FEATURES /
BENEFITS
RoHS Compliant
Unique multi-LED design provide superior illumination and
ability to mix colors
True non-polarized design
Incorporating AlInGaP and InGaN technology
Mounts directly into industry standard socket
High brightness with low current draw - uses up to 90% less
energy than incandescent
Long Life - up to 100K hours
No heat generated
Resistant to shock and vibration
Colors include red, green, yellow, blue and white, as well as
white/yellow and white/orange combinations
Dialight's line of based LED lamps is designed to directly
replace many popular subminiature and miniature incandescent
lamps. The benefits of LED technology over incandescent are
significant: They offer long life, are shock resistant, withstand
vibration and provide energy conservation.
586 Series BASED LED
T3 1/4 WEDGE (T10)
SPECIFICATIONS
Measurements are typical
Dimensions are inches [mm]
Operating Voltages: 6,12,14 and 24 VDC
Non-polarized
Operating temperature: -30oCto +85oC
Storage temperature: -40oCto +100oC
Replaces incandescent lamp numbers*: 159,
259, 444, 447, 555, 124, 158, 161, 168, 193
194, 658, 184, 3-505, 3-507
*See Dialight’s Incandescent lamp/based LED
cross reference for a complete listing
Dialight Corporation
1501 Route 34 South • Farmingdale, NJ 07727 USA
Tel: (1) 732-919-3119 • Fax: (1) 732-751-5778 • www.dialight.com
CONSIDERATIONS
Since lens caps act as filters for the light emitted from the based LED, it is important to match the emitting color of the LED.
If not matched properly, the overall light output may be substantially reduced. Dialight recommends using transparent lenses,
which will optimize the light output.
Although these lamps can be operated at a lower voltage, which will increase the life, the intensity will be reduced.
Operation of the based LED at a higher voltage should not exceed 10% above the recommended voltage.
Dialight does not recommend that based LED lamps be used in neon sockets.
MDEL586K001_C
Dialight reserves the right to make changes at any time
in order to supply the best product possible.