OSRAM DURIS® E 5, GW JDSTS2.CM

×

설명

Introducing the new Generation-2 DURIS® E 5 which combines higher efficacy and higher flux in a compact industry-compatible form factor (5.6 mm x 3.0 mm). Fully compatible with our Generation-1 device for ease of replacement and upgrade. Perfectly suitable for various homogeneous illumination applications such as tubes and other indoor applications such as downlights and office recessed fixtures.

세부 정보

조건

Color of emission
White
CRI
90
Electrical power
0.18 W
Mid
Brightness
ΦV
27.8 lm
IV
9.38 cd
ΦE
93.7 mW
IE
31.7 mW/sr
Beam angle
120 °
Operating temperature
Top min.
-40 °C
Top max.
100 °C
Dimension
l
5.6 mm
w
3.0 mm
h
0.6 mm

주문 코드

제품 유형 설명 주문 번호 재고 여부
GW JDSTS2.CM-H1H4-XX56-1-2 ΦV = 28.5 ... 34.5 lm, 3500 K (IF = 65 mA) Q65112A8971
GW JDSTS2.CM-H2H5-XX51-1-2 ΦV = 30.0 ... 36.0 lm, 6500 K (IF = 65 mA) Q65112A8983
GW JDSTS2.CM-H2H5-XX53-1-2 ΦV = 30.0 ... 36.0 lm, 5000 K (IF = 65 mA) Q65112A8973
GW JDSTS2.CM-H2H5-A131-1-2 ΦV = 30.0 ... 36.0 lm, 6500 K (IF = 65 mA) Q65112A8883
GW JDSTS2.CM-GWH3-XX57-1-2 ΦV = 27.0 ... 33.0 lm, 3000 K (IF = 65 mA) Q65112A8982
GW JDSTS2.CM-GWH3-A737-1-2 ΦV = 27.0 ... 33.0 lm, 3000 K (IF = 65 mA) Q65112A8859
GW JDSTS2.CM-H2H5-A232-1-2 ΦV = 30.0 ... 36.0 lm, 5700 K (IF = 65 mA) Q65112A8882
GW JDSTS2.CM-H1H4-A535-1-2 ΦV = 28.5 ... 34.5 lm, 4000 K (IF = 65 mA) Q65112A8861
GW JDSTS2.CM-H1H4-A636-1-2 ΦV = 28.5 ... 34.5 lm, 3500 K (IF = 65 mA) Q65112A8860
GW JDSTS2.CM-H2H5-A333-1-2 ΦV = 30.0 ... 36.0 lm, 5000 K (IF = 65 mA) Q65112A8862
GW JDSTS2.CM-H2H5-XX52-1-2 ΦV = 30.0 ... 36.0 lm, 5700 K (IF = 65 mA) Q65112A8974
GW JDSTS2.CM-H1H4-XX55-1-2 ΦV = 28.5 ... 34.5 lm, 4000 K (IF = 65 mA) Q65112A8986
GW JDSTS2.CM-GVH2-A838-1-2 ΦV = 25.5 ... 31.5 lm, 2700 K (IF = 65 mA) Q65112A8884
GW JDSTS2.CM-GVH2-XX58-1-2 ΦV = 25.5 ... 31.5 lm, 2700 K (IF = 65 mA) Q65112A8981

다운로드

데이터시트

Datasheet

애플리케이션 노트

이미지

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.