Lucalox ® PSL

GE Lighting ВАШ ВЫБОР • ConstantColor ™ CMH • Arcstream • Kolorarc • Multi-Vapor • Multi- Vapor High Output • Sportlight • Натриевые лампы высокого давления • Ртутные лампы высокого давления • Натриевые лампы низкого давления • Lucalox HO Lucalox ® T, Lucalox ® E, Lucalox ® HO, XO, PSL Lucalox ® TD, Lucalox ® RFL, Lucalox ® E-Z Lux ™, Lucalox ® I, Lucalox ® Superlife

Lucalox™ PSL – Техническое описание лампы




Лампы, произведенные по технологии Lucalox™ XO (Xtra Output) от GE устанавливают новые стандарты на рынке

Специально созданные для теплиц лампы Lucalox™ XO PSL обладают двумя преимуществами - практически неизменным световым потоком в течение жизни и необходимым для фото синтеза спектром излучения.




Lucalox™ PSL – преимущества для клиента




- Специально сконструированная для того, чтобы увеличить выход PAR (Photosynthetically Active Radiation/ Излучение Активизирующее Фотосинтез). PAR является мерой произведенного света, который растения используют для роста
- Надежность и продуктивность лампы подтверждается гарантией
- Широкий ряд таких продуктов от GE доступен на рынке
- Шестилетняя программа GE по развитию и улучшению серии LucaloxTM PSL обеспечивает продолжительный приток новых решений и разработок для конечного пользователя

Ряд Lucalox™ PSL 230V :
Доступные типы : 400W / 600W / 750W (750W -уникальный)
PSL – PhotoSynthesis Light (вместо GreenPower, Grolux, AgroLight)

Ряд Lucalox™ PSL 400V :
Доступные типы : 600W / 750W (750W -уникальный)




Упакованы в ящик

LucaloxTM PSL

PhotoSynthesis Light (PSL) Lamps with improved reliability specifically designed for Horticulture applications using GE’s XO technology. LucaloxTM PSL Clear Tubular 230V 400W, 600W and 750W LucaloxTM PSL Clear Tubular 400V 600W and 750W

•Superb Performance and High Reliability
– GE’s advanced sodium resistant ceramic helps eliminate early failures to give a rated service life* of 10,000 hours for the LucaloxTM PSL products.
– In order to achieve maximum performance, GE recommends lamp replacement when the Rated Service Life* is reached.
– The lamp uses extra rugged monolithic arctubes equiped with GE Reliable Starting Technology which provides continuous high performance.

• High Xenon-Fill gas delivers:
– extra light and PAR (Photosynthetically Active Radiation) output.
– more resistance to mains voltage fluctuations.

• Zirconium gettering system gives:
– improved PAR maintenance that drives constant and uniform plant growth

• Bulk Pack
– all lamps are available in a specially designed bulk pack for easy installation of lamps on site. This pack can also be used to transport used lamps to the recycling centers. Sturdy recycled cardboard, with carry handles, with no fee or extra charge for the pack.

• Top Marking
– with the increased use of 400V systems, these lamps will be clearly marked with the voltage and wattage on the top of the lamp to ensure correct installation
- the diameter of the frame wire in the lamp has been minimised to reduce shading in the installation without affecting the robustness of the lamp.

*Rated Service Life: Number of aging hours during lamps provide consistent and high performance of operation.

Physical Data

LucaloxTM PSL - PhotoSytnhesis Light, Clear Tubular
Watts	A Max. Length (mm)	B Arc Gap (mm)	C LCL (mm)	D Diameter (mm)	Cap	Bulb Glass	Packed Mass (g)	Operating Position	Standard Product Code (12)	Bulk Product Code (63)
LU400W/PSL	283	85	175	48	E40/45	Hard	210	Universal	17106	44304
LU600W/PSL	283	117	168	48	E40/45	Hard	220	Universal	17107	44305
LU750W/PSL	293	130	178	51	E40/45	Hard	230	Universal	17108	44306
LU400V/600W/PSL	283	117	168	48	E40/45	Hard	220	Universal	43440	43439
LU400V/750W/PSL	293	130	178	51	E40/45	Hard	230	Universal	43438	43437

Photometric Data

Photometric data is quoted in a horizontal orientation operating from a nominal ballast at rated supply volts.

