Упрощенная HTML-версия
5.49
Technical data
4
16
0.17
29
700
205
0.85
2.0
–
6
16
0.16
42
700
205
0.95
2.0
–
8
16
0.145
56
700
205
0.9
2.0
–
10
26
0.17
64
375
220
–
2.0
–
13
16
0.165
95
1070
225
0.8
2.0
–
15
26
0.33
55
165
440
1.0
4.5
–
16
26
0.20
90
450
260
0.8
2.5
–
18
26
0.37
57
155
550
1.0
4.5
2.7/480
18/… U
26
0.37
60
165
550
–
–
–
20/… SA
38
0.37
57
270
550
–
–
–
20/… XL
38
0.38
58
270
–
–
4.5
–
22 C
29
0.37
62
165
600
–
5.0
3.0/480
30
26
0.365
96
265
550
1.2
4.5
2.9/450
32 C
29
0.425
81
190
675
0.9
5.0
3.4/450
36
26
0.43
103
240
650
1.2
4.5
3.4/450
36/… U
26
0.43
108
250
650
–
–
–
36-1
26
0.556
81
145
730
1.3
6.0
4.3/480
38
3)
26
0.43
104
240
650
–
4.5
3.4/450
40 C
29
0.415
108
260
630
–
–
–
40/… SA
38
0.43
103
390
650
–
–
–
40/… XL
38
0.425
109
390
–
–
4.5
–
40/… K
38
0.88
52
58
26
0.67
110
165
1000
1.5
7.0
5.3/450
58/… U
26
0.67
115
170
1000
–
–
–
65/… SA
38
0.67
110
240
1000
–
–
–
65/… XL
38
0.67
110
240
–
–
–
–
Fluorescent lamp
(Wattage)
Ø
(mm)
Rated lamp current
(CCG operation)
uncompensated
(A)
Lamp voltage UL
after ignition
(±10%)
(V)
Resistance/
impedance
Z (on CCG)
(Ω)
Preheating
current
IEC 60081
(mA)
4)
Luminance
LF
840,
830,
827
(cd/cm
2
)
Compensation
capacitor
1)
Power factor
≈1 for CCG operation
(μF)
Series
capacitor
for CCG
Lead-lag
circuit
2)
(μF/Vc)
For information on ECGs see Section 9 (ECGs)
1) For parallel compensation in circuits 1 and 2 see page 5.53
2) Lead-lag circuit as per circuit diagram 3 on page 5.53
3) With 40 W control gear
4) Preheating currents are maximum values for a preheat time of 2 s