2
Product Information
2.2.2 Flow temperature control
Linear relationship between the 0–10 V signal (U in volts) and
the required flow temperature in °C with reference to the
minimum flow temperature range to the maximum flow
temperature range [default setting 20 to 90 °C]):
/ °C
90
20
0,5
1
Fig. 2
Linear relationship between the 0–10 V signal (U in
volts) and the required flow temperature in °C)
The connected heat sources are enabled and disabled
according to the required flow temperature.
2.3
Supplied parts
Fig. 6 at end of document:
[1] Module
[2] Bag with strain relief
[3] Installation Manual
2.4
Specification
This product conforms to European directives and
supplementary national requirements in design and
operation. Compliance is demonstrated by the CE
marking.
You can request the conformity declaration of the product. If
you require this, contact the address on the back cover of these
instructions.
Specification
Dimensions (W × H × D)
Maximum conductor cross-
section
•
230 V terminal
•
Extra-low voltage terminal •
14
U / V
10
0010024409-001
151 × 184 × 61 mm (for more
dimensions Fig. 7 at end of
document)
2
•
2.5 mm
2
1.5 mm
Specification
Rated voltages
•
BUS
•
Module mains voltage
•
User interface
•
Pump, solenoid valve,
interference output
Fuse
BUS interface
Power consumption –
Standby
Max. power output
•
per connection(PC0)
•
per connection(OE1)
Permitted ambient
temperature
IP rating
Protection class
ID no.
Table 3
°C
°C
20
12486
50
25
10000
55
30
8060
60
35
6536
65
40
5331
70
45
4372
75
Table 4
Measurements of low loss header temperature
sensor (T0)
EM100 – 6720891034 (2019/04)
•
15 V DC
(reverse polarity
protected)
•
230 V AC, 50 Hz
•
15 V DC
(reverse polarity
protected)
•
230 V AC, 50 Hz
230 V, 5 AT
EMSand EMS plus
< 3 W
•
400 W (high-efficiency
pumps permissible:
<30 A for 10 ms)
•
120 W (high-efficiency
pumps permissible:
< 30 A for 10 ms)
0 ... 60 °C
IP 44
I
Data plate ( Fig. 21 at the
end of document)
°C
3605
80
1256
2989
85
1070
2490
90
915
2084
100
677
1753
–
–
1480
–
–