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data sheet semiconductor http://www.yeashin.com 1 rev.02 20120403 zmm series silicon p l anar zene r diodes fe a t ures ?e silicon p l anar zener diode s in minimelf ca se espe cially for au to matic in ser t ion. the zener v o ltages are graded a c cording to th e in terna t iona l e 24 stan dard . small e r v o ltage to leran c es a nd highe r zener v o ltages on requ est. ?e the s e diode s are also av ailable in d o -35 ca se w i th the ty pe designa tion zpd1 thru zpd51. ?e the s e diode s are deliv ered ta ped. details see .taping .. ?e w e i ght approx . : 0.05g high tempera t ure sol dering : 260 ?e o c / 10 se cond s at te r m inals pb free produ ct a t av ailable : 99% s n abov e meet rohs ?e env ironment su bst a nce dire ctiv e reque st a b s o l u te m axim u m ra tin g s ( t a = 25 j ) s y m b o l s v a l u e s u n i t s zener current see tabl e "characte r istics" po w e r d i ss ipation at ta mb=25 j p t o t 5 0 0 1 ) m w juncti on tempe r atur e t j 1 7 5 j storage t e mperat ure range t s - 5 5 t o + 1 7 5 j n o te: (1) vali d pr ov ided that electrode s ar e kept a t amb i ent te mperature . charact eristics at ta mb=25 j s y m bol s m i n . t y p. m a x . uni t s thermal re sist ance j uncti on to ambi e n t a i r rt ha - - 0.3 1) k/m w n o te: (1) vali d pr ov ided that electrode s ar e kept a t amb i ent te mperature . mini melf ll-34 unit:inch(mm) .02 0 (0. 5 ) .01 2 (0. 3 ) .063 (1.6 ) . 055 (1.4 ) i cathode band solderable end 146 (3.7 ) . 130 ( 3.3 )
http://www.yeashin.com 2 rev.02 20120403 zmm series zener voltage range 1) dynamic resistance reverse leakage current temp. coefficient of zener voltage vznom izt fo r vzt 2) rzjt and rzjk at izk i and i 2) at v tkvz type v ma v [ [ ma g a g a v %/k zmm2v4 2.4 5 2.28 ... 2.56 <85 <600 1 <50 <100 1 -0.09 ? -0.06 zmm2v7 2.7 5 2.5 ? 2.9 <85 <600 1 <10 <50 1 -0.09 ? -0.06 zmm3v0 3.0 5 2.8 ? 3.2 <85 <600 1 <4 <40 1 -0.08 ? -0.05 zmm3v3 3.3 5 3.1 ? 3.5 <85 <600 1 <2 <40 1 -0.08 ? -0.05 zmm3v6 3.6 5 3.4 ? 3.8 <85 <600 1 <2 <40 1 -0.08 ? -0.05 zmm3v9 3.9 5 3.7 ? 4.1 <85 <600 1 <2 <40 1 -0.08 ? -0.05 zmm4v3 4.3 5 4.0 ? 4.6 <75 <600 1 <1 <20 1 -0.06 ? -0.03 zmm4v7 4.7 5 4.4 ? 5.0 <60 <600 1 <0.5 <10 1 -0.05 ? +0.02 zmm5v1 5.1 5 4.8 ? 5.4 <35 <550 1 <0.1 <2 1 -0.02 ? +0.02 zmm5v6 5.6 5 5.2 ? 6.0 <25 <450 1 <0.1 <2 1 -0.05 ? +0.05 zmm6v2 6.2 5 5.8 ?6.6 <10 <200 1 <0.1 <2 2 0.03 ? 