Microsemi Corp. The code expens SANTA ANA, CA SCOTTSDALE, AZ For more information call: (714) 979-8226 i (602) 941-6300 APPLICATION This TAZ* series has a peak pulse power rating of 1500 watts for one millisecond. It can protect integrated circuits, hybrids, CMOS, MOS and other voltage sensitive components that are used in a broad range of applications including: telecommunications, power supplies, computers, automotive, industrial and medical equipment. TAZ* devices have become very important as a consequence of their high surge capability, extremely fast response time and low clamping voltage. The cellular die (CD) package is ideal for use in hybrid applications and for solder mounting. The cellular design in hybrids assures ample bonding with immediate heat sinking to provide the required transient peak pulse power of 1500 watts. FEATURES w Economical # 1500 Watts peak pulse power dissipation w Stand-Off voltages from 5.0V to 171V w Uses thermally passivated die design w Additional silicone protective coating over die for rugged environments w Stringent process norm screening w Low leakage current at rated stand-off voltage w Exposed metal surfaces are readily solderable w 100% lot traceability w Manufactured in the U.S.A. w@ Meets JEDEC IN6267 - IN6303A electrically equivalent specifications Available in bipolar configuration w Additional transient suppressor ratings and sizes are available as well as zener, rectifier and reference diode configurations. Consult factory for special requirements. MAXIMUM RATINGS 1500 Watts of Peak Pulse Power Dissipation at 25C** tclamping (0 Volts to BV Min.): unidirectional <1x10-!2 seconds; bidirectional < 5x10 seconds; Operating and Storage Temperature: -65C to +175C Forward Surge Rating: 200 Amps, 1/120 second at 25C Steady State Power Dissipation is heat sink dependent. *Transient Absorption Zener **Wire contact or tab geometry for interconnects should be selected with adequate cross-sectional size to prevent fusing relative to peak pulse current rating (Ipp). For more information call: 1.5KCD6.8 thru 1.5KCD200A, CD5908 and CD6267 thru CD6303A Transient Suppressor CELLULAR DIE PACKAGE PACKAGE DIMENSIONS 1126 Diam, ~ 1130 8 i 2 jae 7068 +-(3) Item Number Description Poe Nickel and Silver Plated Copper Discs Dec cececeteesessetseesesaetesecesenseecsese Solder Bond sees Silicon Die Woe cece cece seen eeecseeteceeanes Conformal coating ttustration Represents Unipolar Only MECHANICAL CHARACTERISTICS Case: Nickel and Silver plated copper discs with conformal coating. Finish: Both external surfaces are corrosion resistant, readily solderable. Polarity: Large contact side is cathode Mounting Position: Any1.5KCD6.8 thru 1.5KCD200A, = CELLULAR DIE PACKAGE g 6 oa - o o _[S EXPONENTIAL 2 Ppecay > tell a wel te Nee Maximum ee Breakdown < Pemye \ HALE