LAMPS
Lamp \Lamp\ (l[a^]mp), n. [F. lampe, L. lampas, -adis, fr. Gr. torch, fr.
to give light, to shine. Cf. {Lampad}, {Lantern}.] 1. A light-producing
vessel, device, instrument or apparatus; formerly referring especially
to a vessel with a wick used for the combustion of oil or other
inflammable liquid, for the purpose of producing artificial light; also,
a similar device using a gas as the combustible fuel; now referring
mainly to an electric lamp.
INTRODUCTION
LIGHT IS...
“A visual experience on how we can see the world. The world as we see it is
perceived in many aspects and light is responsible for every part of it. without
light there would be nothing.
When Light is generated in an environment, it serves a purpose and can
influence emotion and mood.
From a Lighting Designer’s point of view, Light is creating the client’s vision
and transforming it into reality. Colour temperatures, uniformity, lamp
power density, visual comfort and safe movement are some of the major
parties which play a key role in achieving the perfect lighting environment.”
Chris Bortone
DESCRIPTIONS
COLOUR TEMPERATURE
The colour temperature measured in degrees Kelvin (K) indicates the light
source’s colour appearance and varies in a range of 2000 – 17000 K (Philips).
3500 – 4000 K is considered to be neutral white. Temperatures lower than 3500
K is considered as warm, and temperatures higher than 4000 K are
considered cool.
Colour temperature and colour appearance of fluorescent lamps is controlled
by the combinations of phosphor materials used to coat the inside of the tubes.
This makes it possible to produce different tones of white light.
COLOUR RENDERING
The ability of a light source to reveal the true colours of an object is called
Colour rendering. This is usually given as a Colour Rendering Index or CRI in
the form of a score out of 100.
The CRI (Colour Rendering Index) for indoor lighting should be above 80 and for
excellent colour rendering it should be above 90.
LUMINOUS FLUX (F)
The amount of light / lumens emitted from a light source.
DESCRIPTIONS
LUMINOUS EFFICACY (lm/W)
The light source’s luminous efficacy is the relation between its luminous
flux and the electrical power used. The higher the lumens per watt in a light
source, the more efficient it is. Keep in mind that the luminous efficacy applies
to the light source only. The ballast losses have not been taken
into consideration.
AVERAGE MORTALITY RATE
The number of burning hours after which half of a large number of controlled
light sources have been put out.
UV-BLOCK
Ultravoilet (UV) radiation is electromagnetic radiation which is emitted from the
sun and also from some light sources. Being over-exposed to UV radiation can
cause health problems such as chronic immune system and skin cancer.
The UV-Block on lamps prevent these affects from occurring.
FSM
COMPACT FLUORESCENT
LAMPS
Compact
fluorescent lamp
FSD-I (TC-S)
W
7
9
11
Socket
G23
G23
G23
FSD-E (TC-SEL)
W
7
9
11
Socket
2G7
2G7
2G7
FSD (TC-L)
W
18
24
36
40
55
80
Socket
2G11
2G11
2G11
2G11
2G11
2G11
FSQ-I (TC-D)
W
10
13
18
26
Socket
G24d1
G24d1
G24d2
G24d3
FSQ-E (TC-DEL)
Average mortality rate: 10 000 h
Compact fluorescent lamp, 2-limb, 4-pin, short
Fluorescent lamps, Single-capped, Dual-shaped,
Internal starter
Flow (lm)
400
600
900
lm/W
57
66
81
cd/cm²
2,7
2,7
2,6
/827
81160
81161
81162
/830
-
Average mortality rate: 13 000 h
Compact fluorescent lamp, 2-limb, 4-pin, short
Fluorescent lamps, Single-capped, Dual-shaped,
external starter
Flow (lm)
lm/W cd/cm² /827
/830
400
57
2,7
81365
600
66
2,7
81366
900
81
2,6
81367 81387
230 V
/840
-
W
18
26
FSM
230 V
/840
-
Average mortality rate: (HF) 20 000 – (Conv.) 15 000 h 230 V
