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| CHENMKO ENTERPRISE CO.,LTD GLASS PASSIVATED JUNCTION TRANSIENT VOLTAGE SUPPRESSOR VOLTAGE-6.8 TO 400 VOLTS 1500 WATTS PEAK POWER 6.5 WATTS STEADY STATE FEATURES Plastic package 1500W surge capability at 1ms Glass passivated chip junction in DO-201 Package Excellent clamping capability Low Zener lmpedance Fast response time: typically less than 1.0ps from 0 volts to BV min. * Typical IR less than 1 uA above 10V * High temperature soldering guaranteed: 300 degree C/10seconds/.375"(9.5mm) lead length/51 bs., (2.3k) tension * * * * * * 1.5KE SERIES DO-201 0.042(1.07) DIA. 0.038(0.96) 1.0(25.4) MIN. MECHANICAL DATA Case: JEDEC DO-201 molded plastic Terminals: Plated axial leads, solderable per MIL-STD-750, Method 2026 Polarity: Color band denotes cathode end Mounting Position: Any Weight: 0.045 ounce, 1.2 grams 0.375(9.5) 0.285(7.2) 0.210(5.3) DIA. 0.190(4.8) 1.0(25.4) MIN. MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS Ratings at 25oC ambient temperature unless otherwise specified. Single phase, half wave, 60 HZ, resistive or inductive load. For capacitive load, derate current by 20%. Dimensions in inches and (millimeters) DO-201 DEVICES FOR BIDIRECTIONAL APPLICATIONS For Bidirectional use C or CA Suffix for types 1.5KE6.8 thru types 1.5KE400 Electrical characteristics apply in both directions. MAXIMUM RATINGES ( At TA = 25oC unless otherwise noted ) RATINGS SYMBOL VALUE UNITS Peak Power Dissipation at TA = 25oC, Tp = 1ms ( Note1 ) PPK Minimum 1500 Watts Steady State Power Dissipation at TL = 75oC Lead Lengths .375" (9.5mm) Peak Forward Surge Current 8.3ms Single Half Sine-Wave Superimposed on Rated Load ( Note 2 ) PD 6.5 Watts IFSM 200 Amps Operating and Storage Temperature Range TJ, TSTG -65 to +175 o C NOTES : 1. Non-repetitive current pulse, per Fig. 3 and derated above TA = 25oC per Fig. 2. 2. 8.3ms single half sine-wave, duty cycle = 4 pulses per minute maximum. 2001-6 Breakdown Voltage PRODUCT NO. VBR Volts ( NOTE 1 ) MIN. 1.5KE6.8PT 1.5KE6.8APT 1.5KE7.5PT 1.5KE7.5APT 1.5KE8.2PT 1.5KE8.2APT 1.5KE9.1PT 1.5KE9.1APT 1.5KE10PT 1.5KE10APT 1.5KE11PT 1.5KE11APT 1.5KE12PT 1.5KE12APT 1.5KE13PT 1.5KE13APT 1.5KE15PT 1.5KE15APT 1.5KE16PT 1.5KE16APT 1.5KE18PT 1.5KE18APT 1.5KE20PT 1.5KE20APT 1.5KE22PT 1.5KE22APT 1.5KE24PT 1.5KE24APT 1.5KE27PT 1.5KE27APT 1.5KE30PT 1.5KE30APT 1.5KE33PT 1.5KE33APT 1.5KE36PT 1.5KE36APT 