Danfoss ECL Comfort 300 - C66 Operating instructions

Type
Operating instructions
How to use this guide
This guide is divided into two parts:
• Daily Use (Turn the guide over)
Yellow sections 01 - 09
• Installation and maintenance:
Grey sections 10 and onwards
Save energy - save money - improve your comfort
temperature
The ECL Comfort controller is designed by Danfoss for
temperature control of heating systems.
The ECL Comfort controller ensures you of the following;
Room and hot water temperatures will be adjusted to
yourpersonal settings.
Lower temperatures and lower energy consumption
reduce costs and ensure optimum use of energy
resources.
The automatic pump motion program protects the
circulation pump against blocking.
Sketch an outline of your heating system
The ECL Comfort controller is designed for a wide range
of heating systems with different configurations and
capacities.
If your heating system differs from the diagrams shown in
section 10, you may want to sketch an outline of the
system about to be installed. This makes it easier to use the
Installers Guide, which will guide you step-by-step from
installation to final adjustments before the end-user takes
over.
Note! The controller is pre-programmed with factory
settings which are shown in the relevant sections of this
guide.
Before you start
VI.7C.C2.02
Note!
System diagrams in this instruction are principal drawings and
do not contain all components which are necessary in heating
systems.
Identifying the system type
10
In this section you find the most frequently used systems. If
your system is not quite as shown below, find the diagram
which has the best resemblance to your system and make
your own combinations.
Check the setting of line 24 in circuit I (gear motor / thermo
actuator).
Heating system type 1
Indirectly connected heating circuit and PI-regulated hot
water service circuit
Heating system type 2
Directly connected heating circuit and indirectly connected
PI-regulated hot water service circuit
Check the setting of line 24 in circuit I (gear motor / thermo
actuator).
Alternatives using the same settings:
Heat exchanger or direct district heating
Installation
Installation
Mounting the ECL Comfort
controller
11
For easy access, you should mount the ECL Comfort
controller near the heating unit. Select one of the three
following methods:
Mounting on a wall
Mounting on a DIN rail
Mounting in a panel
Screws and rawlplugs are not supplied.
Mounting on a wall
Socket for mounting on wall: Order code No. 087B1149.
Mount the terminal box on a wall with a smooth surface.
Establish the electrical connections and position the
controller in the box. Secure the controller with the fixing
screw.
Mounting on a DIN rail
Mounting kit: Order code No. 087B1145.
A mounting kit is necessary to mount the box with the
controller on a DIN rail.
Mounting in a panel
Connector set: Order code No. 087B1148.
The panel plate thickness must not exceed 3 mm.
Prepare a cut-out with the dimensions 92 x 138 mm. Pull off
the right side of the lid by means of a screwdriver.
Insert the controller into the panel cut-out and fix it with the
two locks which are placed diagonally in two corners of the
controller.
Installation
Installation
Connecting the sensorsConnecting the 230 V a.c. units
12
Electrical connections -
230 V a.c.
Cable cross section for voltage conductor: 0.75 - 1.5 mm
2
Cable length: Max. 50 m
Electrical connections
Max. 2 x 1.5 mm
2
cables can be inserted into each screw
terminal.
Cable cross section for sensor connections: Min. 0.4 mm
2
Total cable length: Max. 50 m (sensors and bus).
Note! Cable lengths above 100 m may cause noise sensibility
(EMC).
Jumper from 1 to 5
Jumper from 5 to 8
Jumper from 8 to 10
Jumper from 10 to 14
Jumper from 2 to common N-terminal
Establish these jumpers:
1 L Supply voltage 230 V a.c.
2 N Supply voltage 230 V a.c.
3 M1 Gear motor - open/circuit I 0.2 A 230 V a.c.
4 M1 Gear motor - close/circuit I
alt.: ABV thermo actuator 0.2 A 230 V a.c.
5 230 V a.c. supply for
M1/circuit I
6 M2 Gear motor - open/circuit II 0.2 A 230 V a.c.
7 M2 Gear motor - close/circuit II 0.2 A 230 V a.c.
8 230 V a.c. supply for
M2/circuit II
9 P1 Circulation pump for 4(2)A 230 V a.c.
heating circuit I
10 230 V a.c. supply for
pump relay R1
13 P3 Circulation pump for
hot water service circuit II 4(2)A 230 V a.c.
