VI.KM.F1.02 2005.09 C67 Double mixing controller with DHW control www.danfoss.com ECL Comfort Installer's Guide www.danfoss.com VI.KM.F1.02 2005.
Date: By: Installer: This guide is associated with ECL Card 087B4820 Necessary assembly, start-up, and maintenance work must be performed by qualified and authorized personnel only. Safety Note To avoid injury of persons and damages to the device, it is absolutely necessary to read and observe these instructions carefully. The shown diagram is a fundamental and simplified example and does not contain all components that are necessary in a system. Circuit selector for switching between the circuits.
Table of Contents Sections in the Installer’s Guide The documentation for the ECL Comfort controller is composed of numbered sections. Only sections relevant to your ECL Comfort controller are included here. Before you start Installation 10 11 12 13 14 15 Identifying the system type Mounting the ECL Comfort controller Electrical connections 230 V a.c. Electrical connections 24 V a.c.
Before you start Sketch your application The ECL Comfort controller series is designed for a wide range of heating, hot-water and cooling systems with different configurations and capacities. If your system differs from the diagrams shown in section 10, you may want to make a sketch of the system about to be installed. This makes it easier to use the Installer’s Guide, which will guide you step-by-step from installation to final adjustments before the end-user takes over.
Installation 10a Identifying the system type The ECL Comfort controller is a universal controller that can be used for various systems. Based on the shown standard systems, it is possible to configure additional systems. 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 with your system and make your own combinations. The functions can only be realized with ECL Comfort 300 and as of controller version 1.08.
10b 10.1a System settings Circuit Line Description I I 17 43 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp. Priority or parallel operation DHW charging pump / changeover valve Desired flow temperature at DHW charging Adaptive function of S2 flow temperature during DHW charging Function of temperature sensor S5 Max limitation temperature at sensor S2 during DHW charging Recomm.
10c Installation 10.2 Two indirectly connected heating systems and primarily connected storage tank with built-in heating coil System settings Circuit Line Description I 17 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp. DHW charging pump / changeover valve Desired flow temperature at DHW charging Adaptive function of S2 flow temperature during DHW charging Function of temperature sensor S5 Max limitation temperature at sensor S2 during DHW charging Recomm.
10d 10.3 System settings Circuit Line Description I I 17 43 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp. Priority or parallel operation DHW charging pump / changeover valve Desired flow temperature at DHW charging Adaptive function of S2 flow temperature during DHW charging Function of temperature sensor S5 Max limitation temperature at sensor S2 during DHW charging Recomm. setting 3 99 OFF OFF OFF 0 (1) 90 Heating circuit II can only be operated against heating circuit I.
e Installation 10.4 Indirectly connected heating system with or without mixing loop and secondarily connected storage tank with built-in heating coil System settings Circuit Line Description I I 17 43 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp.
10f 10.4a System settings Circuit Line Description I I 17 43 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp. Priority or parallel operation DHW charging pump / changeover valve Desired flow temperature at DHW charging Adaptive function of S2 flow temperature during DHW charging Function of temperature sensor S5 Max limitation temperature at sensor S2 during DHW charging Recomm. setting 3 OFF ON OFF OFF 0 (1) 90 Heating circuit II can only be operated against heating circuit I.
10g Installation 10.5 Indirectly connected heating system with or without mixing loop and secondarily connected storage tank System settings Circuit Line Description * I I 17 43 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp.
10h 10.5a System settings Circuit Line Description * I 17 I 51 I 53 I 67 I 140 I 152 Influence on desired flow temp. DHW charging pump / changeover valve Desired flow temperature at DHW charging Adaptive function of S2 flow temperature during DHW charging Function of temperature sensor S5 Max limitation temperature at sensor S2 during DHW charging Recomm. setting 3 ON OFF 20 2 70* Line 152 = desired charging temperature Heating circuit II can only be operated against heating circuit I.
Installation 11a Mounting the ECL Comfort controller For easy access, you should mount the ECL Comfort controller near the system. 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.
11b Installation
12a Electrical connections 230 V a.c. - in general Installation 230 V a.c. connections - without safety thermostat Optional Establish these jumpers: 1-5-8-10-12-14 and jumper 2 to common N-terminal If an ECA 80 module is to be applied, the jumpers 14-26-29 must be established additionally. 230 V a.c.
