DIODE Transient Voltage Suppression (TVS) Diode Products

Transcription

1 PRODUCT CATALOG & DESIGN GUIDE DIODE Transient Voltage Suppression (TVS) Diode Products

2 Littelfuse Circuit Prot Solutions Portf DESIGN SUPPORT Consumer Electronics Telecom White Goods Medical Equipment TVSS and Power S Live Application Design and Technical Support Tap into our expertise. Littelfuse engineers are available around the world to help you address design challenges and develop unique, customized solutions for your products. Product Sampling Programs Most of our products are available as samples for testing and verification within your circuit design. Visit Littelfuse.com or contact a Littelfuse product representative for additional information. Product Evaluation Labs and Services Littelfuse global labs are the hub of our new product development initiatives, and also provide design and compliance support testing as an added-value to our customers. OVERVOLTAGE SUPPRESSION TECHNOLOGIES (1-6) 1 1. TVS Diodes Suppress overvoltage transients such as Electrical Fast Transients (EFT), inductive load switching and lightning in a wide variety of applications in the computer, industrial, telecom and automotive markets. 2. Varistors Multiple forms, from Metal Oxide Varistors (MOVs) that suppress transient voltages to Multi-Layer Varistors (MLVs) designed for applications requiring protection from various transients in computers and handheld devices as well as industrial and automotive applications. 3. SIDACtor Devices Complete line of protection thyristor products specifically designed to suppress overvoltage transients in a broad range of telecom and datacom applications. 4. Gas Plasma Arrestors (GDTs) Available in small footprint leaded and surface mount configurations, Littelfuse GDTs respond fast to transient overvoltage events, reducing the risk of equipment damage. 5. Silicon Protection Arrays Designed specifically to protect analog and digital signal lines from electrostatic discharge (ESD) and other overvoltage transients. 6. PulseGuard ESD Suppressors Available in various surface mount form factors to protect high-speed digital lines without causing signal distortion. 2 Visit

3 ection olio upplies Lighting General Electronics SWITCHING TECHNOLOGIES Switching Thyristors Solid-state switches used to control the flow of electrical current in applications, capable of withstanding rated blocking/ off-state voltage until triggered to on-state. ACCESSORIES In addition to our broad portfolio of circuit protection technologies, we offer an array of fuse holders including circuit board, panel or in-line wire mounted devices to support a wide range of application requirements OVERCURRENT PROTECTION TECHNOLOGIES (7-8) Positive Temperature Coefficient Devices (PTCs) Provide resettable overcurrent protection for a wide range of applications. 8. Fuses Full range including surface mount, axial, glass or ceramic, thin-film or Nano 2 style, fast-acting or SloBlo, MINI and ATO fuses. for more information.

4 Transient Voltage Suppression (TVS) Diodes Littelfuse offers the widest range of TVS Diodes and other circuit protection products. Littelfuse TVS Diodes are ideal for protecting semiconductor components from high-voltage transients. They can respond to overvoltage events faster than most other types of circuit protection. This makes TVS Diodes useful for protecting against very fast and often damaging voltage transients, such as lightning, inductive load switching and electrostatic discharge. Littelfuse TVS Diodes can fit a wide range of circuit protection applications but were primarily designed to protect I/O interfaces in telecommunication and industrial equipment, computers and consumer electronics. Features Low incremental surge resistance Unidirectional and Bidirectional polarities available Reverse standoff voltages range from 5 to 512V RoHS compliant Matte Tin Pb-free plated Surface-mount power ratings from 4W to 5,W Axial lead power ratings from 4W to 3,W (3kW) High current protection available for 6kA and 1kA

5 TVS Diode Products Overvoltage Suppression Facts... 2 Transient Voltage Scenarios... 3 TVS Diode Terms & Definitions... 4 TVS Diode Selection Checklist... 4 TABLE OF CONTENTS Type Surface Mount - Standard Applications (4-5W) TVS Diode Series Data Sheet Start Page... Page # Series SMAJ P4SMA SACB SMBJ P6SMB 1KSMB SMCJ 1.5SMC SMDJ 5.SMDJ Photo Operating Temperature -85 to +32 F (-65 to +15 C) Package Type DO-214AC DO-214AC DO-214AA DO-214AA DO-214AA DO-214AA DO-214AB DO-214AB DO-214AB DO-214AB Reverse Standoff Voltage (V R ) uni-directional bi-directional Peak Pulse Power Range (P PP ) Peak Pulse Current (I PP 8x2μs) Maximum Clamping Voltage (V C ) RoHS Compliant Pb Lead-Free 4W 4W 5W 6W 6W 1W 15W 15W 3W 5W Not Applicable Refer to electrical characteristics table within each series data sheet Yes Yes Type Axial Leaded - Standard Applications (4-5W) Axial Leaded - High Power Auto Series P4KE SA SAC P6KE 1.5KE LCE 3KP 5KP 15KPA 2KPA 3KPA AK6 AK1 SLD Page # Photo Operating Temperature -85 to +32 F (-65 to +15 C) Package Type DO-41 DO-15 DO-15 DO-15 DO-21 DO-21 P6 P6 P6 P6 P6 Reverse Standoff Voltage (V R ) -67 to +347 F (-55 to +175 C) Radial Lead Radial Lead -85 to +32 F (-65 to +15 C) P6 Peak Pulse Power Range (P PP ) 4W 5W 5W 6W 15W 15W 3W 5W 15W 2W 3W NA NA 22 based on 1μs/15ms pulse Peak Pulse Current (I PP 8x2μs) Maximum Clamping Voltage (V C ) RoHS Compliant Pb Lead-Free Not Applicable 6A 1A NA Refer to electrical characteristics table within each series data sheet Yes Yes based on 1/1μs pulse unless stated otherwise 1