1.5KE39PT 1.5KE39APT 1.5KE43PT 1.5KE43APT 1.5KE47PT 1.5KE47APT 1.5KE51PT 1.5KE51APT 1.5KE56PT 6.12 6.45 6.75 7.13 7.38 7.79 8.19 8.65 9.0 9.5 9.9 10.5 10.8 11.4 11.7 12.4 13.5 14.3 14.4 15.2 16.2 17.1 18.0 19.0 19.8 20.9 21.6 22.8 24.3 25.7 27.0 28.5 29.7 31.4 32.4 34.2 35.1 37.1 38.7 40.9 42.3 44.7 45.9 48.5 50.4 MAX. 7.48 7.14 8.25 7.88 9.02 8.61 10.0 9.55 11.0 10.5 12.1 11.6 13.2 12.6 14.3 13.7 16.5 15.8 17.6 16.8 19.8 18.9 22.0 21.0 24.2 23.1 26.4 25.2 29.7 28.4 33.0 31.5 36.3 34.7 39.6 37.8 42.9 41.0 47.3 45.2 51.7 49.4 56.1 53.6 61.6 10 10 10 10 10 10 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 @ IT ( mA ) Working Peak Reverse Voltage Maximum Reverse Leakage at Vrwm Maximum Reverse Current ( NOTE 2 ) Maximum Reverse Voltage at Irsm ( clamping ) Vrsm ( V ) 10.8 10.5 11.7 11.3 12.5 12.1 13.8 13.4 15.0 14.5 16.2 15.6 17.3 16.7 19.0 18.2 22.0 21.2 23.5 22.5 26.5 25.2 29.1 27.7 31.9 30.6 34.7 33.2 39.1 37.5 43.5 41.4 47.7 45.7 52.0 49.9 56.4 53.9 61.9 59.3 67.8 64.8 73.5 70.1 80.5 Maximum Temperature Coefficient of Vbr Vrwm ( V ) 5.50 5.80 6.05 6.40 6.63 7.02 7.37 7.78 8.10 8.55 8.92 9.40 9.72 10.2 10.5 11.1 12.1 12.8 12.9 13.6 14.5 15.3 16.2 17.1 17.8 18.8 19.4 20.5 21.8 23.1 24.3 25.6 26.8 28.2 29.1 30.8 31.6 33.3 34.8 36.8 38.1 40.2 41.3 43.6 45.4 Ir ( uA ) 1000 1000 500 500 200 200 50 50 10 10 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 Irsm ( A ) 139 143 128 132 120 124 109 112 100 103 93.0 96.0 87.0 90.0 79.0 82.0 68.0 71.0 64.0 67.0 56.5 59.5 51.5 54.0 47.0 49.0 43.0 45.0 38.5 40.0 34.5 36.0 31.5 33.0 29.0 30.0 26.5 28.0 24.0 25.3 22.2 23.2 20.4 21.4 18.6 ( %C ) 0.057 0.057 0.061 0.061 0.065 0.065 0.068 0.068 0.073 0.073 0.075 0.075 0.078 0.078 0.081 0.081 0.084 0.084 0.086 0.086 0.088 0.088 0.090 0.090 0.092 0.092 0.094 0.094 0.096 0.096 0.097 0.097 0.098 0.098 0.099 0.099 0.100 0.100 0.101 0.101 0.101 0.101 0.102 0.102 0.103 Breakdown Voltage PRODUCT NO. VBR Volts ( NOTE 1 ) MIN. 1.5KE56APT 1.5KE62PT 1.5KE62APT 1.5KE68PT 1.5KE68APT 1.5KE75PT 1.5KE75APT 1.5KE82PT 1.5KE82APT 1.5KE91PT 1.5KE91APT 1.5KE100PT 1.5KE100APT 1.5KE110PT 1.5KE110APT 1.5KE120PT 1.5KE120APT 1.5KE130PT 1.5KE130APT 1.5KE150PT 1.5KE150APT 1.5KE160PT 1.5KE160APT 1.5KE170PT 1.5KE170APT 1.5KE180PT 1.5KE180APT 1.5KE200PT 1.5KE200APT 1.5KE220PT 1.5KE220APT 1.5KE250PT 1.5KE250APT 1.5KE300PT 1.5KE300APT 1.5KE350PT 1.5KE350APT 1.5KE400PT 1.5KE400APT 53.2 55.8 58.9 61.2 64.6 