14 230 V a.c. supply for
pump relay R3
Terminal Description Max. load
Establish the jumper from 16 to common terminal.
15 and 16 System device bus
17 and 16 Outdoor sensor (S1) ESMT
18 and 16 Room sensor (S2)
circuit I ESMR
19 and 16 Flow sensor (S3)
circuit I ESMU/ESMA/ESMC
20 and 16 Return sensor (S4)
circuit I ESMU/ESMA/ESMC
21 and 16 Hot water flow sensor
(S5) circuit II ESMU/ESMA/ESMC
22 and 16 Hot water return
sensor (S6) circuit II ESMU/ESMA/ESMC
Terminal Description Type (recommended)
Installation
Installation
Connecting the sensorsConnecting the 24 V a.c. and 230 V a.c. units
13
Electrical connections -
24 V a.c.
Establish the jumper from 16 to common terminal.
15 and 16 System device bus
17 and 16 Outdoor sensor (S1) ESMT
18 and 16 Room sensor (S2)
circuit I ESMR
19 and 16 Flow sensor (S3)
circuit I ESMU/ESMA/ESMC
20 and 16 Return sensor (S4)
circuit I ESMU/ESMA/ESMC
21 and 16 Hot water flow sensor
(S5) circuit II ESMU/ESMA/ESMC
22 and 16 Hot water return
sensor (S6) circuit II ESMu/ESMA/ESMC
Terminal Description Type (recommended)
Jumper from 1 to 5
Jumper from 5 to 8
Jumper from 8 to 10
Jumper from 10 to 14
Jumper from 2 to common N-terminal
Establish these jumpers:
Cable cross section for sensor connections: Min. 0.4 mm
2
Total cable length: Max. 50 m (sensors and bus).
NOTE! Cable lengths above 100 m may cause noise sensibility
(EMC).
Cable cross section for voltage conductor: 0.75 - 1.5 mm
2
Cable length: Max. 50 m
Electrical connections
Max. 2 x 1.5 mm
2
cables can be inserted into each screw
terminal.
* K1/K3 auxiliary relay
Coil: 24 V a.c.
Contacts: 4A 230 V a.c.
1 L Supply voltage 24 Vac
2 N Supply voltage 24 Vac
3 M1 Gear motor - open/cir. I 1.0 A 24 V a.c.
4 M1 Gear motor - close/cir. I
alt.: ABV thermo actuator 1.0 A 24 V a.c.
5 24V a.c. supply for
M1/cir. I
6 M2 Gear motor - open/cir. II 1.0 A 24 V a.c.
7 M2 Gear motor - close/cir. II 1.0 A 24 V a.c.
8 24V a.c. supply for
M2/cir. II
9 K1* Relay for circulation pump 4(2)A 24 V a.c.
for heating circuit I
10 24V a.c. supply for
pump relay R1
13 K3* Relay for circulation pump
for hot water service circuit II 4(2)A 24 V a .c.
14 24V a.c. supply for
pump relay R3
Terminal Description Max. load
Installation
Installation
14
Placing the temperature
sensors
It is important that the sensors are mounted in the
correct position in your heating system.
Special attention should be paid to the following sensors:
Return temperature sensor
(ESMU, ESMA or ESMC types)
The return sensor should always be placed max. 15 cm
from the mixing point. It should always be placed on a
pipe in which the water flow never stops.
Room temperature sensor
(ESMR, ECA 60 and 61 remote control)
Place the room sensor in the room where the temperature
is to be controlled. Do not place it on outside walls or close
to radiators, windows or doors.
Outdoor temperature sensor
(ESMT type)
The outdoor sensor should be mounted on the north side of
the building where it is less likely to be exposed to direct
sunshine. It should not be placed close to doors or
windows.
Flow temperature sensor
(ESMU, ESMA or ESMC types)
Place the sensor max. 15 cm from the mixing point. In
systems with heat exchanger, Danfoss recommends the
ESMU-type to be inserted into the exchanger flow outlet.
Make sure that the surface of the pipe is clean at the area
where the sensor is mounted.
Do not move the sensor after it has been fastened in
order to avoid damage to the sensor element.