6 Overvoltage Suppression Facts Transient Threats What Are Transients? Voltage Transients are defined as short duration surges of electrical energy and are the result of the sudden release of energy previously stored or induced by other means, such as heavy inductive loads or lightning. In electrical or electronic circuits, this energy can be released in a predictable manner via controlled switching actions, or randomly induced into a circuit from external sources. Repeatable transients are frequently caused by the operation of motors, generators, or the switching of reactive circuit components. Random transients, on the other hand, are often caused by Lightning and Electrostatic Discharge (ESD). Lightning and ESD generally occur unpredictably, and may require elaborate monitoring to be accurately measured, especially if induced at the circuit board level. Numerous electronics standards groups have analyzed transient voltage occurrences using accepted monitoring or testing methods. The key characteristics of several transients are shown in the table below. VOLTAGE CURRENT RISE-TIME DURATION Lighting 25kV 2kA 1 μs 1ms Switching 6V 5A 5μs 5ms EMP 1kV 1A 2ns 1ms ESD 15kV 3A <1ns 1ns Table 1. Examples of transient sources and magnitude Characteristics of Transient Voltage Spikes Transient voltage spikes generally exhibit a double exponential wave, as shown below for lightning and ESD. t1 Vp t2 Vp/2 Figure 1. Lightning Transient Waveform 1% 9% t The exponential rise time of lightning is in the range 1.2μsec to 1μsec (essentially 1% to 9%) and the duration is in the range of 5μsec to 1μsec (5% of peak values). ESD on the other hand, is a much shorter duration event. The rise time has been characterized at less than 1.ns. The overall duration is approximately 1ns. Why are Transients of Increasing Concern? Component miniaturization has resulted in increased sensitivity to electrical stresses. Microprocessors for example, have structures and conductive paths which are unable to handle high currents from ESD transients. Such components operate at very low voltages, so voltage disturbances must be controlled to prevent device interruption and latent or catastrophic failures. Sensitive microprocessors are prevelant today in a wide range of devices. Everything from home appliances, such as dishwashers, to industrial controls and even toys use microprocessors to improve functionality and efficiency. Most vehicles now also employ multiple electronic systems to control the engine, climate, braking and, in some cases, steering, traction and safety systems. Many of the sub- or supporting components (such as electric motors or accessories) within appliances and automobiles present transient threats to the entire system. Careful circuit design should not only factor environmental scenarios but also the potential effects of these related components. Table 2 below shows the vulnerability of various component technologies. Device Type Vulnerability (volts) VMOS 3-18 MOSFET 1-2 GaAsFET 1-3 EPROM 1 JFET 14-7 CMOS 25-3 Schottky Diodes 3-25 Bipolar Transistors 38-7 SCR 68-1 Table 2: Range of device vulnerability. Current (I) % I 3 I 6 1% tr =.7 to 1.ns 3n 6n Figure 2. ESD Test Waveform 2

7 Transient Voltage Scenarios Electrostatic Discharge (ESD) Electrostatic discharge is characterized by very fast rise times and very high peak voltages and currents. This energy is the result of an imbalance of positive and negative charges between objects. ESD that is generated by everyday activities can far surpass the vulnerability threshold of standard semiconductor technologies. Following are a few examples: Walking across a carpet: RH = RH = 65% Walking across a vinyl floor: RH = RH = 65% Worker at a bench: RH = RH = 65% Vinyl envelopes: RH = RH = 65% Poly bag picked up from desk: RH = RH = 65% Lightning Induced Transients Even though a direct strike is clearly destructive, transients induced by lightning are not the result of a direct strike. When a lightning strike occurs, the event creates a magnetic field which can induce transients of large magnitude in nearby electrical cables. A cloud-to-cloud strike will effect not only overhead cables, but also buried cables. Even a strike 1 mile distant (1.6km) can generate 7 volts in electrical cables. Inductive Load Switching The switching of inductive loads generates high energy transients which increase in magnitude with increasingly heavy loads. When the inductive load is switched off, the collapsing magnetic field is converted into electrical energy which takes the form of a double exponential transient. Depending on the source, these transients can be as large as hundreds of volts and hundreds of Amps, with duration times of 4 milliseconds. Typical sources of inductive transients include: Generator Motor Relay Transformer These examples are common in electrical and electronic systems. Because the sizes of the loads vary according to the application, the wave shape, duration, peak current and peak voltage are all variables which exist in real world transients. Once these variables can be approximated, a suitable suppressor technology can be selected. The diagram at right V T shows a transient T 1 which is the result of 9% stored energy within the alternator of an V S automobile charging system. A similar transient can also be caused by other DC motors in a vehicle. For V B 1% VS = 25V to 125V V B = 14V T= 4ms to 4ms T 1 = 5ms to 1ms R =.5 to 4 example, DC motors power amenities such as power locks, seats and windows. These various applications of a DC motor can produce transients that are just as harmful to the sensitive electronic components as transients created in the external environment. t In a cloud-to-ground strike (as shown at right) the transientgenerating effect is far greater. This diagram shows a typical current waveform for induced lightning disturbances. PERCENT OF PEAK VALUE O1 t t1 t2 TIME 3

