Technical information - commissioning -TopTronic E basic

Technical information
Commissioning instructions
TopTronic® E basic module heat generator
TopTronic® E basic module
heat generator
TopTronic® E control module
Hoval products may only be installed and commissioned by appropriately qualified experts.
These instructions are intended exclusively for the
specialist. Electrical installations may only be carried
out by a qualified electrician.
Subject to modifications
|
4 212 601 / 01 - 02/15
EN
TABLE OF CONTENTS
1.
Bus terminating resistors........................................................................................................................ 3
2.
Setting the addresses for the basic/controller modules (DIP switches)............................................... 3
3.
Commissioning assistant........................................................................................................................ 5
3.1
3.1.1
3.1.2
3.1.3
3.1.3.1
3.1.3.2
3.1.4
3.1.5
3.2
3.3
3.4
Configuration of the bus system.........................................................................................................................................5
Setting the address of control modules..............................................................................................................................5
Devices on the bus............................................................................................................................................................7
General parameter settings................................................................................................................................................7
Explanation of the screen..................................................................................................................................................................7
Procedure for setting parameters.......................................................................................................................................................7
Overview of hydraulic applications H-Gen..........................................................................................................................9
Overview of function applications.....................................................................................................................................10
Setting the parameters of the individual devices on the bus system.............................................................................. 11
General settings................................................................................................................................................................. 11
Configuration of the control module.................................................................................................................................13
4.Information............................................................................................................................................. 14
5.Malfunctions........................................................................................................................................... 15
6.
Notes on electrical connection.............................................................................................................. 17
7.
Notes for installation............................................................................................................................. 17
2
4 212 601 / 01
BUS TERMINATING RESISTORS / ADDRESSING
Hardware-Systemübersicht
The installation instructions described how to install and
wire up the individual basic/controller modules and their
expansions.
Room control
module easy
The commissioning instructions now explain what steps
are necessary for successful commissioning. The commissioning instructions refer to the commissioning assistant that runs automatically on the TopTronic® E when it
is started up for the first time and guides you through the
Bus level
complete commissioning.
Controller
Before switching on and starting the commissioning
asmodules
sistant, check the following points and make any necessary settings:
Control module
Module
expansions
• Set the bus terminating resistors
• Set the addresses for all modules with DIP switches
Automatic function
(Setting the addresses of the control modulesdevices
is only
possible after switching on)
The commissioning assistant sets the addresses© Hofovthe
al / Dez-14
control modules and configures the entire plant.
1.
Bus terminating resistors
The bus terminating resistors must be activated on the
devices that are furthest apart from one another.
It is best to activate the terminating resistor on
the heat generator and on each bus station
(usually room control module) that is installed
furthest away from it.
2.
RS485
Base
module
Module
expansion
Room control
module comfort
e
nc
ta
is h)
d
t
t g
es en
ng e l
Lo abl
(c
Hoval CAN bus
Heating
circuit
module
Buffer
module
Solar
module
Module
expansion
heating circuit
Module
expansion
universal
Module
expansion
universal
Module
Module
Module
expansion
universal
expansionterminatingexpansion
Activate
universal
universal
resistors
Fig. 03
If the components of the bus system are
exclusively fitted in the heat generator, there ®
Regelsystem TopTronic E
is no need to activate the bus terminating
resistors!
Setting the addresses for the basic/
controller modules (DIP switches)
The addresses of the individual modules are set using
the DIP switches on the circuit boards. Each module must
have a different address. The addresses do not necessarily have to be set in consecutive sequence.
Address switch
DIP switch ON ==
bus terminating
resistor activated
Fig. 01
Terminating
resistor
both DIP switches ON
== bus terminating
resistor activated
Fig. 02
4 212 601 / 01
Fig. 04
The factory settings for the modules were selected so that there is no need to change the
address settings, as long as no module occurs twice in the bus system!
(Exception: TTE-WEZ and TTE-FW (com))
3
ADDRESSING
All basic modules (WEZ, FW, etc.) are delivered with address 1!
