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HID Lamps Notes

HID lamps

120

Measured vs Perceived Light 

Levels of HID Lamp

Studies on nighttime visibility demonstrate experimentally 

that the human eyes is sensitive to different colors of 

light based on various lighting levels, thus impacting 

the “true” or “effective” lumen output of a lamp. Recent 

research shows that the color of a light source has a 

significant effect on nighttime visibility, which is important 

since most road accidents happen at night. It is also well 

known that the eye responds to color differently based 

on the amount of light available.

While lumens are the standard measurement of light 

output, light is actually defined as energy evaluated by 

the eye. Standard lumen measurements are based on 

the light output response of a person only during high 

light levels (photopic light), typical of daylight and interior 

lighting. Light meters measure photopic light as seen 

by the central region of the eye. When light levels are 

very low, like starlight, the viewing conditions are referred 

to as scotopic. Under these conditions, the eyes visual 

response changes dramatically. Sensitivity to yellow and 

red light is greatly reduced, while response to blue light is 

vastly increased. Since lamp lumen measurements have 

been determined using photopic measurements, the 

lumen values do not accurately measure the effective 

light output as perceived by the human eye. 

Since the value of a lamp’s lumen output is different 

when considering the shifting color sensitivity of the eye 

at low levels, the effective lumens will be different from 

the measurable photopic lumens. As light diminishes 

from photopic to scotopic conditions, the effective 

lumens of yellow sodium light sources are reduced, and 

the effective lumens of the whiter metal halide sources 

increase. This effect is most dramatic for low pressure 

sodium (SOX) lamps. Almost all energy output from SOX 

lamps is yellow, resulting in an artificially high photopic 

lumen output, yet a very low perceived light output in 

low light level applications.

Typical metal halide lamps have strong light output 

in the blue, green and yellow areas, resulting in high 

lumen output at all light levels. The blue light output 

of metal halide is in the high sensitivity region of the 

eye for low light levels. This means that the effective 

lumens actually increase for a metal halide lamp as 

the light level reduces and the eye shifts to a blue/

green peak sensitivity. The ability to detect fine contrast 

is also significantly better under metal halide sources 

than sodium, making it a more effective light source in 

warehouse and retail applications.  Studies have shown 

that metal halide lighting, in some circumstances, can 

be up to six times as effective as HPS. This can make a 

difference in peripheral viewing and dark areas where 
hidden hazards may be present.

Metal Halide 2005 NEC Changes 

The 2005 update to the National Electrical Code (NEC) 
includes two changes that affect the manufacture 
and installation of metal halide luminaires. Both 
changes address methods for preventing risk when 
metal halide lamps are used. 

The purpose of these changes is to prevent possible 
injury and property damage. Metal halide lamps can 
explode, shooting hot glass out of the luminaire, or 
fixture. In an open luminaire - one that does not have 
a lens - this can result in a fire, personal injury, and 
property damage. Although violent failure is a rare 
occurrence (about three incidents per year), the NEC 
has included these changes to help eliminate the 
hazard. 

In sports facilities, particularly in schools, athletic 
activity can break the outer jacket of a metal 
halide lamp used in an open luminaire. When this 
happens, the arc tube can continue to operate with a 
damaged or missing outer jacket. This leads to reports 
of UV over-exposure, including sunburn and a burning 
sensation around the eyes. The NEC change requires 
complete lamp enclosure in these facilities, which 
will provide mechanical protection to reduce the 
possibility of damage to the outer lamp jacket. 

NEC changes for open luminaires 

The NEC change regarding open luminaires is the 
new section 410.73(F)(5) that states, “Metal Halide 
Lamp Containment. Luminaires (fixtures) that use a 
metal halide lamp other than a thick-glass parabolic 
reflector lamp (PAR) shall be provided with a 
containment barrier that encloses the lamp, or shall 
be provided with a physical means that only allows 
the use of a lamp that is Type O.” 

Therefore, to meet the 2005 NEC requirements, 
luminaires that use metal halide lamps must either: 

• Be enclosed to provide a containment barrier. 

•  Use a special lampholder that will only accept an 

ANSI Type O rated metal halide lamp. 