Installation
Installation
Understanding the ECL Card
The ECL Card contains factory settings for a standard
heating system. If the actual heating system differs from
the standard system, the controller must be adjusted
accordingly. After the adjustment, the new settings can be
stored on the ECL Card.
For ECL Card copying and daily use including
adjustment of temperatures and time periods, insert the
ECL Card with the yellow side facing you.
For system set-up adjustments, the grey side of the ECL
Card - the installers side - must be facing you.
As a main rule, the ECL Card should always remain in
the controller during service, maintenance and settings.
If the ECL Card is removed please note that:
The controller settings are locked after approx. 10 min.
The ECL Card must not be exposed to direct heat or
sunshine
If several controllers are installed in the heating system
you can write a title on the ECL Card with a permanent
ink pen.
Line
Circuit
Time
Outdoor
temperature
Desired room
temperature
C
C99
Y
0
P
C
10
1
1
0
66
8
0 3 6 9 12 15 18 21 24
1
913
5
C
3
15
Inserting the ECL Card
How to insert your ECL Card the first time
After the power has been switched on, open the lid on the
front side of the controller.
Place the ECL Card with the yellow side facing you. This
enables the controller to read the ECL Card data.
The controller immediately starts to copy the factory
settings and heating system type from the ECL Card. After
copying, the display will show the heating system type the
controller is set to control. After approx. 10 sec. the display
will change to display line C.
The controller is now ready to be set to control your
heating system.
Installation
Installation
17
Setting the time and date -
Line A
In case of a power failure which lasts longer than 12 hours,
the time and the date have to be set again.
All other settings are stored as programmed.
The grey side of the ECL Card.
Go to line A.
09
01
56019
5
A
3
Actual time
Month, day
Year
Use the shift button to switch between hours,
minutes, year, month and day
Set the correct time and date
Use the yellow side of the ECL Card to enter the day
plan settings.
See Users Guide, section 4.
16
Adjusting the ECL Card
settings
Update of the ECL Card after maintenance and
service
All new settings can be stored on the ECL Card. For
details about copying, see section 34. Insert the ECL
Card with the yellow side facing you.
C
C99
Y
0
P
When the copying is finished display line C will appear
8
0 3 6 9 12 15 18 21 24
1
913
5
C
3
You can make other changes in the day plan, set
time and date or change settings
(see Users Guide).
General principles
When the controller is connected and operating you
can check and adjust all or some of the basic settings
on the grey side of the ECL Card.
Use the arrow buttons to move from line to line
of the ECL Card, for example line 2:
Line
indicator
Settings to
be adjusted
Value in range
indicator
Circuit
0
1
1
ON
2
094
2
3
ON
Use the minus/plus buttons to adjust the
setting(s).
In some displays more than one setting or
value can be adjusted. Use the shift button to
switch between the options.
The circuit selector shifts between circuit I
and II. You can adjust all settings and service
parameters individually in both circuits, ie.
circuit II.
Go to line 9 (bottom line)
Accept to copy as indicated. No other keys are
active.
Basic set-up
Basic set-up
19
Manual control - Line B
Check the activation direction of the motorized valve either
by looking at it or by feeling whether the temperature of the
actual pipe changes as expected.
The grey side of the ECL Card.
Go to line B.
Shift to manual mode
Select the unit you want to control. The
selected unit symbol will flash.
Valves close or open while the
relevant button is pressed
Pumps are switched off or on
when the relevant button is pressed.
1
ON
Monitoring temperatures and
system units - Line B
18
Go to line B.
The activation direction of the motorized valve is shown as
arrows below the valve symbol. When the circulation pump
is operating, it is indicated as ON below the pump symbol.
If a sensor is not mounted or is disconnected, the display
will indicate it as
- -.
If the sensor is short-circuited, the display will indicate it as
- - - .
If you are in doubt, remove the controller and check the
ohmic value between the relevant terminals.
The grey side of the ECL Card.
5
1 2
036
B
3
ON
1
ON
Controlled units
State indicator
Return temperature
Flow
temperature
Push the shift button to see:
- the calculated flow temperature
- the return temperature set points.
