TVS Diodes Axial Leaded - 600W > TP6KE series TP6KE Series RoHS Pb e3 Description The AEC-Q101 qualified TP6KE Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Bi-directional Features Uni-directional * Hi reliability application and automotive grade AEC-Q101 qualified * Glass passivated chip junction in DO-15 Package * 600W peak pulse capability at 10/1000s waveform, repetition rate (duty cycles):0.01% * Fast response time: typically less than 1.0ps from 0 Volts to BV min * Excellent clamping capability * Typical failure mode is short from over-specified voltage or current * Whisker test is conducted based on JEDEC JESD201A per its table 4a and 4c * IEC-61000-4-2 ESD 30kV(Air), 30kV (Contact) * ESD protection of data lines in accordance with IEC 61000-4-2 * EFT protection of data lines in accordance with IEC 61000-4-4 Agency Approvals AGENCY AGENCY FILE NUMBER E230531 Maximum Ratings and Thermal Characteristics (TA=25OC unless otherwise noted) Parameter Peak Pulse Power Dissipation by 10/1000s Test Waveform (Fig.2) (Note 1) Symbol Value Unit PPPM 600 W PD 5.0 W IFSM 100 A VF 3.5 V TJ , TSTG -55 to 175 C Typical Thermal Resistance Junction to Lead RuJL 20 C/W Typical Thermal Resistance Junction to Ambient RuJA 75 C/W Steady State Power Dissipation on Infinite Heat Sink at TL=75C (Fig. 6) Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional Only (Note 2) Maximum Instantaneous Forward Voltage at 50A for Unidirectional Only Operating Junction and Storage Temperature Range * Low incremental surge resistance * High temperature soldering guaranteed: 260C+5/-0C / 10s 1sec / 0.375",(9.5mm) lead length, 5 lbs., (2.3kg) tension * VBR @ TJ= VBR@25C x (1+T x (TJ - 25)) (T:Temperature Coefficient, typical value is 0.1%) * Plastic package is flammability rated V-0 per Underwriters Laboratories * Lead-free matte tin plated package * Halogen free and RoHS compliant * Pb-free E3 means 2nd level interconnect is Pbfree and the terminal finish material is tin(Sn) (IPC/JEDEC J-STD609A.01) Notes: 1. Non-repetitive current pulse, per Fig. 4 and derated above TJ (initial) = 25OC per Fig. 3. 2. Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. Functional Diagram Applications TVS devices are ideal for the protection of I/O interfaces, VCC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. Bi-directional Cathode Anode Uni-directional 1 (c) 2016 Littelfuse, Inc. Specifications are subject to change without notice. Revised: 09/10/16 TVS Diodes Axial Leaded - 600W > TP6KE series Electrical Characteristics (T =25C unless otherwise noted) A Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage VR (Volts) TP6KE13A TP6KE15A TP6KE16A TP6KE18A TP6KE20A TP6KE22A TP6KE24A TP6KE27A TP6KE30A TP6KE33A TP6KE36A TP6KE39A TP6KE43A TP6KE47A TP6KE51A TP6KE56A TP6KE62A TP6KE68A TP6KE75A TP6KE82A TP6KE91A TP6KE13CA TP6KE15CA TP6KE16CA TP6KE18CA TP6KE20CA TP6KE22CA TP6KE24CA TP6KE27CA TP6KE30CA TP6KE33CA TP6KE36CA TP6KE39CA TP6KE43CA TP6KE47CA TP6KE51CA TP6KE56CA TP6KE62CA TP6KE68CA TP6KE75CA TP6KE82CA TP6KE91CA 11.10 12.80 13.60 15.30 17.10 18.80 20.50 23.10 25.60 28.20 30.80 33.30 36.80 40.20 43.60 47.80 53.00 58.10 64.10 70.10 77.80 Breakdown Voltage VBR (Volts) @ IT MIN MAX Test Current IT (mA) 12.40 14.30 15.20 17.10 19.00 20.90 22.80 25.70 28.50 31.40 34.20 37.10 40.90 44.70 48.50 53.20 58.90 64.60 71.30 77.90 86.50 13.70 15.80 16.80 18.90 21.00 23.10 25.20 28.40 31.50 34.70 37.80 41.00 45.20 49.40 53.60 58.80 65.10 71.40 78.80 86.10 95.50 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Maximum Maximum Clamping Peak Voltage Pulse Current VC @ Ipp (V) Ipp (A) 18.2 21.2 22.5 25.2 27.7 30.6 33.2 37.5 41.4 45.7 49.9 53.9 59.3 64.8 70.1 77.0 85.0 92.0 103.0 113.0 125.0 33.5 28.8 27.1 24.2 22.0 19.9 18.4 16.3 14.7 13.3 12.2 11.3 10.3 9.4 8.7 7.9 7.2 6.6 5.9 5.4 4.9 Maximum Reverse Leakage IR@ VR (A) Agency Approval 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 X X X X X X X X X X X X X X X X X X X X X I-V Curve Characteristics Bi-directional