Viessmann Vitocal 300-G, Vitocal 242-G, Vitocal 350-G, Vitocal 200-S, Vitocal 222-S User Manual

Issue 6/2013

System examples 2014

 Heat pumps

including functions, hydraulics,

components and electrics

2

Products
Compact heat pump

5.9 to 10.3 kW

Vitocal 222-G
Vitocal 242-G

Vitocal 333-G
Vitocal 333-G NC
Vitocal 343-G

Vitocal 333-G/343-G with Vitovent 300-F

Chapter 2, page 9

Brine/water heat pump

6.5 to 9.6 kW

Vitocal 200-G, type BWC Chapter 3, page 52

Heat pump
Brine/water

6.2 to 35.2 kW
Water/water

8.0 to 43.2 kW

Vitocal 300-G, type BW/BWS
Vitocal 300-G, type BWC

Vitocal 300-G, type WW/WWS
Vitocal 300-G, type WWC

Vitocal 350-G, type BW/BWS
Vitocal 350-G, type BWC

Chapter 4, page 74

Heat pump
Air/water
3 to 10.6 kW

Vitocal 200-S, type AWB
Vitocal 200-S, type AWB-AC

Vitocal 222-S, type AWT-AC
Vitocal 242-S, type AWT-AC

Vitocal 222-S/242-S with Vitovent 300-F

Chapter 5, page 127

Air/water heat pump
5 to 7 kW

Vitocal 200-A, type AWCI-AC Chapter 6, page 188

Air/water heat pump

3.0 to 18.5 kW

Vitocal 300-A, type AWCI-AC
Vitocal 300-A, type AWO-AC

Vitocal 350-A, type AWHI
Vitocal 350-A, type AWHO

Chapter 7, page 203

Table of contents

System examples

VIESMANN

7

5822 472 GB

1

1.2 Numbering of the technical components and the electrical connections

--230V--

-KM BUS-

--F6--

--F0--

--F8--

--F14--

--212.3--

--211.2--

--211.4--

-2/X3.8;3.9-

2

2

[H

F

[YF

F

--2/F14--

--2/211.2--

-2/145-

A1

--2/X3.8;3.9--

oR

iE

oE

oP

oQ
oW

oE

--2/F14--

oEoE

For heat pump control unit Vitotronic 200, type WO1B/WO1C

Note

A CO limiter is available for the safety shutdown of the boiler if carbon
monoxide escapes (see Viessmann pricelist). Installation according to
the relevant installation instructions.

Table of contents

(cont.)

8

VIESMANN

System examples

1

5822 472 GB

2.1 Overview of system examples

Vitocal 222/242/333/343-G, one heating circuit without mixer and DHW
heating (for Vitocal 242/343-G also solar)

Vitocal 333/343-G, one heating circuit without mixer, two heating cir­cuits with mixer, DHW heating (for Vitocal 343-G also solar) and heating
water buffer cylinder

See page 10 See page 30

ID: 4605087_1304_05 ID: 4605089_1304_05
Vitocal 333-G NC, one heating circuit without mixer, DHW heating and
natural cooling

Vitocal 333/343-G, one heating circuit without mixer, two heating cir­cuits with mixer, DHW heating (for Vitocal 343-G also solar), heating
water buffer cylinder and natural cooling

See page 15 See page 36

ID: 4605088_1304_07 ID: 4605090_1304_05
Vitocal 222/242/333/343-G, one heating circuit without mixer, DHW
heating (for Vitocal 242/343-G also solar) plus natural cooling

Vitocal 333/343-G, one heating circuit without mixer for supply air heat­ing, two heating circuits with mixer, DHW heating (for Vitocal 343-G also
solar), heating water buffer cylinder and natural cooling

See page 20 See page 44

ID: 4605086_1304_05 ID: 4605509_1304_01
Vitocal 222/242-G, one heating circuit without mixer, one heating circuit
with mixer, DHW heating (for Vitocal 242-G also solar) and heating wa­ter buffer cylinder
See page 25

ID: 4605091_1304_05

Vitocal 222-G/242-G/333-G/333-G NC/343-G

System examples

VIESMANN

9

5822 472 GB

2

2.2 Vitocal 222/242/333/343-G, one heating circuit without mixer and DHW heating (for
Vitocal 242/343-G also solar)

ID: 4605087_1304_05

Note
DHW heating with solar backup is only possible with the
Vitocal 242/343-G.

A system volume of at least 3 litres per kW of heat pump output is
required.

Application range

Detached house with underfloor heating system.

Main components

■ Vitocal 222/242/333/343-G with integral DHW cylinder and
Vitotronic 200, type WO1C

■ Heating circuit distributor with heating circuit without mixer

■ Solar thermal system (option, only with the Vitocal 242/343-G)

Requirements

The minimum flow rate of heat pump 1 is safeguarded by overflow
valve oW and the integral secondary pump. In these heating systems,
install an overflow valve at the heating circuit distributor of the under­floor heating system. This safeguards a minimum volume of circulating
water, even in sealed heating circuits.

Central heating by heat pump

Heat pump 1 and the integral primary pump start if the actual tem­perature captured by the return temperature sensor in the secondary
circuit is lower than the temperature set at control unit 2 or for DHW
heating.

Heat pump 1 supplies the heating circuit with heat. Control unit 2
of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuit. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to the heating circuit or
to the integral DHW cylinder.
Opening and closing the valves of the underfloor heating distributor
regulates the flow rate within the heating circuit. Heat pump 1 and
the secondary pump are switched off once the actual return tempera­ture at the return temperature sensor exceeds the temperature set at
the control unit.

DHW heating by heat pump

In the delivered condition, DHW heating by heat pump 1 is given
priority over the heating circuit and takes precedence at night.
The heat demand is issued via the integral cylinder temperature sensor
and the control unit, which controls the integral secondary pump in
conjunction with the integral 3-way diverter valve and, in the case of
the Vitocal 242/343-G, the cylinder loading pump.
The control unit raises the flow temperature to the value required for
DHW heating.
The control unit switches the heating flow to the heating circuit via 3­way diverter valve "Heating/DHW" if the actual temperature at the cyl­inder temperature sensor exceeds the value set at the control unit.
The flow temperature can be raised up to 60 °C via integral instanta­neous heating water heater 4.

DHW heating with solar backup (only for Vitocal 242/343-G)

The DHW cylinder will be heated by the solar collector if the temper­ature differential between collector temperature sensor rR and the
integral lower cylinder temperature sensor exceeds the temperature
differential set at the control unit. For this, the heat pump control unit
controls solar circuit pump rE which is integrated into Solar-Divicon

rW

.
The control unit stops solar circuit pump rE again if the temperature
falls below the temperature differential.

