GE Lighting Special Lucalox High Pressure Sodium Lamps Lucalox Internal Ignitor Elliptical Clear 7W and Elliptical iffuse 5W and 7W Lucalox T ouble Ended 25W, 4W and 1W Lucalox E-Z Lux Elliptical iffuse 11W escription Lucalox Internal Ignitor lamps For use in luminaires without internal ignitor equipment Simplifies luminaire design Security/wall packs Pedestrian areas/downlighting Hotel/Motel Up to 17,5 hour life T SHEET T ouble Ended Lucalox lamps Lucalox efficiency in an ultra compact size Small size fits ultra compact fixtures Excellent optical control Concentrated beam of light exactly where needed High efficiency 2, hour life Instant restrike Floodlighting Security Sportlighting Lucalox E-Z Lux lamps Mercury retrofit lamp with no starter required lternative for 125W Mercury lamp 24, hour life Specification summary Nominal [W] Rated [W] Volts [V] Cap Lucalox Internal Ignitor - Elliptical Clear Product escription Product Code Street Lighting Nominal Lumen [lm] Rated Lumen [lm] Rated Lamp Efficacy [lm/w] CCT [K]* Colour Rendering Index [Ra]* Rated verage Life [hr] Mercury Content [mg] mbient Temperature [ C] 7 71 9 E27 LU 7/9/MO/I/E27 1/12 4629 61 64 91 2 25 17,5 1. 25 Lucalox Internal Ignitor - Elliptical iffuse 5 51 85 E27 LU5/85/MO//I/E27 1/12 MIH 88556 33 37 72 2 25 12, 1. 25 7 71 9 E27 LU 7/9/MO//I/E27 1/12 MIH 46186 575 6 86 2 25 17,5 1. 25 Lucalox T ouble Ended 25 256 1 RX7s-24 LU25/T 3241 225 22537 88 2 25 2, 21.1 25 4 43 1 RX7s-24 LU4/T 3244 43 4311 17 2 25 2, 21.1 25 1 994 25 RX7s-24 LU1/T 3246 137 13713 138 2 25 2, 21.1 25 Lucalox E-Z Lux - Elliptical iffuse - Mercury retrofit 11 113 11 E27 LUH11//27-SHx 39512 8 8435 75 2 25 24, 19.8 25 * CCT and CRI data are informative only due to the HPS performance. No regular measurements are taken on this parameters
imensions C Physical data Fig. 1 Fig. 2 Fig. 3 Length iameter Lucalox Internal Ignitor Elliptical Clear Fig. 1 C LCL rc Gap Cap ulb Glass Mass (g) Operating Position Minimum Starting Temperature 7 156 72 97 34.8 E27 Soft 7 Universal -4ºC Lucalox Internal Ignitor Elliptical iffuse Fig. 3 5 156 72 E27 Soft 7 Universal -4ºC 7 156 72 E27 Soft 7 Universal -4ºC Lucalox T ouble Ended Fig. 2 25 191 22.4 62.5 Rx7s Quartz 57 Hor. ±2º -4ºC 4 256 22.4 89.2 Rx7s Quartz 68 Hor. ±2º -4ºC 1 334 22.4 22 Rx7s Quartz 9 Hor. ±2º -4ºC Lucalox E-Z Lux Elliptical iffuse Fig. 3 11 175 72 E27 Soft 59 Universal -4ºC Photometric data Watts 1 Hour Lumens CCT [K] Lucalox Internal Ignitor Elliptical Clear Chromacity Coordinates x y CRI [Ra] Prop. IN535 Class. 7 6, 2,.53.43 25 4 Lucalox Internal Ignitor Elliptical iffuse 5 3,3 2,.53.43 25 4 7 5,8 2,.53.43 25 4 Lucalox T Tubular Clear ouble Ended 25 23, 2,.53.43 25 4 4 43, 2,.53.43 25 4 1 137, 2,.53.43 25 4 Lucalox E-Z Lux - Elliptical iffuse 11 8, 2,.54.4 25 4 Photometric data is quoted for the lamp in a horizontal orientation operating from a nominal ballast at rated supply volts. Relative intensity 12 1 8 6 4 2 Spectral power distribution ouble Ended and Internal Ignitor lamps Wavelength [nm] Spectral power distribution E-Z Lux 2
Electrical data ata is based on a nominal lamp operating from a nominal choke (reactor) ballast with power factor correction. Supply power is based on a typical commercially available ballast. Lamp data Lucalox Internal Ignitor Volts ±15 (V) Current [] Power [W] Current Crest Factor 5 85.76 5 1.45 7 9.98 7 1.45 Lucalox T ouble Ended 25 1 2.95 25 1.45 4 1 4.4 4 1.45 1 25 4.7 1 1.45 Lucalox E-Z Lux 11 115 1.22 11 1.42 Lamp survival and lumen maintenance verage lamp life & lumen maintenance is based on laboratory tests of a large number of representative lamps under controlled conditions, including operation at 1 hours per start on ballasts having specified electrical characteristics. The following conditions can reduce average lamp life and lumen maintenance: frequent on/off switching high line voltage vibration high ambient temperature within the fixture ballast and ignitor characteristics verage rated life The survival of individual lamps or particular groups of lamps depends on these system conditions, and actual data may fall within the lines, or dependent upon the lamp operating