67.5 71.3 73.8 77.9 81.9 86.5 90.0 95.0 99.0 105 108 114 117 124 135 143 144 152 153 162 162 171 180 190 198 209 225 237 270 285 315 332 360 380 MAX. 58.8 68.2 65.1 74.8 71.4 82.5 78.8 90.2 86.1 100 95.5 110 105 121 116 132 126 143 137 165 158 176 168 187 179 198 189 220 210 242 231 275 263 330 315 385 368 440 420 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 1.0 @ IT ( mA ) Working Peak Reverse Voltage Maximum Reverse Leakage at Vrwm Maximum Reverse Current ( NOTE 2 ) Maximum Reverse Voltage at Irsm ( clamping ) Vrsm ( V ) 77.0 89.0 85.0 98.0 92.0 108 103 118 113 131 125 144 137 158 152 173 165 187 179 215 207 230 219 244 234 258 246 287 274 344 328 360 344 430 414 504 482 574 548 Maximum Temperature Coefficient of Vbr Vrwm ( V ) 47.8 50.2 53.0 55.1 58.0 60.7 64.1 66.4 70.1 73.7 77.8 81.0 85.5 89.2 94.0 97.2 102 105 111 121 128 130 136 138 145 146 154 162 171 175 185 202 214 243 256 284 300 324 342 Ir ( uA ) 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 Irsm ( A ) 19.5 16.9 17.7 15.3 16.3 13.9 14.6 12.7 13.3 11.4 12.0 10.4 11.0 9.5 9.9 8.7 9.1 8.0 8.4 7.0 7.2 6.5 6.8 6.2 6.4 5.8 6.1 5.2 5.5 4.3 4.6 5.0 5.0 5.0 5.0 4.0 4.0 4.0 4.0 ( %C ) 0.103 0.104 0.104 0.104 0.104 0.105 0.105 0.105 0.105 0.106 0.106 0.106 0.106 0.107 0.107 0.107 0.107 0.107 0.107 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.108 0.110 0.110 0.110 0.110 0.110 0.110 0.110 0.110 NOTES : 1. Vbr measured after IT applied for 300 us. IT = Square Wave Pulse or equivalent. 2. Surge Current Waveform per Figure 3 and Derated per Figure 2. 3. Vf = 3.5 V max. at If= 100 A ( 1.5KE6.8 thru 1.5KE91A ) Vf = 5.0 V max. at If = 100 A ( 1.5KE100 thru 1.5KE400A ) on 1/2 Square or equivalent Sine Wave. PW = 8.3ms, Duty Cycle = 4 Pulses per minute maximum. 4. For Bipolar types having VR of 10 Volts and under, the IR limit is doubled. RATING CHARACTERISTIC CURVES ( 1.5KE6.8PT ~ 1.5KE400APT ) PEAK PULSE POWER (PPP) OR CURRENT (IPP) DERATING IN PERCENTAGE,% FIG. 1 - PULSE POWER RATING CURVE PPPM, PEAK PULSE POWER, KW 100 Non-Repetitive Pulse Waveform Shown in Fig.3 TA = 25 OC FIG. 2 - PULSE DERATING CURVE 100 75 10 50 1.0 25 0.1 0.1uS 0 0 25 75 50 100 125 150 175 TA, AMBIENT TEMPERATURE,( OC) 200 1.0uS 10uS 100uS 1.0mS TP, PULSE WIDTH, Sec 10mS FIG. 3 - PULSE WAVEFORM 150 tr = 10usec. Pulse Width (td) is Defined as the Point Where the Peak Current Decays to 50% of IPPM FIG. 4 - TYPICAL JUNCTION