Fig. 05
Addressing table:
DIP switch
4 3 2 1
Off
On
Addr. Factory setting
1
TTE-WEZ / TTE-FW
(TTE-WEZ No. 1)
DIP switch
4 3 2 1
Off
On
4 3 2 1
TTE-WEZ
(TTE-WEZ No. 2)
4 3 2 1
3
TTE-WEZ
(TTE-WEZ No. 3)
4 3 2 1
4
TTE-WEZ
(TTE-WEZ No. 4)
Off
On
5
TTE-WEZ
(TTE-WEZ No. 5)
Off
On
6
TTE-WEZ
(TTE-WEZ No. 6)
Off
On
7
TTE-WEZ
(TTE-WEZ No. 7)
Off
On
8
TTE-WEZ
(TTE-WEZ No. 8)
Off
On
4 3 2 1
Off
On
13
TTE-MWA (M-Bus)
14
4 3 2 1
4 3 2 1
Off
On
TTE-GLT (0-10V)
4 3 2 1
4 3 2 1
Off
On
12
4 3 2 1
4 3 2 1
Off
On
11
Off
On
4 3 2 1
Off
On
TTE-HK/WW
10
Off
On
4 3 2 1
Off
On
9
4 3 2 1
2
Off
On
Addr. Factory setting
15
TTE-PS
16
TTE-SOL
4 3 2 1
Fig. 06
If there are several controller modules of the same type
in the bus system, the modules must have different addresses set for them. Use the available vacant addresses
for this!
Setting the addresses of the control modules is only possible after switching on and it determines the allocation
to the heat generators, heating and DHW circuits, etc. in
the system.
4
4 212 601 / 01
COMMISSIONING ASSISTANT
3.
Commissioning assistant
The commissioning assistant guides you through the individual steps for configuring a simple heating system correctly in the shortest possible time.
The following points must be carried out one after the
other:
1. Configuration of the bus system
2. Setting the parameters of the individual devices on
the bus system
3. General settings (time, etc.)
4. Configuration of the (room) control module
If a more complex plant is involved, it will be necessary to
make additional settings in the Service menu. Refer to the
instructions for customer service technicians for this purpose!
Commissioning must always be started on the
control module fitted in the heat generator!
3.1
Fig. 09
After that, enter the code of the particular user level (in
case of questions, please contact Hoval customer service).
Configuration of the bus system
The commissioning assistant appears automatically after
the first startup, or can be started manually from the main
menu.
Fig. 10
3.1.1 Setting the address of control modules
The addresses of the control modules has been set so
that their function is defined right away when the address
is entered on the control module.
Fig. 07
Fig. 11
For example: control module is allocated to the basic
module heat generator with address 1
Fig. 08
It is essential for the “Plant configuration” to be carried out
as a first step. Only after that is the “Room control module
configuration” started on each (room) control module.
4 212 601 / 01
The control module can also optionally be allocated to
the controller modules PS and SOL. Refer to the addressing table (Fig. 06) and the allocation table (Fig. 12)
for this.
5
COMMISSIONING ASSISTANT
Allocation table:
Fig. 12
BM … control module
After the address of the control module has been set on
the heat generator, all devices are displayed on the bus
system.
Other (room) control modules on the bus system are only detected after they have been
configured.
6
4 212 601 / 01
COMMISSIONING ASSISTANT
3.1.2 Devices on the bus
3.1.3.2 Procedure for setting parameters
1. Use “Edit” to edit the first function (Fig. 15)
1.
Fig. 13
If installed basic/controller modules are not displayed,
please check the following things:
-- Address setting of all connected basic/controller
modules (DIP switches)
-- Wiring of the components (wiring diagram and connection diagram)
-- Setting the terminating resistors (instructions for
customer service technicians)
-- CAUTION: Module expansions are not connected
to the Hoval CAN bus, and are thus not displayed
here
If all basic/controller modules are available on the bus
system, they will be configured in the next step.
The hydraulic and function application is set on each
module for this purpose.
Amongst other things, the hydraulic and function application is set (see chapter 3.1.4).
2.
