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  llz2v4 thru llz56 500mw silicon zener diodes features ? hermetically sealed glass package ? zener voltage 2.4v to 56v ? for surface mount applications maximum ratings symbol value units max. steady state power dissipation at p d 500 mw junction temperature t j 175 storage temperature range t stg -6 5 to 175 electrical characteristics @ 25 unless otherwise specified symbol value unit max. forward voltage @ i f =200ma v f 1.5 v note: 1.some part number series have lower jedec registered ratings. mechanical data ? case: hermetically sealed glass ? polarity: cathode indicated by polarity band  
omponents 20736 marilla street chatsworth    !"# $
% !"# mcc www. mccsemi .com revision: 1 2005/12/22 a b c cathode mark 0.030? 0.1 05 0.0 75? suggested solder pad layout minimelf dimensions inches mm dim min max min max note a .134 .142 3.40 3.60 b .008 .016 .20 .40 c .055 .059 1.40 1.50 ? tm micro commercial components junction ambient r thja : 500 k/w 2.on pc board 50 mm x 50 mm x 1.6 mm ? (note:1) (note:2)
electrical characteristics (t l = 30 o c unless otherwise noted, www . mccsemi .com revision: 1 2005/12/22 mcc llz2v4-llz56 tm micro commercial components part- number- group part- number marking code zener voltage dynamic resistance test current reverse leakage current v z @ i zt z z @ i zt z zk @ i zk i zt i zk i r @ v r v v ? ? ma ma a v min max max max max llz2v4 llz2v4a ----- 2.33 2.52 100 2000 20 1 70 1 llz2v4b ----- 2.43 2.63 100 2000 20 1 70 1 llz2v7 llz2v7a ----- 2.54 2.75 100 1000 20 1 50 1 llz2v7b ----- 2.69 2.91 100 1000 20 1 50 1 llz3v0 llz3v0a ----- 2.85 3.07 80 1000 20 1 50 1 llz3v0b ----- 3.01 3.22 80 1000 20 1 10 1 llz3v3 llz3v3a ----- 3.16 3.38 70 1000 20 1 10 1 llz3v3b ----- 3.32 3.53 70 1000 20 1 10 1 llz3v6 llz3v6a ----- 3.455 3.695 60 1000 20 1 5 1 llz3v6b ----- 3.6 3.845 60 1000 20 1 5 1 llz3v9 llz3v9a ----- 3.74 4.01 50 1000 20 1 3 1 llz3v9b ----- 3.89 4.16 50 1000 20 1 3 1 llz4v3 llz4v3a ----- 4.04 4.29 40 1000 20 1 3 1 llz4v3b ----- 4.17 4.43 40 1000 20 1 3 1 llz4v3c ----- 4.3 4.57 40 1000 20 1 3 1 llz4v7 llz4v7a ----- 4.44 4.68 25 900 20 1 10 2 llz4v7b ----- 4.55 4.8 25 900 20 1 6 2 llz4v7c ----- 4.68 4.93 25 900 20 1 3 2 llz5v1 llz5v1a ----- 4.81 5.07 20 800 20 1 2 2 llz5v1b ----- 4.94 5.2 20 800 20 1 2 2 llz5v1c ----- 5.09 5.37 20 800 20 1 2 2 llz5v6 llz5v6a ----- 5.28 5.55 13 500 20 1 1 2 llz5v6b ----- 5.45 5.73 13 500 20 1 1 2 llz5v6c ----- 5.61 5.91 13 500 20 1 1 2 llz6v2 llz6v2a ----- 5.78 6.09 10 300 20 1 3 4 llz6v2b ----- 5.96 6.27 10 300 20 1 3 4 llz6v2c ----- 6.12 6.44 10 300 20 1 3 4 llz6v8 llz6v8a ----- 6.29 6.63 8 150 20 0.5 2 4 llz6v8b ----- 6.49 6.83 8 150 20 0.5 2 4 llz6v8c ----- 6.66 7.01 8 150 20 0.5 2 4 llz7v5 llz7v5a ----- 6.85 7.22 8 120 20 0.5 3 6.5 llz7v5b ----- 7.07 7.45 8 120 20 0.5 3 6.73 llz7v5c ----- 7.29 7.67 8 120 20 0.5 3 6.93 llz8v2 llz8v2a ----- 7.53 7.92 8 120 20 0.5 7.5 7.15 llz8v2b ----- 7.78 8.19 8 120 20 0.5 7.5 7.39 llz8v2c ----- 8.03 8.45 8 120 20 0.5 7.5 7.63 llz9v1 llz9v1a ----- 8.29 8.73 8 120 20 0.5 0.04 7.88 llz9v1b ----- 8.57 9.01 8 120 20 0.5 0.04 8.14 llz9v1c ----- 8.83 9.3 8 120 20 0.5 0.04 8.39 llz10 llz10a ----- 9.12 9.59 8 120 20 0.5 0.04 8.66 llz10b ----- 9.41 9.9 8 120 20 0.5 0.04 8.94 llz10c ----- 9.7 10.2 8 120 20 0.5 0.04 9.22 llz10d ----- 9.94 10.44 8 120 20 0.5 0.04 9.44