Required parameter settings

ID: 4605087_1304_05
Parameter Value Function

7000 2 With heating circuit A1/HC1, DHW cylinder (delivered condition)
7A00 3 Solar control module, type SM1
C002 2 Variable speed solar circuit pump with PWM activation

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

10

VIESMANN

System examples

2

5822 472 GB

Hydraulic installation scheme ID: 4605087_1304_05

43

42

44

45

P1

21

20

22

27

49

90

KW

WW

94

91

--2/X3.8;3.9--

37

--2/212.3--

4

1

12

13

3

2

P1

--X3.8;3.9--

--212.3--

--211.2--

--230V--

--F0--

--KM BUS--

--2/211.2--

--2/F0--

--47/6--

----47/24--

92

--2/145--

A1

41

--47/24--

rU

--230V--

--24--

--5--

--6--

48

--47/5--

Note: This scheme is a general example without shut-off valves or safety equipment. This does not replace the need for on-site engineering.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

11

5822 472 GB

2

Equipment required

ID: 4605087_1304_05
Pos. Designation Part no.
Heat source

1
2

Compact heat pump Vitocal 222/242/333/343-G with:
– Integral control unit
– Primary pump
– Secondary pump
– 3-way diverter valve for "Central heating/DHW heating"
– Cylinder loading pump (only 242/343-G)
– DHW cylinder
– Cylinder temperature sensor

See Viessmann pricelist

3

Outside temperature sensor ATS Standard delivery pos. 1

4

Instantaneous heating water heater Standard delivery pos. 1

qW

Safety assembly Standard delivery pos. 1

qE

Expansion vessel, heating circuit See Vitoset pricelist

Primary circuit

wP

Brine accessory pack ZK00 300

wQ

Pressure switch, primary circuit 9532 663

wW

Brine distributor for geothermal probes/geothermal collectors See Viessmann pricelist

wU

Geothermal probe/geothermal collector on site

DHW heating

eU

Connection set with DHW circulation pump ZP 7440 932

DHW heating with a solar thermal system

rQ

High limit safety cut-out STB 7506 168

rW Solar-Divicon, type PS10 with integral solar control module, type SM1 rU

or
Solar-Divicon, type PS20 without control unit with separate solar control module, type SM1

rU

Z012 016

Z012 027

rE

Solar circuit pump Standard delivery pos. 42

rR

Collector temperature sensor KOL Standard delivery pos. 47

rT

Solar collector See Viessmann pricelist

rZ

Junction box on site

rU

Solar control module, type SM1 7429 073

rI

Cylinder temperature sensor SOL Standard delivery pos. 47

rO

Expansion vessel, solar circuit See Viessmann pricelist

Heating circuit without mixer A1

oP

Underfloor heating circuit See Vitoset pricelist

oW

Overflow valve on site

oR

Temperature limiter to restrict the maximum temperature of underfloor heating systems

– Version with immersion sensor

or

7151 728

– Version with contact sensor 7151 729
Accessories (optional)

8

KM BUS distributor (if there is more than one KM BUS subscriber) 7415 028

zU

Radio clock receiver 7450 563

oQ

Vitotrol 200A remote control Z008 341

oT

Vitotrol 300B remote control Z011 411

The following wireless accessories are available as an alternative to hardwired remote control

units:

oO

– Wireless base station
– Vitotrol 200 RF wireless remote control
– Wireless outside temperature sensor
– Wireless repeater

Z011 413
Z011 219
7455 213
7456 538

oI

LON communication module 7172 173

qXP

Vitocom 100, type GSM 2 Z011 396 / Z011 388

qXQ

Vitocom 100, type LAN 1 with communication module Z011 224

qXW

Vitocom 200, type LAN 2 with communication module Z011 390

qXE

Vitocom 200, type GP 3 with communication module with SIM card Z011 392

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

12

VIESMANN

System examples

2

5822 472 GB

Electrical installation scheme

230 V/50 Hz

2

211.2

X2.N

X1.

UP A1

212.3

X2.N

X1.

ZP

37

136

L3

N

L2

L1

137

4

3 / N / PE

400 V, 50 Hz

94

X1.1

X2.1

X3.18

230 V/50 Hz

N

L1

X3.8

X1.

230 V; 0.5 A

21

X3.9

<16A

130 W

50 W

X2.N

211.3

224.4

16A

A

B

20

Low voltage

1

2

145

F0

ATS

3

67

NTC 10 kΩ

1

2

3

LON

98

121 / 122 / 123

2

2
1

HC A1

oT

oO

oQ

KM BUS

145

145

KM BUS distributor

145

qXP

8

STB

KOL

SOL

L

N

L

N

3

4

1

2

145

40

24

22

6

5

1

2

PWM

SM1

3

4

1

2

7

10

1

2

rU

rI

rR

rE

rQ

L

N

UP

230 V, 50 Hz

145

M
1~

M
1~

1

3
2

1

3
2

1

3
2

M
1~

1

3
2

ID: 4605087_1304_05

Note

Instantaneous heating water heater 4 is prefitted and wired.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

13

5822 472 GB

2

L1

1 / N / PE
230 V/50 Hz

F1 6.3A slow

18

L1

N

Mains terminals for heat pump control unit

Compressor power supply 400 V

L3

3 / PE
400 V, 50 Hz

L3

N

L1

L1

L2

L2

2

<16A

ID: 4605087_1304_05

V

Mains terminals for compressor 400 V

N

1 / N / PE
230 V/ 50 Hz

N

N

L1

L1

L1

N1

N1

N1

L1

L1

L1

PE
PE

ID: 4605087_1304_05

Instantaneous heating water heater 230 V power supply (only for
Vitocal 222-G/242-G)

3 / N / PE
400 V/ 50 Hz

N

L2

L3

L1

N2

L2

L3

L1

N3

N1

PE

PE

ID: 4605087_1304_05

Power supply, instantaneous heating water heater 400 V

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

14

VIESMANN

System examples

2

5822 472 GB

2.3 Vitocal 333-G BWT-NC, one heating circuit without mixer, DHW heating and natural
cooling

ID: 4605088_1304_07

Note

A system volume of at least 3 litres per kW of heat pump output is
required.

Application range

Detached house with underfloor heating system and cooling
demand.

Main components

■ Vitocal 333-G BWT-NC with integral DHW cylinder and
Vitotronic 200, type WO1C

■ Heating circuit distributor with heating circuit without mixer

■ Cooling with integral NC module

Requirements

The minimum flow rate of heat pump 1 is safeguarded by overflow
valve oW and the integral secondary pump. In these heating systems,
install an overflow valve at the heating circuit distributor of the under­floor heating system. This safeguards a minimum volume of circulating
water, even in sealed heating circuits.

Note

Vitocal 333-G BWT-NC cannot be operated in conjunction with a heat­ing water buffer cylinder.

Central heating by heat pump

Heat pump 1 and the integral primary pump start if the actual tem­perature captured by the return temperature sensor in the secondary
circuit is lower than the temperature set at control unit 2 or for DHW
heating.