Relationship between temperature and ohmic value
-10°C 961 Ohm
0°C 1000 Ohm
10°C 1039 Ohm
20°C 1078 Ohm
30°C 1117 Ohm
40°C 1156 Ohm
50°C 1195 Ohm
60°C 1234 Ohm
70°C 1273 Ohm
-50
800
900
1000
1100
1200
1300
1400
1500
1600
-25 0 25 50 75 100 125 150
Temperature
Ohm
5
1 2
036
B
3
ON
1
ON
Controlled
units
Controller mode
The circuit selector shifts between circuit I and II.
1
1
Shift away from manual mode.
Basic set-up
Basic set-up
-20 -10 0 10 20-30
10
20
30
40
50
60
70
80
90
1,8
1,2
0,6
0,2
2,2
C
C
Setting the heat curve - Line C
20
Go to line C.
The symbol for the slope of the heat curve will
flash.
Make your adjustments.
The grey side of the ECL Card.
1 2
8
C
1
0
3
ON
1
ON
Slope
Displacement
Circuit Setting range Factory setting
I 0.2 ... 3.4 1.8
Slope
Adjust the slope of the heat curve, if required.
If you want to adjust the parallel displacement of
the heat curve, push the shift button. The symbol
for the parallel displacement will flash.
Circuit Setting range Factory setting
l -9... +9 0
Parallel displacement
Floor heating systems
This controller is factory set for radiator systems which are
typically high flow temperature systems.
To control floor heating systems, which are typically low flow
temperature systems, you need to change the heat curve
according to your system type.
Setting range Typical setting
Slope
0.2 ... 3.4 1.0
Setting range Typical setting
-9 ... +9 0
Parallel displacement
Basic set-up
Basic set-up
Flow temperature limits -
Line 2
22
The grey side of the ECL Card.
Go to line 2.
0
1
1
ON
2
094
2
3
ON
Max. flow
temperature
Min. flow
temperature
Temperature
range for flow
temperature
The left end of the range indicator flashes.
Adjust the min. limit of the heating system.
Select the max. limit. The right end of the range
indicator flashes.
Adjust the max. limit.
Heating cut-out - Line 1
21
1 2
8
1
1
3
ON
1
ON
The grey side of the ECL Card.
Set the outdoor temperature limit at which you
want the heating system to stop.
Go to line 1.
Circuit Setting range Factory setting
I 10 ... 110 °C min. 40 °C max. 90 °C
2 Flow temperature min.-, max. limits
Circuit Setting range Factory setting
I 10 ... 30 °C 18 °C
1 Limit for heating cut-out
This function can save energy by stopping the heating
system when the outdoor temperature gets above a set limit.
The heating system is activated again when the actual
outdoor and the accumulated temperatures get below the set
limit.
The accumulated T
out symbolises the heat stored in the
building.
18°C
Temp
Actual T
out
Accumulated T
out
Time
Heating Heating off Heating
Basic set-up
Basic set-up
+
÷
0
1
1
ON
2
0-4
3
3
ON
The room sensor in the reference room registers
the difference between the desired and the
actual room temperature. The flow temperature
reference will be corrected to eliminate this
difference.
B: Reference room control
Used if your heating system is not equipped with radiator
thermostats and you select the room with room sensor as a
temperature reference for the rest of the rooms.
(However, should you have a few radiator thermostats
installed, make sure that they are fully open).
Set a positive value for min. influence and a
negative value for max. influence.
+
÷
set
Influence
Min. limitation
Max. limitation
T
ROOM
Room temperature influence -
Line 3
23
This section is only relevant if you have installed a room
sensor. There are two basic principles for control of the
room temperature influence:
The max. influence determines how much the
room temperature should influence the flow
temperature.
The grey side of the ECL Card.
A: Max. room temperature limitation
Use this limitation if your heating system is fully equipped
with radiator thermostats and you also want to obtain a
max. limitation of the room temperature. The controller
will allow for free heat gains, i.e. solar radiation or heat
from a fire place, etc.
Go to line 3.
Select the max. influence.
The bar below the range indicator flashes in
the right side of the display.
Adjust the max. influence.
T
ROOM
set
Influence
Max. limitation
Circuit Setting range Factory setting
I 0 ... 99/-99 ... 0 min. 0 max. -40
3 Room temperature influence
Min.
influence
Max.
influence
Example
The actual room temperature is 2 degrees too high.
The influence at max. limitation (right corner of the display) is
set to
-40.
