KINGBRIGHT WP793ID Service Manual
SPEC NO: DSAF2465
REV NO: V.1 DATE: APR/19/2005 PAGE:
1OF4
APPROVED: J. Lu
CHECKED: Alle n Liu DR AWN: S. H.C HEN
ERP:1101007305
Package Dimen sion
s
Description
The High Efficiency Red source color devices are made with
Gallium Arsenide Phosphide on Gallium Phosphide Orange
Light Emitting Diode.
WP793ID HIGH EFF I CIENCY RED
Features
z
8mm DIAMETER BIG LAMP.
z
WIDE VIEWING ANGL E.
z
I.C.COMPATIBLE.
z
RELIABLE AND RUGGED.
z
LONG LIFE
-
SOLID STATE RELIABILITY.
z
RoHS COMPLIANT.
Notes:
1. All dime nsions ar e in m illimete rs (inc hes)
.
2.
Tolerance i s
±0
.25(0.01") unless otherwise noted
.
3. Lead spaci ng is m easur ed wher e the l eads em erge from the p ackage.
4. Specificati ons are subj ect to change without notic e
.
8
mm ROUND LED LAMP
SPEC NO: DSAF2465
REV NO: V.1 DATE: APR/19/2005 PAGE:
2OF4
APPROVED: J. Lu
CHECKED: Alle n Liu DR AWN: S. H.C HEN
ERP:1101007305
Selection Guid
e
Note:
1
.
θ
1
/2 is the angle from optical centerline where the luminous intensity is 1/2 the optical centerline value.
Electrical / Optical Characteristics at T
A
=25°CAbsolute Maximum Ratings at T
A
=25
°C
Notes:
1. 1/10 Duty Cycle, 0.1ms Pulse Width.
2. 2mm below package base.
3. 5mm below package bas e.
Part No.
Dice
Lens Type
Iv (mcd)
@ 20mA
Viewing
Angle
Min.
Typ.
2 θ 1/2
WP793ID
HIGH EFFICIENCY RED (GaAsP/GaP)
RED DIFFUSED
36
100
60
°
Symbol
Parameter
Device
Typ.
Max.
Test Conditions
Units
peak
Peak Wavelength
High Efficiency Red
627 nmIF=20mA
D
Dominant Wavelength
High Efficiency Red
625nmIF=20mA
1/2
Spectral Line Half
-
width
High Efficiency Red
45 nmIF=20mA
C
Capacitance
High Efficiency Red
15 pFVF=0V;f=1MHz
VFForward Voltage
High Efficiency Red
2.0
2.5
V
IF=20mA
IRReverse Current
High Efficiency Red
10uAVR = 5V
Parameter
High Efficiency Red
Units
Power dissipation
105
mW
DC Forward Current
30mAPeak Forward Current [1]
160mAReverse Voltage
5
V
Operating/Storage Temperature
-
40°C
To +85°C
Lead Solder Te mperature [2]
260°C
For 3 Seconds
Lead Solder Te mperature [3]
260°C
For 5 Seconds
λ
λ
∆λ
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