Heat pump 1 supplies the heating circuit with heat. Control unit 2
of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuit. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to the heating circuit or
to the integral DHW cylinder.
Opening and closing the valves of the underfloor heating distributor
regulates the flow rate within the heating circuit. Heat pump 1 and
the secondary pump are switched off once the actual return tempera­ture at the return temperature sensor exceeds the temperature set at
the control unit.

DHW heating by heat pump

In the delivered condition, DHW heating by heat pump 1 is given
priority over the heating circuit and takes precedence at night.
The heat demand is issued via the integral cylinder temperature sensor
and the control unit, which controls the integral secondary pump in
conjunction with the integral 3-way diverter valve.
The control unit raises the flow temperature to the value required for
DHW heating.
The control unit switches the heating flow to the heating circuit via 3­way diverter valve "Heating/DHW" if the actual temperature at the cyl­inder temperature sensor exceeds the value set at the control unit.
The flow temperature can be raised > 60 °C via integral instantaneous
heating water heater 4.

Natural cooling function

The Vitocal 333-G BWT-NC can cool the building. Control unit

2

enables the natural cooling function as soon as the outside tempera­ture exceeds the cooling limit temperature that can be adjusted at
control unit 2. The integral 3-way diverter valves "Heating/cooling"
are switched to cooling, and the integral secondary pump transports
cooled water into the secondary circuit.
Contact humidistat iE monitors the dew point. Ensure that any instal­led room thermostats are able to be opened manually or by servomo­tors when using the cooling function.
Simultaneous DHW heating is not possible in this operating mode.

Required parameter settings

ID: 4605088_1304_07
Parameter Value Function

7000 2 With heating circuit A1/HC1, DHW cylinder (delivered condition)
7103 180 Min. flow temperature, cooling
7104 50 Influence room temperature hook-up cooling circuit
7111 4 Cooling curve slope
2003 1 Vitotrol 200A or 300B remote control activated for heating circuit A1/HC1

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

15

5822 472 GB

2

Hydraulic installation scheme ID: 4605088_1304_07

P1

21

20

22

27

90

KW

WW

94

--2/X3.8;3.9--

37

--2/212.3--

4

1

12

13

3

2

P1

--X3.8;3.9--

--211.2--

--211.5--

--212.3--

--230V--

--X4.1;2--

--F0--

--F14--

--KM BUS--

--2/211.2--

83

--2/X4.1;2--

89

--2/F14--

91

92

--2/145--

A1

8

--145--

--145--

--145--

--145--

--230V--

--R1-6--

--2/211.5--

qCP

qCQ

--130/R1-6--

Note: This scheme is a general example without shut-off valves or safety equipment. This does not replace the need for on-site engineering.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

16

VIESMANN

System examples

2

5822 472 GB

Equipment required

ID: 4605088_1304_07
Pos. Designation Part no.
Heat source

1
2

Compact heating centre Vitocal 333-G, type BWT-NC, with:
– Integral control unit
– Primary pump
– Secondary pump
– 3-way diverter valve for "Central heating/DHW heating"
– Integral components for natural cooling
– DHW cylinder
– Cylinder temperature sensor

See Viessmann pricelist

3

Outside temperature sensor ATS Standard delivery pos. 1

4

Instantaneous heating water heater Standard delivery pos. 1

qW

Safety assembly Standard delivery pos. 1

qE

Expansion vessel, heating circuit See Vitoset pricelist

Primary circuit

wP

Brine accessory pack ZK00 300

wQ

Pressure switch, primary circuit 9532 663

wW

Brine distributor for geothermal probes/geothermal collectors See Viessmann pricelist

wU

Geothermal probe/geothermal collector on site

DHW heating

eU

Connection set with DHW circulation pump ZP 7440 932

Natural cooling function (NC)

iE

Contact humidistat Standard delivery pos. 1

iO

Flow temperature sensor VTS NC 7426 463

Heating/cooling circuit without mixer A1

oP

Underfloor heating circuit/cooling circuit See Vitoset pricelist

oQ

Vitotrol 200A remote control
or

Z008 341

oT

Vitotrol 300B remote control Z011 411

The following wireless accessories are available as an alternative to hardwired remote control

units:

oO

– Wireless base station
– Vitotrol 200 RF wireless remote control
– Wireless outside temperature sensor
– Wireless repeater

Z011 413
Z011 219
7455 213
7456 538

oW

Overflow valve on site

oR

Temperature limiter to restrict the maximum temperature of underfloor heating systems

– Version with immersion sensor

or

7151 728

– Version with contact sensor 7151 729
qCP

Connection module with single room control, heating/cooling with pump logic 7247 845

qCQ

Room thermostat (installation on finished walls), heating/cooling RTR-E 6726 7247 853

qCW

Thermal actuator TS 5.11/230 (N/C, cores can be interchanged)
or
Thermal actuator TS+ 5.11/230 (N/C, cores can be interchanged)

7373 722

7419 860

Accessories (optional)

8

KM BUS distributor 7415 028

zU

Radio clock receiver 7450 563

oI

LON communication module 7172 173

qXP

Vitocom 100, type GSM 2 Z011 396 / Z011 388

qXQ

Vitocom 100, type LAN 1 with communication module Z011 224

qXW

Vitocom 200, type LAN 2 with communication module Z011 390

qXE

Vitocom 200, type GP 3 with communication module with SIM card Z011 392

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

17

5822 472 GB

2

Electrical installation scheme

230 V/50 Hz

2

211.2

X2.N

X1.

UP A1

212.3

X2.N

X1.

ZP

37

136

L3

N

L2

L1

137

4

3 / N / PE

400 V, 50 Hz

94

X1.1

X2.1

X3.18

230 V/50 Hz

N

L1

X3.8

X1.

230 V; 0.5 A

21

X3.9

<16A

130 W

50 W

X2.N

211.3

224.4

16A

A

B

20

Low voltage

VTS NC

89

F14

1

2

145

F0

ATS

3

67

NTC 10 kΩ

1

2

3

LON

98

121 / 122 / 123

2

2
1

HC A1

oT

oO

oQ

KM BUS

145

145

KM BUS distributor

145

qXP

8

211.5

X2.N

X1.

N

L1

NC module

2

NTC 10 kΩ

145

145

2

X4.2

X4.1

83

X2.4

X5.

X2.3

X2.2

X5.

