cosmo electronics corp. document no. 69p00006.3 - 1 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z description the kt1000 series consist of an infrared emitting diode, optically coupled to a phototransistor detector, and is incorporated in a 4 pin lsop wide body package. it features a high current transfer ratio, low coupling capacitance and high isolation voltage. �z schematic 1. anode 2. cathode 3. emitter 4. collector �z features 1. halogen free 2. pb free and rohs compliant 3. high isolation voltage 5000vrms 4. opaque type, smd low profile 4 lead package 5. current transfer ratio (ctr : min.50% at i f =5ma v ce =5v) 6. 8mm outer creepage distance 7. dc input with transistor output 8. msl class 1 9. agency approvals: ? ul approved (no. e169586): ul1577 ? c-ul approved (no. e169586) ? vde approved (no. 40031267): din en60747-5-5 ? fimko approved: en60065, en60950, en60335, en60601 ? cqc approved: gb8898-2011, gb4943.1-2011 �z applications ? hybrid substrates that re quire high density mounting. ? programmable controllers. ? switch mode power supplies. ? microprocessor system interface. 2 1 3 4
cosmo electronics corp. document no. 69p00006.3 - 2 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z outside dimension unit : mm tolerance : 0.2mm �z device marking notes: cosmo 100 : ctr rank yww y: year code / ww: week code cosmo 100 yww
cosmo electronics corp. document no. 69p00006.3 - 3 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z absolute maximum ratings (ta=25 ) parameter symbol rating unit input forward current i f 50 ma peak forward current i fp 1 a reverse voltage v r 6 v power dissipation p d 100 mw output collector-emitter voltage v ceo 80 v emitter-collector voltage v eco 7 v collector current i c 50 ma collector power dissipation p c 150 mw total power dissipation ptot 250 mw isolation voltage 1 minute viso 5000 vrms operating temperature topr -55 to +100 storage temperature tstg -55 to +125 soldering temperature 10 second tsol 260 �z electro-optical characteristics (ta=25 ) parameter symbol conditions min. typ. max. unit input forward voltage v f i f =20ma C 1.2 1.4 v reverse current i r v r =4v C C 10 ua terminal capacitance ct v=0, f=1kh z C 30 250 pf output collector dark current i ceo v ce =20v, i f =0 C C 0.1 ua collector-emitter breakdown volta g e bv ceo ic=0.1ma, i f =0 80 - - v emitter-collector breakdown volta g e bv eco i e =100ua, i f =0 7 - - v transfer charac- teristics current transfer ratio ctr i f =5ma, v ce =5v 50 C 600 % i f =1ma, v ce =5v 15 collector-emitter saturation volta g e v ce (sat) i f =10ma, ic=1ma C 0.1 0.3 v isolation resistance riso dc500v, 40 to 60%rh 5x10 10 10 11 C floating capacitance cf v=0, f=1mh z C 0.6 1.0 pf response time (rise) tr vcc=2v,ic=2ma,r l =100 C 5 C us response time (fall) tf C 4 C us
cosmo electronics corp. document no. 69p00006.3 - 4 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler classification table of current transfer ratio is shown below. ctr rank ctr ( % ) kt1005 50 to 150 kt1006 100 to 300 kt1007 80 to 160 kt1008 130 to 260 kt1009 200 to 400 kt1000 50 to 600 fig.1 current transfer ratio vs. forward current current transfer ratio ctr ( % ) �2 �3 �6 �3 �1 �6 �1 �1 �6 �1 �2 �1 �1 �2 �6 �1 �3 �1 �1 �3 �6 �1 �4 �1 �1 �4 �6 �1 �5 �1 �1 �5 �6 �1 �6 �1 �1 ta=25 �1 �2 �1 v =5v �1 �/ �6 ce forward current i f (ma) fig.2 collector power dissipation vs. ambient temperature fig.3 collector dark current vs. ambient temperature collector power dissipation p c ( mw ) 50 100 0 -55 0 150 200 25 55 75 100 125 250 collector dark current i ceo ( a ) 115 10 10 -55 -11 -10 10 10 10 -9 -8 -7 50 25 0 75 100 -6 -5 c e v = 2 0 v 10 10 -25 ambient temperature ta ( ) ambient temperature ta ( ) fig.4 forward current vs. ambient temperature fig.5 forward current vs. forward voltage forward current i f ( ma ) 60 10 -55 0 20 025 30 40 50 50 75 100 125 forward current i f ( ma ) 20 1.0 0.5 0 1 2 5 10 3.0 2.5 2.0 1.5 500 100 50 200 ta=75 50 25 0 -25 ambient temperature ta ( ) forward voltage v f (v)