Compact fluorescent lamp, 2-limb, 4-pin, long
Fluorescent lamps, Single-capped, Dual-shaped
Flow (lm)
lm/W cd/cm² /827
/830
/840
1200
66
2,6
81242 81157 81470
1800
75
2,3
81243 81158 81301
2900
80
2,8
81244 81159 81471
3500
87
2,5
81316 81472
4800
87
3,4
81317 81318 81473
6000
75
81337 81338 81474
Average mortality rate: 10 000 h 230 V
Compact fluorescent lamp, 4-limb, 2-pin
Fluorescent lamps, Single-capped, Quad-shaped,
Internal starter
Flow (lm)
lm/W cd/cm² /827
/830
/840
600
60
2,8
81164 81302
900
69
3,0
81163 81255
1200
66
3,6
81220 81256 81465
1800
69
4,5
81224 81257 81466
Average mortality rate: 13 000 h 230 V
COMPACT
FLUORESCENT
LAMPS
Compact fluorescent lamp,
4-limb, 4-pin,
short
W
18
26
32
42
57
FSM
W
13
18
26
32
42
FSS-
W
16
28
FSS-
W
30 V
40
-
30 V
40
-
30 V
40
470
301
471
472
473
474
30 V
26
G24d3
FSQ-E (TC-DEL)
W
10
13
18
26
Socket
G24q1
G24q1
G24q2
G24q3
1800
69
4,5
81224
81257
81466
Average mortality rate: 13 000 h 230 V
Compact fluorescent lamp, 4-limb, 4-pin, short
Fluorescent lamps, Single-capped, Dual-shaped,
External starter
Flow (lm)
lm/W cd/cm² /827
/830
/840
600
60
2,8
81303 81304
900
69
3,0
81200 81221 81439
1200
66
3,6
81201 81222 81435
1800
69
4,5
81202 81223 81436
Light sources
W
16
28
38
Compact fluorescent lamp
FSM-I (TC-T) Amalgam
Average mortality rate: 10 000 h 230 V
Compact fluorescent lamp, 6-limb, 2-pin
Fluorescent
Single-capped,
Use FSM-lamps with
mercurylamps,
technic:
Multi-limbed, Internal starter
• Outdoors
•W In luminaires
for dimming
Socket intended
Flow (lm)
lm/W cd/cm² /827
/830
/840
•18When
quick ignition
of the luminaire
GX24d2
1200
66 is important
5,5
81305 81325 81455
26
GX24d3
1800
69
6,5
81306 81307 81456
Use FSM-lamps with amalgam technic:
•FSM-E
Indoors
Average mortality rate: 13 000 h
(TC-TEL) Amalgam
• In small luminaires
Compact fluorescent lamp, 6-limb, 4-pin
•
Fluorescent lamps, Single-capped,
W
18
26
32
42
57
Socket
GX24q2
GX24q3
GX24q3
GX24q4
GX24q5
Multi-limbed, External starter
Flow (lm)
lm/W cd/cm²
1200
66
5,5
1800
69
6,5
2400
75
7,4
3200
76
7,7
4300
75
7,8
/827
81326
81308
81328
81330
-
/830
81327
81309
81329
81331
81334
230 V
/840
81475
81476
81477
81478
81336
FSM-E (TC-TEL) Kvicksilver
Average mortality rate: 13 000 h 230 V
Compact fluorescent lamp, 6-limb, 4-pin
Fluorescent lamps, Single-capped,
Multi-limbed, External starter
W
Socket
Flow (lm)
lm/W cd/cm² /827
/830
/840
13
GX24q1
900
69
5,0
81333 81332
18
GX24q2
1200
69
5,5
81324 81323 81415
not been taken into consideration.
26
GX24q3
1800
76
6,5
81410 81411 81416
32
GX24q3
2400
75
7,4
81412 81417
412
42
GX24q4
3200
75
7,7
81413 www.fagerhult.c
81418
FSS-I (TC-DD)
Average mortality rate: 12 000 h 230 V
Compact fluorescent lamp 2D, 2-pin
COMPACT FLUORESCENT LAMPS
Fluorescent lamps, Single-capped,
473
474
30 V
40
465
466
42
GX24q4
FSS-I (TC-DD)
W
16
28
Socket
GR8
GR8
FSS-E (TC-DDEL)
30 V
40
439
435
436
W
16
28
38
Socket
GR10q
GR10q
GR10q
3200
75
7,7
-
81413
Average mortality rate: 12 000 h
Compact fluorescent lamp 2D, 2-pin
Fluorescent lamps, Single-capped,
Square-shaped, Internal starter
Flow (lm)
lm/W
/827
/830
1050
65
81165 81361
2050
73
81166
Average mortality rate: 12 000 h
Compact fluorescent lamp 2D, 4-pin,
Fluorescent lamps, Single-capped,
Square-shaped, External starter
Flow (lm)
lm/W
/827
/830
1050
65
81363
2050
73
81189 81364
2850
75
81167 81368
81418
230 V
/840
230 V
/840
COMPACT FLUORESCENT LAMPS FSD /FSD/FSQ/FSM/FSS:
These light sources have many advantages such as high luminous efficacy,
good colour rendering, extended lamp life, small compact size and the ability
to be dimmed. The FSM lamps are available in different shapes and design
characteristics.
