500 mw glass axial-lead lo w noise zene r diodes m i cro semi scottsdale division 8700 e. thom as rd. po bo x 139 0, scottsdale, az 85252 usa, ( 4 8 0 ) 941- 6300, fax: (480) 947-1 503 page 1 cop y right ? 200 3 11-05- 2003 re v c w w w . mi c r o s e m i . c o m scottsd a l e division 1n4099 thru 1n4135- 1 and 1n4614 thru 1n4627- 1 do-7 1 n 4 0 9 9 ? 1 n 4 1 3 5 - 1 & 1 n 4 6 1 4 ? 1 n 4 6 2 7 - 1 ( d o - 7 ) 4 1 3 5 - 1 & 1 n 4 6 1 4 ? 1 n 4 6 2 7 - 1 ( d o - 7 ) descripti on appeara n c e the po pula r 1n4 099 th ru 1n4 135 a nd 1n4 614 th ru 1n4 627 se rie s of 0.5 watt zene r voltag e re gulato r s provide s a sele ction fro m 1.8 to 10 0 volts in stand ard 5% toleran c e s as well a s tighter tolera nces identified by different suffix letters on the part numb e r. t he do-7 pa ckagin g opti on offers a ?straight-th r o ugh? sold ere d internal conne ction wi th a large r active die element th a n othe rwi s e provid ed in the smalle r do -35 pa ckag e when need ed. mi cro s e m i al so offers n u me rou s othe r z ener produ ct s to meet highe r and lo wer p o wer a p p licatio ns. import a n t : f o r the most cur r e n t data, consult mi c r os e m i ? s w e bsite: http:// www .microsemi.com features a p p l i c at ions / be ne fi ts ? jedec reg i ste r ed 1n409 9 thru 1 n 41 35 a nd 1n4 614 thru 1n4 627 seri e s ? internal l y s o ld e r bond ed ? also ava ila bl e i n jan, jant x, and jant xv qua lificati ons p e r mil-pr f - 19 500/4 35 b y a d d in g the jan, jant x, or jant xv prefixes to p a rt nu mbers for desir ed scree ni ng lev e l as w e ll as ?-1? suffix: e.g. jant x1n4 099 -1, jant xv1n 410 9d-1, etc. ? militar y surfac e mount ava i l a ble i n do-213 aa packa ge o u tlin e b y add in g a ur-1 suffi x in add ition to the jan, jant x, an d jant xv prefi x ; e.g. jant x1n4 099 ur-1 (see s e p a rate data s h e e t) ? commerci a l s u rface mou n t a l so ava ila ble i n separate data she e t as 1n4 099 ur to 1n4 135 ur, an d 1n4 614 ur to 1n4 627 ur in do-213aa p a c k age (consu l t factor y for others) ? sma l l e r d o -35 g l a ss b ody ax ia l - l e a d e d ze ner equ ival ents are also ava ila bl e ? reg u lates v o ltage ov er a bro ad op erati ng c u rrent and temp eratur e rang e ? exte nsive se le ction from 1.8 to 100 v ? standar d volta ge toler anc es are pl us/minus 5% w i t h no suffix ? t i ght tolerance s avail abl e in p l us or min u s 2 % or 1% w i th c or d suffix respectively ? f l exibl e a x i a l-l ead mo unti ng termina ls ? nons ensitiv e to esd per mil - st d-750 method 102 0 ? cap a citanc e al so specifi ed (s ee f i gur e 3) ? inhere n tl y r adi ation h a rd as d e scrib ed in mic r osemi micronote 050 max i mu m rat ing s mechan ic al an d pa ckagin g ? operatin g an d storage temp e r ature: -65 o c to +175 o c ? t hermal resist ance: 30 0 o c/w junction to l ead at 