conditions even below the lower limit below (see Lamp surivival graph). For cost-of-light calculations involving these lamps, the following estimated operating times are suggested for 5% survival: Lucalox Internal Ignitor 5W 12, hours - 7W 17,5 hours Lucalox T ouble Ended 25-1W 2, hours Lucalox E-Z Lux 11W 24, hours Lumen maintenance Under the same controlled conditions, Initial Reference lumens refer to the lamp lumen output after 1-hours burning. ue to variations in systems and service conditions (in particular the burning cycle), actual lamp performance can vary from the reference lumen ratings. The lumen maintenance (light output during life) of individual lamps or particular groups of lamps may fall within the lines, or dependent upon the lamp operating conditions even below the lower limit line (see Lumen maintenance graph). 1 8 6 4 2 1 1 8 6 4 2 8 6 4 2 Internal ignitor 5W Lumen maintenance 5W Lamp Survival 5W 2 4 6 8 1 12 urning time (thousand hours) Internal ignitor 7W Lumen maintenance 7W Lamp Survival 7W 2 4 6 8 1 12 14 16 18 urning time (thousand hours) T ouble Ended Lumen maintenance 25-1W T Lamp Survival 25-1W T 4 8 12 16 2 urning time (thousand hours)
1 E-Z Lux lamps 8 6 4 Lumen maintenance Lamp survival 2 4 8 12 16 2 24 urning time (thousand hours) Run-up characteristics The graph shows typical run-up characteristics for a 25W Lucalox lamp. Time for the light output to reach 9% of the final value is determined by supply voltage and ballast design. Typical values are: 5 7 11 25 4 1 Run-up (mins) 4 <5 3 6 6 6 Typical run-up characteristics T ouble Ended and internal ignitor lamps Typical run-up characteristics E-Z Lux lamps 14% 14% 12% 12% Percentage of final value 1% 8% 6% 4% Percentage of final value 1% 8% 6% 4% 2% 2% % 1 2 3 4 5 6 7 8 9 1 Time from switch on (minutes) % 1 2 3 4 5 6 7 8 9 1 Time from switch on (minutes) Hot re-strike time Lucalox T ouble Ended ll ratings re-strike within 1 minute following a short interruption in the supply. ctual re-strike time is determined by ignitor type, pulse voltage and cooling rate of the lamp. T lamps can restrike immediately using suitable high starting pulse. Lucalox Internal Ignitor ll ratings must restrike between 1 and 7 minutes following a short interruption of power supply.
Supply voltage Lamps are suitable for supplies in the range 22V to 25V 5/6Hz for appropriately rated series choke (reactor) ballasts. Supplies outside this range require a transformer (conventional, high reactance or CW) to ensure correct lamp operation. Lamps start and operate at 1% below the rated supply voltage when the correct control gear is used. However, in order to maximise lamp survival, lumen maintenance and colour uniformity the supply voltage and ballast design voltage should be within ±3%. Supply variations of ±5% are permissible for short periods only. This may be achieved by measuring mean supply voltage at the installation and selecting ballasts with appropriate settings. 16% Effect of supply voltage variations on performance Internal ignitor and T ouble Ended lamps 14% Effect of supply voltage variations on performance E-Z Lux lamps Percentage of nominal value 14% 12% 1% 8% 6% 4% 2% Percentage of nominal value 12% 1% 8% 6% 4% 2% % 6 7 8 9 1 11 12 Supply voltage (%) % 9 95 1 15 11 Supply voltage (%) Control gear It is essential to use a ballast appropriate to the supply voltage at the luminaire. Typical wiring diagrams for control circuits incorporating Superimposed or Impulser ignitor and choke (reactor) ballast are shown. Refer to actual choke and ignitor manufacturers data for terminal identification and wiring information. typical wiring diagram for Lucalox Internal Ignitor HPS lamps and choke (reactor) ballasts is shown separately. Typical impulser ignitor circuit Typical superimposed ignitor circuit Phase allast Phase allast Fuse HC or MC PFC Capacitor Ignitor Fuse HC or MC PFC Capacitor Ignitor Lp N Neutral Neutral Warning o not use a Lucalox Internal Ignitor HPS lamp in an installation that has an external ignitor unit as this may cause the lamp to become inoperable. Compliance with IEC standards ll Elliptical lamps comply with IEC 6662.