8 TVS Diode Terms & Definitions Crowbar Device The class of suppressors that exhibit a crowbar characteristic is usally associated with 4-layer NPNP silicon bipolar devices or gas plasma/gdt devices. Upon reaching a threshold or breakover voltage, further increase in current flow will cause the device to rapidly conduct with only a few volts of forward drop. In essence, the line is momentarily short-circuited during the transient event. Operating Temperature Range The minimum and maximum ambient operating temperature of the circuit in which a device will be applied. Operating temperature does not allow for the effects of adjacent components, this is a parameter the designer must take into consideration. Capacitance The property of a circuit element that permits it to store an electrical charge. In circuit protection, the off-state capacitance is typically measured at 1 MHz with a 2V bias applied. Reverse Standoff Voltage (V R ) In the case of a uni-directional TVS diode, this is the maximum peak voltage that may be applied in the blocking direction with no significant current flow. In the case of a bi-directional transient, it applies in either direction. It is the same definition as Maximum Off-state Voltage and Maximum Working Voltage. Breakdown Voltage (V BR ) Breakdown voltage measured at a specified DC test current, typically 1mA. Usually a minimum and maximum is specified. Peak Pulse Current (I PP ) Maximum pulse current which can be applied repetitively. Usually a 1x1μs double exponential waveform, but can also be 8x2μs, if stated. Maximum Clamping Voltage (V C or V CI ) Maximum voltage which can be measured across the protector when subjected to the Maximum Peak Pulse Current. Peak Pulse Power (P PP ) Expressed in Watts or Kilowatts, for a 1ms exponential transient (see figure 1, page 23) it is I PP multiplied by V CL. TVS Diode Selection Checklist 1. Define Circuit Operating Parameters Normal operating voltage type in DC or AC: Device Type Required: Uni-drectional Bi-directional Normal operating voltage in volts: Maximum transient current (Ipp): Maximum clamping voltage (Vc): Required peak reverse surge power rating: Product mounting type (package): Operating temperature: 2. Narrow TVS Diode Series for the Application Please refer to the product selection charts and data sheets within this guide, factoring these key parameters: Reverse Standoff Voltage (V R ): The device V R should be equal to, or great than, the peak operating level of the circuit (or part of the circuit) to be protected. This is to ensure that TVS Diode does not clip the circuit drive voltage. Peak Pulse Current (I PP ): The Peak Pulse Current (I PP ) identifies the maximum current the TVS Diode can withstand without damage. The required I PP can only be determined by dividing the peak transient voltage by the source impedance. Note that the TVS Diode failure mechanism is a short circuit; if the TVS Diode fails due to a transient, the circuit will still be protected. Maximum Clamping Voltage (V C ): This the peak voltage that will appear across the TVS Diode when subjected to the Peak Pulse Current (I PP ), based on 1X1us exponential waveform. The V C of each TVS Diode is identified in each series data sheet electrical characteristics table. 3. Verify Ambient Operating Parameters Ensure that the application voltage is less than or equal to the device s standoff voltage, and that the operating temperature limits are within those specified by the device. 4. Verify Device Mounting Style and Dimensions Please refer to the dimension drawings contained within the data sheet of each series. 5. Test the Selected Device in Actual Application Please contact Littelfuse if you would like assistance with testing and verifying suitability of a Littelfuse device within your product. We have extensive product testing lab capabilities and technical expertise to assist you. 4

9 TVS Diode Products Data Sheet Table of Contents Surface Mount - Standard Applications (4-5W) RoHS SMAJ series, Surface Mount - 4W 7 RoHS P4SMA series, Surface Mount - 4W 13 RoHS SACB series, Surface Mount - 5W 19 RoHS SMBJ series, Surface Mount - 6W 23 RoHS P6SMB series, Surface Mount - 6W 29 RoHS 1KSMB series, Surface Mount - 1W 35 RoHS SMCJ series, Surface Mount - 15W 41 RoHS 1.5SMC series, Surface Mount - 15W 45 RoHS SMDJ series, Surface Mount - 3W 51 RoHS 5.SMDJ series, Surface Mount - 5W 57 Axial Leaded - Standard Applications (4-5W) RoHS P4KE series, Axial Leaded - 4W 63 RoHS SA series, Axial Leaded - 5W 69 RoHS SAC series, Axial Leaded - 5W 75 RoHS P6KE series, Axial Leaded - 6W 79 RoHS 1.5KE series, Axial Leaded - 15W 85 RoHS LCE series, Axial Leaded - 15W 91 RoHS 3KP series, Axial Leaded - 3W 97 RoHS 5KP series, Axial Leaded - 5W 13 Axial Leaded - High Power Applications (15-3W and 6-1kA) RoHS 15KPA series, Axial Leaded - 15W 19 RoHS 2KPA series, Axial Leaded - 2W 115 RoHS 3KPA series, Axial Leaded - 3W 121 RoHS AK6 series, Axial Leaded - 6kA 127 RoHS AK1 series, Axial Leaded -1kA 131 Axial Leaded - Automotive Applications RoHS SLD series, Axial Leaded - 22W 135 5

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11 Surface Mount 4W > SMAJ series RoHS SMAJ Series Description The SMAJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features SMAJ Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 4 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 3.3 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 4 A Maximum Instantaneous Forward Voltage at 25A for Unidirectional V F 3.5V/6.5 V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 3 C/W Typical Thermal Resistance Junction to Ambient R uja 12 C/W applications to optimize board space capability capability at 1 x 1μs waveform, repetition rate (duty cycle):.1% typically less than 1.ps from Volts to V BR min Applications R less than 1μA above 12V soldering: 26 C/4 seconds at terminals temperature coefficient delta V BR =.1% x V 25 C Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. Notes: 1. Non-repetitive current pulse, per Fig.3 and derated above T A =25ºC per Fig Mounted on 5.x5.mm copper pad to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only. 4. V F < 3.5V for V BR _< 2V and V F < 6.5V for V BR _> 21V. 7 SMAJ Series