3/8 (10 mm) lea d l ength from b o d y , or 36 0 o c/w junctio n to ambie n t w h e n mounte d on f r 4 pc boar d (1 oz cu) w i th 4 mm 2 copper p ads a nd track w i dth 1 mm, length 25 mm ? stead y-state p o w e r: 0.5 w a tts at t l < 25 o c 3/8 inch (10 mm) from body or 0.417 w at t a < 25 o c w hen mounte d on f r 4 pc bo ard a s describ ed for thermal resistanc e ab o v e (also se e f i gure 2) ? f o r w a r d vo ltag e @20 0 ma: 1.1 volts (maxim u m) ? sold er t e mperatures: 260 o c for 10 s (max ) ? case: hermetically sealed ax ial-lead glass do-7 (d o-2 0 4 aa) pa cka ge ? t e rminals: lea ds, tin-le ad plated so ld era b le per mil-st d-750, method 20 26 ? polarit y : c a thod e in dicate d b y ban d w h e r e dio de is to be o perate d w i th th e ban de d en d positiv e w i th re spect to the op posite e nd for z ener regulation ? marking: part number ? t ape & reel optio n: standa rd per eia-296 (add ?t r? suffix to part number) ? w e igh t : 0.2 grams ? see pack a g e d i mensi ons o n l a st page do-7 (do-204aa)
500 mw glass axial-lead lo w noise zene r diodes scottsd a l e division 1n4099 thru 1n4135- 1 and 1n4614 thru 1n4627- 1 do-7 w w w . mi c r o s e m i . c o m 1 n 4 0 9 9 ? 1 n 4 1 3 5 - 1 & 1 n 4 6 1 4 ? 1 n 4 6 2 7 - 1 ( d o - 7 ) *electric a l ch ara cteri s tic s @ 25 o c nomin a l zener vo lt a g e v z @ i zt (no t e 1) zener test curren t i zt ma x i m u m zener imped a n ce z zt (no t e 2) m a xim u m rev e rse curren t i r @ v r ma x i m u m no ise density n d @ i zt (fig ure 1) ma x i m u m zener curren t i zm (no t e 3) ma x i m u m temp. coef f. of zener vo lt a g e vz jedec type no . vo lts a o h m s a vo lts v / h z m a % / o c 1n 46 14 1n 46 15 1.8 2.0 250 250 120 0 125 0 7.5 5.0 1 1 1 1 120 110 -0. 0 7 5 -0. 0 7 5 1n 46 16 1n 46 17 1n 46 18 2.2 2.4 2.7 250 250 250 130 0 140 0 150 0 4.0 2.0 1.0 1 1 1 1 1 1 100 95 90 -0. 0 7 5 -0. 0 7 5 -0. 0 7 5 1n 46 19 1n 46 20 1n 46 21 3.0 3.3 3.6 250 250 250 160 0 165 0 170 0 0.8 7.5 7.5 1 1.5 2 1 1 1 87 85 83 -0. 0 7 5 -0. 0 7 5 -0. 0 6 5 1n 46 22 1n 46 23 1n 46 24 3.9 4.3 4.7 250 250 250 165 0 160 0 155 0 5.0 4.0 10. 0 2 2 3 1 1 1 80 77 75 -0. 0 6 0 -0. 0 5 0 - 0 .0 50 + 0 .0 20 1n 46 25 1n 46 26 1n 46 27 5.1 5.6 6.2 250 250 250 150 0 140 0 120 0 10. 0 10. 0 10. 0 3 4 5 2 4 5 70 65 61 -0. 0 4 5 +0 .0 30 -0. 0 2 0 +0 .0 40 -0. 0 1 0 +0 .0 50 1n 40 99 1n 41 00 1n 41 01 6.8 7.5 8.2 250 250 250 200 200 200 10. 0 10. 0 1.0 5.1 7 5.7 0 6.2 4 40 40 40 56 51 46 0.0 6 0 0.0 6 5 0.0 7 0 1n 41 02 1n 41 03 1n 41 04 8.7 9.1 10 250 250 250 200 200 200 1.0 1.0 1.0 6.6 1 6.9 2 7.6 0 40 40 40 44 42 38 0.0 7 5 0.0 8 0 0.0 8 0 1n 41 05 1n 41 06 1n 41 07 11 12 13 250 250 250 200 200 200 .05 .05 .05 8.4 4 8.1 2 9.8 57 40 40 40 35 32 29 0.0 8 0 0.0 8 0 0.0 8 0 1n 41 08 1n 41 09 1n 41 10 14 15 16 250 250 250 200 100 100 .05 .05 .05 10. 65 11. 40 12. 