DR-Series Datasheet by Omron Electronics Inc-EMC Div

View All Related Products | Download PDF Datasheet
High Visibility, Double Reflection LEDs DR-Series 1
High Visibility, Double Reflection LEDs
DR-Series
Get Twice the Brightness or Use Half the
Energy of Typical LEDs
• Double reflection structure improves beam directivity for in-
creased brightness comparable to incandescent and similar
forms of lighting.
• Compact, 8.5 mm diameter LEDs with large luminous area.
• Designed for high-current applications.
• Greater purity of hue compared to other light sources.
Available in red, orange, yellow, blue, green and blue-green.
• LEDs require little or no preventive maintenance, increase
reliability and reduce cost of ownership compared to incan-
descent lighting.
• Through-hole mounting models; surface-mount versions
available soon.
• 100% quality: each LED is tested before shipping.
Ordering Information
Through-hole Mounting Models
Note: Higher intensity bins available upon request.
Typical Applications
Vehicle lighting
Consumer interior lighting
Traffic signals
Display/signage for indoor or outdoor use
Light source for optical sensor
Specifications
Absolute Maximum Rating (at Ta=25°C)
Color Dominant wavelength Terminal type Model number
Red 630 nm, typical Through-hole 2MDR01-85R1A
Orange 608 nm, typical 2MDR01-85O1A
Yellow 590 nm, typical 2MDR01-85Y1A
Green 530 nm, typical 2MDR01-85G1A
Blue-green 503 nm, typical 2MDR01-85BG1A
Blue 470 nm, typical 2MDR01-85B1A
Parameter Rated value Condition
Forward current If 50 mA ---
Pulse forward current IfP 70 mA ---
Reverse voltage Vr 5 V Ir = 100 µA (red, orange, yellow)
Ir = 100 µA (green, blue-green, blue)
Operating temperature Topr -30° to 85°C (-22° to 185°F) ---
Storage temperature Tstg -30° to 100°C (-22° to 212°F) ---
Operating humidity 30 to 90% RH ---
Solder temperature Tsol 260°C (500°F) for 6 seconds max.
OITIROn
2High Visibility, Double Reflection LEDs DR-Series
Optical and Electrical Characteristics (at Ta=25°C)
The color of light emitted by an LED is normally identified as a peak wavelength (lpk) measured in nanometers (nm) and also by spectral half
bandwidth (secondary).
Parameter Specification Condition
Color Minimum Typical Maximum
Forward voltage VFRed, orange, yellow 1.7 V 2.0 V 2.6 V IF = 20 mA
Green, blue-green,
blue
3.0 V 3.4 V 3.8 V
Reverse current IrRed, orange, yellow -- -- 100 µAV
r = 5 V
Green, blue-green,
blue
-- -- 100 µA
Peak wavelength λpeak Red -- 639 nm -- IF = 20 mA
Orange -- 612 nm --
Yellow -- 592 nm --
Green -- 520 nm --
Blue-green -- 525 nm --
Blue -- 460 nm --
Spectral half-width +λ 1/2 Red -- 17 -- IF = 20 mA
Orange -- 17 --
Yellow -- 17 --
Green -- 45 --
Blue-green -- 35 --
Blue -- 25 --
Dominant wavelength λ dRed 622 nm 630 nm 637 nm IF = 20 mA
Orange 600 nm 608 nm 615 nm
Yellow 583 nm 590 nm 600 nm