12b 1 2 3 4 L N M1 M1 Supply voltage 230 V a.c. Supply voltage 230 V a.c. Actuator - open, circuit I Actuator - close, circuit I 230 V a.c. supply voltage for M1, 5 circuit I 6 M2 Actuator - open, circuit II 7 M2 Actuator - close, circuit II 230 V a.c. supply voltage for M2, 8 circuit II Circulation pump for heating 9 P1 circuit II 230 V a.c. supply for pump relay 10 R1 Circulation pump for heating 11 P2 circuit II 230 V a.c.
13a Electrical connections 24 V a.c. - in general Installation 24 V a.c. connections - without safety thermostat Optional Establish these jumpers: 1-5-8-10-14 and jumper 2 to common N-terminal If an ECA 80 module is to be applied, the jumpers 14-26-29 must be established additionally. 24 V a.c.
13b 1 2 3 4 L N M1 M1 Supply voltage 24 V a.c. Supply voltage 24 V a.c. Actuator - open, circuit I Actuator - close, circuit I 24 V a.c. supply voltage for M1, 5 circuit I 6 M2 Actuator - open, circuit II 7 M2 Actuator - close, circuit II 24 V a.c. supply voltage for M2, 8 circuit II Circulation pump for heating 9 P1 circuit I 24 V a.c. supply for pump relay 10 R1 Circulation pump for heating 11 P2 circuit II 24 V a.c.
14a Connecting and placing the temperature sensors Installation Connecting the temperature sensors and the bus Terminal Description 15 and 16 System device bus*, connections for room panel** / remote control** / (relay module) 17 and 16 S1 Outdoor temperature sensor 18 and 16 S2 Flow temperature sensor, circuit I (and charging temperature sensor, DHW circuit) 19 and 16 S3 Return temperature sensor Type (recomm.
14b The temperature sensor mentioned below are sensors used for the ECL Comfort 200 and 300 series which not all will be needed for your application! Outdoor temperature sensor (ESMT) The outdoor sensor should be mounted on that side of the building where it is less likely to be exposed to direct sunshine. It should not be placed close to doors, windows or air outlets. Flow temperature sensor (ESMU, ESM-11 or ESMC) Place the sensor max. 15 cm from the mixing point.
14c Installation Connecting the room panel / remote control The ECA 60 / 61 / 62 / 63 is activated by the setting in line 10 (section 32). The ECA 60 / 61 / 62 / 63 is powered by the system device bus which means that the bus must be active. The bus is activated by setting the controller address to 15 (section 32, line 199). Override For an active override, you have to choose the mode “scheduled operation”! Input S1 ...
Installation
Inserting the ECL Card Installation 15a 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 application type and factory settings from the ECL Card. After copying, the display will show you the application type. After approx. 10 sec. the display will change to display line C.
15b The ECL Card contains factory settings for a standard system. If the actual system differs from the standard system, the controller must be adjusted accordingly. After the adjustment, the new settings should be stored on the ECL Card. For ECL Card copying and daily use including adjustment of temperatures and schedules, insert the ECL Card with the yellow side facing you. For system set-up adjustments, the grey side of the ECL Card - the installer’s side - must be facing you.
16 Adjusting the ECL Card settings General principles When the controller is connected and operating you can check and adjust all or some of the basic settings. Turn the ECL Card so that the grey side is facing you (see the example below). Use the arrow buttons to move from line to line of the ECL Card, for example line 2: 1 ON Basic set-up Circuit Line 1 2 2 ON 3 ON 2 Setting to be adjusted 40 90 Value in range indicator Use the plus / minus buttons to adjust the settings.
17 Setting the time and date line A Actual time A 1035 Year 105 0222 Month, day Use the shift button to switch between minutes, hours, years, months and days. Set the correct time and date. Use the yellow side of the card to change the schedules. See User’s Guide, section 4. The grey side of the ECL Card Basic set-up In case of a power break, which lasts longer than 12 hours, the time and the date have to be set again. All other settings are stored as programmed.
18 Monitoring temperatures and system units - line B Controlled units 1 B 1 2 2 ON ON 3 ON 60 Flow temp. (S2) 30 Return temp. (S3) Basic set-up Push and hold the shift button to see: - the calculated flow temperature - the desired return temperature limitations. This display can also show the actual and desired flow and return temperatures during DHW charging. The activity of the motorized control valve is shown as arrows below the valve symbol.