Rated Voltage camping Maximum Rated Maximum g K \ sve Stand-ott Vv vo levers | Maximum | Temperature oa Until tyre Voltage (BA) @ bp Leakage Peak Pulse] Coefficient to! JEDEC VOLTS (msec) | @ Ywm | Current x VZ | souase Industry Type 7 - t Number t | { f testo Type we @y{ Ve D pp of Vipry a CURRENT Number | Elect. Eavtt. | yours | MIN | MAX | A | Voits A A % 1 C o Ea = or 02 as 10 20 $0 0 20 50 100200 500 1 05808 $m loa 76 300 300 357 ' . T5cqp8 8 06267 siz| pe] 3 1 1000 1390 + VEG ba | ORR za 28 | 88) Te] 195 1000 130 057 t: time in us 1SKCD75 APES 05 ers 625 10 WwW? 500 1280 061 1 5KCO? 5A CD88BA, 640 719 f 788] 10 13 500 4320 081 FIGURE 1 41 SKCO82 08200 663 738 902 10 125 200 1200 06s A isecbaza | C0s2694 ror | 7m | ger f v0 a4 foo 1248 08s Peak Pulse Power vs Pulse Time 15KCD91 8270 137 a19 19.00 1 438 50 109.0 068 y5xcps 1a | Cos708 770 | ees] oss| 3 134 2 1120 ose 15KCD10 06271 B10 sol uo] 1 180 10 100.0 079 10.000 VSKCOIOA COB27IA O55 950 10 50 1 145 190 103.0 073 1 5KCON Sosere toe | 390] iio] 3 ie2 5 30 075 TSKCOTA CED 728 940 yoso | veo] + 186 5 075 Measured at 1 SKCDI2 CD6273 972 10 BO 4320 1 173 5 870 O78 Zero Bias taxcoiza | Coszraa voz | ta] tee] ot 187 5 500 ove 1$KCD13 CUB Te 10 50 41170 140 1 180 5s 79.0 08: 4 5KCD1ZA CDAZ74A 1110 240 1370 1 1B? 5 62.0 Bt wo 1 5KCDIS 08278 1210 1950} 1950] 4 220 5 80.0 ose UC 1 5KCOTSA C082758 200 | 1430 1560] 1 212 5 71.0 084 s 1xcose Eos278, 1250 | tase] treo] 1 235 5 eo 088 5 taecpisa | CbA778A t3e0 | isa] woo]: 3 5 68 088 S000 4 sKc018 08277 1450 1820] 1280] 5 285 5 565 088 8 tsecoiaa | Coe277a 1330 | 170] tooo | 3 232 3 533 088 2 1 KCD20 CO6278 16 20 1800 | 2200 1 201 5 515 0 a VSKCOPOA COA2 TBA 1710 19 00 2100 1 27 5 540 090 ce 1 SKCO22 COB279 17.80 19 60 2420 1 uo 5 a7 092 4 SKCOZ2A 062794 10.80 zoo} eto] 1 308 5 490 092 o 4 5KCD24 08280 1940 | 2160] 200] 1 Bay 5 430 ona oO Uekcbeaa | Conan zoso | 200] 220] 3 52 5 450 ood 2 4 sKc027 0628+ 2100 | 2490] 270] 1 39.4 8 385 096 s Messured a1 1 5KCO270 CDB28IA 23:10 2570 2840 1 as 5 400 096 - 1 xC090 Eoerae za | 27001 a0] 3 a5 5 mS ov? Sieg Stand-of Vonage 1 5KCO30A CORZAZA 25 80 2050 | 3150 1 aa $ 360 097 g 15KCO39 06283 2660 2970 ww 1 477 $ ns 098 oO 1SKCORA CD62B34 2820 3140 70 1 457 s Ro 098 oO 1 S*CD36 COA2t 29:10 32 39 60 1 520 5 290 099 15KCD368 80 3420 37 BO 1 499 5 30.0 099 we 1 3xCo% beens Seo | Ssiof aoc tt see 5 265 109 Oo Tsxcwa f Convank smo | arin] soo] 4 $39 3 2a0 100 1 SKCOaD CIA 480 3B 7 47 1 B19 240 101 beecbaaa | Chmvaea jeeo | sow] aso] t 33 5 253 101 1 SKCOA? cosa? Bs 4230 $170 1 678 5 22.2 107 1 SKCD47A CDAZB7A 40 20 4470 49 40 1 648 5 232 101 1 SKCOS1 Cpe7na 41350 4590 | 5610 1 7a 5 204 102 10 1 5KCDS1A, CDAPABA 4380 4650 5360 1 709 214 102 1 SKc0se coszno se | sow] geo]: 505 5 188 103 1 0 100 4.000 1 5xe0 Damo $520 | saeo] 3 770 i ies 103, . ; yerenes | Berm