www . mccsemi .com revision: 1 2005/12/22 mcc llz2v4-llz56 tm micro commercial components llz11 llz11a ----- 10.18 10.71 10 120 10 0.5 0.04 9.67 llz11b ----- 10.5 11.05 10 120 10 0.5 0.04 9.98 llz11c ----- 10.82 11.38 10 120 10 0.5 0.04 10.28 llz12 llz12a ----- 11.13 11.71 12 110 10 0.5 0.04 10.6 llz12b ----- 11.44 12.03 12 110 10 0.5 0.04 10.9 llz12c ----- 11.74 12.35 12 110 10 0.5 0.04 11.2 llz13 llz13a ----- 12.11 12.75 14 110 10 0.5 0.04 11.5 llz13b ----- 12.55 13.21 14 110 10 0.5 0.04 11.9 llz13c ----- 12.99 13.66 14 110 10 0.5 0.04 12.3 llz15 llz15a ----- 13.44 14.13 16 110 10 0.5 0.04 12.8 llz15b ----- 13.89 14.62 16 110 10 0.5 0.04 13.2 llz15c ----- 14.35 15.09 16 110 10 0.5 0.04 13.6 llz16 llz16a ----- 14.8 15.57 18 150 10 0.5 0.04 14.1 llz16b ----- 15.25 16.04 18 150 10 0.5 0.04 14.5 llz16c ----- 15.69 16.51 18 150 10 0.5 0.04 14.9 llz18 llz18a ----- 16.22 17.06 23 150 10 0.5 0.04 15.4 llz18b ----- 16.82 17.7 23 150 10 0.5 0.04 16 llz18c ----- 17.42 18.33 23 150 10 0.5 0.04 16.5 llz20 llz20a ----- 18.02 18.96 28 200 10 0.5 0.04 17.1 llz20b ----- 18.63 19.59 28 200 10 0.5 0.04 17.7 llz20c ----- 19.23 20.22 28 200 10 0.5 0.04 18.3 llz20d ----- 19.72 20.72 28 200 10 0.5 0.04 18.7 llz22 llz22a ----- 20.15 21.2 30 200 5 0.5 0.04 19.1 llz22b ----- 20.64 21.71 30 200 5 0.5 0.04 19.6 llz22c ----- 21.08 22.17 30 200 5 0.5 0.04 20 llz22d ----- 21.52 22.63 30 200 5 0.5 0.04 20.4 llz24 llz24a ----- 22.05 23.18 35 200 5 0.5 0.04 20.9 llz24b ----- 22.61 23.77 35 200 5 0.5 0.04 21.5 llz24c ----- 23.12 24.31 35 200 5 0.5 0.04 22 llz24d ----- 23.63 24.85 35 200 5 0.5 0.04 22.4 llz27 llz27a ----- 24.26 25.52 45 250 5 0.5 0.04 23 llz27b ----- 24.97 26.26 45 250 5 0.5 0.04 23.7 llz27c ----- 25.63 26.95 45 250 5 0.5 0.04 24.3 llz27d ----- 26.29 27.64 45 250 5 0.5 0.04 25 llz30 llz30a ----- 26.99 28.39 55 250 5 0.5 0.04 25.6 llz30b ----- 27.7 29.13 55 250 5 0.5 0.04 26.3 llz30c ----- 28.36 29.82 55 250 5 0.5 0.04 26.9 llz30d ----- 29.02 30.51 55 250 5 0.5 0.04 27.6 llz33 llz33a ----- 29.68 31.22 65 250 5 0.5 0.04 28.2 llz33b ----- 30.32 31.88 65 250 5 0.5 0.04 28.8 llz33c ----- 30.9 32.5 65 250 5 0.5 0.04 29.4 llz33d ----- 31.49 33.11 65 250 5 0.5 0.04 29.9 llz36 llz36a ----- 32.14 33.79 75 250 5 0.5 0.04 30.5 llz36b ----- 32.79 34.49 75 250 5 0.5 0.04 31.2 llz36c ----- 33.4 35.13 75 250 5 0.5 0.04 31.7 LLZ36D ----- 34.01 35.77 75 250 5 0.5 0.04 32.3 part- number- group part- number marking code zener voltage dynamic resistance test current reverse leakage current v z @ i zt z z @ i zt z zk @ i zk i zt i zk i r @ v r v v ? ? ma ma a v min max max max max