Green 520 nm 530 nm 540 nm
Blue-green 498 nm 503 nm 508 nm
Blue 465 nm 470 nm 475 nm
Luminous intensity lv Red 850 mcd 6000 mcd -- IF = 20 mA
Orange 850 mcd 4000 mcd --
Yellow 850 mcd 6000 mcd --
Green 850 mcd 8000 mcd --
Blue-green 850 mcd 5000 mcd --
Blue 850 mcd 2500 mcd --
omRon 5513 son as: 700 Wavelength [my Yellow Helalwe mensny 550 500 650 wavelengm lnm] Blue green Relallve Imensuy oocococco _Nmbmm\lmm 45a sou 550 EDD Wavelengm [nm] Orange mum lmensny go sec 550 me mmmgm [Nu] Green Helallve lnlenswy 700 ‘50 500 550 can WNW" [Hm] Blue Relawe Inlensuy 400 «so 500 550 son Wavelet-gm [um]
High Visibility, Double Reflection LEDs DR-Series 3
Engineering Data
Relative Intensity vs. Wavelength
Red Orange
Yellow Green
Blue-green Blue
omRon Orange, Yellow Green, Blue green, Blue 30 E25 gm 5 :5 3 10 n 005.152253354 °° "5 $.“mm‘v;.,,wf“ 25 J" Femammm Red 59 :45 Em -35 En 025 Ezu E‘s :m 7 5 n o 05 r ‘5 2 25 a V4, Forward Vanage M Red, 0range,Yellow Green, Blu green, Blue w :35 E Em E E25 3 szu :5 E‘s i gw ‘E k 5 u a 2n u: so so me mvmn... <2] mm="" mame,="" v2="" ‘="" as="" as="" 04="" relahvt="" lnlensxly="" 02="" 0="" 40-20-10="" 0="" mm="" 30="" 405060="" 70="" ed="" ambsem="" yempeqanue="" i‘cl="">
4High Visibility, Double Reflection LEDs DR-Series
Forward Current vs. Forward Voltage
Forward Current vs. Ambient Temperature
Relative Intensity vs. Ambient Temperature
Orange, Yellow Green, Blue-green, Blue
Red
Red, Orange, Yellow Green, Blue-green, Blue
omRon Red, Orange, Yellow Green, Blue-green, Blue 2.5 : 2o l5 Ill “duh-1 . «a. Relalwe Inlenslly H. 05 on A - . m .l .. m D ‘0 2° 3° 4° 50 m.” rm... "Al Forward Cunem KIM! Red Orange, Yellow Green, Blue-green, Blue l 09 as 07 05 05 or as 02 on an ,25 ~20 ~15 4n 6 n 5 m IS an 25 an 0 WMKWHCI 730 725720 45 40 s o 5 I0 Is 20 25 30 OlleLsAngleFC] Relative Inlenswy
High Visibility, Double Reflection LEDs DR-Series 5
Relative Intensity vs. Forward Current
Relative Intensity vs. Off Axis Angle
5HG2UDQJH<HOORZ *UHHQ%OXHJUHHQ%OXH
*UHHQ%OXHJUHHQ%OXH
5HG2UDQJH<HOORZ
omRon 05 254 :55 05 325 ANODE / l.— saghwz OITIROI'I.
+LJK9LVLELOLW\'RXEOH5HIOHFWLRQ/('V'56HULHV
'LPHQVLRQV
8QLWPP
$OO&RORUV
3UHFDXWLRQV
*HQHUDO
 'RQRWVWLFNDQ\IOX[RUFKHPLFDORQWKHVXUIDFHRIWKHHQYHORSH
 'RQRW DSSO\KHDY\ SUHVVXUHWRWKH'5 /('VDVLWZLOOGDPDJH
WKHP
6ROGHULQJ
 7KH'5/('VVKRXOGQRWEHVROGHUHGDERYHWKHWLHEDUEHFDXVH
RIWKHWKLQIODVKLQJ
 6ROGHU WKHOHDGV DW°&°) IRU  VHFRQGV PD[  PP
DZD\IURPWKHHSR[\HQYHORSH
2052121/,1(
*OREDOKWWSZZZRPURQFRP
86$KWWSZZZRPURQFRPRHL
&DQDGDKWWSZZZRPURQFD
$//',0(16,2166+2:1$5(,10,//,0(7(567RFRQYHUWPLOOLPHWHUVLQWRLQFKHVGLYLGHE\
&DW1R7&&$' 3ULQWHGLQ86$
20521&$1$'$,1&
0LOQHU$YHQXH
7RURQWR2QWDULR0%9

20521(/(&7521,&6//&
2QH&RPPHUFH'ULYH
6FKDXPEXUJ,/

6SHFLILFDWLRQVVXEMHFWWRFKDQJHZLWKRXWQRWLFH

Products related to this Datasheet

LED ORANGE 8.5MM ROUND T/H