19 Manual control line B Shift to manual mode. Controlled units 1 B ON 60 1 2 ON 2 3 ON Controller mode 30 Choose the unit you want to control. The selected unit symbol will blink. OFF or ON when The motorized actuator (gear motor / damper) closes or opens the controlled unit as long as the relevant button is pushed. If pushed for more than 3 seconds, the actuator continues to close or open the valve. The thermo actuator activates the valve as long as the button is pushed.
20a Setting the heat curve line C 1 1 ON C 2 2 ON 3 ON 18 Slope 0 Displacement Basic set-up Slope Circuit Setting range Factory setting I / (II) 0.2 ... 3.4 1.8 / (0.6) The symbol for the slope of the heat curve will blink. Adjust the slope of the heat curve, if required. oC 1.8 2.2 2.6 3.0 3.4 110 1.4 100 90 80 1.0 70 60 0.6 50 40 0.
20b Parallel displacement Circuit Setting range Factory setting I / (II) -9 ... 9 K 0 / (0) K If you want to adjust the parallel displacement of the heat curve, push the shift button. The symbol for the parallel displacement will blink. Make your adjustments.
21 Heating cut-out line 1 1 ON 1 1 1 2 2 ON 18 Limit for heating cut-out Circuit Setting range Factory setting I / (II) 10 ... 30 °C 20 / (20) °C Basic set-up Set the outdoor temperature limit at which you want the heating system to stop. The valve closes and after about 3 min. the heating circulation pump stops. The min. limitation set in line 2 will be ignored. Temp. Actual outdoor temp. Accumulated outdoor temp.
22 Flow temperature limits line 2 1 ON 1 2 2 ON 3 ON 2 Min. flow temp. 40 90 Max. flow temp. Setting range 2 Flow temperature limits, min. and max. Circuit Setting range Factory setting I / (II) 10 ... 150 °C min. 10 / (10), max. 90 / (90) °C The left end of the setting range blinks. Adjust the min. limit of your system temperature. Choose the max. limit. The right end of the setting range blinks. Adjust the max. limit.
23a Room temperature influence line 3 This section is only relevant if you have installed a room sensor or ECA 60 / ECA 61 / ECA 62 / ECA 63. 1 ON Basic set-up 2 3 ON ON 3 Min. influence 3 1 0 -40 Max. influence Room temperature influence Circuit Setting range Factory setting I / (II) 0 ... 99 / -99 ... 0 min. 0 / (0) max. -40 / (-40) The bar below the min. value blinks. Adjust the min. influence. Select the max. influence. The bar below the max. value blinks. Adjust the max. influence.
23b B: Reference room temperature 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 the min. influence and a negative value for the max. influence. Influence Min. limitation Room temperature Max.
26a 4 Control parameters lines 4-7 Proportional band, Xp Circuit Setting range Factory setting I / (II) 1 ... 250 K 80 / (80) K Set the proportional band. A higher value will result in a stable but slow control of the flow temperature. 5 Integration time constant, Tn Circuit Setting range Factory setting I / (II) 5 ... 999 sec. 30 / (30) sec. Basic set-up Set a high integration time constant to obtain a slow but stable reaction to deviations.
26b 7 Neutral zone, Nz Circuit Setting range Factory setting I / (II) 0 ... 9 K 3 / (3) K 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. 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.).
29a Check list ✓ Is the ECL Comfort controller ready for use? Make sure that the correct power supply is connected to terminals 1 (Live) and 2 (Neutral). See section 12 or 13. Check that the required actuators, pumps, fans, dampers and burners are connected to the correct terminals. See sections 12 or 13. Check that all sensors are connected to the correct terminals. See section 14. Mount the controller and switch on the power. Insert the ECL Card with the yellow side facing you and push , if necessary.
✓ 29b Adapting the ECL Comfort controller to the system Turn the ECL Card so that the grey side faces you and push , if necessary. Set the time and the date (line A). See section 17. Check that all settings in the controller (sections 30 and 31) are set or that the factory settings comply with your requirements. If your system differs from the diagram shown on the cover, you should check and alter your service parameters, if necessary.
30a ECL Card settings (circuit I) A Time and date Section 17 B System information Sections 18 & 19 C Heat curve Setting ranges Section 20 Factory settings Slope 0.2 ... 3.4 1.8 See section 20 Parallel displacement -9 ... 9 K 0K See section 20 1 Limit for heating cut-out 10 ... 30 °C 20 °C See section 21 Control & overviews 2 Flow temperature, min. / max. limits 10 ... 150 °C min. 10, max. 90 °C See section 22 3 Room temperature influence 0 ... 99 / -99 ... 0 min. 0, max.
