He and fq, Cold spot t, 40°c – OSRAM QUICKTRONIC-M ECG for circular FL 16 mm User Manual

21

2.14.1 Advantages for Users The following advantages for users arise from cut-off technology:

6-10 % higher luminaire efficiency

highest lamp life

2-3 W lower losses per lamp

reduced load of air condition

2.14.2 Physical Background T5/

∅ 16 mm-fluorescent lamps FH

®

…HE and FQ

®

…HO are designed to

have their maximum lumen output at 35 °C (compared to 25 °C for
T8/

∅ 26 mm). For T5/∅ 16 mm-fluorescent lamps the so-called cold spot

(the point where mercury condensates in a discharge tube, stamped end of
the lamp) is located behind the electrode (see graphics) which means near
the source of heat.

The value of the luminous flux at the ambient temperature of 35 °C is only
informative for the luminaire manufacturer. Significant is the value of the
cold spot temperature. This value is measured at the socket of the stamped
side, approx. in a distance of 2 mm of the glass. For an optimized luminous
flux this value should be between 45 °C and 50 °C. This is shown at the so
called ‘Horseshoe curves’ where the luminous flux is shown in relation to
the lamp ambient temperature.

The cold spot of the T5/

∅ 16 mm fluorescent lamps is influenced by

permanent filament heating. This means that higher temperatures reduce
the luminous flux. ECG with cut-off technology reduce the losses of the
system and are optimized regarding the maximum luminous flux of the

Rel.
Lum-
inous
flux

Only cut-off technology can fulfill lifetime

Lifetime [hours]

5.000h

10.000h

16.000h

14.000h

20.000h

100%

90%

80%

70%
60%

50%

40%

Conventional
ECG circuitry

Cut-off

13.

16.

16.

20.

Significantly lower temperatures at the
lamp electrodes

New circuitry wihtout permanent filament heating
(cut-off technology)

rel.
Licht-
strom

Umgebungstemperatur (°C)

Cut-off advantage for the luminaire

110

100

90

80

70

60

10

20

30

40

50

35°C

Conventional
ECG circuitry

Cut Offk

6 – 10% higher
luminaire efficiency for
direct lighting

I

Stift

= I

Lampe

I

Lampe

I

Stift

Cold Spot
app. 40°C

12.000h

18.000h

Rel.
Lum-
inous
flux

Only cut-off technology can fulfill lifetime

Lifetime [hours]

5.000h

10.000h

16.000h

14.000h

20.000h

100%

90%

80%

70%
60%

50%

40%

Conventional
ECG circuitry

Cut-off
Conventional
ECG circuitry

Cut-off

13.

16.

16.

20.

Significantly lower temperatures at the
lamp electrodes

New circuitry wihtout permanent filament heating
(cut-off technology)

rel.
Licht-
strom

Umgebungstemperatur (°C)

Cut-off advantage for the luminaire

110

100

90

80

70

60

10

20

30

40

50

35°C

Conventional
ECG circuitry

Cut Offk

6 – 10% higher
luminaire efficiency for
direct lighting

rel.
Licht-
strom

Umgebungstemperatur (°C)

Cut-off advantage for the luminaire

110

100

90

80

70

60

10

20

30

40

50

35°C

Conventional
ECG circuitry

Cut Offk

6 – 10% higher
luminaire efficiency for
direct lighting

I

Stift

= I

Lampe

I

Lampe

I

Stift

Cold Spot
app. 40°C

12.000h

18.000h

Cold Spot T

Hg opt.

≈ 40°C

T8 (Ø 26 mm)
T12 (Ø 38 mm)

T5 (Ø 16 mm)

Cold Spot T

Hg opt.

≈ 40°C

T8 (Ø 26 mm)
T12 (Ø 38 mm)

T5 (Ø 16 mm)