/ Microsemi Corp. f The diode experts SCOTTSDALE, AZ For more information call: (602) 94]-6300 FEATURES ECONOMICAL SERIES AVAILABLE IN BOTH UNIDIRECTIONAL AND BID{RECTIONAL CONSTRUCTION 68 TO 200 VOLTS AVAILABLE 600 WATTS PEAK PULSE POWER DISSIPATION MAXIMUM RATINGS Peak Pulse Power Dissipation at 25C: 600 Watts Steady State Power Dissipation: 5 Watts at Ty, = +75C, 3/8 Lead Length telamping (0 Volts to BV Min.): Unidirectional < 1x10" Seconds; Bidirectional <5x10~ Seconds. Operating and Storage Temperature: ~65 to 200C APPLICATION TAZ is an economical, molded, commercial product used to protect. voltage- sensitive components from destruction or partial degradation. The response time of their clamping action is virtually instantaneous (1 x 10-'2 seconds) and they have a peak pulse power rating of 600 watts for I msec as depicted in Figure 1 and 2. Microsemi also offers various varieties of TAZ to meet higher and lower power demands and special applications. 1.06 (0.042) P6KE6.8 thru P6KE200A TRANSIENT ABSORPTION ZENER 0.97 (0.038) DIA. TWO PLACES 1 8.89 (0.350) 8.39 (0.330) i 25.4 (1.00) MIN. TWO PLACES | * oy 3.68 (0.145) 3.31 (0,130) Cathode Indicated by Band All Dimensions in Mitimeters (inches) MECHANICAL CHARACTERISTICS CASE: Void free transfer molded thermosetting plastic (T-18). FINISH: Silver plated copper read- ily solderable. POLARITY: Band denotes cath- ode. Bidirectional not marked. WEIGHT: 0.7 gram (Appx.). MOUNTING POSITION: Any. 4-59 P6KE6.8 thru P6KE200A ELECTRICAL CHARACTERISTICS 7, = 25C Forward Voltage (V;) @ 50 amps peak, 8.3 msec sine wave equal to 3.5 volts max. (For unidirectional only) For Bidirectional Construction, indicate a C or CA suffix after part number, i.e. PSGKE200CA. Capacitance will be 1/2 that 4-60 shown in Figure 3. MAX. TYPICAL CHARACTERISTIC CURVES MAX. MAX. TEMP. g 100 NY REVERSE MAK. COEFFICIENT & BREAKDOWN RATED LEAKAGE CLAMPING. PEAK OF VeR c Pop + MICROSEMI! VOLTAGE TEST STAND-OFF CURRENT VOLTAGE PULSE Vier) 2 75 PART Vier) CURRENT VOLTAGE Ip @ Vc CURRENT {TA) -55G. e NUMBER MIM. NOM. MAX. IT vw Vw @ Ipp pp To toc 2 Voc Yoc Yor mac v wADG v A w/t & 50 e PKEG.8 612 68 7.48 10 55 1000 108 56 057 w P6KEG.BA 645 68 74 10 58 1000 105 57. 057 POKE7.S 6.75 75 825 10 6.05 500 Ww? 51 06) - 25 P6KE7.5A 113 75 7.88 19 64 500 13 53 O61 de PEKES.2 7.38 82 9.02 19 663 200 125 8 065 power PEKES.2A 779 82 861 10 7.02 200 121 50 065 PEKES B19 g1 10 1 7137 50 138 44 id 0 50 100 150 175 PEKE9.1A 865 91 9.55 1 178 50 134 45 068 . P6KE10 90 10 n 1 BI 10 15 0 073 T, LEAD TEMPERATURE C P6KE10A 95 10 105 1 8.55 10 145 4 73 P6KE11 99 " 124 1 8.92 5 16.2 7 075 PEKET1A 105 " 16 1 94 5 156 38 075 FIGURE 4 PEKE12 108 12 132 1 g72 5 173 35 078 P6KEIZA "4 2 126 1 102 5 167 36 078 POWER DERATING CURVE P6KE13 W7 13 143 1 105 5 19 32 081 PSKE13A 124 13 137 ! mW 