30b ECL Card settings (circuit II) A Time and date Section 17 B System information Sections 18 & 19 C Heat curve Setting ranges Section 20 Factory settings Your settings Slope 0.2 ... 3.4 0.6 See section 20 Parallel displacement -9 ... 9 K 0K See section 20 1 Limit for heating cut-out 10 ... 30 °C 20 °C See section 21 2 10 ... 150 °C min. 10, max. 50 °C See section 22 3 Room temperature influence 0 ... 99 / -99 ... 0 min. 0, max. -40 See section 23 4 Proportional band, Xp 1 ...
31a Service parameters (10-199) Circuit I (Heating and DHW) Lines Setting ranges Factory settings Your settings 10 Choice of room panel / remote control 0 ... 5 5 11 Setback temperature dependent on outdoor temperature OFF / -29 ... 10 °C -15 °C 13 Reference ramping 0 ... 99 min. 0 min. 14 Optimizing time constant OFF / 10 ... 59 OFF 15 Adaptive function of room temperature OFF / 1 ... 30 OFF Control & overviews 17 Influence on desired flow temperature OFF / 1 ...
31b Service parameters (10-199) Circuit I (Heating and DHW) Lines Setting ranges Factory settings 43 Parallel operation of DHW and heating circuits OFF / 1 ... 99 K OFF 44 Max. DHW charging time 0 ... 250 min. Your settings K 0 min. min. 45 DHW charging deactivation time 0 ... 250 min. 0 min. min.
31c Service parameters (10-199) Circuit II (Heating) Lines Setting ranges Factory settings Your settings 10 Choice of room panel / remote control 0 ... 5 5 11 Setback temperature dependent on outdoor temperature OFF / -29 ... 10 °C -15 °C Control & overviews 13 Reference ramping 0 ... 99 min. 0 min. 14 Optimizing time constant OFF / 10 ... 59 OFF 15 Adaptive function of room temperature OFF / 1 ...
Control & overviews
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. Push repeatedly to reach the lines numbered 10 and onwards. 0 Value 10 Line Range indicator Now you can move to any line of your choice. Set the parameter value. 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.
32a Service parameter(s) 10-11 10 Choice of room panel / remote control Circuit Setting range Factory setting I / (II) 0 ... 5 5 / (5) Decides the communication with the room panel or remote control. Please note that the room panel / remote control is only active if the system device bus is active. The bus is active when the outdoor temperature sensor is connected.
32b Service parameter(s) 13 13 Reference ramping Circuit Setting range Factory setting (I) / (II) 0 ... 99 min. (0) / (0) min. The time in which the desired flow temperature increases slowly to avoid load peaks in the heat supply. Set the ramping time for the controller. Temperature °C Setting line 13 Time (min.) Extended service In order to avoid load peaks in the supply network, the flow temperature can be set to increase slowly after a period with setback temperature.
32c Service parameter(s) 14-15 14 Optimizing time constant Circuit Setting range Factory setting (I) / (II) OFF / 10 ... 59 (OFF) / (OFF) Optimizes the start and stop times for the comfort temperature period to obtain the best comfort at the lowest energy consumption. The lower the outdoor temperature, the earlier the heating cut-in. Adjust the optimizing time constant. The value consists of a two digit number.
32d Service parameter(s) 17-20 17 Influence on desired flow temperature (Tflow.ref(I)) Circuit Setting range Factory setting I OFF / 1 ... 20 K The desired flow temperature in heating circuit I can be influenced by an external reference. OFF OFF: The desired flow temperature in circuit I is not influenced by any other controller (slave or circuit II). 1 ... 20: The desired flow temperature is increased by the set value (line 17), if the demand of a slave / circuit II is higher. Temp. Setting line 17 Tflow.
Service parameter(s) 21 32e 21 Total stop Circuit Setting range Factory setting I / (II) ON / OFF OFF / (OFF) Decide whether you want a total stop during the setback temperature period. ON: The desired flow temperature is lowered to 10 °C. The min. setting of the flow temperature (line 2, section 22) is overruled. Desired flow temp. (°C) 10 °C Time OFF: No total stop Desired flow temp.
