BZW06-5V8(B) / 376(B) SERIES Transient Voltage Suppressor Diodes Voltage Range 5.8 to 376 Volts 600 Watts Peak Power DO-15 Features a a a a a a a a a UL Recognized File # E-96005 Plastic package has Underwriters Laboratory Flammability Classification 94V-0 Exceeds environmental standards of MIL-STD-19500 600W surge capability at 10 x 100 us waveform, duty cycle: 0.01% Excellent clamping capability Low zener impedance Fast response time: Typically less than 1.0ps from 0 volts to VBR for unidirectional and 5.0 ns for bidirectional Typical IR less than 1uA above 10V High temperature soldering guaranteed: 260OC / 10 seconds / .375”,(9.5mm) lead length / 5lbs.,(2.3kg) tension Mechanical Data a Case: Molded plastic a Lead: Axial leads, solderable per MIL-STD-202, Method 208 a Polarity: Color band denotes cathode except bipolar aWeight: 0.34gram Dimensions in inches and (millimeters) Maximum Ratings and Electrical Characteristics (TA = 25 OC) Type Number O Peak Pulse Power Dissipation at TA=25 C, Tp=1ms (Note) Steady State Power Dissipation at TL=75 OC Lead Lengths .375”, 9.5mm (Note 2) Peak Forward Surge Current, 8.3 ms Single Half Sine-wave Superimposed on Rated Load (JEDEC method) (Note 3) Operating and Storage Temperature Range Symbol PPP Value Minimum 600 Units Watts PD 1.7 Watts IFSM 100 Amps TJ, TSTG -65 to + 175 O C Notes: For a surge greater than the maximum values, the diode will fall in short-circuit. Thermal Resistances Type Number Junction to leads Junction to ambient on printed circuit. L lead=10mm Symbol RJL RJA Value 60 100 Units O C/W O C/W RATINGS AND CHARACTERISTIC CURVES (BZW06-5V8(B)/376(B)SERIES) FIG.1- PEAK PULSE POWER VERSUS EXPONENTIAL PULSE DURATION FIG.2- PEAK PULSE POWER DISSIPATION VERSUS INITIAL JUNCTION TEMPERATURE (PRINTED CIRCUIT BOARD) Ppp(w) 1E5 % TJ Initial=250C 100 1E4 80 60 1E3 40 1E2 20 TJ Initial (0C) Tp (ms) EXPO. 1E1 0.001 0.01 0.1 1 10 0 100 0 20 40 60 80 100 140 120 160 180 200 FIG.3- PULSE WAVEFORM tr=10msec. PEAK VALUE lPPM 100 FIG.4-CLAMPING VOLTAGE VERSUS PEAK PULSE CURRENT. EXPONENTIAL WAVEFORM tp-200 s tp-1ms tp-10m PULSE WIDTH (td) is DEFINED as the POINT WHERE the PEAK CURRENT DECAYS to 50% of lPPM HALF VALUE- lPPM 2 10/1000 sec. WAVEFORM as DEFINED by R.E.A. 50 10,000 VCL(V) % IPP BZW06-376 0 50 1.0 2.0 3.0 4.0 t, TIME, ms FIG.5- CHARACTERASTICS VERSUS REVERSE APPLIED VOLTAGE FOR UNIDIRECTIONAL TYPES (TYPICAL VALUES) C (pF) 10,000 Tj=25 0C F=1MHz BZW06-5V8 BZW06-13 1,000 BZW06-171 VR(V) 0 1 10 100 500 tr tp tp<10 s BZW06-58 BZW06-33 BZW06-13 BZW06-10 10 1 0.1 BZW06-58 100 0 100 td 0 TJ Initial=250C 100 BZW06-186 CJ, JUNCTION CAPACITANCE.