X2.1

NC module

230 V/50 Hz

N

L1

211.5

N

L1

2

1

2

FAS

AM

qCP

M
1~

M
1~

1

3
2

1

3
2

1

3
2

1

3
2

ID: 4605088_1304_07

Note

Instantaneous heating water heater 4 is prefitted and wired.
Control of the NC function for cooling is already complete inside the
appliance.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

18

VIESMANN

System examples

2

5822 472 GB

Connection changeover heating/cooling circuit "Heating/cool­ing" via switching module

AM heat/cool

qCP

R6

211.5

2

1

3
4
5
6
7
8
9

c
d

e
f

230 V/50 Hz

3

5

2
1
N
N

RF

TA

M

1~

STA

M

1~

STA

RTH

qCQ
qCW
qCW

2

R1

ID: 4605088_1304_07

L1

1 / N / PE
230 V/50 Hz

F1 6.3A slow

18

L1

N

Mains terminals for heat pump control unit

Compressor power supply 400 V

L3

3 / PE
400 V, 50 Hz

L3

N

L1

L1

L2

L2

2

<16A

ID: 4605088_1304_07

V

Mains terminals for compressor 400 V

3 / N / PE
400 V/ 50 Hz

N

L2

L3

L1

N2

L2

L3

L1

N3

N1

PE

PE

ID: 4605088_1304_07

Power supply, instantaneous heating water heater 400 V

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

19

5822 472 GB

2

2.4 Vitocal 222/242/333/343-G, one heating circuit without mixer, DHW heating (for
Vitocal 242/343-G also solar) plus natural cooling

ID: 4605086_1304_05

Note
DHW heating with solar backup is only possible with the
Vitocal 242/343-G.

A system volume of at least 3 litres per kW of heat pump output is
required.
This scheme is not suitable for the Vitocal 333-G NC.

Application range

Detached house with underfloor heating system and cooling
demand.

Main components

■ Vitocal 222/242/333/343-G with integral DHW cylinder and
Vitotronic 200, type WO1C

■ Heating circuit distributor with heating circuit without mixer

■ Cooling with NC-Box

■ Solar thermal system (option, only with the Vitocal 242/343-G)

Requirements

The minimum flow rate of heat pump 1 is safeguarded by overflow
valve oW and the integral secondary pump. In these heating systems,
install an overflow valve at the heating circuit distributor of the under­floor heating system that is furthest away from the heat pump. This
safeguards a minimum volume of circulating water, even in sealed
heating circuits.

Central heating by heat pump

Heat pump 1 and the integral primary pump start if the actual tem­perature captured by the return temperature sensor in the secondary
circuit is lower than the temperature set at control unit 2 or for DHW
heating.
Heat pump 1 supplies the heating circuit with heat. Control unit

2

of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuit. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to the heating circuit or
to the integral DHW cylinder.

Opening and closing the valves of the underfloor heating distributor
regulates the flow rate within the heating circuit. Heat pump 1 and
the secondary pump are switched off once the actual return tempera­ture at the return temperature sensor exceeds the temperature set at
the control unit.

DHW heating by heat pump

In the delivered condition, DHW heating by heat pump 1 is given
priority over the heating circuit and takes precedence at night.
The heat demand is issued via the integral cylinder temperature sensor
and the control unit, which controls the integral secondary pump in
conjunction with the integral 3-way diverter valve and, in the case of
the Vitocal 242/343-G, the cylinder loading pump.
The control unit raises the flow temperature to the value required for
DHW heating.
The control unit switches the heating flow to the heating circuit via 3­way diverter valve "Heating/DHW" if the actual temperature at the cyl­inder temperature sensor exceeds the value set at the control unit.
The flow temperature can be raised > 60 °C via integral instantaneous
heating water heater 4.

DHW heating with solar backup (only for Vitocal 242/343-G)

The DHW cylinder will be heated by the solar collector if the temper­ature differential between collector temperature sensor rR and the
integral lower cylinder temperature sensor exceeds the temperature
differential set at the control unit. For this, the heat pump control unit
controls solar circuit pump rE which is integrated into Solar-Divicon

rW

.
The control unit stops solar circuit pump rE again if the temperature
falls below the temperature differential.

Natural cooling function

The building can be cooled with the heat pump in conjunction with NC­Box iP (accessories). Control unit 2 enables the natural cooling
function as soon as the outside temperature exceeds the cooling limit
temperature that can be adjusted at control unit 2. This enables the
components of NC-Box iP. The cooling circuit pumps iW and

iR

operate continuously. The NC-Box with mixer operates in accordance
with a cooling curve. The mixer on the brine side ensures a continuous,
demand-dependent utilisation of the primary source.
Contact humidistat iE monitors the dew point (part of the NC-Box
standard delivery). Ensure that any installed room thermostats are
able to be opened manually or by servomotors when using the cooling
function.

Required parameter settings

ID: 4605086_1304_05
Parameter Value Function

7000 2 With heating circuit A1/HC1, DHW cylinder (delivered condition)
7A00 3 Solar control module, type SM1
7100 2 Natural cooling NC-Box with mixer
7101 1 Cooling via heating circuit A1/HC1
7103 180 Min. flow temperature, cooling
7104 50 Influence room temperature hook-up cooling circuit
7111 4 Cooling curve slope
C002 2 Variable speed solar circuit pump with PWM activation
2003 1 Vitotrol 200A or 300B remote control activated for heating circuit A1/HC1

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

20

VIESMANN

System examples

2

5822 472 GB

Hydraulic installation scheme ID: 4605086_1304_05

43

42

44

45

P1

21

20

22

27

49

90

KW

WW

94

--2/X3.8;3.9--

37

--2/212.3--

4

1

12

13

3

2

P1

--X3.8;3.9--

--211.2--

--211.5--

--212.3--

--230V--

--F0--

--F14--

--KM BUS--

--2/211.2--

--2/F0--

--47/6--

----47/24--

89

--2/F14-­83

--80/X4.1;2--

85

84

82

81

80

--2/211.5--

91

92

--8/145--

8

--145--

--145--

--145--

--145--

A1

41

--47/24--

rU

--230V--

--24--

--5--

--6--

48

--47/5--

--230V--

--R1-6--

--2/211.5--

qCP

qCQ

--130/R1-6--

Note: This scheme is a general example without shut-off valves or safety equipment. This does not replace the need for on-site engineering.