Fig. 16
3.1.3 General parameter settings
3.1.3.1 Explanation of the screen
2. Back to the starting screen (Fig. 16)
1
5
2
6
3
Fig. 15
4.
3.
4
Fig. 14
Pos.
1
“General” function group - category via the entire
controller system
2
General settings per basic/controller module
3
Bus address/name of the selected basic/controller
module
4
Edit and configure the most important parameters
of the selected basic/controller module
5
Scroll to next function group
6
Scroll to next function
4 212 601 / 01
Fig. 17
3. Scroll to next function until all functions have been
edited (Fig. 15)
4. Scroll to next function group (Fig. 15); see chapter 3.2
for more information
All functions of a function group must be edited before it is permitted to scroll to the next
function group!
7
COMMISSIONING ASSISTANT
The most important hydraulic applications in the controller modules PS and SOL can be found in the corresponding commissioning instructions.
Explanation of the function application: normally, there is no need to make settings for
the function applications because in most
cases the correct function application will be
preselected when the hydraulic application is
selected. In various cases, adjusting the function application allows fine-tuning or deactivation of a function (see chapter 3.1.5).
For detailed information about all other parameters, refer to the corresponding instructions for customer service
technicians.
8
4 212 601 / 01
COMMISSIONING ASSISTANT
3.1.4 Overview of hydraulic applications H-Gen
Functions that can be implemented
TopTronic® E basic module heat generator
HK1
WW1
SF
AF
TTEWEZ
HK1
WW1
SF
AF
TTEWEZ
HK1
SF
AF
TTEWEZ
DKP
WW1
TTEWEZ
VF1
SLP
B1
MK1
SLP
Y7
YK1
M
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
WF
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
DKP
0
1
2
3
Number of the hydraulic application
HK1
HK2
RLHH
WW1
RLHH
SF
AF
TTEWEZ
VF1
DKP
WW1
SF
AF
TTEWEZ
B1
TTEWEZ
DKP
SLP
MK1
HK1
SLP
YK1
M
WF
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
RLF
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
RLF
HP
HP
YKR
YKR
9
4
AVR
10
HK1
AVR
WW1
SF
AF
TTEWEZ
TTEWEZ
YAV
YAV
AVF
AVP
AVF
AVP
DKP
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
14
4 212 601 / 01
WF
SLP
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
15
9
COMMISSIONING ASSISTANT
HK1
WW1
HK1
SF
AF
TTEWEZ
VF1
SF
AF
TTEWEZ
B1
MK1
VF1
SLP
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen 1
Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
WF2
B1
MK1
YK1
M
WF1
WW1
SLP
YK1
M
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen 2
Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
ST1
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
WF1
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen 1
Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
WF2
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen 2
Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
HP2
HP2
19
20
Functions that can be implemented
TopTronic® E basic module heat generator and 1 module expansion
HK1
HK2
WW1
SF
AF
TTEWEZ
TTEFE
VF1
B1
MK1
YK1
M
WF
HK1
VF2
WW1
RLHH
SF
TTEWEZ
TTEFE
VF1
DKP
SLP
M
YK2
VF2
B1
MK1
WF
HK1
WW1
SF1
AF
TTEWEZ
B1
MK2
YK1
M
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
HK3
AF
B1
MK2
HK2
TTEFE
VF1
SLP
B1
MK1
M
YK2
SLP1
YK1
M
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
RLF
HP
YKR
5
6
RLHH
HK1
HK2
11
WW1
SF1
AF
TTEWEZ
TTEFE
VF1
HK1
AVR
WW1
SF
AF
TTEWEZ
B1
TTEFE
VF1
YAV
B1
AVF
AVP
DKP
MK1
MK1
SLP1
YK1
M
YK1
M
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalhovalhoval
hovalhovalhovalho
valhovalhova
valhoval
hovalhova
RLF
SLP
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
HP
YKR
12
10
16
4 212 601 / 01
COMMISSIONING ASSISTANT
17
HK1
AVR
HK2
WW1
SF
AF
TTEWEZ
TTEFE
VF1
YAV
B1
AVF
AVP
DKP
MK1
SLP
YK1
M
WF
Dies
ist
ein
unerlaubter Weg!