COMPACT FLUORESCENT LAMPS
Fluorescent lamp
FLUORESCENT
LAMPT5
T5
FDH (T16)
FL
Flu
Service mortality rate: 19 000 h
230 V
Fluorescent lamp Ø 16 mm straight (T5)
Fluorescent lamps, Double-capped linear,
High frequency ballast
W
14
21
24
28
35
39
49
54
80
Socket
G5
G5
G5
G5
G5
G5
G5
G5
G5
Flow (lm)¹⁾
1200
1900
1750
2600
3300
3100
4300
4450
6150
FDH (T16)
W
15
18
36
58
lm/W²⁾
96
100
89
104
104
92
99
93
88
FD (
Service mortality rate: 19 000 h
230 V
Fluorescent lamp Ø 16 mm straight (T5)
Fluorescent lamps, Double-capped linear,
High frequency ballast
W
24
49
54
Socket
G5
G5
G5
Flow (lm)¹⁾
1400
3550
3500
FDH (T16) Long-life
lm/W²⁾ cd/cm²
71
1,8
79
1,6
75
2,0
Socket
G5
G5
G5
G5
Service mortality rate: 48 000 h
Flow (lm)¹⁾
2600
3300
4300
4450
FDH (T16)
lm/W²⁾ cd/cm²
104
1,5
104
1,5
99
2,0
93
2,6
230 V
/827
-
/830
81501
81502
81503
81504
Service mortality rate: 48 000 h
/840
230 V
Long-life Thermo-fluorescent lamp Ø 26 mm straight
(T5). Fluorescent lamps, Double-capped linear,
High frequency ballast.
W
Socket
Flow (lm)¹⁾
lm/W
W
36
58
/940
81461
81462
81463
Long-life fluorescent lamp Ø 16 mm straight (T5)
Fluorescent lamps, Double-capped linear,
High frequency ballast
W
28
35
49
54
FD (
FLUORESCENT LAMPS
/827
/830
/840
Cir
CIR
FCH
W
22
40
55
60
30 V
30 V
40
461
462
463
30 V
40
-
30 V
ight
54
G5
4450
93
FDH (T16)
2,6
-
81504
Service mortality rate: 48 000 h
230 V
55
60
Fluorescent lamp T8
Long-life
FLUORESCENT LAMP
T8Thermo-fluorescent lamp Ø 26 mm straight
(T5). Fluorescent lamps, Double-capped linear,
rate:frequency
12 000 h (Conv.
drift), 17 000 h (HF drift) 230 V
FD (T26) Service mortalityHigh
ballast.
W
28
35
W
Socket
G5
G5
Socket
Fluorescent
lamp Ø 26 mm straight
Flow (lm)¹⁾
lm/W
/827 (T8),
/830
linear
2750Fluorescent
104lamps, Double-capped
81507
15
G13
18
G13 Active
FDH ActiViva
36
G13
58
G13
/840
/840
3400
104
81508
Flow
(lm)
lm/W
cd/cm² /827
/830
1000
67
1,0
81230 81186
1350
75 Service1,0
81231
81146
mortality
rate: 19
000 h 81225
230 V
3350Fluorescent
93lamp Ø1,25
81147 81226
16 mm 81233
straight (T5)
5200Fluorescent
89lamps, Double-capped
1,5
81234 linear,
81148 81227
High frequency ballast. 17 000 K.
