixing valve
Two heating circuits with 3-way mixing valve
Main components
Gas condensing boiler models 26 to 199
Heating circuit distribution
DHW tank (dual mode)
Solar thermal system
Function description
The heating circuits
eP
/
rP
/
tP
and DHW tank
qP
/
qR
are regulated by boiler heating circuit controller
1
.
The heating circuits and DHW tank are each supplied
by a separate circulation pump
eQ
/
rR
/
tR
and
qE
.
Heating mode
The boiler heating circuit controller regulates the boiler
water temperature in weather-compensated mode
(= supply temperature of the heating circuit without
mixing valve) and the temperature level of the heating
circuit with mixing valve via an extension kit for one
heating circuit with mixing valve.
DHW heating without a solar thermal system
If the temperature falls below the set DHW temperature
selected at control unit
2
, the burner of boiler
1
starts
and circulation pump
qE
of DHW tank
qP
or
qR
runs.
Within the time program selected at control unit
2
, DHW
is heated with or without priority.
In the case of absolute priority, heating circuit pumps
eQ
/
rR
/
tR
are switched off and mixing valves
rT
/
tT
are
closed. With modulating priority control of the heating
circuits with mixing valve, heating circuit pumps
rR
/
tR
remain on, and mixing valves
rT
/
tT
close far enough to
enable the boiler
water temperature set for tank heating to be reached.
In this case, DHW tank
qP
or
qR
and heating circuit with
mixing valve
rP
and
tP
are heated simultaneously.
DHW heating by the solar thermal system
Solar circuit pump
wE
starts and DHW tank
qR
is heated
up, if the temperature differential between collector
temperature sensor
wQ
and tank temperature
sensor
qT
exceeds the start temperature differential.
Pump
wE
is stopped according to the following criteria:
The actual temperature drops below the stop
temperature differential
Exceeding the electronic temperature limit
[up to 194°F (90°C)] set in the solar control module
(type SM1)
wZ
The temperature selected at high limit safety cut-out
qZ
(if installed) is reached
Demands for the auxiliary function are met by circulation
pump
wR
.
Suppression of reheating of the DHW tank by the boiler
in conjunction with solar control module (type SM1)
Reheating suppression takes place in two stages.
Reheating DHW tank
qR
by boiler
1
is suppressed
as soon as DHW tank
qR
is heated by collectors
wP
.
For this, the set tank temperature for reheating is
reduced by boiler
1
. Suppression remains active for
a certain time after solar circuit pump
wE
has been
switched off.
In the case of uninterrupted heating by collectors
wE
(>2 h) boiler
1
will only reheat, if the set tank
temperature (coding address “67”) selected at boiler
circuit control unit
2
is not achieved.
In control unit
2
, coding address “67” defaults a third
set DHW temperature [setting range 50°F to 203°F
(10°C to 95°C)].
This value must be below the first set DHW temperature.
DHW tank
qR
will only be heated by boiler
1
when
this set value is no longer achieved by the solar thermal
system.
Function/system
components
Code
Adjust Delivered condition
Operation with LPG
82:1
82:0
System with only one
heating circuit with mixing
valve (without unregulated
heating circuit)
00:8
00:7
00:10
00:9
Service