Gehen Sie einen
Schritt zurück oder
löschen Sie dieses
Shape!
Sie
haben
die
Möglichkeit
ein
neues Shape zu
nehmen!!!
hovhovalhovalhova
lhovalhovalhovalho
valhovalho
ovalhoval
lhovalhov
* Module expansions (TTE-FE) are required for each of
these hydraulic applications!
See the instructions for customer service technicians for
information about additional hydraulic functions.
Please note that a suitable module expansion
is required in many hydraulic applications.
If no suitable hydraulic application is available, a similar hydraulic function must be selected and adapted by
means of the function application.
4 212 601 / 01
11
COMMISSIONING ASSISTANT
3.1.5 Overview of function applications
Function
Gen.
0
Standard
2
Standard +
AVR - only
pump
Addition- WEZ not ac- WEZ 1-stage WEZ 1-stage
al WEZ
tive
without HP
with HP
(ST1=VA1,
(ST1=VA1,
WF=VE2)
WF=VE2,
HP=VA2)
WEZ
WEZ not ac- WEZ via FA WEZ via FA
tive
bus
bus with HP
(HP=VA2)
HK1
HK not active
HC2
HK not active
HK3
HK not active
WW1
WW not active
WM
KM
Pressure
distributor
No WEZ
1
Standard +
AVR
WW with
charging
pump
3
Standard
without AF1
4
WEZ FSK
with HP
(WF=VE2,
RLF=VE1,
HP=VA2)
WEZ via
WEZ 0-10V
temp. *)
FA bus with
(WF=VE1,
HP, RLHH
(RLF=VF1, HP=VA2, WFYKR=YK1, nom VA10V)!
HP=MK1) Config. 0-10V
separate!
Mixed HK
Mixed HK
(HK1-FE1)
(HK1-WEZMK)
Mixed HK
Mixed HK
(HK2-WEZ(HK2-FE1)
MK)
Mixed HK
(HK3-FE1)
5
6
WEZ FSK
without HP
(WF=VE2,
RLF=VE1)
WW with
switching
valve Y7, and
req. DKP
Direct HK
(HK1-WEZDKP)
Direct HK
(HK2-WEZMK1)
Direct HK
(HK3-FE1)
KAS WEZ2
KAS WEZ2
WEZ temperAdditional
KAS WEZ1
ature control WEZ temper- int, WEZ2 int. int, WEZ1 int. int, WEZ4
via CAN
ature control power control, power control,
no power power control,
no power
no power
compensacompensacompensation, without tion, without
tion, without
sequence
sequence
sequence
change
change, KM1
change
200kW
In WEZ function appl. 4 (WEZ type 0-10V temp.), additionally the output must be configured as 0-10V in “General 0-10V/PWM”!
*)
AVR Plant flow control
AF
Fresh air sensor
WEZ Heat generator
HP
Main pump
STStage
VA
Variable output
WF
Heat generator sensor
VE
Variable input
FSK Solid-fuel boiler
RLF Return sensor
FA
Automatic firing device
RLHH Return temperature control
VF
Flow sensor
YKR Actuator low temperature protection
12
YK1 Actuator mixer 1
MK
Mixing circuit
FE
Expanded functionality
DKP Direct circuit pump
WW Domestic hot water
Y7
Water deflector valve for calorifier (single wire
system)
WM
Heat manager
KM
Cascade manager
KASCascade
4 212 601 / 01
COMMISSIONING ASSISTANT
3.2
Setting the parameters of the individual
devices on the bus system
After the basic settings of all functions under “General”,
the most important parameters are listed in the other
function groups (“heat generator”, “heating circuits”, “hot
water”, etc.) (1, Fig. 18). The parameters are divided into
the corresponding function group and function with the
specification on which module (address) the function is
located (see 2, Fig. 18).
Fig. 21
1
2
3
Fig. 18
Information about the parameters of the controller modules SOL, PS, etc. can be found in the corresponding
commissioning instructions.
