2023 Export Catalogue - Other - Page 29
RADIATORS
YEARS
GUARANTEE ON
BODY
LOT20READY
YEARS
GUARANTEE ON
ELECTRONICS
TECHNICAL SPECIFICATIONS
WHITE DNW0330RAD
DNW0550RAD
DNW0770RAD
DNW0990RAD
DNW1210RAD
DNW1430RAD
DNW1600RAD
GRAPHITE DNB0330RAD
DNB0550RAD
DNB0770RAD
DNB0990RAD
DNB1210RAD
DNB1430RAD
DNB1600RAD
5
7
9
11
13
15
1,600
MODELS
Number of elements
3
Nominal power (W)
330
550
770
990
1,210
1,430
Effective power (W)4
125
209
293
376
460
543
608
220-240 V ~
220-240 V ~
220-240 V ~
220-240 V ~
220-240 V ~
220-240 V ~
220-240 V ~
Voltage (V)
Frequency (Hz)
50
50
50
50
50
50
50
Current (A)
1.4
2.4
3.3
4.3
5.3
6.2
7.0
Insulation
Class I
Class I
Class I
Class I
Class I
Class I
Class I
IP24
IP24
IP24
IP24
IP24
IP24
IP24
IP protection
Width x height x depth (mm) 350 x 585 x 97
510 x 585 x 97
670 x 585 x 97
830 x 585 x 97
Installed depth (mm)
120
120
120
120
990 x 585 x 97 1,150 x 585 x 97 1,310 x 585 x 97
120
120
120
Weight (Kg)
8.9
12.7
16.4
19.1
22.9
26.6
32.4
Weight with packaging (Kg)
10.0
14.0
18.0
21.0
25.0
29.0
35.0
Recommended area (m2)
Up to 4
Up to 6
Up to 9
Up to 11
Up to 14
Up to 16
Up to 19
1.7
1.7
1.7
1.7
1.7
1.7
1.7
UK 3 pin
UK 3 pin
UK 3 pin
UK 3 pin
UK 3 pin
UK 3 pin
UK 3 pin
Cable length (m)
Plug type
Product includes
Brackets, template + user manual
Compatible accessories
Protection grills/covers - RKY**** / RDB****, Wheel kit - RIR*01
Finishes
White RAL 9016 / Graphite textured
DIAGRAMS
DN*0330RAD
DN*0550RAD
DN*0770RAD
DN*0990RAD
DN*1210RAD
DN*1430RAD
DN*1600RAD
510 mm
670 mm
830 mm
990 mm
1,150 mm
1,310 mm
585 mm
120
Dimensions in mm.
min
100
23
350 mm
1) Compatible with 2.4 GHz WiFi networks. 2) Available from Q3/Q4 2023. 3) Data may vary depending on the circumstances of the electrical installation. 4) In tests carried out by independent
laboratories comparing under the same parameters a radiator with Fuzzy Logic Energy Control tech and another with Optimizer Energy Plus (the 昀椀rst Rointe energy control tech), a difference in
energy consumption of 6.3% was obtained. This saving allows radiators with Fuzzy Logic Energy Control to use an average power of only 38% of nominal power, which we de昀椀ne as the equivalent
consumption coe昀케cient. If we multiply the nominal power by the equivalent consumption coe昀케cient, we obtain the effective power.
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