Equipment required

ID: 4605086_1304_05
Pos. Designation Part no.
Heat source

1
2

Compact heat pump Vitocal 222/242/333/343-G with:
– Integral control unit
– Primary pump
– Secondary pump
– 3-way diverter valve for "Central heating/DHW heating"
– Cylinder loading pump (only 242/343-G)
– DHW cylinder
– Cylinder temperature sensor

See Viessmann pricelist

3

Outside temperature sensor ATS Standard delivery pos. 1

4

Instantaneous heating water heater Standard delivery pos. 1

qW

Safety assembly Standard delivery pos. 1

qE

Expansion vessel, heating circuit See Vitoset pricelist

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

21

5822 472 GB

2

ID: 4605086_1304_05
Pos. Designation Part no.
Primary circuit

wP

Brine accessory pack ZK00 300

wQ

Pressure switch, primary circuit 9532 663

wW

Brine distributor for geothermal probes/geothermal collectors See Viessmann pricelist

wU

Geothermal probe/geothermal collector on site

DHW heating

eU

Connection set with DHW circulation pump ZP 7440 932

DHW heating with a solar thermal system

rQ

High limit safety cut-out STB 7506 168

rW Solar-Divicon, type PS10 with integral solar control module, type SM1 rU

or
Solar-Divicon, type PS20 without control unit with separate solar control module, type SM1

rU

Z012 016

Z012 027

rE

Solar circuit pump Standard delivery pos. 42

rR

Collector temperature sensor KOL Standard delivery pos. 47

rT

Solar collector See Viessmann pricelist

rZ

Junction box on site

rU

Solar control module, type SM1 7429 073

rI

Cylinder temperature sensor SOL Standard delivery pos. 47

rO

Expansion vessel, solar circuit See Viessmann pricelist

Natural cooling function (NC)

iP

NC-Box with mixer 7462 054

iQ

3-way diverter valve Standard delivery pos. 80

iW

Secondary cooling circuit pump Standard delivery pos. 80

iE

Contact humidistat Standard delivery pos. 80

iR

Primary cooling circuit pump Standard delivery pos. 80

iT

Cooling circuit mixer/mixer motor on the primary side Standard delivery pos. 80

iO

Flow temperature sensor VTS NC Standard delivery pos. 80

Heating/cooling circuit without mixer A1

oP

Underfloor heating circuit/cooling circuit See Vitoset pricelist

oQ

Vitotrol 200A remote control Z008 341

oT

Vitotrol 300B remote control Z011 411

The following wireless accessories are available as an alternative to hardwired remote control

units:

oO

– Wireless base station
– Vitotrol 200 RF wireless remote control
– Wireless outside temperature sensor
– Wireless repeater

Z011 413
Z011 219
7455 213
7456 538

oW

Overflow valve on site

oR

Temperature limiter to restrict the maximum temperature of underfloor heating systems

– Version with immersion sensor

or

7151 728

– Version with contact sensor 7151 729
qCP

Connection module with single room control, heating/cooling with pump logic 7247 845

qCQ

Room thermostat (installation on finished walls), heating/cooling RTR-E 6726 7247 853

qCW

Thermal actuator TS 5.11/230 (N/C, cores can be interchanged)
or
Thermal actuator TS+ 5.11/230 (N/C, cores can be interchanged)

7373 722

7419 860

Accessories (optional)

8

KM BUS distributor (if there is more than one KM BUS subscriber) 7415 028

zU

Radio clock receiver 7450 563

oI

LON communication module 7172 173

qXP

Vitocom 100, type GSM 2 Z011 396 / Z011 388

qXQ

Vitocom 100, type LAN 1 with communication module Z011 224

qXW

Vitocom 200, type LAN 2 with communication module Z011 390

qXE

Vitocom 200, type GP 3 with communication module with SIM card Z011 392

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

22

VIESMANN

System examples

2

5822 472 GB

Electrical installation scheme

230 V/50 Hz

2

211.2

X2.N

X1.

UP A1

212.3

X2.N

X1.

ZP

37

136

L3

N

L2

L1

137

4

3 / N / PE

400 V, 50 Hz

94

X1.1

X2.1

X3.18

230 V/50 Hz

N

L1

X3.8

X1.

230 V; 0.5 A

21

X3.9

<16A

130 W

50 W

X2.N

211.3

224.4

16A

A

B

20

Low voltage

VTS NC

89

F14

1

2

145

F0

ATS

3

67

NTC 10 kΩ

1

2

3

LON

98

121 / 122 / 123

2

2
1

HC A1

oT

oO

oQ

KM BUS

145

145

KM BUS distributor

145

qXP

8

211.5

X2.N

X1.

N

L1

NC module

2

NTC 10 kΩ

145

145

2

X4.2

X4.1

83

X2.4

X5.

X2.3

X2.2

X5.

X2.1

NC module

230 V/50 Hz

N

L1

211.5

N

L1

2

1

2

FAS

STB

KOL

SOL

L

N

L

N

3

4

1

2

145

40

24

22

6

5

1

2

PWM

SM1

3

4

1

2

7

10

1

2

rU

rI

rR

rE

rQ

L

N

UP

230 V, 50 Hz

145

AM

qCP

M
1~

M
1~

1

3
2

1

3
2

1

3
2

1

3
2

M
1~

1

3
2

ID: 4605086_1304_05

Vitocal 222-G/242-G/333-G/333-G NC/343-G (cont.)

System examples

VIESMANN

23

5822 472 GB

2

Connection changeover heating/cooling circuit "Heating/cool­ing" via switching module

AM heat/cool

qCP

R6

211.5

2

1

3
4
5
6
7
8
9

c
d

e
f

230 V/50 Hz

3

5

2
1
N
N

RF

TA

M

1~

STA

M

1~

STA

RTH

qCQ
qCW
qCW

2

R1

ID: 4605086_1304_05

Note

Instantaneous heating water heater 4 is prefitted and wired.

L1

1 / N / PE
230 V/50 Hz

F1 6.3A slow

18

L1

N

Mains terminals for heat pump control unit

Compressor power supply 400 V

L3

3 / PE
400 V, 50 Hz

L3

N

L1

L1

L2

L2

2

<16A

ID: 4605086_1304_05

V

Mains terminals for compressor 400 V

N

1 / N / PE
230 V/ 50 Hz

N

N

L1

L1

L1

N1

N1

N1

L1

L1

L1

PE
PE

ID: 4605086_1304_05

Instantaneous heating water heater 230 V power supply (only for
Vitocal 222-G/242-G)

3 / N / PE
400 V/ 50 Hz

N

L2

L3

L1

N2

L2

L3

L1

N3

N1

PE

PE

ID: 4605086_1304_05

Power supply, instantaneous heating water heater 400 V

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

24

VIESMANN

System examples

2

5822 472 GB

2.5 Vitocal 222/242-G, one heating circuit without mixer, one heating circuit with mixer,
DHW heating (for Vitocal 242-G also solar) and heating water buffer cylinder

ID: 4605091_1304_05

Note
DHW heating with solar backup is only possible with the
Vitocal 242-G.

Application range

Detached house with up to two heating circuits with different utilisation
patterns (different heating circuit design layouts).

Main components

■ Vitocal 222/242-G with integral DHW cylinder and Vitotronic 200,
type WO1C

■ Heating circuit distributor with one heating circuit without mixer and
one heating circuit with mixer (controlled via KM BUS)

■ Heating water buffer cylinder

■ Solar thermal system (option, only with the Vitocal 242-G)

Requirements

The minimum flow rate of heat pump 1 is safeguarded via heating
water buffer cylinder zP and the integral secondary pump. It is possible
to use differential pressure-dependent heating circuit pumps uZ and

oZ

.

