Metal halide lamp with quartz burner HRI-TS
150W/NDL/230/XLN/RX7S
Logistic Data
Article No.32418876
CodeHRI-TS 150W/NDL/230/XLN/RX7S
Product EAN4008597188763
Customs tariff no.85393290
Box quantitiy (pcs.)12
EAN Box4008597488764
Gross weight of box in kg0.498
Length of box in m0.15
Width of box in m0.12
Height of box in m0.16
Pieces per palette8160
ETIM classEC000037
ETIM class nameMetal halide lamp without reflector
Electric Parameters
Lamp nominal wattage150 W
Rated wattage150.0 W
Mains voltage230 V
Ignition voltage4.0 bis 5.0
Hot restrike voltage35 kV
Lamp's nominal current1.8 A
Nominal choke current1.8 A
Compensation capacitor for 50Hz
operation
Energy Consumption kWh/1000h165
20 µF
Light Application Parameters
Luminous flux12500 lm
Rated lamp luminous flux12500 lm
Luminous efficiency of lamp83.33 lm/W
Colour temperature4200 K
Colour rendering index Ra85
Coloure rendering index Ra nominal85
Managing Director: Andreas Steinert · Chairman of the Supervisory Board: Peter Mannhart
Registry Court: Köln HRB 37474 · WEEE-Reg-Nr. DE 36655118
Page 2
Service Life
Mean service life12000 h
Info about service life12B50, 50Hz
Lamp survival factor at 2000h0.95
Lamp survival factor at 4000h0.90
Lamp survival factor at 6000h0.80
Lamp survival factor at 8000h0.85
Lamp survival factor at 12000h0.50
Lumen maintenance at 2000h0.86
Lumen maintenance at 4000h0.84
Lumen maintenance at 6000h0.80
Lumen maintenance at 8000h0.77
Lumen maintenance at 12000h0.73
Operation mode for LLMF/LSF50 Hz
Specification
Diameter max.23 mm
Length max.135 mm
Overall length135 mm
Contact distance132 mm
dimmablenein
Energylabel from 2013A
Mercury content12.3 mg
BaseRX7s-24
EU DirectiveTIM
ILCOS nameMD/UB-150/842-H-RX7s
LBS nameHIT-DE-h45 400W/952 Fc2
Notes:
Excellence metal halide lamp with quartz burner
Please, refer to www.radium.de/recycling for notes on disposal of burned-out lamps as well as lamp breakage.
The field 'info about service life' contains the frame conditions according to standards based on which the specific service
life has been determined. So, for example, "12B50, 50Hz" means that the mean service life (B50) has been determined
with a 12h switching cycle at mains (frequency 50Hz), "3B50, HF" is based on a 3h switching cycle at electronic control
gear (high frequency).
Managing Director: Andreas Steinert · Chairman of the Supervisory Board: Peter Mannhart
Registry Court: Köln HRB 37474 · WEEE-Reg-Nr. DE 36655118
Page 3
Notes
Base
RX7s
IEC/EN 60061-1
sheet 7004-92A-4
Spectrum
Natural daylight is a mixture of direct sunlight and the light of the sky. Therefore, its spectral composition
changes permanently due to the changing time of day. The standardised light classification D65 corresponds
to a daylight with a colour temperature of approximately 6500 K.
Every discharge lamp type has got an individual spectral power distribution according to its chemical filling.
From this result important properties light colour or colour rendering.
Should the spectral lines be very close together the lamp presumably has got a very good colour rendering
index, so, Ra might be near 100. Does the spectrum rather look like single lines or frayed out the colour
rendering of the lamp will probably be not as good.
If number and height of the spectral lines within the blue range (around 400 nm) prevails it might be a lamp
with a rather cold light colour like for example daylight. On the other hand, should the red (around 700 nm) or
the red and yellow (around 600 nm) range be dominant one can assume that the lamp will be a rather warm
light colour like WDL.
After the lamp start a metal hlide lamp needs about 2-4 minutes time to reach its full luminous flux, all colours
in the spectrum are within the discharge arc then.
Visible region from 380 to 780 nm; height of graph corresponding with relative spectral emission (400mW/klm)
per 10nm.
Managing Director: Andreas Steinert · Chairman of the Supervisory Board: Peter Mannhart
Registry Court: Köln HRB 37474 · WEEE-Reg-Nr. DE 36655118
Page 4
Standard circuit HID with external ignitor
Key:
L. = lamp
VG = electromagnetic ballast (KVG/VVG)
P = phase
N = zero potential
K = p. f. correction capacitor
Z = ignitor
The required control gear (here ignitor and ballast) for the
lamp’s operation is usually mounted in the suitable
luminaire in an appropriate electric circuit. Changes of any
kind are to be conducted by qualified and specialised
staff, only. Thus, this circuit example is to be understood
merely as a technical background information for
interested users.
ECG-operation up to 400W
Key:
L. = lamp
EVG = electronic ballast
P = phase
N = zero potential
The required control gear (here electronic ballast) for the
lamp’s operation is usually mounted in the suitable
luminaire in an appropriate electric circuit. Changes of any
kind are to be conducted by qualified and specialised
staff, only. Thus, this circuit example is to be understood
merely as a technical background information for
interested users.
Circuit for 230V-HID-lamps suitable for hot restrike
Key:
L. = lamp
VG = electromagnetic ballast (KVG/VVG)
P = phase
N = zero potential
K = p. f. correction capacitor
Z = ignitor
The required control gear (here ignitor and ballast) for the
lamp’s operation is usually mounted in the suitable
luminaire in an appropriate electric circuit. Changes of any
kind are to be conducted by qualified and specialised
staff, only. Thus, this circuit example is to be understood
merely as a technical background information for
interested users.
Managing Director: Andreas Steinert · Chairman of the Supervisory Board: Peter Mannhart
Registry Court: Köln HRB 37474 · WEEE-Reg-Nr. DE 36655118
Page 5
ECG-operation with additional ignitor
Key:
L. = lamp
EVG = electronic ballast
P = phase
N = zero potential
Z = ignitor
The required control gear (here ignitor and electronic
ballast) for the lamp’s operation is usually mounted in the
suitable luminaire in an appropriate electric circuit.
Changes of any kind are to be conducted by qualified and
specialised staff, only. Thus, this circuit example is to be
understood merely as a technical background information
for interested users.
Managing Director: Andreas Steinert · Chairman of the Supervisory Board: Peter Mannhart
Registry Court: Köln HRB 37474 · WEEE-Reg-Nr. DE 36655118
Page 6
Special features
General notes
The technical design data in accordance with DIN and IEC. The producer does not take any responsibility for
damage to persons or property in case of unsuitable operation or handling of the product. Operating data and
dimensions are valid within the usual tolerances. Related lamp types (different bases, mains voltages) may be
available on request. Sale and delivery are effected in accordance with the Radium Terms of Delivery and
Payment valid on the day of conclusion of contract. Packing units offer economical advantages to the purchase
and logistic department. Please match your quantity volume accordingly. For orders of a minimum quantity
(clefts) with a lamp model the amount lower than the volume of each packaging unit, we will invoice 10 %
additional charge per lamp type. Technical changes and terms of delivery are reserved. Manipulation of any
kind to packaging or product is not permissible as this will violate Radium brand rights. Furthermore, technical
properties of the product can change to its disadvantage or even destruction. Therefore, Radium cannot be
responsible for consequential damages.
® = Registered trademark
Subject to change without notice. Errors and omissions excepted.
Please, dump as special waste, no ordinary household