FD (T26)
Long-life Flow
Service
mortality
rate: 46 000 h (Conv.), 60 000 h (HF) 230 V
W
Socket
(lm)¹⁾
lm/W²⁾
24
G5
1650Long-life fluorescent
69
81520
lamp Ø 26 mm straight (T8),
49
G5
4100Fluorescent
84lamps, Double-capped linear
81525
54
G5
4250
79
81521
W
Socket
Flow (lm)
lm/W cd/cm² /827
/830
/840
36
G13
3350
93
1,25
81505
Service mortality rate: 19 000 h 230 V
FDH ActiViva
58
G13 Natural 5200
90
1,5
81506
Fluorescent lamp Ø 16 mm straight (T5)
Fluorescent lamps, Double-capped linear,
High frequency ballast. 8 000 K.
W
24
49
54
Socket
G5
G5
G5
Flow (lm)¹⁾
1650
4100
4250
lm/W²⁾
69
84
79
81522
81523
81524
1) Nominal luminous flux measured at 25 °C temperature. Maximum luminous
flux
at 35 °C temperature
is approximatelyLAMP
10–14 % greater. Further information
CIRCULAR
FLUORESCENT
on page 432.
FCH (T-R 16)
Average mortality rate: 12 000 h 230 V
2) The lamps max. luminous flux is produced at 35 °C, which corresponds to the
lamp operating temperature
when operating
enclosed
luminaires at an ambient
Circular fluorescent
lamp in
Ø 16
mm (T5)
temperature of 25 °C.
Fluorescent lamps, Circular, High frequency ballast
Circular fluorescent lamp
W
Socket
Flow (lm)¹⁾
lm/W²⁾ cd/cm²
22
2GX13
1800
81
2,0
40
2GX13
3300
82
2,6
55
2GX13
4200
76
3,3
60
2GX13
5000
83
3,8
ballast losses have not been taken into consideration.
/827
81390
81392
-
/830
81391
81393
81312
81397
/840
81565
81566
81567
81568
FLUORESCENTwww.fagerhult.c
LAMPS
30 V
30 V
FLUORESCENT
LAMPT8
T8
Fluorescent lamp
FD (T26)
Service mortality rate: 12 000 h (Conv. drift), 17 000 h (HF drift)
230 V
Fluorescent lamp Ø 26 mm straight (T8),
Fluorescent lamps, Double-capped linear
W
15
18
36
58
Socket
G13
G13
G13
G13
FD (T26) Long-life
Flow (lm)
1000
1350
3350
5200
lm/W
67
75
93
89
cd/cm²
1,0
1,0
1,25
1,5
/827
81230
81231
81233
81234
/830
81186
81146
81147
81148
/840
81225
81226
81227
Service mortality rate: 46 000 h (Conv.), 60 000 h (HF) 230 V
Long-life fluorescent lamp Ø 26 mm straight (T8),
Fluorescent lamps, Double-capped linear
W
36
58
Socket
G13
G13
Flow (lm)
3350
5200
lm/W
93
90
cd/cm²
1,25
1,5
/827
-
/830
81505
81506
/840
-
FLUORESCENT T5 FDH:
40
461
462
463
At a size of 16mm in diameter, these lamps are available in two different
designs, HE (High Efficacy) with maximum luminous efficacy or HO (High
Output) with maximum luminous flux.
30 V
The fluorescent lamp is designed to give maximum luminous efficacy at an
ambient temperature of 35 degrees. They are powered by HF-electronic
CIRCULAR
ballasts,
and can FLUORESCENT
also be dimmed using LAMP
special HF-dimming ballasts.
40
-
FCH (T-R 16)
Average mortality rate: 12 000 h 230 V
CIRCULAR FLUORESCENT LAMPS T5 FC:
Circular fluorescent lamp Ø 16 mm (T5)
Fluorescent lamps,
High
frequency
Unlike normal T5 fluorescents,
theseCircular,
lamps are
designed
forballast
an ambient
temperature of 25 degrees.
W
Socket
Flow (lm)¹⁾
lm/W²⁾ cd/cm² /827
/830
/840
22
2GX13
1800
81
2,0
81390 81391 81565
The lamps are always powered by HF-ballasts. Also 16mm in diameter.
40
2GX13
3300
82
2,6
81392 81393 81566
55
2GX13
4200
76
3,3
81312 81567
FLUORESCENT LAMPS T8 FD:
60
2GX13
5000
83
3,8
81397 81568
30 V
ight
40
Circular fluorescent lamp
These 26mm in diameter lamps have high luminous efficacy, good colour
rendering, long lamp life and can also be dimmed.
