3.
|
Annex III is amended as follows:
(a)
|
The following paragraph is added before Table 1:
‘Spiral-shaped double capped fluorescent lamps of all diameters equal to or larger than 16 mm (T5) shall comply with the requirements set out in Table 5 for T9 circular lamps.’
|
(b)
|
Table 2 is replaced by the following:
‘Table 2
Rated minimum efficacy values for single capped fluorescent lamps working on electromagnetic and electronic ballast
Small single parallel tube, lamp cap G23 (2 pin) or 2G7 (4 pin)
|
Double parallel tubes, lamp cap G24d (2 pin) or G24q (4 pin)
|
Triple parallel tubes, lamp cap GX24d (2 pin) or GX24q (4 pin)
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
5
|
48
|
10
|
60
|
13
|
62
|
7
|
57
|
13
|
69
|
18
|
67
|
9
|
67
|
18
|
67
|
26
|
66
|
11
|
76
|
26
|
66
|
|
4 legs in one plane, lamp cap 2G10
(4 pin)
|
Long single parallel tube, lamp cap 2G11
(4 pin)
|
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
|
18
|
61
|
18
|
67
|
|
24
|
71
|
24
|
75
|
36
|
78
|
34
|
82
|
|
36
|
81’
|
|
(c)
|
Table 3 is replaced by the following:
‘Table 3
Rated minimum efficacy values for single capped fluorescent lamps, working only on electronic ballast
Triple parallel tubes, lamp cap GX24q
(4 pin)
|
Four parallel tubes, lamp cap GX24q
(4 pin)
|
Long single parallel tube, lamp cap 2G11
(4 pin)
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
Nominal wattage
(W)
|
Rated luminous efficacy (lm/W), 100 h initial value
|
32
|
75
|
57
|
75
|
40
|
83
|
42
|
74
|
70
|
74
|
55
|
82
|
57
|
75
|
|
80
|
75
|
70
|
74’
|
|
|
(d)
|
Table 6 is replaced by the following:
‘Table 6
Deduction percentages for rated minimum efficacy values for fluorescent lamps with high colour temperature and/or high colour rendering and/or second lamp envelope and/or long life
Lamp parameter
|
Deduction from luminous efficacy at 25 °C
|
Tc ≥ 5 000 K
|
–10 %
|
95 ≥ Ra > 90
|
–20 %
|
Ra > 95
|
–30 %
|
Second lamp envelope
|
–10 %
|
Lamp Survival Factor ≥ 0,50 after 40 000 burning hours
|
–5 %’
|
|
(e)
|
In Annex III.1.1.B, the sentence
‘The corrections defined for the first stage (Table 6) shall continue to apply’
is replaced by
‘The corrections (Table 6) and the specific requirements for spiral-shaped double capped fluorescent lamps defined for the first stage shall continue to apply.’;
|
(f)
|
The title of Table 7 is replaced by the following:
|
(g)
|
The title of Table 8 is replaced by the following:
|
(h)
|
The second paragraph of Annex III.1.1.C is replaced by the following:
‘Fluorescent lamps without integrated ballast shall be able to operate with ballasts of energy efficiency class A2 or more efficient ballasts in accordance with point 2.2 of Annex III. In addition they may also operate with ballasts of less efficient classes than A2.’