Lamp Survival and PAR Maintenance

Rated service lamp life & PAR maintenance is based on laboratory tests of a large number of representative lamps under controlled conditions, including operation at 3 hours per start on ballasts having specified electrical characteristics. Reliability is also tested in large scale field tests in greenhouses. The following conditions can reduce average lamp life and lumen maintenance:
• frequent on/off switching
• high line voltage
• excessive vibration
• high ambient temperature within the fixture
• non-compatible ballast and ignitor characteristics.

Photometric data is quoted in a horizontal orientation operating from a nominal ballast at rated supply volts.

Typical Lamp Survival



Rated Service Life

The survival of individual lamps or particular groups of lamps depends on these system conditions (see Lamp Survival graph).
For cost-of-light calculations involving these lamps, it is suggested to replace both the 230V and the 400V type PSL lamps after 10,000 hours burning.

PAR Maintenance

Under the same controlled conditions, initial reference PAR value refers to the lamp light output after 100-hours burning. Due to variations in systems and service conditions (in particular the burning cycle and the operating system), actual lamp performance can vary from the reference PAR ratings.

Typical PAR Maintenance



Spectral Power Distribution – 230V type PSL lamps





Spectral Power Distribution – 400 V type PSL lamps





Electrical Data

Data 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 (Nominal)
Depending on systems conditions, lamp power can vary by ±2.5%

Run-Up Characteristics

The graph shows typical run-up characteristics for a LU600W/PSL lamp. The time needed for the light output to reach 90% of the final value is determined by the supply voltage and ballast design. Typical values are:

Hot Restrike Time

All ratings restrike within 5 minutes. This occurs when the lamp has cooled to a temperature at which the starting aid can re-establish the arc. The new solid state starting aid is integrally bonded to the arc tube for shorter restrike time, and improved reliability — no moving parts or welds.

Supply Voltage

Lamps are suitable for supplies in the range 220V to 250V 50/60 Hz (230V PSL) or 390 V to 420 V 50 Hz (400V PSL) for appropriately rated series choke (reactor) ballasts. Supplies outside these ranges require a transformer (conventional, high reactance or CWA) to ensure correct lamp operation. Lamps start and operate at 10% below the rated supply voltage when the correct control gear is used. In order to maximise lamp survival and PAR maintenance, 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. Lamps should be used with gears rated to lamp nominal supply voltage.

Mains Voltage variations-230V PSL



Mains Voltage variations-400V PSL





Ballasts

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 manufacturer's data for terminal identification and wiring information.






Lamp Operating Temperature Limits

Luminaire Voltage Rise

To maximize lamp life it is essential that luminaires are designed so that when lamps are enclosed lamp voltage rise does not exceed the following values:

Ballasts

To achieve correct lamp starting, performance and life, it is important that the lamp and ballast are compatible and suitably rated for the supply voltage at the luminaire. LucaloxTM PSL lamps comply with IEC62035 (HID Lamp Safety) standards. Ballasts used to operate these lamps should comply with ballast standards IEC60922 & IEC60923 and incorporate adequate overload protective measures to ensure that safety is maintained under abnormal lamp end-of-life rectification conditions as prescribed by IEC62035 and draft changes to luminaire standard EN60598-1. Ballast thermal protection is recommended for providing adequate protection. Ballast Voltage Adjustment — For series choke (reactor) ballasts a single additional tapping 10V (230V line voltage) or 20 V (400V line voltage) above the rated supply voltage are recommended. This will ensure lamps are not over loaded due to excessive supply voltage.


PFC Capacitors for Choke (Reactor) Circuits

Power Factor Correction is advisable in order to minimise supply current and electricity costs. For 220-250V supplies, 250V nominal voltage rated capacitors with ±10% capacitance tolerance are recommended. For 400 V supplies 450 V voltage rated capacitance are recommended as follows:

Ignitors

Ignitors should comply with specifications IEC60926 and IEC60927 and have starting pulse characteristics as follows:

1.When Loaded with 100 pF min. 3. At 90 % peak voltage
2. When Loaded with 20 pF max. 4. Pulse Phase Angle: 60-90°el and/or 240-270° el.


Timed Ignitors

Use of a “timed” or “cut-out” ignitor is not a specific requirement, but it is a good optional safety feature for the 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”). A period of 10 minutes continuous or intermittent operation is recommended before the ignitor is automatically switched off. Commercially available 10/11 minute timed ignitors are suitable.


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 50/60Hz voltage of 1000V. Mineral-insulated cables are 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 100pF (<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 directly from the ignitor manufacturer.