The influence at min. limitation (left corner of the display) is
set to 0.
Heat curve H is 1.8.
Result:
The flow temperature reference is changed by
2 x
-40 x 0.1 x H = -14.4 degrees.
Example
The actual room temperature is 2 degrees too low.
The influence at max. limitation (right corner of the display) is
set to
20.
The influence at min. limitation(left corner of the display) is set
to 20.
Heat curve H is 1.8.
Result:
The flow temperature reference is changed by
2 x 20 x 0.1 x H = 7.2 degrees.
The actual room temperature is 2 degrees too high.
The influence at max. limitation (right corner of the display) is
set to
-35.
The influence at min. limitation(left corner of the display) is set
to 20.
Heat curve H is 1.8.
Result:
The flow temperature reference is changed by
2 x (-35) x 0.1 x H = -12.6 degrees.
Basic set-up
Basic set-up
Setting the PI-regulation -
Line 4-7
(Heating)
26
The grey side of the ECL Card.
Go to line 4.
1
1
ON
2
0
4
8
3
ON
Setting to be adjusted
Line
indicator
Set the proportional band.
A higher value will result in a stable, but slow
regulation of the flow temperature.
Go to line 5.
Set a high integration time constant to obtain a
slow but stable reaction to deviations.
A low integration time constant will make the
controller react fast but with less stability.
Go to line 6.
Set the running time of the motorized valve
according to the example on the opposite page.
This is the time it takes the valve to move from
closed to fully open position.
Go to line 7.
Set the neutral zone to a high value if you can
accept a high variation in flow temperature.
When the actual flow temperature is within the
neutral zone, the controller does not activate the
motorized valve.
Note! The valve is symmetrically around the
flow reference value.
Circuit Setting range Factory setting
I 1 ... 250 K 80 K
4 Proportional band
Circuit Setting range Factory setting
I 5 ... 999 sec. 30 sec.
5 Integration time constant
6 Running time of the motorized valve
Circuit Setting range Factory setting
I 5 ... 250 sec. 35 sec.
7 Neutral zone
Circuit Setting range Factory setting
I 0 ... 9 K 3 K
If you want to tune the PI-regulation precisely, you can
use the following method:
Set the integration time (line 5) to its max. value (999 sec.).
Decrease the value for the proportional band (Line 4) until
the system starts hunting with a constant amplitude (it might
be necessary to force the system by setting an extreme
value).
Find the critical time period on the temperature recording or
use a stop watch.
This time period will be characteristic for the system, and you
can evaluate the settings from this critical period.
Integration time = 0.85 x critical time period
Proportional band = 2.2 x proportional band value in the
critical time period.
If the regulation seems to be too slow, you can decrease the
proportional band value by 10 %.
Note! Make sure there is a consumption when you set the
parameters.
Time
Temp
Critical time period
How to calculate the running time of the motorized valve
The running time of the motorized valve is calculated using the
following methods:
Seated Valves
Running time = Valve stroke (mm) x actuator speed (sec/mm)
Example: 5.0 mm x 15 sec/mm = 75 sec.
Rotating Valves
Running time = Turning degrees x actuator speed (sec/degr.)
Example: 90 degrees x 2 = 180 sec.
VS2 15 3.0 AMV 100 90 270
VS2 15...25, VM2 15...25, AMV(E)
VB2 15...20 5.0 10, 20 15 75
VS2 15...25, VM2 15...25,
VB2 15...20 5.0 AMV(E) 30 3 15
VM2 32, VB2 25 7.0 AMV(E) 20 15 105
VM2 32, VB2 25 7.0 AMV(E) 30 3 21
Valve type Valve Actuator Actuator Running
stroke type speed time
(mm) (sec./mm) (sec.)
Basic set-up
Basic set-up
Circuit Setting range Factory setting
II 0 ... 9 K 3 K
Circuit Setting range Factory setting
II 5 ... 250 sec. 15 sec.
Basic set-up
1
1
ON
2
0
4
8
3
ON
Setting the PI-regulation
Line 4 - 7
(Hot water service)
27
The grey side of the ECL card.
Circuit Setting range Factory setting
II 1 ... 250 K 80 K
4 Proportional band
Go to line 4.
Go to line 5.
Set a high integration time constant to obtain a
slow but stable reaction to deviations.