|
(i)
|
Table 11 is replaced by the following:
‘Table 11
Lamp lumen maintenance factors for single and double capped fluorescent lamps — Stage 2
Lamp lumen maintenance factor
|
Burning hours
|
Lamp types
|
2 000
|
4 000
|
8 000
|
16 000
|
Double-Capped Fluorescent lamps operating on non-high frequency ballasts
|
0,95
|
0,92
|
0,90
|
—
|
T8 Double-Capped Fluorescent lamps on high frequency ballast with warmstart
|
0,96
|
0,92
|
0,91
|
0,90
|
Other Double-Capped Fluorescent lamps on high frequency ballast with warmstart
|
0,95
|
0,92
|
0,90
|
0,90
|
Circular Single-Capped Fluorescent lamps operating on non-high frequency ballasts, T8 U-shaped double-capped fluorescent lamps and spiral-shaped double capped fluorescent lamps of all diameters equal to or larger than 16 mm (T5)
|
0,80
|
0,74
|
—
|
—
|
0,72 at 5 000 burning hours
|
Circular Single-Capped Fluorescent lamps operating on high frequency ballasts
|
0,85
|
0,83
|
0,80
|
—
|
0,75 at 12 000 burning hours
|
Other Single-Capped Fluorescent lamps operating on non-high frequency ballasts
|
0,85
|
0,78
|
0,75
|
—
|
Other Single-Capped Fluorescent lamps on high frequency ballast with warmstart
|
0,90
|
0,84
|
0,81
|
0,78’
|
|
(j)
|
The following introductory phrase and Table 11a is added after Table 11:
‘The following cumulative deductions shall be applied to the values in Table 11:
Table 11a
Deduction percentages for fluorescent lamp lumen maintenance requirements
Lamp parameter
|
Deduction from lamp lumen maintenance requirement
|
Lamps with 95 ≥ Ra > 90
|
At burning hours ≤ 8 000 h: – 5 %
At burning hours > 8 000 h: – 10 %
|
Lamps with Ra > 95
|
At burning hours ≤ 4 000 h: – 10 %
At burning hours > 4 000 h: – 15 %
|
Lamps with a colour temperature ≥ 5 000 K
|
–10 %’
|
|
(k)
|
Table 12 is replaced by the following:
‘Table 12
Lamp survival factors for single and double capped fluorescent lamps — Stage 2
Lamp survival factor
|
Burning hours
|
Lamp types
|
2 000
|
4 000
|
8 000
|
16 000
|
Double-Capped Fluorescent lamps operating on non-high frequency ballasts
|
0,99
|
0,97
|
0,90
|
—
|
Double-Capped Fluorescent lamps on high frequency ballast with warmstart
|
0,99
|
0,97
|
0,92
|
0,90
|
Circular Single-Capped Fluorescent lamps operating on non-high frequency ballasts, T8 U-shaped double-capped fluorescent lamps and spiral-shaped double capped fluorescent lamps of all diameters equal to or larger than 16 mm (T5)
|
0,98
|
0,77
|
—
|
—
|
0,50 at 5 000 burning hours
|
Circular Single-Capped Fluorescent lamps operating on high frequency ballasts
|
0,99
|
0,97
|
0,85
|
—
|
0,50 at 12 000 burning hours
|
Other Single-Capped Fluorescent lamps operating on non-high frequency ballasts