cosmo electronics corp. document no. 69p00006.3 - 5 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler fig.6 collector current vs. collector-emitter voltage fig.7 relative current transfer ratio vs. ambient temperature collector current i c (ma) 0 510 p (max) c 10 20 40 30 50 i =5m a f ta=25 i =10m a f i =20m a f i =30m a f relative current transfer ratio ( % ) -55 0 -25 50 25 50 100 75 150 100 0 i =5ma vce=5v f collector-emitter voltage v ce (v) ambient temperature ta ( ) fig.8 collector-emitter saturation voltage vs. ambient temperature fig.9 collector-emitter saturation voltage vs. forward current collector-emitter saturation voltage v ce ( v ) 0 -55 0 50 25 75 100 ic=1m a 0.02 0.04 0.06 0.10 0.08 0.12 0.16 0.14 i =10m a f collector-emitter saturation voltage v ce ( v ) ic=1ma 0 0 5 1 2 3 4 5 6 10 ic=7ma ic=5ma ic=3ma ta=25 ic=0.5ma c 7 ambient temperature ta ( ) forward current i f (ma) fig.10 response time (rise) vs. load resistance fig.11 response time (fall) vs. load resistance response rise time ( us ) 10 1 0.1 tr 0.5 0.2 0.1 1 2 5 10 20 100 50 ic= 2m a v =2v ta=25c ce response fall time ( us ) 10 0.1 1 0.1 0.2 1 0.5 5 2 20 10 ta=25 ic= 2 m a v = 2 v 100 50 c tf ce load resistance r l (k ) load resistance r l (k )
cosmo electronics corp. document no. 69p00006.3 - 6 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z test circuit for response time v c e t r t f 9 0 % 1 0 % 2 1 3 4 r v c c v c e i f i f l
cosmo electronics corp. document no. 69p00006.3 - 7 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z recommended soldering conditions (a) infrared reflow soldering �? peak reflow soldering �? time of peak reflow temperature �? time of temperature higher than 230 �? time to preheat temperature from 180~190 �? time(s) of reflow �? flux 260 or below (package surface temperature) 10 sec 30-60 sec 60-120 sec two rosin flux containing small amount of chlorine (the flux with a maximum chlorine content of 0.2 wt% is recommended.) recommended temperature prof ile of infrared reflow 180 190 230 260 60-120 sec 30-60 sec t (s) temperature 10 sec max. (b) wave soldering �? temperature �? time �? preheating conditions �? time(s) of reflow �? flux 260 or below (molten solder temperature) 10 seconds or less 120 or below (package surface temperature) one rosin flux containing small amount of chlorine (the flux with a maximum chlorine content of 0.2 wt% is recommended.) (c) cautions �? fluxes avoid removing the residual flux with freon-based and chlorine-based cleaning solvent. �? avoid shorting between portion of frame and leads.
cosmo electronics corp. document no. 69p00006.3 - 8 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z numbering system kt100 y (z) notes: kt100 = part no. y = ctr rank option (0 5 ~ 9) z = tape and reel option (tld tru) option description packing quantity tld tld tape & reel option 3000 units per reel tru tru tape & reel option 3000 units per reel �z recommended pad layout for surface mount lead form unit : mm
cosmo electronics corp. document no. 69p00006.3 - 9 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z 4-pin lsop carrier tape & reel tolerance � 0.2mm
cosmo electronics corp. document no. 69p00006.3 - 10 - http://www.cosmo-ic.com cosmo kt1000 series 4pin lsop phototransistor photocoupler �z application notice the content of datasheet is the gui dance for product use only. cosmo takes no responsibility to the accuracy of the information provid ed here. for continuously improving all of products, including quality, reliability, function...etc., cosmo reserves the right to cha nge the specification, characte ristics, data, materials, and structure of products without notic e. please contact with cosmo to obtain the latest specification. it would be required to comply with the absolute maxi mum ratings listed in the specification. cosmo has no liability and responsibility to the damage caused by improper use of the products. cosmo products are intended to be designed for use in general electronics application list below: a. personal computer b. oa machine c. audio / video d. instrumentation e. electrical application f. measurement equipment g. consumer electronics h. telecommunication cosmo devices shall not be used or related with equipment requiring higher level of quality / reliability, or malfunction, or failure which may cause loss of hum an life, bodily injury, includes, without limitation: a. medical and other life supporting equipments b. space application c. telecommunication equipment (trunk lines) d. nuclear power control e. equipment used for automotive vehicles, trains, ships...etc. this publication is the property of cosmo. no part of this publication may be reproduced or copied in any form or any means electronically or mechanically for any purpos e, in whole or in part without any written permission expressed from cosmo.
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