12 Surface Mount 4W > SMAJ series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T UNI BI MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) SMAJ5.A SMAJ5.CA AE WE X SMAJ6.A SMAJ6.CA AG WG X SMAJ6.5A SMAJ6.5CA AK WK X SMAJ7.A SMAJ7.CA AM WM X SMAJ7.5A SMAJ7.5CA AP WP X SMAJ8.A SMAJ8.CA AR WR X SMAJ8.5A SMAJ8.5CA AT WT X SMAJ9.A SMAJ9.CA AV WV X SMAJ1A SMAJ1CA AX WX X SMAJ11A SMAJ11CA AZ WZ X SMAJ12A SMAJ12CA BE XE X SMAJ13A SMAJ13CA BG XG X SMAJ14A SMAJ14CA BK XK X SMAJ15A SMAJ15CA BM XM X SMAJ16A SMAJ16CA BP XP X SMAJ17A SMAJ17CA BR XR X SMAJ18A SMAJ18CA BT XT X SMAJ2A SMAJ2CA BV XV X SMAJ22A SMAJ22CA BX XX X SMAJ24A SMAJ24CA BZ XZ X SMAJ26A SMAJ26CA CE YE X SMAJ28A SMAJ28CA CG YG X SMAJ3A SMAJ3CA CK YK X SMAJ33A SMAJ33CA CM YM X SMAJ36A SMAJ36CA CP YP X SMAJ4A SMAJ4CA CR YR X SMAJ43A SMAJ43CA CT YT X SMAJ45A SMAJ45CA CV YV X SMAJ48A SMAJ48CA CX YX X SMAJ51A SMAJ51CA CZ YZ X SMAJ54A SMAJ54CA RE ZE X SMAJ58A SMAJ58CA RG ZG X SMAJ6A SMAJ6CA RK ZK X SMAJ64A SMAJ64CA RM ZM X SMAJ7A SMAJ7CA RP ZP X SMAJ75A SMAJ75CA RR ZR X SMAJ78A SMAJ78CA RT ZT X SMAJ85A SMAJ85CA RV ZV X SMAJ9A SMAJ9CA RX ZX X SMAJ1A SMAJ1CA RZ ZZ X SMAJ11A SMAJ11CA SE VE X SMAJ12A SMAJ12CA SG VG X SMAJ13A SMAJ13CA SK VK X SMAJ15A SMAJ15CA SM VM X SMAJ16A SMAJ16CA SP VP X SMAJ17A SMAJ17CA SR VR X SMAJ18A SMAJ18CA ST VT SMAJ2A SMAJ2CA SV VV SMAJ22A SMAJ22CA SX VX SMAJ25A SMAJ25CA SZ VZ SMAJ3A SMAJ3CA TE UE SMAJ35A SMAJ35CA TG UG SMAJ4A SMAJ4CA TK UK SMAJ44A SMAJ44CA TM UM For bidirectional type having V RWM of 1 volts and less, the I R limit is double. For parts without A (V BR is ± 1% and V C is 5% higher than with A parts). Agency Approval SMAJ Series 8

13 Surface Mount 4W > SMAJ series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) 1 1.2x.2" (5.x5.mm) Copper Pad Area t d -Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) Bi-directional V=V Uni-directional V=V 1 Tj=25ºC f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Forward Surge Current Uni-Directional Only P M(AV), Steady State Power Dissipation (W) T A - Ambient Temperature (ºC) I FSM - Peak Forward Surve Current (A) Number of Cycles at 6 Hz 9 SMAJ Series

14 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 4W > SMAJ series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.2 ounce,.61 gram Temperature Cycle MIL-STD-883F, Method 11.8 Case JEDEC DO-214AC Molded Plastic over glass passivated junction Pressure Cooker JESD 22-A12C Polarity Color band denotes cathode except Bipolar High Temp. Storage JESD 22-A13C Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD, 22-18C Thermal Shock JESD 22 A 16 Dimensions DO-214AC (SMA) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B B C D D E J F G K L H E F G H I J K I L SMAJ Series 1

15 Surface Mount 4W > SMAJ series Part Numbering System SMAJ XXX C A Part Marking System Cathode Band 5% VOLTAGE TOLERANCE BI-DIRECTIONAL XXX F SERIES VOLTAGE Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification SMAJxxxXX DO-214AC 5 EIA RS SMAJ Series

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17 Surface Mount 4W > P4SMA series RoHS P4SMA Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 4 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 3.3 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 4 A Maximum Instantaneous Forward Voltage at 25A for Unidirectional V F 3.5V/6.5 V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 3 C/W Typical Thermal Resistance Junction to Ambient R uja 12 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on.2x.2 (5. x 5.mm) copper pad to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 2V and V F <6.5V for V BR _> 21V. Description The P4SMA series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 1μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. P4SMA Series 13 P4SMA Series

18 Surface Mount 4W > P4SMA series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T UNI BI MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) P4SMA6.8A P4SMA6.8CA 6V8A 6V8C X P4SMA7.5A P4SMA7.5CA 7V5A 7V5C X P4SMA8.2A P4SMA8.2CA 8V2A 8V2C X P4SMA9.1A P4SMA9.1CA 9V1A 9V1C X P4SMA1A P4SMA1CA 1A 1C X P4SMA11A P4SMA11CA 11A 11C X P4SMA12A P4SMA12CA 12A 12C X P4SMA13A P4SMA13CA 13A 13C X P4SMA15A P4SMA15CA 15A 15C X P4SMA16A P4SMA16CA 16A 16C X P4SMA18A P4SMA18CA 18A 18C X P4SMA2A P4SMA2CA 2A 2C X P4SMA22A P4SMA22CA 22A 22C X P4SMA24A P4SMA24CA 24A 24C X P4SMA27A P4SMA27CA 27A 27C X P4SMA3A P4SMA3CA 3A 3C X P4SMA33A P4SMA33CA 33A 33C X P4SMA36A P4SMA36CA 36A 36C X P4SMA39A P4SMA39CA 39A 39C X P4SMA43A P4SMA43CA 43A 43C X P4SMA47A P4SMA47CA 47A 47C X P4SMA51A P4SMA51CA 51A 51C X P4SMA56A P4SMA56CA 56A 56C X P4SMA62A P4SMA62CA 62A 62C X P4SMA68A P4SMA68CA 68A 68C X P4SMA75A P4SMA75CA 75A 75C X P4SMA82A P4SMA82CA 82A 82C X P4SMA91A P4SMA91CA 91A 91C X P4SMA1A P4SMA1CA 1A 1C X P4SMA11A P4SMA11CA 11A 11C X P4SMA12A P4SMA12CA 12A 12C X P4SMA13A P4SMA13CA 13A 13C X P4SMA15A P4SMA15CA 15A 15C X P4SMA16A P4SMA16CA 16A 16C X P4SMA17A P4SMA17CA 17A 17C X P4SMA18A P4SMA18CA 18A 18C X P4SMA2A P4SMA2CA 2A 2C X P4SMA22A P4SMA22CA 22A 22C X P4SMA25A P4SMA25CA 25A 25C X P4SMA3A P4SMA3CA 3A 3C X P4SMA35A P4SMA35CA 35A 35C X P4SMA4A P4SMA4CA 4A 4C X P4SMA44A P4SMA44CA 44A 44C X P4SMA48A P4SMA48CA 48A 48C P4SMA51A P4SMA51CA 51A 51C P4SMA53A P4SMA53CA 53A 53C P4SMA54A P4SMA54CA 54A 54C P4SMA55A P4SMA55CA 55A 55C The avaliable parts are A type only, the parts without A (V BR is ± 1%) is not avaliable. For bidirectional type having V R of 1 volts and less, the I R limit is double. Agency Approval P4SMA Series 14