NEC 2005 changes for sporting facilities

 

The NEC change regarding open luminaires is the 
new section 410.4(E) that states, “Luminaires (fixtures) 
subject to physical damage, using a mercury vapor or 
metal halide lamp, installed in playing and spectator 
seating areas of indoor sports, mixed-use, or all-
purpose facilities shall be of the type that protects 
the lamp with a glass or plastic lens. Such luminaires 
(fixtures) shall be permitted to have an additional 
guard.”

Summary of Contents for HID Lamps

Page 1: ...HID Lamps ...

Page 2: ......

Page 3: ...s is the fact that they need a start up time to reach their full brightness This usually takes five to 10 minutes during which time the lamp will flicker until the metal inside fully vaporizes and the lamp reaches is full operating temperature Visible Light Electrode Arc Tube Filled with Gasses Metals Starting Electrode Probe New HID lamps require a burn in period of approximately 100 hours before...

Page 4: ...widely used HID category Typical applications General lighting such as commercial industrial outdoor flood lighting where good color and high efficiency are desired High Pressure Sodium Low Pressure Sodium SOX This series of HID lamps incorporates solid sodium mercury and xenon or a neon argon gas mixture within the arc tube This combination of metals and gasses produces an orange white light in t...

Page 5: ...W U MED PS 3K Clear Y Y M110 O 3200 65 3400 Univ 10000 5 7 16 12 S4847 MP50W C U MED PS 3K Coated Y Y M110 O 3000 70 3300 Univ 10000 5 7 16 12 70 ED17 Med S4856 MH70 U MED Clear Y N M98 E 4000 65 5600 Univ 15000 5 7 16 12 S4857 MH70 C U MED Coated Y N M98 E 3700 70 5300 Univ 15000 5 7 16 12 EDX17 Med S4848 MP70 U MED Clear Y Y M98 O 4000 65 5600 Univ 15000 5 7 16 12 S4849 MP70 C U MED Coated Y Y M...

Page 6: ...0 MP100 U MED Clear Y Y M90 O 4000 65 8500 Univ 15000 5 7 16 12 S4851 MP100 C U MED Coated Y Y M90 O 3700 70 8100 Univ 15000 5 7 16 12 ED28 Mog S4231 MH100W ED28 PS Clear Y N M90 E 4000 65 9000 Univ 15000 8 5 16 12 PAR38 Med S4888 S CDM100 PAR38 SP 3K Clear Y Y M140 M90 O 3000 85 70000 Univ 12500 5 5 16 12 S4814 S CDM100 PAR38 SP 4K Clear Y Y M140 M90 O 4000 93 25000 Univ 10000 5 5 16 12 S4889 S C...

Page 7: ... U MED Coated N N M57 E 3700 70 15250 Univ 10000 5 7 16 12 EDX17 Med S4828 S MP175 BU ONLY MED Clear N Y M57 O 3600 65 14400 BU 15 10000 5 7 16 20 ED17 Med S4234 MS175 BU MED PS Clear Y N M152 E 4000 65 17500 BU 15 15000 5 7 16 12 S4235 MS175 C BU MED PS Coated Y N M152 E 3700 70 16600 BU 15 15000 5 7 16 12 BT28 Mog S4829 MH175 U Clear N N M57 E 4000 65 14000 Univ 10000 8 5 16 6 ED28 Mog S4830 MH1...

Page 8: ... V PS Clear Y N M153 E 4000 65 25000 Vert 15 15000 8 5 16 12 S4252 MP250 BU UVS PS Clear Y Y M153 O 4000 65 23800 BU 15 15000 8 5 16 12 POMB S4275 MS250 HOR Clear N N M58 E 4000 65 23000 HOR 45 10000 8 5 16 12 S4240 MS250 H75 PS Clear Y N M153 E 4000 65 22000 HOR 75 12000 8 5 16 12 T15 Mog S4841 MH250 U T15 Clear N N M58 E 4000 65 21000 Univ 10000 8 5 16 12 POMB S4868 MS250 HOR T15 3K Clear N N M5...

Page 9: ...00 Univ 20000 11 1 2 6 S4276 MS400 BU Clear N N M59 E 4000K 65 40000 BU 15 20000 11 1 2 6 S4277 MS400 C BU Coated N N M59 E 3700K 70 38000 BU 15 20000 11 1 2 6 S4245 MS400 V PS Clear Y N M159 E 4000K 65 44000 Vert 15 20000 11 1 2 6 S4246 MS400 C V PS Coated Y N M159 E 3700K 70 42000 Vert 15 20000 11 1 2 6 S4388 S MP400 BU ONLY Clear N Y M59 O 3600 65 40000 BU 15 20000 11 1 2 6 S4258 MP400 BU UVS P...

