OSRAM DURIS™ S 5, GW PSLR32.PM

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Beschreibung

The compact, mid-power DURIS S 5 LED addresses three different luminous flux levels, using just one package and solder pad. With high efficacies, color quality and long lifetimes it is the ideal choice for all indoor General Lighting applications

Details

Parameter

Color of emission
White
CRI
70
Electrical power
0.95 W
High
Beam angle
120 °
Operating temperature
Top min.
-40 °C
Top max.
100 °C
Dimension
l
3.0 mm
w
3.0 mm
h
0.6 mm

Bestellinformation

Produkt-Typ Beschreibung Bestellnummer Verfügbarkeit
GW PSLR32.PM-LWLZ-A131-1 ΦV = 135.0 ... 155.0 lm, 6500 K (IF = 150 mA) Q65112A5610 Ausgelaufen
GW PSLR32.PM-LWLZ-A737-1 ΦV = 135.0 ... 155.0 lm, 3000 K (IF = 150 mA) Q65112A7117 Ausgelaufen
GW PSLR32.PM-LWLZ-XX51-1 ΦV = 135.0 ... 155.0 lm, 6500 K (IF = 150 mA) Q65112A5612 Ausgelaufen
GW PSLR32.PM-LWLZ-XX57-1 ΦV = 135.0 ... 155.0 lm, 3000 K (IF = 150 mA) Q65112A7116 Ausgelaufen
GW PSLR32.PM-LXL1-A131-1 ΦV = 140.0 ... 160.0 lm, 6500 K (IF = 150 mA) Q65112A7115 Ausgelaufen
GW PSLR32.PM-LXL1-A232-1 ΦV = 140.0 ... 160.0 lm, 5700 K (IF = 150 mA) Q65112A7114 Ausgelaufen
GW PSLR32.PM-LXL1-A333-1 ΦV = 140.0 ... 160.0 lm, 5000 K (IF = 150 mA) Q65112A5614 Ausgelaufen
GW PSLR32.PM-LXL1-XX51-1 ΦV = 140.0 ... 160.0 lm, 6500 K (IF = 150 mA) Q65112A7113 Ausgelaufen
GW PSLR32.PM-LXL1-XX52-1 ΦV = 140.0 ... 160.0 lm, 5700 K (IF = 150 mA) Q65112A7112 Ausgelaufen
GW PSLR32.PM-LXL1-XX53-1 ΦV = 140.0 ... 160.0 lm, 5000 K (IF = 150 mA) Q65112A5616 Ausgelaufen
GW PSLR32.PM-LYL2-A333-1 ΦV = 145.0 ... 165.0 lm, 5000 K (IF = 150 mA) Q65112A7111 Ausgelaufen
GW PSLR32.PM-LYL2-A535-1 ΦV = 145.0 ... 165.0 lm, 4000 K (IF = 150 mA) Q65112A7110 Ausgelaufen
GW PSLR32.PM-LYL2-XX53-1 ΦV = 145.0 ... 165.0 lm, 5000 K (IF = 150 mA) Q65112A7109 Ausgelaufen
GW PSLR32.PM-LYL2-XX55-1 ΦV = 145.0 ... 165.0 lm, 4000 K (IF = 150 mA) Q65112A7108 Ausgelaufen

Downloads

Datenblätter

GW PSLR32.PM · Datasheet · PDF · en_US

Anwendungshinweise

Brilliant Mix and Mix-to-Match — Professional white for general lighting applications · Product related · PDF · en_US
Light quality — White light parameters · Product related · PDF · en_US
Light quality — Color metrics · Product related · PDF · en_US
Customer complaint management — Details on return shipments for failure analysis request (FAR) · General information · PDF · en_US
Details on photobiological safety of LED light sources · General information · PDF · en_US
Importing rayfiles and ray-measurement files of LEDs · General information · PDF · en_US
Chemical compatibility of LEDs · General information · PDF · en_US
欧司朗光电半导体有限公司 LED 的测量、 · General information · PDF · en_US
ESD protection while handling LEDs · Handling recommendations · PDF · en_US
Handling of silicon resin LEDs · Handling recommendations · PDF · en_US
Dry pack information · Handling recommendations · PDF · en_US
Weitere Hinweise zum bleifrei Reflow-Löten von LEDs · Soldering and processing · PDF · en_US
Manual lead-free soldering of LEDs · Soldering and processing · PDF · en_US
Measuring of the temperature profile during the reflow solder process · Soldering and processing · PDF · en_US
Processing of SMD LEDs · Soldering and processing · PDF · en_US
Recommended pick-and-place tools of LEDs · Soldering and processing · PDF · en_US
PCB technologies for LED applications · Thermal management · PDF · en_US
Comparison of simple LED circuits for low power LEDs · Electrical design · PDF · en_US
Determination of resistances for brightness compensation · Electrical design · PDF · en_US
Dimming InGaN LEDs · Electrical design · PDF · en_US
LED driving technology for long term flexibility · Electrical design · PDF · en_US
The basic principles of Electrical Overstress (EOS) · Electrical design · PDF · en_US

Ressourcen

CAD Data · CAD Data · FOLDER
Electrical Simulation · Electrical Simulation · FOLDER
Optical Simulation · Optical Simulation · FOLDER

Bilder

DURIS S5 Gen 2 · Images · TIF

Tools

Horticulture

Calculation of different horticulture lighting scenarios with variations of LED configurations and ratios to realize the desired photon flux from the fixture and estimate the resulting photon flux density on the plants for a defined system setup.