Central heating by heat pump

Heat pump 1 and the integral primary pump start when the actual
temperature captured by cylinder temperature sensor zQ of heating
water buffer cylinder zP falls below the set temperature selected at
control unit 2.
Heat pump 1 supplies the heating circuit with heat. Control unit

2

of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuits. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to heating water buffer
cylinder zP or to the integral DHW cylinder.

Heating circuit pumps uZ and oZ deliver the required water volume to
the heating circuits. The heating circuit flow rate is regulated by open­ing and closing the thermostatic radiator valves or the underfloor dis­tributor valves and/or through an external heating circuit control unit.
Heat pump 1 and the integral secondary pump are switched off once
the actual return temperature at the return temperature sensor
exceeds the temperature set at the control unit.
To balance the difference in energy between the primary and secon­dary circuits, operate heating water buffer cylinder zP in parallel to the
heating circuits. Any heat not absorbed by the heating circuits is stored
in heating water buffer cylinder zP. In addition, heat pump 1 achieves
long runtimes.
During the power-OFF period, the heating circuits will be supplied with
heat from heating water buffer cylinder zP.

DHW heating by heat pump

In the delivered condition, DHW heating by heat pump 1 is given
priority over the heating circuits and takes precedence at night.
The heat demand is issued via the integral cylinder temperature sensor
and the control unit, which controls the integral secondary pump in
conjunction with the integral 3-way diverter valve and, in the case of
the Vitocal 242, the cylinder loading pump.
The control unit raises the flow temperature to the value required for
DHW heating.
The control unit switches the heating flow to the heating circuit via 3­way diverter valve "Heating/DHW" if the actual temperature at the cyl­inder temperature sensor exceeds the value set at the control unit.
The flow temperature can be raised > 60 °C via integral instantaneous
heating water heater 4.

DHW heating with solar backup (only for Vitocal 242-G)

The DHW cylinder will be heated by the solar collector if the temper­ature differential between collector temperature sensor rR and the
integral lower cylinder temperature sensor exceeds the temperature
differential set at the control unit. For this, the heat pump control unit
controls solar circuit pump rE which is integrated into Solar-Divicon

rW

.
The control unit stops solar circuit pump rE again if the temperature
falls below the temperature differential.

Required parameter settings

ID: 4605091_1304_05
Parameter Value Function

7000 6 With heating circuit A1/HC1, M2/HC2, DHW cylinder
7A00 3 Solar control module, type SM1
C002 2 Variable speed solar circuit pump with PWM activation

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

25

5822 472 GB

2

Hydraulic installation scheme ID: 4605091_1304_05

43

42

44

45

P1

21

20

22

27

49

KW

WW

--2/X3.8;3.9-­37

--2/212.3--

4

1

12

13

3

2

P1

--X3.8;3.9--

--212.2--

--212.3--

--230V--

--F0--

--F4--

--KM BUS--

--2/F0--

--47/6--

----47/24--

61

96

90

91

71

70

73

74

76

77

60

--2/F4--

--2/212.2--

75

--20--

--52--

--230V--

--2--

-KM BUS-

--75/2--

--75/20--

--74/20--

--75/52--

8

--145--

--145--

-8/145-

-8/145-

--145--

A1

M2

41

--47/24--

rU

--230V--

--24--

--5--

--6--

48

--47/5--

Note: This scheme is a general example without shut-off valves or safety equipment. This does not replace the need for on-site engineering.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

26

VIESMANN

System examples

2

5822 472 GB

Equipment required

ID: 4605091_1304_05
Pos. Designation Part no.
Heat source

1
2

Compact heat pump Vitocal 222/242-G with:
– Integral control unit
– Primary pump
– Secondary pump
– 3-way diverter valve for "Central heating/DHW heating"
– Cylinder loading pump (only 242-G)
– DHW cylinder
– Cylinder temperature sensor

See Viessmann pricelist

3

Outside temperature sensor ATS Standard delivery pos. 1

4

Instantaneous heating water heater Standard delivery pos. 1

qW

Safety assembly Standard delivery pos. 1

qE

Expansion vessel, heating circuit See Vitoset pricelist

Primary circuit

wP

Brine accessory pack ZK00 300

wQ

Pressure switch, primary circuit 9532 663

wW

Brine distributor for geothermal probes/geothermal collectors See Viessmann pricelist

wU

Geothermal probe/geothermal collector on site

DHW heating

eU

Connection set with DHW circulation pump ZP 7417 928

DHW heating with a solar thermal system

rQ

High limit safety cut-out STB 7440 932

rW Solar-Divicon, type PS10 with integral solar control module, type SM1 rU

or
Solar-Divicon, type PS20 without control unit with separate solar control module, type SM1

rU

Z012 016

Z012 027

rE

Solar circuit pump Standard delivery pos. 42

rR

Collector temperature sensor KOL Standard delivery pos. 47

rT

Solar collector See Viessmann pricelist

rZ

Junction box on site

rU

Solar control module, type SM1 7429 073

rI

Cylinder temperature sensor SOL Standard delivery pos. 47

rO

Expansion vessel, solar circuit See Viessmann pricelist

Heating water buffer cylinder

zP

Heating water buffer cylinder See Viessmann pricelist

zQ

Buffer temperature sensor PTS 7438 702

Heating circuit with mixer M2

uP

Underfloor heating circuit M2 with KM BUS mixer controlled by the heat pump control unit See Vitoset pricelist

uE

Flow temperature sensor VTS

Standard delivery pos. uT

uR

Temperature limiter to restrict the maximum temperature of underfloor heating systems

– Version with immersion sensor

or

7151 728

– Version with contact sensor 7151 729

uT

Mixer extension kit 7301 063 or 7301 062

uZ

Heating circuit pump See Viessmann pricelist

uU

3-way mixer, heating circuit M2 See Viessmann pricelist

uU

Mixer motor for 3-way mixer

Standard delivery pos. uT

Heating circuit without mixer A1

oP

Radiator heating circuit See Vitoset pricelist

oZ

Heating circuit pump See Viessmann pricelist

Accessories (optional)

8

KM BUS distributor (if there is more than one KM BUS subscriber) 7415 028

zU

Radio clock receiver 7450 563

uQ/
oQ

Vitotrol 200A remote control Z008 341

oT

Vitotrol 300B remote control Z011 411

The following wireless accessories are available as an alternative to hardwired remote control

units:

oO

– Wireless base station
– Vitotrol 200 RF wireless remote control
– Wireless outside temperature sensor
– Wireless repeater

Z011 413
Z011 219
7455 213
7456 538

oI

LON communication module 7172 173

qXP

Vitocom 100, type GSM 2 Z011 396 / Z011 388

qXQ

Vitocom 100, type LAN 1 with communication module Z011 224

qXW

Vitocom 200, type LAN 2 with communication module Z011 390

qXE

Vitocom 200, type GP 3 with communication module with SIM card Z011 392

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

27

5822 472 GB

2

Electrical installation scheme

145

230 V/50 Hz

2

212.2

X2.N

X1.