3.3
General settings
As the next step, settings must be made in the system
(sample screen Fig. 22). In most cases, it is sufficient to
check the suggested setting values!
Using “Edit” (3, Fig. 18) it is possible to carry out the most
important specific parameter settings (see example Fig.
19).
Fig. 22
Fig. 19
The parameter settings for the function groups of “heating
circuits” (Fig. 20) and “hot water” (Fig. 21) can be made in
the same way as for the heat generator.
Depending on the individual requirement, one of five start
screen types can be set during commissioning. More information about this can be found in the “Optional start
screen” chapter in the TopTronic E comfort operating instructions.
Fig. 23
Fig. 20
4 212 601 / 01
13
COMMISSIONING ASSISTANT
Once configuration of the plant has been completed successfully, start “Configuration room control module” on
each room control module.
Fig. 24
14
4 212 601 / 01
COMMISSIONING ASSISTANT
3.4
Configuration of the control module
Addressing room control modules
Setting example:
Room control module for the 2nd heating circuit
1: Call up commissioning assistant
2: Enter address no. of control module
3: Select and acknowledge controller module type
BM … Control module
RBM .. Room control module
4 212 601 / 01
15
INFORMATION
4.
Information
The info screen (1, Fig. 25) is used for a quick overview
of the plant - and can also be accessed using the home
screen “top right”.
1
Fig. 27
Fig. 25
A different number of information values are displayed
here depending on the user level. Statuses are displayed
in most of the functions.
Status heating circuit control:
0 = Switched off
1 = Normal heating mode
2 = Comfort heating mode
3 = Economical heating mode
4 = Frost mode
5 = Force acceptance (with force > +50%)
6 = Force throttling (with force < -50%)
7 = Holiday mode
8 = Party mode
9 = Normal cooling mode
Fig. 26
Status heat generator control:
0 = Switched off
1 = Heating mode
2 = Flow time heating mode
3 = External blocked
4 = Cooling mode
5 = Flow time cooling mode
15 = Alarm
16 = Fault
17 = Blocked
26 = Bivalence deactivation
27 = Hot water charging block
28 = Minimum off-time
29 = Minimum on-time
32 = Post-run
33 = Delay follow-on H-Gen
34 = Overation overtemperature
16
Fig. 28
Status domestic hot water control:
0 = Switched off
1 = Normal charging mode
2 = Comfort charging mode
3 = Force throttling (with electric heating element force
< -50%)
4 = Force charging (with electric heating element force
> +50%)
5 = Fault
6 = DHW draw-off (DHW draw-off active)
7 = Warning
8 = Reduced charging mode
4 212 601 / 01
MALFUNCTIONS
5.
Malfunctions
Cod.
Description
Cod.
Description
30
Bus interruption to automatic device
146
Calorifier sensor bottom
31
Bus fault heat generator 2
147
Calorifier sensor top
32
Bus fault heat generator 3
149
Collector sensor 2
33
Bus fault heat generator 4
157
Collector flow sensor (TKV)
34
Bus fault heat generator 5
158
Collector return sensor (TKR)
35
Bus fault heat generator 6
159
Volumetric current
36
Bus fault heat generator 7
160
Additional calorifier sensor top (cert. DHW tank)
37
Bus fault heat generator 8
161
Plate heat exchanger sensor (decentral charging)
42
Bus fault remote control
162
Plate heat exchanger sensor (central charging)
50
Flow actual value deviation (VF1)
163
Bypass sensor
51
Flow actual value deviation (VF2)
164
Pressure
52
Hot water actual value deviation
172
TPR PWT primary return temperature
53
Pump speed does not match ctrler. spec.