A low integration time constant will make the
controller react fast but with less stability.
Go to line 7.
7 Neutral zone
Go to line 6.
Set the running time of the motorized valve
according to the example on opposite page. This
is the time it takes the valve to move from closed
to fully open position.
6 Running time of the motorized valve
Set the proportional band
A higher value will result in a stable, but slow
regulation of the flow temperature.
Setting to be adjusted
Line
indicator
Set the neutral zone to a high value if you can
accept a large variation in flow temperature.
When the actual flow temperature lies within the
neutral zone, the controller does not
activate the motorized valve.
Circuit Setting range Factory setting
II 5 ... 999 sec. 20 sec.
5 Integration time constant
Basic set-up
Adapting the ECL Comfort controller to the heating
system
29
Check list
Turn the ECL Card so that the grey side faces
you.
Set the time and the date (Line A)
See section 17.
Check all settings referring to the grey side of the
ECL Card
See sections 20 to 27.
Check all settings in the extended service
parameters line 10 to 199.
29
Check list
Is the ECL Comfort controller ready for use?
Make sure that the power supply is connected to
terminals 1 (Live) and 2 (Neutral).
See section 12 or 13.
Check that valves and pumps are connected to
the correct terminals.
See section 12 or 13.
Check that all sensors are connected to the
correct terminals.
Mount the controller, and switch on the power.
Insert the ECL Card with the yellow side facing
you, and push
, if necessary.
See section 15.
Select manual operation in the controller mode.
See section 2
in the users guide.
Check that valves open and close, and that
pumps start and stop when operated manually.
See section 19.
Check that the temperatures shown in display A
and B match the actual sensors, both for circuit
I (heating) and circuit II (hot water).
See section 1
in the users guide.
If your heating system differs from the diagram
shown on the overleaf of the cover, you should
check and perhaps alter the service parameters.
Please pay special attention to line 35 and 36.
Control & overviews
Control & overviews
ECL Card settings
(circuit II: Hot water service)
30
ECL Card settings
(circuit I: Heating)
30
4
Proportional band
1 - 250 K 80 K
Set the PI-regulation, see section 27.
5
Integration time constant
5 - 999 sec. 20 sec.
Set the PI-regulation, see section 27.
6
Running time of motorized valve
5 - 250 sec. 15 sec.
Set the PI-regulation, see section 27.
7
Neutral zone
0 - 9 K 3 K
Set the PI-regulation, see section 27.
A Time and date
B System information
Setting range Factory setting Your settings
See sections 16 & 17
See sections 18 & 19
Heat curve - Slope
0.2 - 3.4 1.8
Set the slope of the heat curve,
see section 20
Heat curve - Parallel displacement
-9...+9 0 K
Set the parallel displacement of the
heat curve, see section 20
1
Limit for heating cut-out
10 - 30 °C 18 °C
Saves energy by stopping the heating
system when the outdoor temperature gets
above a certain limit, see section 21.
2
Flow temperature min.-/max. limits
10 ... 110 °C min. 40, max. 90 °C
The limits for min. and max. flow
temperature, see section 22.
3
Room temperature influence
0 - 99/-99 - 0 min. 0, max. -40
The room temperatures influence on the
flow temperature control, see section 23.
4
Proportional band
1 - 250 K 80 K
Set the PI-regulation, see section 26.
5
Integration time constant
5 - 999 sec. 30 sec.
Set the PI-regulation, see section 26.
6
Running time of motorized valve
5 - 250 sec. 35 sec.
Set the PI-regulation, see section 26.
7
Neutral zone
0 - 9 K 3 K
Set the PI-regulation, see section 26.