FLUORESCENT LAMPS
Halogen LAMPS
lamps
HALOGEN
HSG/C (QT-tr9, QT-ax9, QT-ax12)
Average mortality rate: 3 000 h
12 V
INC
Inc
IAA/
Low voltage halogen lamp
Halogen lamps, Single-ended, General purpose
W
10
20
20
35
50
65
Socket
Flow (lm)
G4
G4
GY 6,35
GY 6,35
GY 6,35
GY 6,35
140
350
350
650
950
1575
lm/W
14
17
17
18
19
21
HEGT/F (QT-32)
Colour temp.
3000 K
3000 K
3000 K
3000 K
3000 K
3000 K
81207
81132
81198
81199
81100
81216
Average mortality rate: 2 000 h
Socket
E27
E27
E27
Flow (lm)
1470
2400
4200
HRGI (QR-CBC 51)
lm/W
15
17
17
Socket GU5,3
Colour temp.
2900 K
2900 K
2900 K
W
100
150
IRA/
81297
81209
81299
Average mortality rate: 4 000 h
12 V
Cold beam light with front glass
Halogen lamps, dichroic Reflector,
General purpose, Integral front cover
W
Colour temp. 10°
14°
24/25°
38°
42°
20
3000 K
81192
81190
35
3000 K
81440
81441
81442
50
3000 K
81445
81446
81447
71
3000 K
81212
81211
81210
Maximum luminous intensity (cd) directly in front of the lamp:
W
10°
14°
24/25°
38°
42°
20
6500
1000
35
11000
4400
2200
50
15000
5700
2800
71
11500
5500
2200
HMG 111
Socket G53
IAA/
230 V
Halogen lamp (mains voltage)
Halogen lamps, double Evenlope, single-ended,
General purpose (Bulged) Tubular /Frosted
W
100
150
250
W
40
60
75
100
W
60
100
IBP/
60°
81443
81448
60°
1100
1400
-
Average mortality rate:
3 000 h LAMPS
12 V
HALOGEN
W
40
71
HMG 111
-
11500
Socket G53
5500
-
2200
-
Average mortality rate: 3 000 h
12 V
Reflector halogen lamp 12 V
Halogen lamps, Metal reflector, General purpose
W
8°
65
81425
Maximum luminous intensity (cd) directly in front of the lamp:
W
8°
65
43000
HEGPAR
Socket E27
24°
81426
24°
7500
Average mortality rate: 2 000 h
230 V
Directed halogen lamp
Halogen lamps, Aluminized glass reflector,
General purpose
W
10°
12°
50
81294
75
81290
100
81291
Maximum luminous intensity (cd) directly in front of the lamp:
W
10°
12°
50
4300
75
6200
4500
100
7500
HAG (QR-51)
Socket GU5,3
Average mortality rate: 4 000 h
Cold beam lamp with front glass
Halogen lamps, Aluminium reflector,
General purpose
W
35
50
Maximum luminous intensity (cd) directly in front of the lamp:
W
35
50
414
30°
81295
81292
81293
30°
1300
2000
3000
12 V
36°
81408
81409
36°
1500
2100
www.fagerhult.c
HALOGEN LAMPS
HALOGEN LAMPS 12 V:
Excellent colour rendering, inexpensive, reasonable lamp life and can be
dimmed into very warm colour tempratures. All halogen lamps up to 50 W
currently used by Fagerhult are of low pressure type and in UV-block designs.
The disadvantage is that it’s poor in energy efficiency.
HALOGEN LAMPS 240 V:
These lamps have the same advantages as normal incandescent lamps,
however they are more efficient and have a slightly longer lamp life. Once
again, the disadvantage is its energy efficiency.
HALOGEN LAMPS
12 V
7
2
8
9
0
6
INCANDESCENT
LAMPS
Incandescent lamps
IAA/F (A60)
W
40
60
75
100
Socket
E27
E27
E27
E27
IAA/C (A60)
30 V
7
9
9
12 V
W
100
150
Socket
E27
E27
IRA/S (A60 CS)
W
60
100
Socket
E27
E27
IBP/F (D45)
0°
43
48
0°
00
00
12 V
W
40
Socket
E14
Average mortality rate: 1 000 h
Incandescent lamp (matt)
Incandescent lamps, A=bulb diameter > 45 mm,
A=pear shape, /Frosted
Flow (lm)
lm/W
Colour temp.