19 Surface Mount 4W > P4SMA series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (kw) 1.2x.2" (5.x5.mm) Copper Pad Area t d -Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) R R Bi-directional V=V Uni-directional V=V 1 Tj=25ºC f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Forward Surge Current Uni-Directional Only P M(AV), Steady State Power Dissipation (W) I FSM - Peak Forward Surge Current (A) T A - Ambient Temperature (ºC) Number of Cyles at 6 Hz 15 P4SMA Series

20 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 4W > P4SMA series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.2 ounce,.61 gram Temperature Cycle JESD22-A14 Case JEDEC DO-214AC. Molded plastic body over glass passivated junction Pressure Cooker JESD 22-A12 Polarity Color band denotes positive end (cathode) except bidirectional High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AC (SMA) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B B C D D E J F G K L H E F G H I J K I L P4SMA Series 16

21 Surface Mount 4W > P4SMA series Part Numbering System P4SMA XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL Part Marking System Cathode Band XXX F SERIES VOLTAGE Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification P4SMAxxxXX DO-214AC 5 EIA STD RS P4SMA Series

22 18

23 Surface Mount 5W > SACB series RoHS SACB Series Description SACB series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features SACB Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak pulse power dissipation at ta=25 O C by 1 1μs waveform P PPM 5 W (fig.1)( Note 1) Power dissipation on infinite heat sink at T L =5ºC P M(AV) 3. W Peak Pulse Power Dissipation at See Ta=25ºC by 1 1μs waveform I PPM Table 1 (Fig. 3) (Note 1) Amps Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 3 C/W Typical Thermal Resistance Junction to Ambient R uja 12 C/W Note: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig. 2. applications in order to optimize board space temperature coefficient ΔV BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% Applications typically less than 1.ps from V to BV min capability resistance soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. 19 SACB Series

24 Surface Mount 5W > SACB series Electrical Characteristics Part Number Marking Code Stand-Off Voltage (Note1) V R (V) Minimum Breakdown Voltage at I T =1.MA V BR (V) Maximum Reverse Leakage at V R I R (μa) Maximum Clamping Voltage at I PP =5.A V C (V) Maximum Peak Pulse Current per (Fig.3) I PP (A) Maximum Junction Capacitance at Volts (pf) Working Inverse Blocking Voltage V WIB (V) Inverse Blocking Leakage Current at V I IB (ma) Peak Inverse Blocking Voltage V PIB (V) UL Recognition SACB5. SKE X SACB6. SKG X SACB7. SKM X SACB8. SKR X SACB8.5 SKT X SACB1 SKX X SACB12 SLE X SACB15 SLM X SACB18 SLT X SACB22 SLX X SACB26 SME X SACB3 SMK X SACB36 SMP X SACB45 SMV X SACB5 SMZ X Ratings and Characteristic Curves (T A = =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 Average Power I PPM - Peak Pulse Power (kw) P PK".5" P PK td td Impulse Exponential Decay Half Sine td=7tp Non-repetitive Pulse Waveform shown in Fig. 3 T A =25 C Percentage of Rated Power (%) Peak Power (Single Pulse) P PK Square td Current Waveforms.1.1s 1.s 1s 1s 1.ms 1ms t d - Pulse Width (sec.) T L - Lead Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - AC Line Protection Application I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A Low Capacitance td t-time (ms) Application Note: Device must be used with two units in parallel, opposite in polarity as shown in circuit for AC signal line protection. SACB Series 2

25 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 5W > SACB series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.3oz.,.93g Temperature Cycle JESD22-A14 Case JEDEC DO-214AA molded plastic body over glass passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes cathode except Bidirectional High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads. Solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AA (SMB J-Bend) Cathode Band Inches Millimeters Dimensions Min Max Min Max A A C B C D B E D H F G H E F G 21 SACB Series

26 Surface Mount 5W > SACB series Part Numbering System Part Marking System Series Type SACB XX Stand Off Voltage Cathode Band XXX F Littelfuse Logo Product Type Packaging Part number Component Package Quantity Packaging Option Packaging Specification SACBXX DO-214AA 3 EIA STD RS-481 Schematic Transient Voltage Suppressor Diode SACB Series 22

27 Surface Mount 6W > SMBJ series RoHS SMBJ Series Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 6 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 5. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 1 A Maximum Instantaneous Forward Voltage at 5A for Unidirectional V F 3.5V/5. V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 2 C/W Typical Thermal Resistance Junction to Ambient R uja 1 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.2x.2 (5. x 5.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 2V and V F <5.V for V BR _> 21V. Description The SMBJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 1μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. SMBJ Series 23 SMBJ Series