A Time and date
B System information
C Heat curve
Setting range Factory setting Your settings
See sections 16 & 17
See sections 18 & 19
See section 20
Control & overviews
Control & overviews
35 Return temperature influence - max.
-9.9 ... 0 ... 9.9°C-2°C
36 Return temperature influence - min.
-9.9 ... 0 ... 9.9°C0°C
37 Adaptive function of return limitation
OFF/1 ... 50 25
Service parameters
31
Service parameters
31
10 Choice of time control unit
0 ... 5 0
11 Reduced temperature dependent
on outdoor temperature
OFF/-29 ... +10°C -15°C
12 Boost
0 ... 99% 0%
13 Reference ramping
0 ... 99 min 0 min
14 Optimising time constant
OFF/10 ... 59 OFF
15 Adaptive function of room
temperature
OFF/1 ... 30 OFF
17 Temperature reference feedback
OFF/1 ... 20 OFF
20 Optimisation based on room/outdoor
temperature
ON/OFF OFF
21 Total stop
ON/OFF OFF
22 Pump motion
ON/OFF ON
23 Valve motion
ON/OFF OFF
24 Gear motor/thermo actuator
ON/OFF ON
31 Return temperature limitation (X)
-30 ... +15°C +15°C
32 Return temperature limitation (Y)
10 ... 110°C40°C
33 Return temperature limitation (X)
-30 ... +15°C -15°C
34 Return temperature limitation (Y)
10 ... 110°C 60°C
35 Return temperature influence - max.
-9.9 ... 0 ... +9.9°C-2°C
36 Return temperature influence - min.
-9.9 ... 0 ... 9.9°C0°C
37 Adaptive function of return limitation
OFF/1 ... 50 25
43 Priority or parallel operation
OFF/1 ... 99 OFF
52 Closed valve/PI-regulation
ON/OFF OFF
196 Service pin LON
ON/OFF OFF
197 LON reset
ON/OFF ON
Circuit I (heating)
Line Setting range Factory setting Your setting
°C
%
min
°C
°C
°C
°C
°C
°C
Circuit II (hot water service)
Line Setting range Factory setting Your setting
°C
30 Return temperature limitation
(hot water service)
10 ... 110°C50°C
°C
°C
°C
Circuit I (heating)
Line Setting range Factory setting Your setting
198 Summer time change
ON/OFF ON
199 Slave address
0 ... 9 15
Control & overviews
Control & overviews
Extended Service
32
Service parameters 10-11
Select between
Note! The time control of the hot water circuit is always
dedicated to the day plan of circuit II.
The grey
side of the
ECL Card.
ECL Comfort controller - day plan circuit I
Room panel ECA 60 or remote control
ECA 61 on address A
Room panel ECA 60 or remote control
ECA 61 on address B
0
1
2
-29 to +10°C
The setting of reduced temperature depends on
the outdoor temperature, when the outdoor
temperature is higher than the set limit.
The lower the outdoor temperature the less the
temperature reduction. When the outdoor
temperature is below the set limit, there is no
temperature reduction.
OFF: The reduced temperature setting will be
constant at all outdoor temperatures.
100%
0%
-20 -10-29 0 10 2015
Reduction
Outdoor
Temp
o
C
32
Adjusting the service
parameters
In addition to the settings in line 1 to 7 on the grey
side of the ECL Card, there is an extended service
menu from line 10 and onwards.
When you have entered all your personal settings, turn the
ECL Card over so that the yellow side faces you.
If you want to copy the new settings to the ECL Card
(recommended by Danfoss), see section 34.
Make a note of your new settings on the parameter list in
section 31.
Push repeatedly to reach the lines
numbered 10 and onwards.
Line
number
Value
Range indicator
0
01
Now you can move to any line of your choice.
Set the parameter value.
Dedicates the unit for the time control of the comfort and
reduced temperature periods
Circuit Setting range Factory setting
I 0 ... 5 0
10 Choice of time control unit
Limit of the outdoor temperature at which the reduced
temperature setting is switched off.
Circuit Setting range Factory setting
I OFF / -29 ... +10 °C -15 °C
11 Reduced temperature dependent on outdoor
temperature
You can select any of the two circuits no matter
what line you are in. You will not necessarily enter
the same line number.
See the service parameters in section 31.
Extended service
Extended service
The adaptive function will eliminate the difference
between the required and the actual room temperature by
integrating the difference and adjusting the reference for
the flow temperature.
32
Service parameters 14-15
OFF: No optimisation. The heating starts and stops at
the times set in the week plan.
The grey
side of the
ECL Card.
Dimensioning temperature: The lowest outdoor
temperature at which the heating system can secure
the desired temperature.
OFF: The adaptive function is cancelled.
1 : The desired temperature is adapted
quickly.
30 : The desired temperature is adapted
slowly.
