Technical data
29 CTC EcoZenith i250
General Information
!
The first figure is the current
operating value. The value in
brackets is the setpoint that the CTC
EcoZenith is trying to achieve.
Three Current values are displayed when the current
transformers (CTs) are connected and identified. If only one
figure is displayed:
- connect all three current transformers (CTs).
- then select the option Installer/Service/Control current
sensors.
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1 2
1 2
22,2 ºC 21,2 ºC 58 ºC -5 ºC
1 2
1 2
1 2
1 2
1 2
T ºC
60
40
20
0
-20
16 20 0 4 8 12
00 - 06 22 - 24
00 - 06 22 - 24
00 - 06 22 - 24
00 - 06 22 - 24
00 - 06 23 - 24
00 - 08 23 - 24
00 - 08 22 - 24
06 - 09 18 - 21
07 - 09 -- - --
08 - 09 -- - --
08 - -- -- - 21
08 - -- -- - 21
10 - 12 20 - 23
10 - 12 20 - 23
Room temp. DHW Operation Installer
CTC EcoZenith Monday 09:35
Night reduction Holiday
Heating circuit 2 (50)
Heating circuit 1
Room temp.
Start menu
Room temperature settings
Selecting DHW comfort
Heating system data
Installer settings menu
Extra
Hot water
0.0 hours
On
Temperature
Normal
Weekly schedule
DHW
Operation data system
Status HP upper tank
Tank upper°C 49 (58)
Tank lower°C 42 (45)
Electric power kW 0.0+2.5
Current L1/L2/L3 0.0 0.0 0.0
Diff func. Pump / ºC On 32
Pool ºC Off 22(20)
Operation data EcoZenith
Stored oper data
Heating circuit
Operation data heating
Installer
Time/Language Settings Define system Service
Software display PCB: 20120205
Software HP PCB: 01234
Installer
Installer
Time 21:34
Date 2012-02-05
Settings
Heating circuit 1
Heating circuit 1
Heating circuit 2
Heat pump
Electric heater
Upper tank
Remote control None
Communication
Solar panels
Diff thermostat function
Pool
Save settings
Load settings
Load factory settings
Max primary flow°C 55
Min primary flow°C Off
Heating off, out°C 18
Heating off 120
Inclination°C 50
Adjustment°C 0
Room temp reduced°C -2
or
Primary flow reduced°C -3
>>
Define system
Def heating circuit 1
Heating circuit 1
Heating circuit 2
Heat pump
CTC SMS
Cooling
Solar panels
Diff thermostat function No
Pool (G50, G51, B50) No
Heating circuit 1 Yes
Room sensor 1 Yes
Type Wire
Service
Function test
Function test
Alarm log
Factory settings coded
Quick start compressor.
Software update, USB
Write log to USB
Control current sensors
Re-installation
Heating circuit
Heat pump
Valves
Electric heater
Solar
Diff thermostat function
Pool
Total operation time h: 14196
Max primary flow°C: 51
Consumtion kWh 20
Compressor:
Total Operation time 1540
Stored oper data
Heat pump
Compressor On
Charge pump On 47%
Brine pump On
HP in/out°C 35.5 / 42.3
Current L1 4.0
Night reduction heat circ.
Weekly program Block NR
Decrease Sunday 22:00
Increase Friday 14:00
Decrease -------- 00:00
Increase -------- 00:00
Holiday
Holiday period 3 days
Out Room1 Prim1 Return Room2 Prim2
Settings language
Night reduction heat circ. 1
Weekly program Day by day NR
Monday
Tuesday
Wednesday
Thursday
Friday
Saturday
Sunday
Weekly program Day by day DHW
Monday
Tuesday
Wednesday
Thursday
Friday
Saturday
Sunday
Weekly program DHW
8.5.1 Operation data EcoZenith
This menu displays current temperatures and the
operational data for your EcoZenith i250. The first figure
is the actual operational value, with the value in brackets
being the setpoint which EcoZenith is trying to achieve.
Status
Shows EcoZenith i250’s operational status.
The various operational status options are:
• HP upper tank
The heat pump heats up the upper part of the tank
(DHW production).
• HP lower tank
The heat pump heats up the lower part of the tank.
(Heat production).
• HP + Add
Both the immersion heater and heat pump are
operating to heat up the tank.
• Add
Only the immersion heater is heating the tank.
Tank upper °C 49 (60)
Shows the temperature and reference value in the upper
part of the tank.
Tank lower °C 42 (50)
Shows the temperature and reference value in the lower
part of the tank.
Electric power kW
Shows the electric boiler's additional power. Lower
and upper electric heaters. Example of 0.0kW in lower
electric heater and 2.5kW in upper electric heater.
Current L1/L2/L3
Shows the system’s total current consumption at the
various phases L1/L2/L3, provided that three current
sensors have been fitted to the unit’s incoming cables. If
the current sensors mounting devices are not identified,
only the phase with the highest load is displayed.
If the current exceeds the main fuse size, the boiler
automatically switches down a power step to protect
the fuses, for example, when several high-consumption
appliances are being used in the house.