|
0,98
|
0,90
|
0,50
|
—
|
Other Single-Capped Fluorescent lamps on high frequency ballast with warmstart
|
0,99
|
0,98
|
0,88
|
—’
|
|
(l)
|
Table 13 is replaced by the following:
‘Table 13
Lamp lumen maintenance factors and lamp survival factors for high pressure sodium lamps — Stage 2
High pressure sodium lamp category and burning hours for measurement
|
Lamp lumen maintenance factor
|
Lamp survival factor
|
P ≤ 75 W
LLMF and LSF measured at 12 000 burning hours
|
Ra ≤ 60
|
> 0,80
|
> 0,90
|
Ra > 60
|
> 0,75
|
> 0,75
|
all retrofit lamps designed to operate on high pressure mercury vapour lamp ballast
|
> 0,75
|
> 0,80
|
P > 75 W
LLMF and LSF measured at 16 000 burning hours
|
Ra ≤ 60
|
> 0,85
|
> 0,90
|
Ra > 60
|
> 0,70
|
> 0,65
|
all retrofit lamps designed to operate on high pressure mercury vapour lamp ballast
|
> 0,75
|
> 0,55
|
The requirements in Table 13 for retrofit lamps designed to operate on high pressure mercury vapour lamp ballast shall be applicable until 6 years after the entry into force of this Regulation.’;
|
(m)
|
Annex III.1.3(i) is replaced by the following:
‘(i)
|
Ambient temperature inside the luminaire at which the lamp was designed to maximise its luminous flux. If this temperature is equal to or lower than 0 °C or equal to or higher than 50 °C, it shall be stated that the lamp is not suitable for indoor use at standard room temperatures.’;
|
|
(n)
|
The following point (j) is added to point 1.3 of Annex III:
‘(j)
|
For fluorescent lamps without integrated ballast, the energy efficiency index(es) of ballasts as defined in Table 17 with which the lamp can operate.’;
|
|
(o)
|
Table 17 is replaced by the following:
‘Table 17
Energy efficiency index requirements for non-dimmable ballasts for fluorescent lamps
LAMP DATA
|
BALLAST EFFICIENCY (Plamp/Pinput)
|
Non-dimmable
|
Lamp type
|
Nominal Wattage
|
ILCOS CODE
|
Rated/typical wattage
|
A2 BAT
|
A2
|
A3
|
B1
|
B2
|
50 Hz
|
HF
|
W
|
W
|
W
|
|
|
|
|
|
T8
|
15
|
FD-15-E-G13-26/450
|
15
|
13,5
|
87,8 %
|
84,4 %
|
75,0 %
|
67,9 %
|
62,0 %
|
T8
|
18
|
FD-18-E-G13-26/600
|
18
|
16
|
87,7 %
|
84,2 %
|
76,2 %
|
71,3 %
|
65,8 %
|
T8
|
30
|
FD-30-E-G13-26/900
|
30
|
24
|
82,1 %
|
77,4 %
|
72,7 %
|
79,2 %
|
75,0 %
|
T8
|
36
|
FD-36-E-G13-26/1200
|
36
|
32
|
91,4 %
|
88,9 %
|
84,2 %
|
83,4 %
|
79,5 %
|
T8
|
38
|
FD-38-E-G13-26/1050
|
38,5
|
32
|
87,7 %
|
84,2 %
|
80,0 %
|
84,1 %
|
80,4 %
|
T8
|
58
|
FD-58-E-G13-26/1500
|
58
|
50
|
93,0 %
|
90,9 %
|
84,7 %
|
86,1 %
|
82,2 %
|
T8
|
70
|
FD-70-E-G13-26/1800
|
69,5
|
60
|
90,9 %
|
88,2 %
|
83,3 %
|
86,3 %
|
83,1 %
|
TC-L
|
18
|
FSD-18-E-2G11
|
18
|
16
|
87,7 %
|
84,2 %
|
76,2 %
|
71,3 %
|
65,8 %
|
TC-L
|
24