(pF) PEAK PULSE CURRENT - % 150 BZW06-5V8 IPP(A) 1 10 100 1000 RATINGS AND CHARACTERISTIC CURVES (BZW06-5V8(B)/376(B)SERIES) FIG.7- PEAK FORWARD VOLTAGE DROP VERSUS PEAK FORWARD CURRENT (TYPICAL VALUES FOR UNDIRECTIONAL TYPES) FIG.6- CHARACTERASTICS VERSUS REVERSE APPLIED VOLTAGE FOR UNIDIRECTIONAL TYPES (TYPICAL VALUES) C (pF) 10,000 100 IFM (A) 0 Tj=25 C F=1MHz TJ Initial 25 0C 150 0C BZW06-5V8 BZW06-13 1,000 10 BZW06-58 BZW06-171 100 VFM (V) 1 VR(V) 0 0 1 10 100 FIG.8- TRANSIENT THERMAL IMPEDANCE JUNCTION AMBIENT VERSUS PULSE DURATION (FOR FR4 PC BOARD WITH L LEAD=10mm) 100 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 500 FIG.9- RELATIVE VARIATION OF LEAKAGE CURRENT VERSUS JUNCTION TEMPERATURE IR (TJ) IR (TJ=25 0C) Zth (j-a) ( 0C/W) 5E+3 VR=VRM 1E+3 1E+2 1E+1 10 1E+0 Tj ( 0C) 1E-1 tp (s) 1 0.01 0.1 1 10 100 1000 0 25 50 75 100 125 150 E LE C TR IC A L C H A R A C TE R IS TIC S Device Unidirectional Bidirectional I RM @ V RM m ax uA V O (TA=25 C unless otherwise noted) V BR @ I R m in note1 V mA V CL @ I PP m ax 10/1000uS V A V CL @ I PP m ax 8/20uS V A T m ax note2 -4 O 10 / C C typ note3 (pF) BZW 06-5V8 BZW 06-5V8B 1000 5.8 6.45 10 10.5 57 13.4 298 5.7 4000 BZW 06-6V4 BZW 06-6V4B 500 6.4 7.13 10 11.3 53 14.5 276 6.1 3700 BZW 06-8V5 BZW 06-8V5B 10 8.5 9.5 1 14.5 41 18.6 215 7.3 2800 BZW 06-10 BZW 06-10B 5 10.2 11.4 1 16.7 36 21.7 184 7.8 2300 BZW 06-13 BZW 06-13B 5 12.8 14.3 1 21.2 28 27.2 147 8.4 1900 BZW 06-15 BZW 06-15B 1 15.3 17.1 1 25.2 24 32.5 123 8.8 1600 BZW 06-19 BZW 06-19B 1 18.8 20.9 1 30.6 19.6 39.3 102 9.2 1350 BZW 06-20 BZW 06-20B 1 20.5 22.8 1 33.2 28.0 42.8 93 9.4 1250 BZW 06-23 BZW 06-23B 1 23.1 25.7 1 37.5 16.0 48.3 83 9.6 1150 BZW 06-26 BZW 06-26B 1 25.6 28.5 1 41.5 14.5 53.5 75 9.7 1075 BZW 06-28 BZW 06-28B 1 28.2 31.4 1 45.7 13.1 59.0 68 9.8 1000 BZW 06-31 BZW 06-31B 1 30.8 34.2 1 49.9 12.0 64.3 62 9.6 950 BZW 06-33 BZW 06-33B 1 33.3 37.1 1 53.9 11.1 69.7 57 10.0 900 BZW06-40 BZW 06-40B 1 40.2 44.7 1 64.8 0.3 84 48 10.1 800 BZW 06-48 BZW 06-48B 1 47.8 53.2 1 77.0 7.8 100 40 10.3 700 BZW 06-58 BZW 06-58B 1 58.1 64.6 1 92 6.5 121 33 10.4 625 BZW 06-70 BZW 06-70B 1 70.1 77.9 1 113 5.3 146 27 10.5 550 BZW 06-85 BZW 06-85B 1 85.5 95 1 137 4.4 178 23 10.6 500 BZW 06-102 BZW 06-102B 1 102 114 1 165 3.6 212 19 10.7 450 BZW 06-128 BZW 06-128B 1 128 143 1 207 2.9 265 15 10.8 400 BZW 06-154 BZW 06-154B 1 154 171 1 246 2.4 317 13 10.8 360 BZW 06-171 BZW 06-171B 1 171 190 1 274 2.2 353 11 10.8 350 BZW 06-188 BZW 06-188B 1 188 209 1 328 2.0 388 10.3 10.8 330 BZW 06-213 BZW 06-213B 1 231 237 1 344 2.0 442 9.0 11.0 310 BZW 06-256 BZW 06-256B 1 256 285 1 414 1.6 529 7.6 11.0 290 BZW 06-273 BZW 06-273B 1 273 304 1 438 1.6 564 7.1 11.0 280 BZW 06-299 BZW 06-299B 1 299 332 1 482 1.6 618 6.5 11.0 270 BZW 06-342 BZW 06-342B 1 342 380 1 548 1.3 706 5.7 11.0 360 BZW 06-376 BZW 06-376B 1 376 418 1 603 1.3 776 5.7 11.0 350 Notes: 1. Pulse test: tp < 50 m s. O 2. V BR = T *(Tam b - 25) * V BR (25 C) 3. V R =0V, F=1M Hz, For bidirectional types, capacitance value is divided by 2