Page 10: ...5 3 8 6 S4283 MS1000 BU Clear N N M47 E 4000 65 115000 BU 15 12000 15 3 8 6 BT37 Mog S4845 MH1000 U BT37 Clear N N M47 E 4000 70 110000 Univ 12000 11 1 2 6 S4391 MS1000 BU BT37 PS Clear Y N M141 E 4000 65 115000 BU 15 12000 11 1 2 6 1500 BT56 Mog S4837 MH1500 HBU Clear N N M48 E 3400 65 161000 BU 105 3000 15 3 8 6 S4839 MH1500 U XL Clear N N M48 E 4000 65 170000 Univ 6000 15 3 8 6 Retrofit MH Lamp...

Page 11: ...374 S SDW T 50W LV Clear S104AF 2700 85 2500 10000 5 7 8 12 ET23 5 Mog S1929 LU50 Clear S68 2100 22 4000 24000 7 3 4 12 S5122 S LU50 D Coated S68 2100 22 3700 24000 7 3 4 20 70 ED17 Med S3127 LU70 MED Clear S62 2100 22 6300 24000 5 7 16 12 S5123 S LU70 D MED Coated S62 2100 22 5800 24000 5 7 16 20 ET23 5 Mog S1930 LU70 Clear S62 2100 22 6300 24000 7 3 4 12 S5124 S LU70 D Coated S62 2100 22 5500 24...

Page 12: ...5 Mog S1932 LU150 55 Clear S55 2100 22 16000 24000 7 3 4 12 S5128 S LU150 55 D Coated S55 2100 22 14000 24000 7 3 4 20 200 ET18 Mog S5129 S LU200 ECO Clear S66 2100 22 22000 24000 9 5 8 20 250 ET18 Mog S1940 LU250 Clear S50 2100 22 28000 24000 9 5 8 12 BT28 Mog S5130 S LU250 D Coated S50 2100 22 26000 24000 8 31 32 10 310 ET18 Mog S5131 S LU310 ECO Clear S67 2100 22 37000 24000 9 5 8 20 400 ET18 M...

Page 13: ...H38 3900 50 4000 6000 5 7 16 20 ET23 1 2 Mog S1935 H38JA 100DX Coated H38 3900 50 4000 10000 7 1 2 12 R40 FL Med S4378 H38BP 100DX Coated H38 3900 50 2450 10000 7 1 2 12 175 ED28 Mog S1934 H39KC 175DX Coated H39 3900 50 7800 10000 8 1 4 12 S1936 H39KB 175 Clear H39 4500 20 7800 10000 8 1 4 12 R40 FL Med S4394 H39BP 175DX Coated H39 3900 50 5700 10000 7 1 2 12 250 ED28 Mog S1937 H37KC 250DX Coated ...

Page 14: ...T17 BY22D T21 BY22D HID Super5 Ballast Kits Ballast Capacitor Igniter BT28 BT37 ET18 Metal Halide Ballast Kits With Lamp Watts Satco Code Description Ballast Ansi Code Lamp Included Lamp Ansi Code Pack 175 S4397 S M175U Lamp Super5 BallastKit M57 H39 M175 U BT28 M57 E 1 250 S4398 S M250U Lamp Super5 BallastKit M58 H37 M250 U BT28 M58 E 1 400 S4399 S M400U Lamp Super5 BallastKit M59 H33 M400 U BT37...

Page 15: ...utput are sacrificed in certain positions Published rated life for universal lamps is based on operation in the vertical position Rated life for universal lamps operated horizontally is 75 of the published rating Shorter operating cycles also severely reduce life At operating cycles shorter than 10 hours per start life will shorten as follows 5 hrs per start Life is approx 75 of rating 2 5 hrs per...

Page 16: ...trast is also significantly better under metal halide sources than sodium making it a more effective light source in warehouse and retail applications Studies have shown that metal halide lighting in some circumstances can be up to six times as effective as HPS This can make a difference in peripheral viewing and dark areas where hidden hazards may be present Metal Halide 2005 NEC Changes The 2005...

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