|
FSD-24-E-2G11
|
24
|
22
|
90,7 %
|
88,0 %
|
81,5 %
|
76,0 %
|
71,3 %
|
TC-L
|
36
|
FSD-36-E-2G11
|
36
|
32
|
91,4 %
|
88,9 %
|
84,2 %
|
83,4 %
|
79,5 %
|
TCF
|
18
|
FSS-18-E-2G10
|
18
|
16
|
87,7 %
|
84,2 %
|
76,2 %
|
71,3 %
|
65,8 %
|
TCF
|
24
|
FSS-24-E-2G10
|
24
|
22
|
90,7 %
|
88,0 %
|
81,5 %
|
76,0 %
|
71,3 %
|
TCF
|
36
|
FSS-36-E-2G10
|
36
|
32
|
91,4 %
|
88,9 %
|
84,2 %
|
83,4 %
|
79,5 %
|
TC-D / DE
|
10
|
FSQ-10-E-G24q=1
FSQ-10-I-G24d=1
|
10
|
9,5
|
89,4 %
|
86,4 %
|
73,1 %
|
67,9 %
|
59,4 %
|
TC-D / DE
|
13
|
FSQ-13-E-G24q=1
FSQ-13-I-G24d=1
|
13
|
12,5
|
91,7 %
|
89,3 %
|
78,1 %
|
72,6 %
|
65,0 %
|
TC-D / DE
|
18
|
FSQ-18-E-G24q=2
FSQ-18-I-G24d=2
|
18
|
16,5
|
89,8 %
|
86,8 %
|
78,6 %
|
71,3 %
|
65,8 %
|
TC-D / DE
|
26
|
FSQ-26-E-G24q=3
FSQ-26-I-G24d=3
|
26
|
24
|
91,4 %
|
88,9 %
|
82,8 %
|
77,2 %
|
72,6 %
|
TC-T / TE
|
13
|
FSM-13-E-GX24q=1
FSM-13-I-GX24d=1
|
13
|
12,5
|
91,7 %
|
89,3 %
|
78,1 %
|
72,6 %
|
65,0 %
|
TC-T / TE
|
18
|
FSM-18-E-GX24q=2
FSM-18-I-GX24d=2
|
18
|
16,5
|
89,8 %
|
86,8 %
|
78,6 %
|
71,3 %
|
65,8 %
|
TC-T / TC-TE
|
26
|
FSM-26-E-GX24q=3
FSM-26-I-GX24d=3
|
26,5
|
24
|
91,4 %
|
88,9 %
|
82,8 %
|
77,5 %
|
73,0 %
|
TC-DD / DDE
|
10
|
FSS-10-E-GR10q
FSS-10-L/P/H-GR10q
|
10,5
|
9,5
|
86,4 %
|
82,6 %
|
70,4 %
|
68,8 %
|
60,5 %
|
TC-DD / DDE
|
16
|
FSS-16-E-GR10q
FSS-16-I-GR8
FSS-16-L/P/H-GR10q
|
16
|
15
|
87,0 %
|
83,3 %
|
75,0 %
|
72,4 %
|
66,1 %
|
TC-DD / DDE
|
21
|
FSS-21-E-GR10q
FSS-21-L/P/H-GR10q
|
21
|
19,5
|
89,7 %
|
86,7 %
|
78,0 %
|
73,9 %
|
68,8 %
|
TC-DD / DDE
|
28
|
FSS-28-E-GR10q
FSS-28-I-GR8
FSS-28-L/P/H-GR10q
|
28
|
24,5
|
89,1 %
|
86,0 %
|
80,3 %
|
78,2 %
|
73,9 %
|
TC-DD / DDE
|
38
|
FSS-38-E-GR10q
FSS-38-L/P/H-GR10q
|
38,5
|
34,5
|
92,0 %
|
89,6 %
|
85,2 %
|
84,1 %
|
80,4 %
|
TC
|
5
|
FSD-5-I-G23
FSD-5-E-2G7
|
5,4
|
5
|
72,7 %
|
66,7 %
|
58,8 %
|
49,3 %
|
41,4 %
|
TC
|
7
|
FSD-7-I-G23
FSD-7-E-2G7
|
7,1
|
6,5
|
77,6 %
|
72,2 %
|
65,0 %
|
55,7 %
|
47,8 %
|
TC
|
9
|
FSD-9-I-G23
FSD-9-E-2G7
|
8,7
|
8
|
78,0 %
|
72,7 %
|
66,7 %
|
60,3 %
|
52,6 %
|
TC
|
11
|
FSD-11-I-G23
FSD-11-E-2G7
|
11,8
|
11
|
83,0 %
|
78,6 %
|
73,3 %
|
66,7 %
|
59,6 %
|
T5
|
4
|
FD-4-E-G5-16/150
|
4,5
|
3,6
|
64,9 %
|
58,1 %
|
50,0 %
|
45,0 %
|
37,2 %
|
T5
|
6
|
FD-6-E-G5-16/225
|
6
|
5,4
|
71,3 %
|
65,1 %
|
58,1 %
|
51,8 %
|
43,8 %
|
T5
|
8
|
FD-8-E-G5-16/300
|
7,1
|
7,5
|
69,9 %
|
63,6 %
|
58,6 %
|
48,9 %
|
42,7 %
|
T5
|
13
|
FD-13-E-G5-16/525
|
13
|
12,8
|
84,2 %
|
80,0 %
|
75,3 %
|
72,6 %
|
65,0 %
|
T9-C
|
22
|
FSC-22-E-G10q-29/200
|
22
|
19
|
89,4 %
|
86,4 %
|
79,2 %
|
74,6 %
|
69,7 %
|
T9-C
|
32
|
FSC-32-E-G10q-29/300
|
32
|
30
|
88,9 %
|
85,7 %
|
81,1 %
|
80,0 %
|
76,0 %
|
T9-C
|
40
|
FSC-40-E-G10q-29/400