15 40 40 40 27 25 24 0.0 8 5 0.0 8 5 0.0 8 5 1n 41 11 1n 41 12 1n 41 13 17 18 19 250 250 250 100 100 150 .05 .05 .05 12. 92 13. 67 14. 44 40 40 40 22 21 20 0.0 9 0 0.0 9 0 0.0 9 0 1n 41 14 1n 41 15 1n 41 16 20 22 24 250 250 250 150 150 150 .01 .01 .01 15. 20 16. 72 18. 25 40 40 40 19 17 16 0.0 9 0 0.0 9 0 0.0 9 0 1n 41 17 1n 41 18 1n 41 19 25 27 28 250 250 250 150 150 200 .01 .01 .01 19. 00 20. 45 21. 28 40 40 40 15 14 14 0.0 9 0 0.0 9 0 0.0 9 5 1n 41 20 1n 41 21 1n 41 22 30 33 36 250 250 250 200 200 200 .01 .01 .01 22. 80 25. 08 27. 38 40 40 40 13 12 11 0.0 9 5 0.0 9 5 0.0 9 5 1n 41 23 1n 41 24 1n 41 25 39 43 47 250 250 250 200 250 250 .01 .01 .01 29. 65 32. 65 35. 75 40 40 40 9.8 8.9 8.1 0.0 9 5 0.0 9 5 0.0 9 5 1n 41 26 1n 41 27 1n 41 28 51 56 60 250 250 250 300 300 400 .01 .01 .01 38. 76 42. 60 45. 60 40 40 40 7.5 6.7 6.4 0.1 0 0 0.1 0 0 0.1 0 0 1n 41 29 1n 41 30 1n 41 31 62 68 75 250 250 250 500 700 700 .01 .01 .01 47. 10 51. 68 57. 00 40 40 40 6.1 5.6 5.1 0.1 0 0 0.1 0 0 0.1 0 0 1n 41 32 1n 41 33 1n 41 34 1n 41 35 82 87 91 100 250 250 250 250 800 100 0 120 0 150 0 .01 .01 .01 .01 62. 32 66. 12 69. 16 76. 00 40 40 40 40 4.6 4.4 4.2 3.8 0.1 0 0 0.1 0 0 0.1 0 0 0.1 0 0 *j ede c regis t ered data. notes : 1. t he jedec t y pe n u mbers sho w n with no suffix have a standar d tole r ance of +/-5% on the nominal zen e r voltage: suffix c is used to identif y +/-2 %; and suffix d is to identify +/-1 % to lerance. v z is measured w i th the diode in thermal equilibrium in 25 o c still air . 2. zener imped ance is derived b y superimposing on i zt a 60 hz rms ac current equal to 10% of i zt (25 m i cro semi scottsdale division 8700 e. thom as rd. po bo x 139 0, scottsdale, az 85252 usa, ( 4 8 0 ) 941- 6300, fax: (480) 947-1 503 page 2 cop y right ?
500 mw glass axial-lead lo w noise zene r diodes m i cro semi scottsdale division 8700 e. thom as rd. po bo x 139 0, scottsdale, az 85252 usa, ( 4 8 0 ) 941- 6300, fax: (480) 947-1 503 page 3 cop y right ? w w w . mi c r o s e m i . c o m scottsd a l e division 1n4099 thru 1n4135- 1 and 1n4614 thru 1n4627- 1 do-7 1 n 4 0 9 9 ? 1 n 4 1 3 5 - 1 & 1 n 4 6 1 4 ? 1 n 4 6 2 7 - 1 ( d o - 7 ) 4 1 3 5 - 1 & 1 n 4 6 1 4 ? 1 n 4 6 2 7 - 1 ( d o - 7 ) outlin e a n d ci rcu i t noise density , (n d ) is specified in mi crovolt-rms per squre- root-he r tz. actua l measurement is perform ed using a 1 khz to 3 khz frequen cy bandpass filter at a constant z ener test c u rrent (i zt ) at 2 5 o c ambient tem peratur e. n d is calculated from the fo rmula. pd, max i mum po w e r dissipation (mw ) figure 1 t l ? l ead te mperatu r e ( o c ) 3/ 8 ? f r o m bo dy nois e dens ity measurement circ uit or t a o n fr4 pc bo ard figure 2 ? powe r de rati ng cu rve figure 3 capacitance vs . zener voltage (typical) pac k ag e dim e n s io ns all dimensi o n s i n : i n c h mm
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