28 Surface Mount 6W > SMBJ series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R (Volts) For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and Vc is 5% higher than with A parts. Breakdown Voltage V BR I T UNI BI MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) SMBJ5.A SMBJ5.CA KE AE X SMBJ6.A SMBJ6.CA KG AG X SMBJ6.5A SMBJ6.5CA KK AK X SMBJ7.A SMBJ7.CA KM AM X SMBJ7.5A SMBJ7.5CA KP AP X SMBJ8.A SMBJ8.CA KR AR X SMBJ8.5A SMBJ8.5CA KT AT X SMBJ9.A SMBJ9.CA KV AV X SMBJ1A SMBJ1CA KX AX X SMBJ11A SMBJ11CA KZ AZ X SMBJ12A SMBJ12CA LE BE X SMBJ13A SMBJ13CA LG BG X SMBJ14A SMBJ14CA LK BK X SMBJ15A SMBJ15CA LM BM X SMBJ16A SMBJ16CA LP BP X SMBJ17A SMBJ17CA LR BR X SMBJ18A SMBJ18CA LT BT X SMBJ2A SMBJ2CA LV BV X SMBJ22A SMBJ22CA LX BX X SMBJ24A SMBJ24CA LZ BZ X SMBJ26A SMBJ26CA ME CE X SMBJ28A SMBJ28CA MG CG X SMBJ3A SMBJ3CA MK CK X SMBJ33A SMBJ33CA MM CM X SMBJ36A SMBJ36CA MP CP X SMBJ4A SMBJ4CA MR CR X SMBJ43A SMBJ43CA MT CT X SMBJ45A SMBJ45CA MV CV X SMBJ48A SMBJ48CA MX CX X SMBJ51A SMBJ51CA MZ CZ X SMBJ54A SMBJ54CA NE DE X SMBJ58A SMBJ58CA NG DG X SMBJ6A SMBJ6CA NK DK X SMBJ64A SMBJ64CA NM DM X SMBJ7A SMBJ7CA NP DP X SMBJ75A SMBJ75CA NR DR X SMBJ78A SMBJ78CA NT DT X SMBJ85A SMBJ85CA NV DV X SMBJ9A SMBJ9CA NX DX X SMBJ1A SMBJ1CA NZ DZ X SMBJ11A SMBJ11CA PE EE X SMBJ12A SMBJ12CA PG EG X SMBJ13A SMBJ13CA PK EK X SMBJ15A SMBJ15CA PM EM X SMBJ16A SMBJ16CA PP EP X SMBJ17A SMBJ17CA PR ER X SMBJ18A SMBJ18CA PT ET SMBJ2A SMBJ2CA PV EV SMBJ22A SMBJ22CA PX EX SMBJ25A SMBJ25CA PZ EZ SMBJ3A SMBJ3CA QE FE SMBJ35A SMBJ35CA QG FG SMBJ4A SMBJ4CA QK FK SMBJ44A SMBJ44CA QM FM Agency Approval SMBJ Series 24

29 Surface Mount 6W > SMBJ series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) x.2" (5.x5.mm) Copper Pad Area Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % t d -Pulse Width (sec.) T A - Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) R Bi-directional V=V R Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only P M(AV), Steady State Power Dissipation (W) T A - Ambient Temperature (ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 25 SMBJ Series

30 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 6W > SMBJ series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight Case.3 ounce,.93 grams JEDEC DO214AA. Molded plastic body over glass passivated junction Temperature Cycle JESD22-A14 Pressure Cooker JESD 22-A12 Polarity Color band denotes cathode except Bidirectional High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 SMBJ Series 26

31 Surface Mount 6W > SMBJ series Dimensions DO-214AA (SMB J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A A C B C B D E D H F G H E J F G K L I J K L I Part Numbering System Part Marking System SMBJ XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL Cathode Band XXX F SERIES VOLTAGE Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification SMBJxxxXX DO-214AA 3 EIA STD RS SMBJ Series

32 28

33 Surface Mount 6W > P6SMB series RoHS P6SMB Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 6 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 5. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 1 A Maximum Instantaneous Forward Voltage at 5A for Unidirectional V F 3.5V/5. V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 2 C/W Typical Thermal Resistance Junction to Ambient R uja 1 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.2x.2 (5. x 5.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only,duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 2V and V F <5.V for V BR _> 21V. Description The P6SMB series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 1μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. P6SMB Series 29 P6SMB Series