0.06 zmm6v8 6.8 5 6.4 ? 7.2 <8 <150 1 <0.1 <2 3 0.03 ? 0.07 zmm7v5 7.5 5 7.0 ? 7.9 <7 <50 1 <0.1 <2 5 0.03 ? 0.07 zmm8v2 8.2 5 7.7 ? 8.7 <7 <50 1 <0.1 <2 6.2 0.03 ? 0 .08 zmm9v1 9.1 5 8.5 ? 9.6 <10 <50 1 <0.1 <2 6.8 0.03 ? 0.09 zmm10 10 5 9.4 ? 10.6 <15 <70 1 <0.1 <2 7.5 0.03 ? 0.1 zmm11 11 5 10.4 ? 11.6 <20 <70 1 <0.1 <2 8.2 0.03 ? 0.11 zmm12 12 5 11.4 ? 12.7 <20 <90 1 <0.1 <2 9.1 0.03 ? 0.11 zmm13 13 5 12.4 ? 14.1 <26 <110 1 <0.1 <2 10 0.03 ? 0.11 zmm15 15 5 13.8 ? 15.6 <30 <110 1 <0.1 <2 11 0.03 ? 0.1 1 zmm16 16 5 15.3 ? 17.1 <40 <170 1 <0.1 <2 12 0.03 ? 0.11 ZMM18 18 5 16.8 ? 19.1 <50 <170 1 <0.1 <2 13 0.03 ? 0.11 zmm20 20 5 18.8 ? 21.2 <55 <220 1 <0.1 <2 15 0.03 ? 0.11 zmm22 22 5 20.8 ? 23.3 <55 <220 1 <0.1 <2 16 0.04 ? 0.12 zmm24 24 5 22.8 ? 25.6 <80 <220 1 <0.1 <2 18 0.04 ? 0.12 zmm27 27 5 25.1 ? 28.9 <80 <220 1 <0.1 <2 20 0.04 ? 0.12 zmm30 30 5 28 ? 32 <80 <220 1 <0.1 <2 22 0.04 ? 0.12 zmm33 33 5 31 ? 35 <80 <220 1 <0.1 <2 24 0.04 ? 0.12 zmm36 36 5 34 ? 38 <80 <220 1 <0.1 <2 27 0.04 ? 0.12 zmm39 39 2.5 37 ? 41 <90 <500 0.5 <0.1 <5 30 0.04 ? 0.12 zmm43 43 2.5 40 ? 46 <90 <500 0.5 <0.1 <5 33 0.04 ? 0.12 zmm47 47 2.5 44 ? 50 <110 <600 0.5 <0.1 <5 36 0.04 ? 0.12 zmm51 51 2.5 48 ? 54 <125 <700 0.5 <0.1 <10 39 0.04 ? 0.12 zmm56 56 2.5 52 ? 60 <135 <700 0.5 <0.1 <10 43 0.04 ? 0.12 zmm62 62 2.5 58 ? 66 <150 <1000 0.5 <0.1 <10 47 0.04 ? 0.12 zmm68 68 2.5 64 ? 72 <200 <1000 0.5 <0.1 <10 51 0.04 ? 0.12 zmm75 75 2.5 70 ? 79 <250 <1000 0.5 <0.1 <10 56 0.04 ? 0.12 zmm82 82 2.5 77 ? 87 <300 <1500 0.25 <0.1 <10 62 0.05 ? 0.12 zmm91 91 1 85 ? 96 <450 <2000 0.1 <0.1 <10 68 0.05 ? 0.12 zmm100 100 1 94 ? 106 <450 <5000 0.1 <0.1 <10 75 0.05 ? 0.12 zmm110 110 1 104 ? 116 <600 <5000 0.1 <0.1 <10 82 0.05 ? 0.12 zmm120 120 1 114 ? 127 <800 <5500 0.1 <0.1 <10 91 0.05 ? 0.12 zmm130 130 1 124 ? 141 <950 <6000 0.1 <0.1 <10 100 0.05 ? 0.12 zmm150 150 1 138 ? 156 <1250 <6500 0.1 <0.1 <10 110 0.05 ? 0.12 zmm160 160 1 153 ? 171 <1400 <7000 0.1 <0.1 <10 120 0.05 ? 0.12 ZMM180 180 1 168 ? 191 <1700 <8500 0.1 <0.1 <10 130 0.05 ? 0.12 zmm200 200 1 188 ? 212 <2000 <10000 0.1 <0.1 <10 150 0.05 ? 0.12 notes: (1) tested with pulses tp=20ms. (2) valid provided that electrodes ar e kept at ambient temperature. (3) the zmm1 is a silicon diode with operation in forward dire ction. hence, the index of all parameters should be .f. instead o f .z.. connect the cathode electrode to the negative pole.