179
TUZ tank addition down temperature
54
Legionella prot. temperature not reached
180
TOZ additional calorifier sensor top
55
Caution frost protection active
181
TPR pump heat exch. primary return temperature
56
Ref. temp. circulation not reached
182
TSRU tank return switchover
57
Max. circulation temperature exceeded
183
Flow sensor primary circuit
60
Flow temperature guard heating circuit
184
TSV pump heat exch. secondary flow temperature
61
External fault via digital input
185
TSR pump heat exch. secondary return temperature
68
Screed drying active
187
Plant flow temperature (AVF)
69
Cleaning necessary
193
Buffer discharge flow sensor (PEF)
70
Maintenance necessary
194
Sensor thermostat 1
71
Error when charging from collector 1 on
195
tank
Sensor thermostat 2
73
Error when charging from collector 2 on
196
tank
Sensor thermostat 3
90
Fault heat generator 1
197
Sensor 1 differential control 1
91
Fault heat generator 2
198
Sensor 1 differential control 2
92
Fault heat generator 3
199
Sensor 1 differential control 3
93
Fault heat generator 4
200
Sensor 2 differential control 1
94
Fault heat generator 5
201
Sensor 2 differential control 2
95
Fault heat generator 6
202
Sensor 2 differential control 3
96
Fault heat generator 7
205
Fresh air sensor 2 (AF2)
97
Fault heat generator 8
255
No error
110
DHW sensor 2 (SF2), CW sensor (flow
300
sensor inp.)
111
Solar sensor DHW (TBU)
301
112
Circulation temperature
302
Legionella prot. temp. > max. tank temp.
113
DHW charging flow sensor (SFx)
303
Tanks 1 & 2 have the same priority
114
Heat generator sensor
304
Tanks 1 & 3 have the same priority
115
DHW sensor (SF)
305
Tanks 1 & 4 have the same priority
4 212 601 / 01
Ref. value > max. temperature in tank
Maximum temp. > prot. temperature in tank
17
MALFUNCTIONS
116
Fresh air sensor (AF)
306
Tanks 2 & 3 have the same priority
117
Heating circuit flow sensor (VFx)
307
Tanks 2 & 4 have the same priority
118
Plant flow or buffer sensor (AVF/PF)
119
Collector sensor (TKO)
308
Tanks 3 & 4 have the same priority
120
Buffer switch-off sensor (PF2)
309
Switch-off thd. recharging >=
(switch-on thd. recharging – HYS_TEMP_DFLT)
121
Solar sensor heating
310
Switch-off thd. discharge >=
(switch-on thd. discharge – HYS_TEMP_DFLT)
122
Room air sensor
311
Switch-off thd. return flow increase >=
(switch-on thd. return flow increase – HYS_TEMP_
DFLT)
123
Heating circuit return sensor
312
Collector max. temp. > collector prot. temp.
124
Heat generator return sensor
313
Switch-off thd. collector pump >=
(switch-on thd. collector pump tank – HYS_TEMP_
DFLT)
143
Heat generator flow and return sensor si314
multaneously
Switch-off thd. add. boiler disch. >=
(switch-on thd. add. boiler discharge – HYS_TEMP_
DFLT)
145
Heat gen. flow sensor pre-ctrld. (flow 4-wy
315
mixer)
No tank active, all types tank to 0
1)
317
RT circ. (05-054) > tank max. temp. 1 (08-059)
319
RT circ. (05-054) > leg. prot. temp. (05-004)
Controller malfunctions, automatic device malfunctions see corresponding FA instructions
18
4 212 601 / 01
NOTES ON ELECTRICAL CONNECTION
6.
Notes on electrical connection
WARNING
Make sure that no cables are live before
starting wiring work.
The mains voltage connections on the left
side and the entire lower connector strip carries or might be carrying 230 volts. These terminals are not allowed to be touched when
live: potentially fatal electric shock hazard.
Bus connections and sensor lines must be installed separately from power current cables.
A qualified technician must install the electrical supply to the equipment.
7.
Notes for installation
• The electrical installation and protection must be in accordance with local regulations.
• The basic/controller modules and module expansions
must be left continuously connected to voltage so as to
ensure function is possible at any time.
• Mains switches on the supply side must thus be restricted to emergency or main switches that are normally left
in operating position.
• Before commissioning, check whether all electrical
components have been connected correctly.
4 212 601 / 01
19
Conservation of Energy - Protection of the Environment

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