34 Surface Mount 6W > P6SMB series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T UNI BI MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) P6SMB6.8A P6SMB6.8CA 6V8A 6V8C X P6SMB7.5A P6SMB7.5CA 7V5A 7V5C X P6SMB8.2A P6SMB8.2CA 8V2A 8V2C X P6SMB9.1A P6SMB9.1CA 9V1A 9V1C X P6SMB1A P6SMB1CA 1A 1C X P6SMB11A P6SMB11CA 11A 11C X P6SMB12A P6SMB12CA 12A 12C X P6SMB13A P6SMB13CA 13A 13C X P6SMB15A P6SMB15CA 15A 15C X P6SMB16A P6SMB16CA 16A 16C X P6SMB18A P6SMB18CA 18A 18C X P6SMB2A P6SMB2CA 2A 2C X P6SMB22A P6SMB22CA 22A 22C X P6SMB24A P6SMB24CA 24A 24C X P6SMB27A P6SMB27CA 27A 27C X P6SMB3A P6SMB3CA 3A 3C X P6SMB33A P6SMB33CA 33A 33C X P6SMB36A P6SMB36CA 36A 36C X P6SMB39A P6SMB39CA 39A 39C X P6SMB43A P6SMB43CA 43A 43C X P6SMB47A P6SMB47CA 47A 47C X P6SMB51A P6SMB51CA 51A 51C X P6SMB56A P6SMB56CA 56A 56C X P6SMB62A P6SMB62CA 62A 62C X P6SMB68A P6SMB68CA 68A 68C X P6SMB75A P6SMB75CA 75A 75C X P6SMB82A P6SMB82CA 82A 82C X P6SMB91A P6SMB91CA 91A 91C X P6SMB1A P6SMB1CA 1A 1C X P6SMB11A P6SMB11CA 11A 11C X P6SMB12A P6SMB12CA 12A 12C X P6SMB13A P6SMB13CA 13A 13C X P6SMB15A P6SMB15CA 15A 15C X P6SMB16A P6SMB16CA 16A 16C X P6SMB17A P6SMB17CA 17A 17C X P6SMB18A P6SMB18CA 18A 18C X P6SMB2A P6SMB2CA 2A 2C X P6SMB22A P6SMB22CA 22A 22C X P6SMB25A P6SMB25CA 25A 25C X P6SMB3A P6SMB3CA 3A 3C X P6SMB35A P6SMB35CA 35A 35C X P6SMB4A P6SMB4CA 4A 4C X P6SMB44A P6SMB44CA 44A 44C X P6SMB48A P6SMB48CA 48A 48C P6SMB51A P6SMB51CA 51A 51C P6SMB53A P6SMB53CA 53A 53C P6SMB54A P6SMB54CA 54A 54C P6SMB55A P6SMB55CA 55A 55C For bidirectional type having V R of 1 volts and less, the I R limit is double. The avaliable parts are A type only, the parts without A (V BR is ± 1%) is not avaliable. Agency Approval P6SMB Series 3

35 Surface Mount 6W > P6SMB series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) x.2" (5.x5.mm) Copper Pad Area t d -Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A - Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) Bi-directional V=V Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only P M(AV), Steady State Power Dissipation (W) I FSM - Peak Forward Surge Current (A) T A - Ambient Temperature (ºC) Number of Cycles at 6 Hz 31 P6SMB Series

36 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 6W > P6SMB series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight Case.3 ounce,.93 grams JEDEC DO214AA. Molded plastic body over glass passivated junction Temperature Cycle JESD22-A14 Pressure Cooker JESD 22-A12 Polarity Color band denotes cathode except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 P6SMB Series 32

37 Surface Mount 6W > P6SMB series Dimensions DO-214AA (SMB J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A A C B C B D E D H F G H E J F G K L I J K L I Part Numbering System P6SMB XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL Part Marking System Cathode Band XXX F SERIES VOLTAGE Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification P6SMBxxxXX DO-214AA 3 EIA STD RS P6SMB Series

38 34

39 Surface Mount 1W > 1KSMB series RoHS 1KSMB Series Agency Approvals AGENCY AGENCY FILE NUMBER E Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 1 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 5. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 1 A Maximum Instantaneous Forward Voltage at 5A for Unidirectional V F 3.5V/5. V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 2 C/W Typical Thermal Resistance Junction to Ambient R uja 1 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.2x.2 (5. x 5.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 5V and V F <5.V for V BR _> 51V. Description The 1KSMB series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min capability resistance Applications R less than 1μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated Voltage from 6.8V to 16V specially designed for automotive applications in compact package: bridges the gap between 6W and 1.5KW TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. 1KSMB Series 35 1KSMB Series

40 Surface Mount 1W > 1KSMB series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T UNI BI MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) 1KSMB6.8A 1KSMB6.8CA A1A N1A x 1KSMB7.5A 1KSMB7.5CA A1B N1B x 1KSMB8.2A 1KSMB8.2CA A1C N1C x 1KSMB9.1A 1KSMB9.1CA A1D N1D x 1KSMB1A 1KSMB1CA A1E N1E x 1KSMB11A 1KSMB11CA A1F N1F x 1KSMB12A 1KSMB12CA A1G N1G x 1KSMB13A 1KSMB13CA A1H N1H x 1KSMB15A 1KSMB15CA A1I N1I x 1KSMB16A 1KSMB16CA A1J N1J x 1KSMB18A 1KSMB18CA A1K N1K x 1KSMB2A 1KSMB2CA A1L N1L x 1KSMB22A 1KSMB22CA A1M N1M x 1KSMB24A 1KSMB24CA A1N N1N x 1KSMB27A 1KSMB27CA A1O N1O x 1KSMB3A 1KSMB3CA A1P N1P x 1KSMB33A 1KSMB33CA A1Q N1Q x 1KSMB36A 1KSMB36CA A1R N1R x 1KSMB39A 1KSMB39CA A1S N1S x 1KSMB43A 1KSMB43CA A1T N1T x 1KSMB47A 1KSMB47CA A1U N1U x 1KSMB51A 1KSMB51CA A1V N1V x 1KSMB56A 1KSMB56CA A1W N1W x 1KSMB62A 1KSMB62CA A1X N1X x 1KSMB68A 1KSMB68CA A1Y N1Y x 1KSMB75A 1KSMB75CA A1Z N1Z x 1KSMB82A 1KSMB82CA B1A O1A x 1KSMB91A 1KSMB91CA B1B O1B x 1KSMB1A 1KSMB1CA B1C O1C x 1KSMB11A 1KSMB11CA B1D O1D KSMB12A 1KSMB12CA B1E O1E KSMB13A 1KSMB13CA B1F O1F KSMB15A 1KSMB15CA B1G O1G KSMB16A 1KSMB16CA B1H O1H For bidirectional type having V R of 1 volts and less, the I R limit is double. The avaliable parts are A type only, the parts without A (V BR is ± 1%) is not avaliable. Agency Approval 1KSMB Series 36

41 Surface Mount 1W > 1KSMB series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (kw) 1 1.2x.2" (5.x5.mm) Copper Pad Area t d -Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) R Bi-directional V=V R Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only 6 12 P M(AV), Steady State Power Dissipation (W) I FSM - Peak Forward Surge Current (A) T A - Ambient Temperature(ºC) Number of Cycles at 6 Hz 37 1KSMB Series