http://www.yeashin.com 3 rev.02 20120403 zmm series device characteristics 0 0 10 20 vz 40 30 zmm 36 zmm 15 test current iz 5ma 10 20 iz zmm 12 breakdown characteristics t j = constant (pulsed) ma 30 0 01 zmm 10 24 3 zmm 27 zmm 18 zmm 22 zmm 33 57 6 vz tj=25 c zmm... o 81 0 9 zmm 3.3 zmm 3.9 test current iz 5ma 20 10 30 breakdown characteristics t j = constant (pulsed) iz 40 50 ma zmm 1 o tj=25 c zmm 2.7 zmm 8.2 zmm 5.6 zmm 4.7 zmm... v v zmm 6.8
http://www.yeashin.com 4 rev.02 20120403 zmm series device characteristics forward characteristics ma i f v f 10 10 10 1 10 10 10 10 10 0 0.2 0.4 0.6 0.8 1fv 3 2 -1 -2 -3 -4 -5 tj=100ffc o tj=25ffc o admissiblefpowerfdissipation versusfambientftemperature validfprovidedfthatfelectrodesfarefkeptf atfambientftemperature. zmm... zmm... 500 400 300 200 100 0 0 100 200ffc t amb p tot mw o zmmf51 testfcurrentfizf 5ma 0 10 0 2 6 4 8 iz 20 30 40 50 60 vz 80 70 90 100 v zmmf43 breakdownfcharacteristics t jf =fconstantf(pulsed) ma 10 tj=25ffc o zmmf39 zmmf47 zmm...
http://www.yeashin.com 5 rev.02 20120403 zmm series device characteristics 1 t 1 zmm5.6 10 s 100v v r =2v 1 10 234 5 3 2 4 5 10 2 vz at iz=5 ma 5 43 v r =1v c tot zmm... pf 3 100 7 2 v r =2v 5 4 1000 7 v r =1v t j =25 c o capacitance versus zener voltage -5 10 10 -4 10 -3 10 -2 -1 t p 10 1 5 0.1 1 2 5 1 2 3 4 zmm6.2 6.8/8.2 10 iz 2 5 2 5 10 12 100ma dynamic resistance versus zener current r zj 10 2 4 3 5 100 0.1 2 5 1 o t j =25 c 18 15 27 22 33 zmm... 10 2 5 iz 2 5 100ma pulse thermal resistance versus pulse duration valid provided that the electrodes are kept at ambient temperature. k/w zmm... 4 0.1 7 3 2 4 5 0.05 0.01 0.02 10 3 2 v=0 t p t v= t p p i 0.5 0.2 10 7 5 2 2 5 4 3 10 7 3 zmm... 2 5 4 3 10 2 3 r zj 100 4 5 2 5 3 4 1000 5.1 4.7 3.6 2.7 zmm1 t j =25 c o dynamic resistance versus zener current r tha
http://www.yeashin.com 6 rev.02 20120403 zmm series device characteristics 10 o 10 t j =25 c vz at iz=5 ma iz=5 ma 1 1 2 10 43 5 234 5 100v 1 -5 23 vz at iz=5 ma 5 4 10 3 24 5 100v zmm... 5 zmm36 t j =25 c 3 2 5 4 10 7 2 dynamic resistance versus zener voltage 100 r zj 5 4 3 7 10 0.1 32 5 4 2 3 5 4 1 iz 24 3 2 10 7 2 5 7 3 4 r zj temperature dependence of zener voltage versus zener voltage o 0 5 10 15 25 20 vz tj mv/k 20ma iz=1ma 5ma zmm... vz tj 43 10ma 39 1 1 24 3 5 negative 5 3 2 4 10 47+51 2 4 3 2 r zth 10 5 r zth =r tha .vz. 3 2 4 5 100v vz at iz=5 ma 10 24 3 5 positive zmm... dynamic resistance versus zener current 3 thermal differential resistance versus zener voltage valid provided that electrodes are kept at ambient temperature 3 zmm...
http://www.yeashin.com 7 rev.02 20120403 zmm series device characteristics 5.1 0 vz 0.3 0.1 0.2 0.4 0.6 0.5 0.8 0.7 v x) vz=35 v 5.6 6.2 5.9 8 7 25 15 10 zmm... 0 10 -0.4 1 2 -0.2 34 5 vz at iz=5 ma 23 5 4 100v 0.6 0.2 0.4 0.8 1.2 1 change of zener voltge from turn-on up to the point of thermal equilibrium versus zener voltage vz=r zth .iz iz=5 ma 1.6 1.4 v zmm... zmm... 40 40 0 0 20 20 vz tj 60 80 100 100v 60 vz at iz=5 ma 80 iz=5 ma vz temperature dependence of zener voltage versus zener voltage mv/k zmm... 3 0 -1 20 40 60 1 0 2 iz=5 ma 120 t j 10080 140 o c 6 4 5 7 8 9 36v 43v vz bei iz=5ma 51v change of zener voltage versus junction temperature v vz
http://www.yeashin.com 8 rev.02 20120403 zmm series device characteristics 4 vz 1 2 3 100v 60 vz at iz=5 ma 80 iz=5 ma change of zener voltge from turn-on up to the point of thermal equilibrium versus zener voltage vz=r zth .iz v 5 zmm... iz=2 ma

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