Guidance for luminaire manufacturers Lamp operating temperature limits 5-11 25-1 (T) Max. ulb Temperature 31 C 75 C Max. Cap Temperature 21 C 35 C Luminaire voltage rise To maximise lamp life it is essential that luminaires are designed so that when lamps are enclosed lamp voltage rise does not exceed the following values: 5 7 25 4 1 Lucalox Internal Ignitor Voltage Rise (V) 5 5 Lucalox T ouble Ended Voltage Rise (V) 7 12 2 Control gear To achieve correct lamp starting, performance and life it is important that lamp and control gear are compatible and suitably rated for the supply voltage at the luminaire. allasts Lamps are fully compatible with ballasts manufactured for high pressure sodium lamps to IEC 6662. allasts should comply with specifications IEC 6922 and IEC 6923. allast thermal protection Use of ballasts incorporating thermal cut-out is not a specific requirement but is a good optional safety measure for the installation. allast voltage adjustment Series choke (reactor) ballasts incorporating additional tappings at ±1V of the rated supply voltage are recommended. lternatively a single additional tapping 1V above the rated supply voltage will ensure lamps are not overloaded due to excessive supply voltage. Ignitors Ignitors should comply with specifications IEC6926 and IEC6927 and have starting pulse characteristics as follows: Timed ignitors Use of a timed or cut-out ignitor is not a specific requirement, but it is a good optional safety feature for installation. The timed period must be adequate to allow lamps to cool and restart when the supply is interrupted briefly (see Hot re-strike time ). Cable between ignitor and lamp Cables connected between the lamp and a superimposed ignitor Lp terminal, or the ballast when using an impulser ignitor, must be rated at a minimum 5/6Hz voltage of 1V. Mineral insulated cable is not suitable for connecting the lamp to the control gear. To achieve good starting superimposed ignitors must be adjacent to the luminaire. Cable capacitance of wiring between the ignitor Lp terminal and the lamp should not exceed 1pF (<1 metre length) when measured to adjacent earthed metal and/or other cables, unless otherwise stated by the ignitor manufacturer. When using impulser type ignitors longer cable lengths between ballast and lamp are normally permissible. Limits for particular ignitors are available on request from GE Lighting or directly from the ignitor manufacturer. PFC capacitors for choke (reactor) circuits Power factor correction is advisable in order to minimise supply current and electricity costs. For 22-25V supplies 25V±1% rated capacitors are recommended as follows: 5 7 11 25 4 PFC Capacitor (µf) 8 8 1 3 4 Voltage (kv) (1) Max. Voltage (kv) (2) Width (µs) (3) Repetition Rate (4) HF Peak Current () Lucalox T ouble Ended 25 2.8.95 1 / cycle.2 4 2.8.95 1 / cycle.2 1 3.5.2 1 / cycle.2 1.When Loaded with 1 pf min. 3. t 9 % peak voltage 2. When Loaded with 2 pf max. 4. Phase ngle: 6-9 el and/or 24-27 el. www.gelighting.com/eu and General Electric are both registered trademarks of the General Electric Company GE Lighting is constantly developing and improving its products. For this reason, all product descriptions in this brochure are intended as a general guide, and we may change specifications from time to time in the interest of product development, without prior notification or public announcement. ll descriptions in this publication present only general particulars of the goods to which they refer and shall not form part of any contract. ata in this guide has been obtained in controlled experimental conditions. However, GE Lighting cannot accept any liability arising from the reliance on such data to the extent permitted by law. Lucalox TM Special ata Sheet March 212