32f Service parameter(s) 22-24 22 Pump exercise Circuit Setting range Factory setting I / (II) ON / OFF ON / (ON) Exercises the pump to avoid blocking in periods without heat demand. ON: The pump is switched ON for 1 minute every third day around noon. OFF: The pump exercise is not active. 23 Valve exercise Circuit Setting range Factory setting I / (II) ON / OFF OFF / (OFF) Exercises the valve to avoid blocking in periods without heat demand.
32g Service parameter(s) 30-34 30 Return temperature limitation Circuit Setting range Factory setting I 10 ... 110 °C 60 °C Set the return temperature you accept for the heating / DHW circuit. Set the acceptable return temperature limit. When the return temperature falls below or gets higher than the set value, the controller automatically changes the desired flow temperature to obtain an acceptable return temperature. The influence is set in lines 35 and 36.
32h Service parameter(s) 31-34 31 Return temperature limitation - upper limit (X-axis) Circuit Setting range Factory setting (I) / (II) -60 ... 20 °C (15) / (15) °C Set the outdoor temperature value (see drawing). Set the outdoor temperature value (X coordinate) for the upper limit. (The corresponding Y coordinate is set in line 32). 32 Return temperature limitation - upper limit (Y-axis) Circuit Setting range Factory setting (I) / (II) 10 ...
32i Service parameter(s) 35 35 Return temperature influence - max. limitation Circuit Setting range Factory setting (I) / (II) -9.9 ... 0 ... 9.9 (-2.0) / (-2.0) Set the influence from the return temperature on the desired flow temperature. Set the influence of the max. return temperature limitation (set in line 30 or lines 31-34). Influence higher than 0: The desired flow temperature is increased, when the return temperature gets higher than the set limit.
32j Service parameter(s) 36 36 Return temperature influence - min. limitation Circuit Setting range Factory setting (I) / (II) -9.9 ... 0 ... 9.9 (0.0) / (0.0) Set the influence from the return temperature on the desired flow temperature. Set the influence of the min. return temperature limitation (set in line 30 or lines 31-34). Influence higher than 0: The desired flow temperature is increased, when the return temperature gets below the set limit.
32k Service parameter(s) 37-41 37 Time constant for return temperature limitation Circuit Setting range Factory setting (I) / (II) OFF / 1 ... 50 (25) / (25) Controls how fast the actual return temperature adapts to the desired return temperature limitation. Adjust the time constant for the return limitation. The setting will eliminate the difference between the acceptable and the actual return temperature. The difference is integrated to adjust the desired flow temperature.
32l Service parameter(s) 43 43 Priority or parallel operation Circuit Setting range Factory setting I / II OFF / 1 ... 99 K OFF / OFF Choose whether the DHW should have priority or the heating operation should be limited at DHW charging if the circuits are operated in parallel. OFF: Priority operation for the DHW circuit. 1 ... 99: Parallel operation of DHW and heating circuits. Set the limit for parallel operation. Parallel operation is obtained as long as the difference between Tflow.ref I and Tflow.
Service parameter(s) 44-51 32m 44 Max. DHW charging time Circuit Setting range Factory setting I 0 ... 250 min. 0 min. When the set max. DHW charging time expires, the charging is deactivated. 0: If the DHW temperature is lower than the DHW charging cut-in temperature (line 195), the charging remains active for unlimited time. If the DHW temperature is higher than the DHW charging cut-in temperature, the charging is deactivated after 35 min. 1 ...
32n Service parameter(s) 52-55 52 Closed valve / normal operation Circuit Setting range Factory setting (I) / (II) ON / OFF (OFF) / (OFF) The heating circuit can be closed when the controller acts as slave and when DHW charging is active in the master. ON: The valve in the heating circuit is closed* during active DHW charging in the master controller. OFF: The flow temperature control remains unchanged during active DHW charging in the master controller.
Service parameter(s) 67-78 32o 67 Adaptive function of S2 flow temperature during DHW charging Circuit Setting range Factory setting I OFF / 1 ... 50 20 This setting is only used for system types 10.5 and 10.5a. The setting will eliminate the difference between the desired and actual S5 charging temperature by integrating the difference and adjusting the desired S2 flow temperature. OFF: The desired flow temperature will not be adjusted any further. 1: The desired flow temperature will be adjusted quickly.
32p Service parameter(s) 80-140 80 Anti-bacteria function period Circuit Setting range Factory setting (I) / (II) 5 ... 250 min. 120 min. Set the period for the anti-bacteria function. When the set time expires, the anti-bacteria function is stopped. 5 ... 250: The anti-bacteria function is active for the set period. The function is activated in line 78 by setting the desired antibacteria temperature.