UP A1

212.3

X2.N

X1.

ZP

37

136

L3

N

L2

L1

137

4

3 / N / PE

400 V, 50 Hz

X1.1

X2.1

X3.18

230 V/50 Hz

N

L1

X3.8

X1.

230 V; 0.5 A

21

X3.9

<16A

100 W

50 W

X2.N

211.3

16A

A

B

96

Low voltage

F4

PTS

61

1

2

145

NTC 10 kΩ

LON

98

121 / 122 / 123

95

F0

ATS

3

67

NTC 10 kΩ

1

2

3

2

145

8

145

145

2
1

KM BUS distributor

HC A1

120

99

/

40

145

52

2

1

2

N

L

UP M2

77

73

M

1~

74

76

M2

VTS M2

20

NTC

2

20

HC M2

230 V, 50 Hz

145

3

4

1

2

71

91

/

/

uT

STB

KOL

SOL

L

N

L

N

3

4

1

2

145

40

24

22

6

5

1

2

PWM

SM1

3

4

1

2

7

10

1

2

rU

rI

rR

rE

rQ

L

N

UP

230 V, 50 Hz

M

1~

M

1~

1

3
2

1

3
2

1

3
2

1

3
2

L

N

N

M
1~

M

1~

ID: 4605091_1304_05

Note

Instantaneous heating water heater 4 is prefitted and wired.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

28

VIESMANN

System examples

2

5822 472 GB

L1

1 / N / PE
230 V/50 Hz

F1 6.3A slow

18

L1

N

Mains terminals for heat pump control unit

Compressor power supply 400 V

L3

3 / PE
400 V, 50 Hz

L3

N

L1

L1

L2

L2

2

<16A

ID: 4605091_1304_05

V

Mains terminals for compressor 400 V

N

1 / N / PE
230 V/ 50 Hz

N

N

L1

L1

L1

N1

N1

N1

L1

L1

L1

PE
PE

ID: 4605091_1304_05

Instantaneous heating water heater 230 V power supply (only for
Vitocal 222-G/242-G)

3 / N / PE
400 V/ 50 Hz

N

L2

L3

L1

N2

L2

L3

L1

N3

N1

PE

PE

ID: 4605091_1304_05

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

29

5822 472 GB

2

2.6 Vitocal 333/343-G, one heating circuit without mixer, two heating circuits with mixer,
DHW heating (for Vitocal 343-G also solar) and heating water buffer cylinder

ID: 4605089_1304_05

Note
DHW heating with solar backup is only possible with the
Vitocal 343-G.

Application range

Detached house with up to three heating circuits with different utilisa­tion patterns (different heating circuit design layouts).

Main components

■ Vitocal 333/343-G with integral DHW cylinder and Vitotronic 200,
type WO1C

■ Heating circuit distributor with one heating circuit without mixer and
two heating circuits with mixer

■ Heating water buffer cylinder

■ Solar thermal system (option, only with the Vitocal 343-G)

Requirements

The minimum flow rate of heat pump 1 is safeguarded via heating
water buffer cylinder zP and the integral secondary pump. It is possible
to use differential pressure-dependent heating circuit pumps uZ,

oZ

and

q-Z

.

Central heating by heat pump

Heat pump 1 and the integral primary pump start when the actual
temperature captured by cylinder temperature sensor zQ of heating
water buffer cylinder zP falls below the set temperature selected at
control unit 2.
Heat pump 1 supplies the heating circuit with heat. Control unit

2

of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuits. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to heating water buffer
cylinder zP or to the integral DHW cylinder.
Heating circuit pumps uZ, oZ and

q-Z

deliver the required water vol­ume to the heating circuits. The heating circuit flow rate is regulated
by opening and closing the thermostatic radiator valves or the under­floor distributor valves and/or through an external heating circuit con­trol unit. Heat pump 1 and the secondary pump are switched off once
the actual return temperature at the return temperature sensor
exceeds the temperature set at the control unit.

Heat pump 1 supplies the heating circuit with heat. Control unit 2
of heat pump 1 regulates the heating water flow temperature and
thereby the heating circuits. The integral secondary pump delivers the
heating water via a 3-way diverter valve either to heating water buffer
cylinder zP or to the integral DHW cylinder.
To balance the difference in energy between the primary and secon­dary circuits, operate heating water buffer cylinder zP in parallel to the
heating circuits. Any heat not absorbed by the heating circuits is stored
in heating water buffer cylinder zP. In addition, heat pump 1 achieves
long runtimes.
Heat pump 1 restarts when the actual temperature at upper temper­ature sensor zQ of heating water buffer cylinder zP falls below the set
value. The heat pump stops again when the set temperature at the
heat pump return is reached.
During the power-OFF period, the heating circuits will be supplied with
heat from heating water buffer cylinder zP.

DHW heating by heat pump

In the delivered condition, DHW heating by heat pump 1 is given
priority over the heating circuits and takes precedence at night.
The heat demand is issued via the integral cylinder temperature sensor
and the control unit, which controls the integral secondary pump in
conjunction with the integral 3-way diverter valve and, in the case of
the Vitocal 343, the cylinder loading pump.
The control unit raises the flow temperature to the value required for
DHW heating.
The control unit switches the heating flow to the heating circuit via 3­way diverter valve "Heating/DHW" if the actual temperature at the cyl­inder temperature sensor exceeds the value set at the control unit.
The flow temperature can be raised > 60 °C via integral instantaneous
heating water heater 4.

DHW heating with solar backup (only for Vitocal 343-G)

The DHW cylinder will be heated by the solar collector if the temper­ature differential between collector temperature sensor rR and the
integral lower cylinder temperature sensor exceeds the temperature
differential set at the control unit. For this, the heat pump control unit
controls solar circuit pump rE which is integrated into Solar-Divicon

rW

.
The control unit stops solar circuit pump rE again if the temperature
falls below the temperature differential.

Required parameter settings

ID: 4605089_1304_05
Parameter Value Function

7000 10 With heating circuit A1/HC1, M2/HC2, M3/HC3, DHW cylinder
7A00 3 Solar control module, type SM1
C002 2 Variable speed solar circuit pump with PWM activation

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

30

VIESMANN

System examples

2

5822 472 GB

Hydraulic installation scheme ID: 4605089_1304_05

43

42

44

45

P1

21

20

22

27

49

KW

WW

--2/X3.8;3.9--

37

--2/212.3--

4

1

12

13

3

2

P1

--X3.8;3.9--

--212.2--

--212.3--

--225.1--

--225.2;3--

--230V--

--F0--

--F4--

--F12--

--KM BUS--

--2/F0--

--47/6--

----47/24--

61

96

90

91

71

70

73

74

76

77

60

--2/F4--

--2/212.2--

--2/F12--

--2/225.1--

--2/225.1--

-2/225.2;3-

--20--

--52--

--230V--

--2--

-KM BUS-

-105/2-

-105/20-

-105/52-

105

101

100

103

106

107

-8/145-

-8/145-

-8/145-

8

--145--

--145--

--145--

A1

M2

M3

41

--47/24--

rU

--230V--

--24--

--5--

--6--

48

--47/5--

Note: This scheme is a general example without shut-off valves or safety equipment. This does not replace the need for on-site engineering.