430
11
2700 K
730
12
2700 K
960
13
2700 K
1360
14
2700 K
230 V
81009
81014
81016
81020
Average mortality rate: 1 000 h 230 V
Incandescent lamp (clear)
Incandescent lamps, A=bulb diameter > 45 mm,
A=pear shape, /Clear
Flow (lm)
lm/W
Colour temp.
1380
14
2700 K
81018
2220
15
2700 K
81026
Average mortality rate: 1 000 h 230 V
Crown silver lamp (silver)
Incandescent lamps, Reflector lamps,
A=pear shape, /Silver
Flow (lm)
lm/W
Colour temp.
500
8
2700 K
81116
1000
10
2700 K
81017
Average mortality rate: 1 000 h 230 V
Incandescent lamp (matt)
Incandescent lamps, B=bulb diameter < 45 mm,
P=round bulb, /Frosted
Flow (lm)
lm/W
Colour temp.
405
10
2700 K
81010
INCANDESCENT LAMPS
A light source with some good properties such as good colour rendering, low
price, requires no ballast to operate and easy to dim. However it lacks in energy
efficiency and suffers short lamp life.
INCANDESCENT LAMPS
METALhalogen
HALOGENlamp
LAMP
Metal
HI
Hi
MT (HIT-CRI)
STH
W
35
70
Socket
G8,5
G8,5
MT (HIT-CRI)
W
35
70
150
Socket
G12
G12
G12
Average mortality rate: 12 000 h 230 V
Metal halogen lamp, with plug-in base
Metal halide lamps, Tubular
Flow (lm)
lm/W
Colour temp. Philips
Osram
3300
94
3000 K
81386
81430
6600
94
3000 K
81384
81431
14000
93
3000 K
81385
81432
Socket
PGJ5
Average mortality rate: 6 000 h
Metal halogen lamp, with plug-in base
Metal halide lamps, Tubular
Flow (lm)
lm/W
Colour temp. Philips
1650
83
3000 K
81406
MTm
W
20
MD (HIT-DE)
W
70
70
150
Average mortality rate: (35 W) 9 000–(70 W) 6 000 h 230 V
Metal halogen lamp, with plug-in base
Metal halide lamps, Tubular
Flow (lm)
lm/W
Colour temp. Philips
Osram
3300
94
3000 K
81404
81433
6600
94
3000 K
81405
81434
Socket
RX7 s
RX7 s
RX7 s
230 V
Average mortality rate: 6 000 h 230 V
Metal halogen lamp,
Metal halide lamps, Double-ended
Flow (lm)
lm/W
Colour temp.
6600
94
3000 K
81204
6000
85
4300 K
81168
13200
88
3000 K
81205
MR (HIPAR 20, HIPAR 30-L)
W
50
100
STH
W
50
100
SE-E
W
50
70
100
150
250
400
SE-I
230 V
Directed metal halogen lamp
Metal halide lamps, aluminized glass reflector
W
Socket
10°
30°
50
E27
Par 20
81380
81381
75
E27
Par 30
81382
Maximum luminous intensity (cd) directly in front of the lamp:
W
10°
30°
50
12800
6000
75
48000
-
40°
81383
40°
7000
METAL HALIDE/HALOGEN LAMPS
W
70
150
RX7 s
13200
88
3000 K
81205
MR (HIPAR 20, HIPAR 30-L)
230 V
Directed metal halogen lamp
Metal halide lamps, aluminized glass reflector
W
Socket
10°
30°
50
E27
Par 20
81380
81381
75
E27
Par 30
81382
Maximum luminous intensity (cd) directly in front of the lamp:
W
10°
30°
50
12800
6000
75
48000
MR
40°
81383
40°
7000
Average mortality rate: 7 500 h
230 V
Metal halogen lamp (GX8,5)
Metal halide lamps, metal reflector
W
10°
24°
35
81480
81481
70
81484
81485
Maximum luminous intensity (cd) directly in front of the lamp:
W
10°
24°
35
35000
8500
70
50000
15000
40°
81482
81486
40°
4000
9000
METAL HALOGEN LAMPS MT/MR/MD 35-150 W:
These light sources (Mastercolour) are equipped with a ceramic arc tube.