Som | Sean] esa | seo $ 183 toe BV: Breakdown Voltage in Volts 1 EKCOB2A CORDA 5300 5890 65 10 1 850 5 WT 104 rxcom | core | ge [aml uml: | me > | ws sos FIGURE 2 1 SkCO8SA i wo | ego | 7 1 8 5 183 304 A LXER | eBaiaa ro | bre] asso | 3 1088 : $3 108 Typical Capacitance vs Breakdown Voltage Uc | Ebars2 ei | i390] eo] t 1039 i ir 10s 41 SKCDGZ coa293 4 7380 920 1 1180 5 4127 105 1 SKCDB2A COA2034 70:10 7790 8610 1 1130 5 4333 105, 1 5KCOA1 CDa2g4 7270 81.90 | 100 00 1 1310 5 Wa 106 Horm Parameters 4 SKCOIA C0B2a4K 7760 | sso] 9550] 1 1250 5 120 106 t= 1usec 41$KCD100 CDA295 8100 90.00 | 11000 1 144. 5 104 106 jem & 5 1 5KCO1008 CD62954 85 50 96.00 | 10500 + 137.0 8 W908 106 L, = 1000psec 4 SKEO10 08208 8920 | s900} 1z100| + 58.0 5 a5 107 d Likepriea | Conza6a se00 {10800 11600 | 3 1520 5 88 107 1S5KCD120 Cos2e7 9720 10800 | 13200 1 173.0 8 a7 107, 100 Texcorzoa | Cosrara woz00 Jissoo | i600 | 3 1650 $ at 107 tikcoise, | ease 158) [sive | aooo | ot | sare : do ter a Pook Vue Tpp Uencorsea | Cosme i100 | izaoo | 13700 | 1790 5 4 107 oa + sKco1so coezee s2.00 | 13800 | 8500 | 4 2150 6 70 108 & 1 SKCDISOA CD8299a 12800 | 14300 | 158.00 1 2070 5 72 108 1 5KCO160 CORWO 130 144.00 | 17600 1 2000 $ 65 108 + + SKCD1608 CAIDA 136 00 15200 | 168.00 1 219.0 5 6a 108 - Haltvatue Ipp = ty 1 $KCO170 cOesa1 93800 153.00 | 187.00 1 244.0 5 62 108 1 5KCD1708 CORR01A 44500 | 162.00 1 234.0 5 ea 108 2 1 SKCO180 C8302 148 00 162 00 | 198 00 1 256.0 5 58 108 USecorea | CO8I028 rse0a | ivioo| 193900 | 4 bas 0 5 at 108 1 SKCO200 c0a303 162 00 480.00 | 22000 1 207 0 5 52 108 1 SKCD2008 CORIO3A 174 00 990.00 21000 q 2740 5 $5 108 sa 10 x 1000 Wavetorm a3 detined by AEA Vf at 100 amps peak. 8.3 ms sine wave equals 3.5 volts maximum. For bidirectional part number add C or CA as suffix (ie: 1.5KCD33C or 1.5KCD33CA; or CD6283C or CD6283CA). Note that for bidirectional types having Vyypy of 8 volts and under, the Ip a leakage current is doubled. - ~~] Ipp - Pulse Current 2 SYMBOLS AND ABBREVIATIONS 9 1 2 3 4 , 6 t: time in ms. Vwe = RATED STAND-OFF VOLTAGE FIGURE 3 Pulse Wave Form Ipp = PEAK PULSE CURRENT = a 100, oo (See Figure 1 For Peak Pulse vs Ve MAX = MAXIMUM CLAMPING VOLTAGE ~ Pulse Time Characteristics) ( ) Eo = 2 Es Vier) = BREAKDOWN VOLTAGE 3 3 I, = TEST CURRENT 5 T w = 2 2 Ip = REVERSE LEAKAGE as o rs: 9G 4 5S NOTE 1 Normal selection criteria for TAZ* devices is by rated stand-off voltage (wn) and a . should be equal or greater than DC or continuous peak operating voltage. 8 = a oO $0 100, 150 200 NOTE 2 TAZ* devices are tested to maximum peak pulse current Up ) with clamping voltage x Temperature in C monitored. This surge capability is one of the most significatt electrical characteristics 2 FIGURE 4 8-6 of the device and should be considered as part of customer quality inspections. Derating Curve