Service parameter(s) 141 32q 141 Override input selection Circuit Setting range Factory setting (I) / (II) OFF / 1 ... 6 (OFF) / (OFF) Choose an unused temperature sensor input for overriding the schedule for circuit I and / or circuit II. The override can be activated for comfort or setback mode. For override the controller's mode must be in 'scheduled operation'! OFF: The controller's schedule is not overridden. 1 ... 6: Select an unused sensor input S1 ...
32r Service parameter(s) 152-194 152 Max. limitation temperature at S2 during DHW charging Circuit Setting range Factory setting I 10 ... 110 °C 110 °C For the system types 5 and 5a, choose a max. limitation temperature for sensor S2 which must not be exceeded during DHW charging. Set the desired limitation temperature for sensor S2. This function must be deactivated for the system types 1-4a, i.e. this line should be set to a max. value (line 152, circuit I: 90-110).
32s Service parameter(s) 195 195 Temperature at DHW charging, cut-in temperature difference - upper tank temperature sensor Circuit Setting range Factory setting I 1 ... 30 K 20 K The difference between the desired charging temperature and cut-in temperature (charging start). Set the difference. Example: Desired charging temperature (section 3) Cut-in difference Calculated cut-in temperature (70-20) = 70 °C 20 K 50 °C One sensor (S6) Temp.
32t Service parameter(s) 196-198 196 Service pin - LON Circuit Setting range Factory setting I ON / OFF OFF This setting is only used in connection with LON communication (see the documentation for the used communication unit). 197 LON reset Circuit Setting range Factory setting I ON / OFF ON This setting is only used in connection with LON communication (see the documentation for the used communication unit).
Service parameter(s) 199 32u 199 Master / slave address Circuit Setting range Factory setting I 0 ... 9, 15 15 The setting is relevant when more controllers are working in the same ECL Comfort system (connected via the system device bus (ECL Comfort BUS)). 0: The slave receives information about the outdoor temperature (S1), system time, and signal for DHW demand in the master. 1 ...
34a Copying with the ECL Card Check the ECL Card and the software generations (see following example). Insert the ECL Card with the yellow side facing you. Go to line 8 (is not displayed), which is the first line below line 7. Application type C37 Software version, ECL Card 05 109 Software version, controller Store new controller settings on the ECL Card All new settings* can be stored on the ECL Card. Insert the ECL Card with the yellow side facing you.
34b Copy personal settings to additional controller(s) in identical systems Ensure that the other controller(s) use(s) the same ECL Card type. (If this is not the case, please read section 15). Insert the ECL Card, which contains the personal settings, with the yellow side facing you. Go to line 9 (is not displayed), which is the second line below line 7 Select the copying direction (from the card to the controller). CPY 0 C99 Copying direction Copy. Do not remove the ECL Card while copying.
7a Definitions Air duct temperature Temperature measured in the air duct where the temperature is to be controlled. Balance temperature This setpoint is the basis for the flow / air duct temperature. The balance temperature can be adjusted by the room temperature, the compensation temperature and the return temperature. The balance temperature is only active if a room temperature sensor is connected. Comfort operation Normal temperature in the system controlled by the schedule.
7b Humidity, relative This value (stated in %) refers to the indoor moisture content compared to the max. moisture content. The relative humidity is measured by the ECA 62 / 63 and is used for the calculation of the dew point temperature. Limitation temperature Temperature that influences the desired flow / balance temperature. Pt 1000 sensor All sensors used with the ECL Comfort controller are based on the Pt 1000 type. The resistance is 1000 ohm at 0 °C and it changes with 3.9 ohm / degree.
6a Hot points The time shown in the display is one hour off? See the summer time changeover in line 198, section 32. The time shown in the display is not correct? The internal clock may have been reset, if there has been a power break for more than 12 hours. Set time and date. See section 17. The ECL Card is lost? Switch the power off and on again to see the system type and the software generation of the controller. Order a replacement from your Danfoss representative.
6b How to make an extra comfort period in the schedule? You can make an additional comfort period by pushing the shift and + buttons simultaneously for 2 seconds. See section 4. How to remove a comfort period in the schedule? You can remove a comfort period by pushing the shift and - buttons simultaneously for 2 seconds. See section 4. How to restore your personal settings? Insert the ECL Card with the yellow side facing you. Go to line 9 (is not displayed), which is the second line below line 7.