The light source’s white “sparkling” light is very similar to the 12 V halogen
lamps, but offers better properties such as energy efficiency and long lamp life.
MT-lamps are in UV-block design. The limitations are that they cannot generally
be dimmed. They have an ignition time of 2-3 minutes. Restart of hot lamps take
up to 15 minutes.
MERCURYlamps
LAMPS
Mercury
QE (HME)
Average mortality rate: 6 000–15 000 h
230 V
Mercury lamp, elliptical
W
50
80
125
250
Socket
E27
E27
E27
E40
Flow (lm)
2000
4000
6800
12700
lm/W
Colour temp.
50
3400 K
81270
50
3400 K
81271
55
3400 K
81272
51
4100 K
81109
METAL
HALIDE/HALOGEN
LAMPS
W
70
30 V
30 V
30 V
m
m
33
m
33
34
33
34
34
30 V
30 V
30 V
m
m
30
m
30
31
30
31
32
31
32
32
30 V
30 V
30 V
30 V
30 V
30 V
04
04
68
04
68
05
68
05
05
30 V
30 V
30 V
°
°
°
83
83
83
°
°
°
0
0
0
30 V
30 V
HIGH PRESSURE
SODIUMlamp
LAMP
High
pressure sodium
HIGH PRESSURE
SODIUMlamp
LAMP
High
pressure
sodium
HIGH
PRESSURE
SODIUM
LAMP
High
pressure
sodium
lamp
STH (HST-CRI)
Service mortality rate: 9 000 h
230 V
Service
mortality
rate:
9 000
h base
230 V
High pressure sodium lamp
”White
SON”,
with
plug-in
Service
mortality
rate:
9 000
h 230 V
High
pressure
with plug-in base
Sodium
lamps,sodium
Tubular,lamp
High”White
colour SON”,
rendering
High
pressure
lamp
SON”,
with plug-in base
Sodium
lamps,sodium
Tubular,
High”White
colour rendering
W
Socket
Flow (lm)
lm/W
temp.
Sodium
lamps, Tubular,
High colourColour
rendering
W
Socket
Flow
(lm)
lm/W
Colour
temp.
50 Socket
PG12-1
2300
46
2550
K
81319
W
Flow
(lm)
lm/W
Colour
temp.
50
2300
46
2550
81319
100 PG12-1
PG12-1
5000
50
2550 K
81320
50
PG12-1
2300
46
2550
KK
81319
100 PG12-1
5000
50
2550 K
81320
100 PG12-1
5000
50
2550 K
81320
STH
Service mortality rate: 9 000 h 230 V
STH
Service
mortality
rate:
9
000
h
V
High pressure sodium lamp
”Mini
White rate:
SON”,9 000 h 230
STH
Service
mortality
230 V
High
pressure
sodium lamp ”Mini White SON”,
with
plug-in
base
High
pressurebase
sodium lamp ”Mini White SON”,
with
plug-in
Sodium
lamps,
Tubular, High colour rendering
with
plug-in
base
Sodium
lamps,
Tubular,
High colourColour
rendering
W
Socket
Flow (lm)
lm/W
temp.
Sodium
lamps, Tubular,
High colour rendering
W
Socket
Flow
(lm)
lm/W
Colour
temp.
50
GX12-1
2400
48
2550
K
81398
W
Socket
Flow (lm)
lm/W
Colour
temp.
50
2400
48
2550
81398
100 GX12-1
GX12-1
4900
49
2550 K
81399
50
GX12-1
2400
48
2550
KK
81398
100
GX12-1
4900
49
2550 K
81399
100
GX12-1
4900
49
2550 K
81399
SE-E (HSE-E)
Service mortality rate: 16 000 h 230 V
SE-E (HSE-E)
mortality rate: 16 000 h 230 V
High pressure sodium Service
lamp, elliptical
SE-E (HSE-E)
Service
mortality rate: 16 000 h 230 V
High pressure sodium lamp, elliptical
High pressure sodium lamp, elliptical
External ignitor
External ignitor
W
Socket
Flow (lm)
lm/W
Colour temp.
External
ignitor
W
Socket
Flow
(lm)
lm/W
Colour
temp.