CAPACITANCE 10000 Unidirectional----Bidirectional IPPM, PEAK PULSE CURRENT,% CJ, CAPACITANCE, pF Peak Value IPPM VR = 0 100 IPPM HALF VALUE 2 10/1000usec. Waveform as Defined by R.E.A. 1000 50 100 f = 1MH Vsig = 50mVp-p TJ = 25 OC VR = RATED STAND-OFF VOLTAGE 0 0 1.0 2.0 t, TIME,mS 3.0 4.0 10 5 10 100 V(BR), BREAKDOWN VOLTACE, VOLTS 500 FIG. 5 - STEADY STATE POWER DERATING CURVE PM(AV), STEADY STATE POWER DISSIATION, WATTS 8.0 FIG. 6 - MAXIMUM NON-REPETITIVE FORWARD SURGE CURRENT UNIDIRECTIONAL 200 AMPERES PEAK FORWARD SURGE CURRENT 8.3ms Single Half Sine-Wave (JEDED Method) TJ = TJ max. L = 0.375"(9.5mm) Lead Lengths 60Hz Resistive or Inductive Load 6.0 40 20 10 4.0 1.6X1.6X0.040" (40X40X1mm) Copper Heat Sinks 2.0 0 0 0 25 50 75 100 125 150 TL, LEAD TEMPERATURE ( OC) 175 200 1 10 NUMBER OF CYCLES AT 60 Hz 100 RATING CHARACTERISTIC CURVES (1.5KE6.8PT ~ 1.5KE400APT) FIG. 7 - INCREMENTAL CLAMPING VOLTAGE CURVE UNI-DIRECTIONAL 100 Waveform 8X20 Impulse Vc = Vc-V(BR) 1.5KE200 1.5KE130 1.5KE100 1.5KE75 VC, INCREMENTAL CLAMPING VOLTAGE VC, INCREMENTAL CLAMPING VOLTAGE FIG. 7 - INCREMENTAL CLAMPING VOLTAGE CURVE UNI-DIRECTIONAL 100 Waveform 10X1000 Impulse Vc = Vc-V(BR) 1.5KE200 1.5KE130 1.5KE75 20 10 20 10 1.5KE39 2.0 1.0 1.5KE39 1.5KE33 1.5KE6.8 1.5KE9.1 1.5KE18 1.5KE12 2.0 1.0 1.5KE33 1.5KE6.8 1.5KE9.1 0.2 0.1 0.5 1 2.0 10 20 IPP, PEAK PULSE CURRENT, AMPS 50 0.2 0.1 0.5 1 2.0 10 20 IPP, PEAK PULSE CURRENT, AMPS 50 VC, INCREMENTAL CLAMPING VOLTAGE 100 Waveform 8X20 Impulse Vc = Vc-V(BR) VC, INCREMENTAL CLAMPING VOLTAGE FIG. 9 - INCREMENTAL CLAMPING VOLTAGE CURVE BI-DIRECTIONAL FIG. 7 - INCREMENTAL CLAMPING VOLTAGE CURVE BI-DIRECTIONAL 100 Waveform 10X1000 Impulse Vc = Vc-V(BR) 1.5KE200C 20 10 1.5KE200C 20 10 1.5KE75C 1.5KE39C 1.5KE30C 1.5KE75C 1.5KE39C 1.5KE30C 1.5KE15C 1.5KE11C 1.5KE7.5C 2.0 1.0 2.0 1.0 1.5KE15C 1.5KE11C 1.5KE7.5C 0.2 0.1 0.5 1 2.0 10 20 IPP, PEAK PULSE CURRENT, AMPS 50 0.2 0.1 0.5 1 2.0 10 20 IPP, PEAK PULSE CURRENT, AMPS FIG. 12 - BREAKDOWN VOLTAGE TEMPEATURE COEFFICIENT CURVE 50 FIG. 11 -INSTANTANEOUS FORWARD VOLTAGE CHARACTERISTICS CURVE 100 KV-TEMPERATURE COEFFICIENT-mV/J 1000 FORWARD CURRENT 10 Pulse Width = 300uS 1% Duty Cycle TJ = 25 OC 100 Uni-directional Bi-directional 1 10 0.1 0 0.4 0.8 1.2 1.6 2.0 INSTANTANEOUS FORWARD CURRENT, AMPERES 1 5 10 20 50 100 200 V(BR), BREAKDOWN VOLTAGE, VOLTS 500 |
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