32
Service parameters 12-13
In order to avoid load peaks in the supply network, the
flow temperature reference can be set to increase slowly
after a period with reduced temperature. This causes the
valve to open slowly.
In order to shorten the heating-up period after a reduced
temperature period, the flow temperature can be
increased temporarily.
If a room sensor is installed, the boost stops when the
optimising period is over or the room temperature has
been reached.
°C
T
ref
T
ref
Setting line 13
Time
The grey
side of the
ECL Card.
Set the percentage at which you want the flow
temperature to be changed temporarily.
Set the opening time you want the valve to use.
Circuit Setting range Factory setting
I 0 ... 99% 0%
Shortens the heating-up period by increasing the flow
temperature by the percentage you set.
12 Boost
The time in which the flow temperature increases slowly to
avoid load peaks in the supply.
Circuit Setting range Factory setting
I 0 ... 99 min 0
13 Reference ramping
Controls how fast the room temperature adapts to the
desired temperature.
Circuit Setting range Factory setting
I OFF / 1 ... 30 OFF
15 Adaptive function of the room temperature
Optimises the start and stop times for the reduced
temperature period to obtain the best comfort at the lowest
energy consumption.
Circuit Setting range Factory setting
I OFF / 10 ... 59 OFF
14 Optimising time constant
41
25
Adjust the optimising time constant. The value
consists of a number of two digits. You can select
the following values:
11, 12, ..... 59.
The two digits have the following meaning:
1. digit (system type and heat accumulation of
the building)
1
2
3
4
5
light
medium
heavy
medium
heavy
1. digit Heat accumulation System type
of the building
Radiator
system
Floor heating
system
2. digit (capacity of the heating system)
2. digit Dimensioning Capacity
temperature
large
.
.
normal
.
.
small
-50 °C
.
.
-25 °C
.
.
-05°C
0
.
.
5
.
.
9
Extended service
Extended service
The temperature reference in heating circuit I can be influenced by
another external. The set number determines the influence of the
flow temperature reference in circuit I or the reference signal by
any other connected controller.
32
Service parameter 21
The grey
side of the
ECL Card.
Select total stop function.
ON: Total stop function is ON. At total stop the
flow temperature reference is lowered to
10°C, and the minimum setting of the flow
temperature limit of line 2 (see section
22) is overruled in the reduced
temperature period.
OFF: No total stop
T
REF
Time
Ref. Temp
T
MIN
10 C
T
REF
Time
Ref. Temp
T
MIN
10 C
32
Service parameters 17-20
OFF: The temperature reference in circuit I is
not influenced by any other controller.
1 - 20: The temperature reference in circuit I will
always at least correspond with the value
of the set number + the highest
temperature reference degree of an
external controller.
Select calculation method:
Calculation based on room
temperature (only if a room sensor is
used).
Calculation based on outdoor
temperature. Use this setting if you
have no room sensor.
ON:
OFF:
The grey
side of the
ECL Card.
T
ref
(l)
T
ref
(ll)
Setting line 17
Time
°C
Circuit Setting range Factory setting
I OFF / 1 ... 20 OFF
17 Temperature reference feedback
Circuit Setting range Factory setting
I ON / OFF OFF
The optimised start and stop time calculation can be based
on either the room temperature or on the outdoor temperature.
20 Optimisation based on room-/outdoor temperature
Circuit Setting range Factory setting
I ON / OFF OFF
Decide whether you want a total stop during reduced
temperature period.
21 Total stop
This function is used if circuit I is the main supply for toher
mixing circuits.
Extended service
Extended service
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6
  • Page 7 7
  • Page 8 8
  • Page 9 9
  • Page 10 10
  • Page 11 11
  • Page 12 12
  • Page 13 13
  • Page 14 14
  • Page 15 15
  • Page 16 16
  • Page 17 17
  • Page 18 18
  • Page 19 19
  • Page 20 20
  • Page 21 21
  • Page 22 22
  • Page 23 23
  • Page 24 24
  • Page 25 25
  • Page 26 26
  • Page 27 27
  • Page 28 28
  • Page 29 29
  • Page 30 30
  • Page 31 31
  • Page 32 32
  • Page 33 33

Danfoss ECL Comfort 300 - C66 Operating instructions

Type
Operating instructions

Ask a question and I''ll find the answer in the document

Finding information in a document is now easier with AI