spec no: dsab4382 rev no: v.7 date: nov/23/2005 page: 1 of 4 approved: j. lu checked: joe lee drawn: y.w.wang package dimensions & internal circuit diagram notes: 1. all dimensions are in millimeters (inches), tolerance is 0 .25(0.01")unless otherwise noted. 2. specifications are subject to change without notice. description the super bright green source color devices are made with gallium phosphide green light emitting diode. p/n: kpda02 - 102 super bright green surface mount display features 0.2 inch digit height. low current operation. excellent character appearance. i.c. compatible. mechanically rugged. package :300pcs / reel. gray face, white segment. rohs compliant.
spec no: dsab4382 rev no: v.7 date: nov/23/2005 page: 2 of 4 approved: j. lu checked: joe lee drawn: y.w.wang selection guide part no. dice lens type iv (ucd) @ 10ma min. typ. kpda02 - 102 super bright green (gap) white diffused 1900 10000 common anode, rt. hand decimal. description electrical / optical characteristics at t a =25 c absolute maximum ratings at t a =25 c note: 1. 1/10 duty cycle, 0.1ms pulse width. symbol parameter device typ. max. test conditions units peak peak wavelength super bright green 565 nm i f =20ma d dominant wavelength super bright green 568 nm i f =20ma ? 1/2 spectral line half - width super bright green 30 nm i f =20ma c capacitance super bright green 15 pf v f =0v;f=1mhz v f forward voltage super bright green 2.2 2.5 v i f =20ma i r reverse current super bright green 10 ua v r = 5v parameter super bright green units power dissipation 105 mw dc forward current 25 ma peak forward current [1] 140 ma reverse voltage 5 v operating/storage temperature - 40c to +85c
spec no: dsab4382 rev no: v.7 date: nov/23/2005 page: 3 of 4 approved: j. lu checked: joe lee drawn: y.w.wang super bright green kpda02 - 102
spec no: dsab4382 rev no: v.7 date: nov/23/2005 page: 4 of 4 approved: j. lu checked: joe lee drawn: y.w.wang kpda02 - 102 tape specifications (units : mm ) recommended soldering pattern (units : mm ) remarks: if special sorting is required (e.g. binning based on forward voltage, luminous intensity/ luminous flux, or wavelength), the typical accuracy of the sorting process is as follows: 1. wavelength: +/ - 1nm 2. luminous intensity/ luminous flux: +/ - 15% 3. forward voltage: +/ - 0.1v note: accuracy may depend on the sorting parameters.
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