5 182 33 081 P6KE15 135 15 165 1 121 5 22 27 084 3 P6KE15A 143 15 158 1 128 5 212 28 084 wm PPARYALUE lop PEKE16 144 16 17.6 1 129 5 235 26 086 = 100 is OeNED PEKET6A 152 16 168 1 136 5 225 27 086 26 Ae THAT POINT WHERE P6KE18 162 18 198 1 145 5 265 23 088 fe |, DECAYS 70 50% P6KE18A 171 18 189 1 153 5 252 24 088 24 50 GF ( (SURGE) | P6KE20 18 20 22 1 162 5 29.1 21 090 a & P6KE20A 19 20 21 1 171 5 277 22 oso 38 PEKE22 198 2 242 1 178 5 319 19 092 z P6KE22A 209 2 23a 1 188 5 306 20 092 7 2 3 * P6KE24 206 24 264 1 194 5 347 7 094 TIME (t) IN MILLISECONDS PEKE24A 228 24 252 1 205 5 33.2 18 094 P6KE27 243 a7 297 1 218 5 39.1 15 096 P6KE27A 257 2 284 \ zal 5 375 16 096 FIGURE 2 PEKE3O 27 30 3 1 243 5 435 14 097 PULS PEKE30A 288 30 315 1 256 5 a4 144 097 EXPONENTIAL SURGE. PSKE3A 207 3 36.3 1 268 5 a1 126 098 PBKER3A 31.4 ag 347 1 282 5 45.7 13.2 098 PEKE36 32.4 36 306 1 204 5 52 11.6 ogg P6KE36A 942 36 378 1 20.8 5 499 12 09g P6KE39 35.1 39 429 1 31.6 5 56.4 10.6 100 10000 P6KE39A 37.1 39 4l 1 33.3 5 53.9 Nn 100 E PEKE43 38.7 8 413 1 348 5 619 96 tol 2 E P6KE43A 409 8B 452 1 368 5 593 10.1 101 < F wea P6KE47 423 47 51.7 1 38.1 5 678 88 101 & + . N\ P6KE47A 447 47 49.4 1 40.2 5 648 93 101 5 X P6KES1 459 51 56.1 1 413 5 2S 82 102 g N PEKESIA 85 51 536 1 43.6 5 70.1 86 102 Lb P6KESG 50.4 56 61.6 1 454 5 805 74 103 3 P6KE56A 3.2 56 58.8 1 478 7 78 103 < PEKE62 55.8 62 68.2 1 502 5 ag 68 104 5 r KN P6KEG2A 58.9 62 65.1 1 53 5 85 7 104 2 100 P6KE68 612 68 74.8 { 55.1 5 98 61 104 & FE IN PEKE68A 646 68 m4 1 58.1 5 92 65 104 } F P6KE75 675 5 825 1 607 5 108 55 105 | omeasunen AT IN PEKE75A 713 75 78.8 1 64.1 i) 103 58 105 STANDOFF VOLTAGE PEKE82 73.8 82 90.2 1 664 5 118 51 105 P6KE82A m4 82 86.1 1 701 5 13 53 105 1 et tO P6KES1 819 91 100 1 BT 5 131 45 106 P6KESIA 86.5 91 95.5 1 718 5 125 48 106 Vian) ~ BREAKDOWN VOLTAGE- VOLTS P6KE100 9 100 10 1 81 5 144 42 106 P6KE100A 95 100 105 1 855 5 137 44 106 P6KE110 99 110 121 1 89.2 5 158 38 107 POKE ee 3 PEKETIOA | (105 10 116 1 4 5 152 34 107 PICAL CAPACITANCE P6KE20 108 120 132 | 97.2 5 173 35 107 VS BREAKDOWN VOLTAGE P6KE120A 4 120 126 1 102 5 165 36 107 P6KE130 17 130 143 1 105 5 187 32 107 P6KE130A 124 130 137 1 MW 5 179 33 107 P6KE150 135 150 165 1 121 5 215 28 108 PEKE150A 143 150 158 1 128 5 207 29 108 P6KE160 144 160 176 1 130 5 230 26 108 P6KE160A 182 160 168 1 136 5 219 27 108 P6KE170 153 170 187 1 138 5 244 25 108 P6KE170A 161 170 179 1 145 5 234 26 108 P6KE180 162 180 198 1 146 5 258 23 108 P6KE180A 1 180 189 1 154 5 246 24 108 P6KE200 180 200 220 1 162 5 287 21 108 POKEZO0A_ | 190 200 210 ! m 5 24 22 108 Consult factory for higher voltages. SYMBOLS AND ABBREVIATIONS Vwn = Rated Stand-Off Voltage Ipp = Peak Pulse Current Pp = Peak Pulse Power Ve = Clamping Voltage VBR) = Breakdown Voltage I7 = Test Current Ip = Reverse Leakage