www. mccsemi .com revision: 1 2005/12/22 llz2v4-llz56 tm micro commercial components typical characteristics (t amb = 25 c unless otherwise specified) llz39 llz39a ----- 34.68 36.47 85 250 5 0.5 0.04 32.9 llz39b ----- 35.36 37.19 85 250 5 0.5 0.04 33.6 llz39c ----- 36 37.85 85 250 5 0.5 0.04 34.2 llz39d ----- 36.63 38.52 85 250 5 0.5 0.04 34.8 llz39e ----- 37.36 39.29 85 250 5 0.5 0.04 35.5 llz39f ----- 38.14 40.11 85 250 5 0.5 0.04 36.2 llz39g ----- 38.94 40.8 85 250 5 0.5 0.04 37 llz43 llz43 --- 40 45 90 - 5 - 0.04 38 llz47 llz47 --- 44 49 90 - 5 - 0.04 41.8 llz51 llz51 --- 48 54 100 - 5 - 0.04 45.6 llz56 llz56 --- 53 60 100 - 5 - 0.04 50.4 part- number- group part- number marking code zener voltage dynamic resistance test current reverse leakage current v z @ i zt z z @ i zt z zk @ i zk i zt i zk i r @ v r v v ? ? ma ma a v min max max max max fig. 1 total power dissipation vs. ambient temperature fig. 2 typical change of working voltage under operating conditions at t amb =25c 0 40 80 120 160 0 100 300 400 500 600 p ?total power dissipation ( mw) tot t amb ? ambient temperature(c ) 200 200 0 5 10 15 20 1 10 100 1000 v ?voltagechange( mv ) z v z ? z-voltag e(v) 25 i z =5ma t j =25c fig. 3 typical change of working voltage vs. junction temperature fig. 4 temperature coefficient of vz vs. z-voltage ?60 0 60 120 180 0.8 0.9 1.0 1.1 1.2 1.3 v ? relativevoltagechange ztn t j ? junction temperature (c ) 240 v ztn =v zt /v z (25c) tk vz =10 x 10 ?4 /k 8x10 ?4 /k ?4 x 10 ?4 /k 6x10 ?4 /k 4x10 ?4 /k 2x10 ?4 /k ?2 x 10 ?4 /k 0 0102030 ?5 0 5 10 15 tk ?temperature coefficient of v ( 10 /k) vz v z ? z-voltag e(v) 50 40 z ?4 i z =5ma mcc
www . mccsemi .com revision: 1 2005/12/22 mcc llz2v4-llz56 tm micro commercial components fig. 5 diode capacitance vs. z-voltage fig. 6 forward current vs. forward voltage fig. 7 z-current vs. z-voltage 0 5 10 15 0 50 100 150 200 c ? diode capacitance ( pf ) d v z ? z-voltag e(v) 25 20 t j =25c v r =2v 0 0.2 0.4 0.6 0.8 0.001 0.01 0.1 1 10 100 1.0 i ? forward current ( ma) f v f ? forward voltag e(v) t j =25c 04 81216 20 0 20 40 60 80 100 i ? z-current ( ma) z v z ? z-voltage(v) p tot =500mw t amb =25c fig. 8 z-current vs. z-voltage fig. 9 differential z-resistance vs. z-voltage 15 20 25 30 0 10 20 30 40 50 i ? z-current ( ma) z v z ? z-voltag e(v) 35 p tot =500mw t amb =25c 0 5 10 15 20 1 10 100 1000 r ? differential z-resistance ( ? ) z v z ? z-voltag e(v) 25 t j =25c i z =1ma 5ma 10ma
www . mccsemi .com revision: 1 2005/12/22 mcc llz2v4-llz56 tm micro commercial components 1 10 100 1000 z ?thermalresistance for pulsecond.(k/w ) thp t p ? pulse length ( ms ) 10 ?1 10 0 10 1 10 2 t p /t=0.5 t p /t=0.2 t p /t=0.1 t p /t=0.05 t p /t=0.02 t p /t=0.01 single pulse r thja =300k/w t=t jmax ?t amb i zm =(?v z +(v z 2 +4r zj t/z thp ) 1/2 )/(2r zj ) x fig. 10 thermal response


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