Uni-directional Ipp Vc VBR VR IR VF IT Vc VBR VR V IT IR Ipp Ipp PPPM VR VBR VC IR VF Peak Pulse Power Dissipation -- Max power dissipation Stand-off Voltage -- Maximum voltage that can be applied to the TVS without operation Breakdown Voltage -- Maximum voltage that flows though the TVS at a specified test current (IT) Clamping Voltage -- Peak voltage measured across the TVS at a specified Ippm (peak impulse current) Reverse Leakage Current -- Current measured at VR Forward Voltage Drop for Uni-directional (c) 2016 Littelfuse, Inc. Specifications are subject to change without notice. Revised: 09/10/16 IR IT 2 VR VBR Vc V TVS Diodes Axial Leaded - 600W > TP6KE series Ratings and Characteristic Curves (T =25C unless otherwise noted) A Figure 1 - TVS Transients Clamping Waveform Figure 2 - Peak Pulse Power Rating Voltage Transients 100 PPPM-Peak Pulse Power (kW) Voltage Across TVS Voltage or Current TJ initial = Tamb Current Through TVS 10 1 0.1 0.001 0.01 10 Figure 4 - Pulse Waveform 150 100 tr=10sec IPPM- Peak Pulse Current, % IRSM Peak Pulse Power (PPP) or Current (IPP) Derating in Percentage % Figure 3 - Peak Pulse Power Derating Curve 75 50 25 0 25 50 75 100 125 150 175 TJ=25C Pulse Width(td) is defined as the point where the peak current decays to 50% of IPPM Peak Value IPPM 100 Half Value IPPM IPPM ( ) 2 50 200 0 TJ - Initial Junction Temperature (C) 10/1000sec. Waveform as defined by R.E.A td 1.0 0 2.0 3.0 4.0 t-Time (ms) Figure 5 - Typical Junction Capacitance Figure 6 - Typical Transient Thermal Impedance 100 Transient Thermal Impedance ( C/W) 100000 Uni-direconal V=0V 10000 Bi-direconal V=0V Cj (pF) 1 td-Pulse Width (ms) Time 0 0.1 1000 100 Uni-direconal Bi-direconal V=VR 10 1 10 1 0.1 1 10 100 0.01 1000 0.1 1 10 100 1000 TP - Pulse Duration (s) VBR - Reverse Breakdown Voltage (V) 3 (c) 2016 Littelfuse, Inc. Specifications are subject to change without notice. Revised: 09/10/16 TVS Diodes Axial Leaded - 600W > TP6KE series Figure 7 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only Flow/Wave Soldering (Solder Dipping) IFSM - Peak Forward Surve Current(A) 120 100 80 Peak Temperature : 260C+5/-0C Dipping Time : 10s 1 seconds Soldering : 1 time Physical Specificationst 60 40 20 0 1 10 100 Weight 0.015oz., 0.4g Case JEDEC DO-204AC (DO-15) molded plastic body over passivated junction. Polarity Color band denotes the cathode except Bipolar. Terminal Matte Tin axial leads, solderable per JESD22-B102. Number of Cycles at 60 Hz Environmental Specifications High Temp. Storage JESD22-A103 HTRB JESD22-A108 Temperature Cycling JESD22-A104 H3TRB JESD22-A101 RSH JESD22-B106 Dimensions D Cathode Band (for Uni-directional products only) Dimensions C A B A DO-204AC (DO-15) (c) 2016 Littelfuse, Inc. Specifications are subject to change without notice. Revised: 09/10/16 4 Inches Min Millimeters Max Min Max A 1.000 - 25.40 - B 0.230 0.300 5.80 7.60 C 0.028 0.034 0.71 0.86 D 0.104 0.140 2.60 3.60 TVS Diodes Axial Leaded - 600W > TP6KE series Part Numbering System Part Marking System OPTION CODE: BLANK Reel Tape -B Bulk Packaging Cathode Band TYPE CODE: A Uni-Directional (5% VBR Voltage Tolerance) CA Bi-Directional (5% VBR Voltage Tolerance) (for Uni-directional products only) F TP6KE xxx XX X YYWW Trace Code Marking YY:Year Code WW: Week Code Littelfuse Logo VBR VOLTAGE CODE (Refer to the Electrical Characteristics table) TP6KEXXX Product Type SERIES CODE Packaging Component Package Quantity Packaging Option TP6KExxxXX DO-204AC 4000 Tape & Reel EIA STD RS-296 TP6KExxxXX-B DO-204AC 1000 BULK Littelfuse Spec. Part Number Packaging Specification Tape and Reel Specification Off Center either side 2.063+0.079/-0.039 (53.0+2.0/-1.0) 0.028(0.7) 2.56 (65.0) 0.047 (1.2) 0.197+/-0.020 (5.0+/- 0.5) 13.0 (330.2) 0.236 (6.0) Dimensions are in inches/mm 3.0 (76.2) 0.68 (17.27) 2.75 (69.85) Recess Depth Max. 0.75 (19.05) Direction of Feed 5 (c) 2016 Littelfuse, Inc. Specifications are subject to change without notice. Revised: 09/10/16