|
40
|
32
|
89,5 %
|
86,5 %
|
82,1 %
|
82,6 %
|
79,2 %
|
T2
|
6
|
FDH-6-L/P-W4,3x8,5d-7/220
|
|
5
|
72,7 %
|
66,7 %
|
58,8 %
|
|
|
T2
|
8
|
FDH-8-L/P-W4,3x8,5d-7/320
|
|
7,8
|
76,5 %
|
70,9 %
|
65,0 %
|
|
|
T2
|
11
|
FDH-11-L/P-W4,3x8,5d-7/420
|
|
10,8
|
81,8 %
|
77,1 %
|
72,0 %
|
|
|
T2
|
13
|
FDH-13-L/P-W4,3x8,5d-7/520
|
|
13,3
|
84,7 %
|
80,6 %
|
76,0 %
|
|
|
T2
|
21
|
FDH-21-L/P-W4,3x8,5d-7/
|
|
21
|
88,9 %
|
85,7 %
|
79,2 %
|
|
|
T2
|
23
|
FDH-23-L/P-W4,3x8,5d-7/
|
|
23
|
89,8 %
|
86,8 %
|
80,7 %
|
|
|
T5-E
|
14
|
FDH-14-G5-L/P-16/550
|
|
13,7
|
84,7 %
|
80,6 %
|
72,1 %
|
|
|
T5-E
|
21
|
FDH-21-G5-L/P-16/850
|
|
20,7
|
89,3 %
|
86,3 %
|
79,6 %
|
|
|
T5-E
|
24
|
FDH-24-G5-L/P-16/550
|
|
22,5
|
89,6 %
|
86,5 %
|
80,4 %
|
|
|
T5-E
|
28
|
FDH-28-G5-L/P-16/1150
|
|
27,8
|
89,8 %
|
86,9 %
|
81,8 %
|
|
|
T5-E
|
35
|
FDH-35-G5-L/P-16/1450
|
|
34,7
|
91,5 %
|
89,0 %
|
82,6 %
|
|
|
T5-E
|
39
|
FDH-39-G5-L/P-16/850
|
|
38
|
91,0 %
|
88,4 %
|
82,6 %
|
|
|
T5-E
|
49
|
FDH-49-G5-L/P-16/1450
|
|
49,3
|
91,6 %
|
89,2 %
|
84,6 %
|
|
|
T5-E
|
54
|
FDH-54-G5-L/P-16/1150
|
|
53,8
|
92,0 %
|
89,7 %
|
85,4 %
|
|
|
T5-E
|
80
|
FDH-80-G5-L/P-16/1150
|
|
80
|
93,0 %
|
90,9 %
|
87,0 %
|
|
|
T5-E
|
95
|
FDH-95-G5-L/P-16/1150
|
|
95
|
92,7 %
|
90,5 %
|
84,1 %
|
|
|
T5-E
|
120
|
FDH-120-G5-L/P-16/1450
|
|
120
|
92,5 %
|
90,2 %
|
84,5 %
|
|
|
T5-C
|
22
|
FSCH-22-L/P-2GX13-16/225
|
|
22,3
|
88,1 %
|
84,8 %
|
78,8 %
|
|
|
T5-C
|
40
|
FSCH-40-L/P-2GX13-16/300
|
|
39,9
|
91,4 %
|
88,9 %
|
83,3 %
|
|
|
T5-C
|
55
|
FSCH-55-L/P-2GX13-16/300
|
|
55
|
92,4 %
|
90,2 %
|
84,6 %
|
|
|
T5-C
|
60
|
FSCH-60-L/P-2GX13-16/375
|
|
60
|
93,0 %
|
90,9 %
|
85,7 %
|
|
|
TC-LE
|
40
|
FSDH-40-L/P-2G11
|
|
40
|
91,4 %
|
88,9 %
|
83,3 %
|
|
|
TC-LE
|
55
|
FSDH-55-L/P-2G11
|
|
55
|
92,4 %
|
90,2 %
|
84,6 %
|
|
|
TC-LE
|
80
|
FSDH-80-L/P-2G11
|
|
80
|
93,0 %
|
90,9 %
|
87,0 %
|
|
|
TC-TE
|
32
|
FSMH-32-L/P-2GX24q=3
|
|
32
|
91,4 %
|
88,9 %
|
82,1 %
|
|
|
TC-TE
|
42
|
FSMH-42-L/P-2GX24q=4
|
|
43
|
93,5 %
|
91,5 %
|
86,0 %
|
|
|
TC-TE
|
57
|
FSM6H-57-L/P-2GX24q=5
FSM8H-57-L/P-2GX24q=5
|
|
56
|
91,4 %
|
88,9 %
|
83,6 %
|
|
|
TC-TE
|
70
|
FSM6H-70-L/P-2GX24q=6
FSM8H-70-L/P-2GX24q=6
|
|
70
|
93,0 %
|
90,9 %
|
85,4 %
|
|
|
TC-TE
|
60
|
FSM6H-60-L/P-2G8=1
|
|
63
|
92,3 %
|
90,0 %
|
84,0 %
|
|
|
TC-TE
|
62
|
FSM8H-62-L/P-2G8=2
|
|
62
|
92,2 %
|
89,9 %
|
83,8 %
|
|
|
TC-TE
|
82
|
FSM8H-82-L/P-2G8=2
|
|
82
|
92,4 %
|
90,1 %
|
83,7 %
|
|
|
TC-TE
|
85
|
FSM6H-85-L/P-2G8=1
|
|
87
|
92,8 %
|
90,6 %
|
84,5 %
|
|
|
TC-TE
|
120
|
FSM6H-120-L/P-2G8=1
FSM8H-120-L/P-2G8=1
|
|
122
|
92,6 %
|
90,4 %
|
84,7 %
|
|
|
TC-DD
|
55
|
FSSH-55-L/P-GRY10q3
|
|
55
|
92,4 %
|
90,2 %
|
84,6 %’
|
|
|
|
|