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

31

5822 472 GB

2

Equipment required

ID: 4605089_1304_05
Pos. Designation Part no.
Heat source

1
2

Compact heating centre Vitocal 333/343-G with:
– Integral control unit
– Primary pump
– Secondary pump
– 3-way diverter valve for "Central heating/DHW heating"
– Cylinder loading pump (only 343-G)
– DHW cylinder
– Cylinder temperature sensor

See Viessmann pricelist

3

Outside temperature sensor ATS Standard delivery pos. 1

4

Instantaneous heating water heater Standard delivery pos. 1

qW

Safety assembly Standard delivery pos. 1

qE

Expansion vessel, heating circuit See Vitoset pricelist

Primary circuit

wP

Brine accessory pack ZK00 300

wQ

Pressure switch, primary circuit 9532 663

wW

Brine distributor for geothermal probes/geothermal collectors See Viessmann pricelist

wU

Geothermal probe/geothermal collector on site

DHW heating

eU

Connection set with DHW circulation pump ZP 7440 932

DHW heating with a solar thermal system

rQ

High limit safety cut-out STB (if required) 7506 168

rW Solar-Divicon, type PS10 with integral solar control module, type SM1 rU

or
Solar-Divicon, type PS20 without control unit with separate solar control module, type SM1

rU

Z012 016

Z012 027

rE

Solar circuit pump Standard delivery pos. 42

rR

Collector temperature sensor KOL Standard delivery pos. 47

rT

Solar collector See Viessmann pricelist

rZ

Junction box on site

rU

Solar control module, type SM1 7429 073

rI

Cylinder temperature sensor SOL Standard delivery pos. 47

rO

Expansion vessel, solar circuit See Viessmann pricelist

Heating water buffer cylinder

zP

Heating water buffer cylinder See Viessmann pricelist

zQ

Buffer temperature sensor PTS 7438 702

Heating circuit with mixer M2

uP

Underfloor heating circuit M2 with mixer controlled by the heat pump control unit See Vitoset pricelist

uE

Flow temperature sensor VTS Standard delivery pos. 77

uR

Temperature limiter to restrict the maximum temperature of underfloor heating systems

– Version with immersion sensor

or

7151 728

– Version with contact sensor 7151 729

uZ

Heating circuit pump on site

uU

3-way mixer, heating circuit M2 See Viessmann pricelist

uU

Extension kit, mixer M2 7441 998

Heating circuit without mixer A1

oP

Radiator heating circuit See Vitoset pricelist

oZ

Heating circuit pump See Viessmann pricelist

Heating circuit with mixer M3

q-P

Radiator heating circuit M3 with mixer, switched via KM BUS See Vitoset pricelist

q-E

Flow temperature sensor VTS

Standard delivery pos. q-T

q-T

Mixer extension kit 7301 063 or 7301 062

q-Z

Heating circuit pump See Viessmann pricelist

q-U

3-way mixer, heating circuit M3 See Viessmann pricelist

q-U

Extension kit, mixer M3 7441 998

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

32

VIESMANN

System examples

2

5822 472 GB

ID: 4605089_1304_05
Pos. Designation Part no.
Accessories (optional)

8

KM BUS distributor (if there is more than one KM BUS subscriber) 7415 028

zU

Radio clock receiver 7450 563

uQ /
oQ

/

q-Q

Vitotrol 200A remote control Z008 341

oT

Vitotrol 300B remote control Z011 411

The following wireless accessories are available as an alternative to hardwired remote control

units:

oO

– Wireless base station
– Vitotrol 200 RF wireless remote control
– Wireless outside temperature sensor
– Wireless repeater

Z011 413
Z011 219
7455 213
7456 538

oI

LON communication module 7172 173

qXP

Vitocom 100, type GSM 2 Z011 396 / Z011 388

qXQ

Vitocom 100, type LAN 1 with communication module Z011 224

qXW

Vitocom 200, type LAN 2 with communication module Z011 390

qXE

Vitocom 200, type GP 3 with communication module with SIM card Z011 392

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

33

5822 472 GB

2

Electrical installation scheme

145

Low voltage

F4

PTS

61

1

2

145

NTC 10 kΩ

LON

98

121 / 122 / 123

95

VTS M2

73

NTC 10 kΩ

F12

F0

ATS

3

67

NTC 10 kΩ

1

2

3

2

145

8

145

145

2
1

KM BUS distributor

HC A1

120

99

/

40

145

52

2

1

2

UP M3

M

1~

M3

VTS M3

20

NTC

2

HC M3

230 V, 50 Hz

145

3

4

1

2

71

91

/

/

q-T

101

/

L

N

q-Z

q-U

q-E

230 V/50 Hz

2

212.2

X2.N

X1.

UP A1

212.3

X2.N

X1.

ZP

37

136

L3

N

L2

L1

137

4

3 / N / PE

400 V, 50 Hz

X1.1

X2.1

X3.18

230 V/50 Hz

N

L1

X3.8

X1.

230 V; 0.5 A

21

X3.9

<16A

100 W

50 W

X2.N

211.3

224.4

16A

A

B

96

225.1

X2.N

X1.

UP M2

74

100 W

20

77

M2

OPEN

CLOSE

X2.N

X1.

225.3

225.2

76

STB

KOL

SOL

L

N

L

N

3

4

1

2

145

40

24

22

6

5

1

2

PWM

SM1

3

4

1

2

7

10

1

2

rU

rI

rR

rE

rQ

L

N

UP

230 V, 50 Hz

1

3
2

1

3
2

1

3
2

1

3
2

L

N

N

M
1~

M

1~

M

1~

M

1~

M

1~

M
1~

ID: 4605089_1304_05

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

34

VIESMANN

System examples

2

5822 472 GB

Note

Instantaneous heating water heater 4 is prefitted and wired.

L1

1 / N / PE
230 V/50 Hz

F1 6.3A slow

18

L1

N

Mains terminals for heat pump control unit

Compressor power supply 400 V

L3

3 / PE
400 V, 50 Hz

L3

N

L1

L1

L2

L2

2

<16A

ID: 4605089_1304_05

V

Mains terminals for compressor 400 V

3 / N / PE
400 V/ 50 Hz

N

L2

L3

L1

N2

L2

L3

L1

N3

N1

PE

PE

ID: 4605089_1304_05

Power supply, instantaneous heating water heater 400 V

Vitocal 222-G/242-G/333-G/333-G NC/343-G

(cont.)

System examples

VIESMANN

35

5822 472 GB

2