50
E27
3500
70
1950
K
81459
W
Socket
Flow
(lm)
lm/W
Colour
temp.
50
E27
3500
70
1950
K
81459
70
E27
5600
80
1950
81460
50
E27
3500
70
1950 KK
81459
70
E27
5600
80
1950
81460
100
E40
10200
102
1950 K
81261
70
E27
5600
80
1950
KK
81460
100
E40
10200
102
1950
81261
150
E40
14500
97
1950 K
81262
100
E40
10200
102
1950
KK
81261
150
E40
14500
97
1950
81262
250
E40
27000
108
1950 K
81263
150
E40
14500
97
1950
KK
81262
250
E40
27000
108
1950
81263
400
E40
48000
120
1950 K
81264
250
E40
27000
108
1950
KK
81263
400
E40
48000
120
1950 K
81264
400
E40
48000
120
1950 K
81264
SE-I (HSE-I)
Service mortality rate: 16 000 h 230 V
SE-I (HSE-I)
mortality rate: 16 000 h 230 V
High pressure sodium Service
lamp, elliptical
SE-I (HSE-I)
Service
mortality rate: 16 000 h 230 V
High pressure sodium lamp, elliptical
High pressure sodium lamp, elliptical
Internal ignitor
Internal ignitor
W
Socket
Flow (lm)
lm/W
Colour temp.
Internal
ignitor
W
Socket
Flow
(lm)
lm/W
Colour
temp.
70
E27
5900
84
2000
K
81260
W
Socket
Flow
(lm)
lm/W
Colour
temp.
70
E27
5900
84
2000 K
81260
70
E27
5900
84
2000
K
81260
These lamps (SDW-T 35 – 100 W) have a colour temperature that lies close
to the light from an incandescent lamp and reproduces most colours. Other
advantages are high efficiency and long lamp life.
STH (HST-CRI)
STH (HST-CRI)
The limitations are that these lamps cannot be dimmed. They have an ignition
time of 4 minutes and the restart of a hot lamp is up to 2 minutes.
HIGH PRESSURE SODIUM LAMP
MERCURYlamps
LAMPS
Mercury
QE (HME)
Average mortality rate: 6 000–15 000 h
230 V
Mercury lamp, elliptical
W
Socket
Flow (lm)
lm/W
Colour temp.
50
E27
2000
50
3400 K
81270
80
E27
4000
50
3400 K
81271
125
E27
6800
55
3400 K
81272
The
lamp is generally
outdoor use, but
hasKpoor colour
250 mercury
E40
12700applied for 51
4100
81109
rendering properties. The limitations is that the mercury lamps cannot be
variably dimmed. They have an ignition time of 5 minutes and the restart of hto
lamps takes between 2-3 minutes. They also have a very poor luminor efficacy
compared to most other discharge lamps. As the name suggests, the level of
gangerous mercury is also high giving the lamp a poor environmental story.
www.fagerhult.c
MERCURY LAMPS
CRI / RA FIGURES (COLOUR RENDERING INDEX) FOR LUMINAIRES:
Incandescent
100
Tungsten Halogen
100
Standard Fluorescent (Halophosphor)
60+
Fluorescent (triphosphor)
80+
Specialised Fluorescent (enhanced CRI)
90+
Standard Metal Halide
65
Ceramic Metal Halide
80+
Standard Mercury Vapour
45
High Pressure Sodium
25
White High Pressure Sodium
60
Low Pressure Sodium
15
Light Emitting Diodes (LED)
70+
SELECTED LAMP CHARACTERISTICS
LAMP TYPE
LUMINOUS
EFFICACY
LAMP LIFE
COLOUR
APPEARANCE
Tungsten Filament
5-20
1000-2000
Warm
Tungsten Halogen
15-25
2000-4000
Warm
High Pressure Mercury Vapour
35-60
5000-10000
Intermediate
Metal Halide
66-105
5000-10000
Warm, intermediate
or cool
Tubular Fluorescent (including
Compact Fluorescent)
35-105
5000-18000
Warm, intermediate
or cool
High Pressure Sodium
66-105
6000-24000
Warm
Low Pressure Sodium Vapour
100-185
6000-12000
Monochromatic
yellow
10-20 (white)
Up to 50000
Warm, intermediate
or cool
Light Emitting Diode (LED)