5a Advantages of the ECL Card Save your personal settings to the ECL Card Go to line 9 (is not displayed), which is the second line below line 7. CPY 0 Card C99 Controller Copying direction Accept to copy personal settings from the controller to the ECL Card. The controller will return to display line C when the copying is completed. This takes approx. 15 seconds.
5b Restore ECL Card data After establishing your favorite temperatures, comfort periods etc., and after copying these to the ECL Card, you can set alternative settings. Insert the ECL Card and make the temporary settings, e.g. for holidays, but do not copy these. To restore your favorite settings, copy these from the ECL Card to the controller. Insert the ECL Card. Go to line 9 (is not displayed), which is the second line below line 7.
4a Set your personal schedule Monitor the current schedules Select between lines 1-7 (Monday, Tuesday ...... Sunday) to see your individual schedules. Changeover time Line Circuit Time line Periods with comfort temp. are shown as black bars Change the schedules Select appropriate day. The changeover point blinks Adjust the first blinking changeover point, if required. The end of the bar moves, extending or reducing the comfort period. Shift to next changeover point and adjust accordingly.
4b Add an extra comfort period Push the shift and + button simultaneously for 2 seconds. The new period appears Adjust the new period. Remove a comfort period Select the period to be removed (blinking changeover point) Push shift and - buttons simultaneously for 2 seconds. Cancel changes in your personal settings Push - and + buttons simultaneously for 2 seconds to restore the factory settings of the actual schedule.
2 Select circuit mode During scheduled operation (clock), the state indicator (a white arrow) will show you the control mode of the selected circuit. The white arrow will blink when this is a heating circuit and it is in the optimizing period. The mode can be set differently for each circuit by means of the function selector. However, if manual operation (hand) is chosen, this mode will apply to all circuits. Function selector (black arrow) State indicator (white arrow) 20 Function selector.
3 Set your room and DHW charging temperature Go to display C. Circuit I / II: Setting the desired room temperature 20 Desired room temp. in comfort mode 16 Desired room temp. in setback mode Select the constant comfort mode. Set the desired room temperature for the comfort mode. Select the constant setback mode. Set the desired room temperature for the setback mode. Select the desired mode (section 2).
1a Choose your favorite display (circuit I) Choose the display - A, B, or C - for daily operations. Room temperature - display A Room temp. (ECA 60 / 61) Line A 20 Circuit Outdoor temp. 3 19 Desired room temp. The display will only show a value if an ECA 60 / 61 is connected. If not, two bars will be shown. System information - display B State of controlled units Line 1 1 B 2 ON ON 3 2 ON Circuit Flow temp. (S2) 65 30 Return temp. (S3) 20 Desired room temp.
1b Choose your favorite display (circuit II) Choose the display - A, B, or C - for daily operations. Room temperature - display A Room temp. (ECA 60 / 61) Line A 20 Circuit -3 Outdoor temp. 20 Desired room temp. The display will only show a value if an ECA 60 / 61 is connected. If not, two bars will be shown. System information - display B State of controlled units 1 1 Line B 2 2 ON ON 3 ON Circuit 65 Flow temp. (S4) * 30 Return temp.
1c Choose your favorite display (DHW) Choose the DHW settings by pushing the button until there is no circuit indication (display / lights). Choose the display - A, B, or C - for daily operations. DHW temperature - display A DHW temp. (S6) Line A 52 70 Desired charging temp. (S2) DHW temperature - display B State of controlled units Line 1 1 B 2 2 3 ON ON ON 52 Charging temp. (S5)* -- -- Lower tank temp. (S5)** * A value is displayed only if S5 is selected as charging temp.
Save energy - save money - improve your comfort temperature The ECL Comfort controller is designed by Danfoss for the automatic temperature control of heating, hot-water, ventilation and cooling systems. Some of the advantages of the ECL Comfort controller system are: • Secure control and the optimum use of energy resources. • Control of system temperatures according to seasonal changes and variations in outdoor temperatures.
Table of Contents Daily use Section 1 Choose your favorite display 2 Select circuit mode 3 Set your room and DHW charging temperature 4 Set your personal schedule 5 Advantages of the ECL Card 6 Hot points 7 Definitions The documentation for the ECL Comfort controller is composed of numbered sections. Only sections that are relevant to your ECL Comfort controller are included here. Installer's Guide: Grey sections 10 and onwards. Turn the guide over.