42 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 1W > 1KSMB series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight Case.3 ounce,.93 grams JEDEC DO214AA. Molded plastic body over glass passivated junction Temperature Cycle JESD22-A14 Pressure Cooker JESD 22-A12 Polarity Color band denotes cathode except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 1KSMB Series 38

43 Surface Mount 1W > 1KSMB series Dimensions DO-214AA (SMB J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A A C B C B D E D H F G H E J F G K L I J K L I Part Numbering System 1KSMB XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL VOLTAGE SERIES Part Marking System Cathode Band XXX F Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification 1KSMBxxxXX DO-214AA 3 EIA STD RS KSMB Series

44 4

45 Surface Mount 15W > SMCJ series RoHS SMCJ Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 15 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 6.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 2 A Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5/5. V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 15 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.31x.31 (8. x 8.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 2V and V F <5.V for V BR _> 21V. Description The SMCJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 1μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. SMCJ Series 41 SMCJ Series

46 Surface Mount 15W > SMCJ series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R Breakdown Voltage V BR I T UNI BI (Volts) MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) Agency Approval SMCJ5.A SMCJ5.CA GDE BDE X SMCJ6.A SMCJ6.CA GDG BDG X SMCJ6.5A SMCJ6.5CA GDK BDK X SMCJ7.A SMCJ7.CA GDM BDM X SMCJ7.5A SMCJ7.5CA GDP BDP X SMCJ8.A SMCJ8.CA GDR BDR X SMCJ8.5A SMCJ8.5CA GDT BDT X SMCJ9.A SMCJ9.CA GDV BDV X SMCJ1A SMCJ1CA GDX BDX X SMCJ11A SMCJ11CA GDZ BDZ X SMCJ12A SMCJ12CA GEE BEE X SMCJ13A SMCJ13CA GEG BEG X SMCJ14A SMCJ14CA GEK BEK X SMCJ15A SMCJ15CA GEM BEM X SMCJ16A SMCJ16CA GEP BEP X SMCJ17A SMCJ17CA GER BER X SMCJ18A SMCJ18CA GET BET X SMCJ2A SMCJ2CA GEV BEV X SMCJ22A SMCJ22CA GEX BEX X SMCJ24A SMCJ24CA GEZ BEZ X SMCJ26A SMCJ26CA GFE BFE X SMCJ28A SMCJ28CA GFG BFG X SMCJ3A SMCJ3CA GFK BFK X SMCJ33A SMCJ33CA GFM BFM X SMCJ36A SMCJ36CA GFP BFP X SMCJ4A SMCJ4CA GFR BFR X SMCJ43A SMCJ43CA GFT BFT X SMCJ45A SMCJ45CA GFV BFV X SMCJ48A SMCJ48CA GFX BFX X SMCJ51A SMCJ51CA GFZ BFZ X SMCJ54A SMCJ54CA GGE BGE X SMCJ58A SMCJ58CA GGG BGG X SMCJ6A SMCJ6CA GGK BGK X SMCJ64A SMCJ64CA GGM BGM X SMCJ7A SMCJ7CA GGP BGP X SMCJ75A SMCJ75CA GGR BGR X SMCJ78A SMCJ78CA GGT BGT X SMCJ85A SMCJ85CA GGV BGV X SMCJ9A SMCJ9CA GGX BGX X SMCJ1A SMCJ1CA GGZ BGZ X SMCJ11A SMCJ11CA GHE BHE X SMCJ12A SMCJ12CA GHG BHG X SMCJ13A SMCJ13CA GHK BHK X SMCJ15A SMCJ15CA GHM BHM X SMCJ16A SMCJ16CA GHP BHP X SMCJ17A SMCJ17CA GHR BHR X SMCJ18A SMCJ18CA GHT BHT X SMCJ2A SMCJ2CA GHV BHV X SMCJ22A SMCJ22CA GHX BHX X SMCJ25A SMCJ25CA GHZ BHZ X SMCJ3A SMCJ3CA GJE BJE X SMCJ35A SMCJ35CA GJG BJG X SMCJ4A SMCJ4CA GJK BJK X SMCJ44A SMCJ44CA GJM BJM X For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts. SMCJ Series 42

47 Surface Mount 15W > SMCJ series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve 1 2 P PPM -Peak Pulse Power (kw) 1.31x.31" (8.x8.mm) Copper Pad Area t d -Pulse Width (sec.) I PSM -Peak Forward Surge Current (A) Single Half Sine-Wave (JEDEC Method) Undirectional Only TJ=TJ MAX 1 1 Number of Cycles at 6Hz Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) R Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V=V Uni-directional V=V R V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only P M(AV), Steady Sate Power Dissipation (W) T A - Ambient Temperature (ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 43 SMCJ Series

48 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 15W > SMCJ series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) T P T L T s(max) Ramp-up t L Critical Zone T L to T P Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max - Temperature (T Reflow L ) (Liquidus) 217 C - Time (min to max) (t s ) Peak Temperature (T P ) 26 +/-5 C T s(min) 25 C t s Preheat t 25 C to Peak Time (t) Ramp-down Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.7 ounce,.21 grams Temperature Cycle JESD22-A14 Case JEDEC DO214AB. Molded plastic body over glass passivated junction Pressure Cooker JESD 22-A12 Polarity Color band denotes positive end (cathode) except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AB (SMC J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B C B D D H E F G E G F H I J K L J K I L SMCJ Series 44

49 Surface Mount 15W > SMCJ series Part Numbering System SMCJ XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL VOLTAGE SERIES Part Marking System Cathode Band XXX F Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification SMCJxxxXX DO-214AB 3 EIA STD RS SMCJ Series

50 46

51 Surface Mount 15W > 1.5SMC series RoHS 1.5SMC Series Description The 1.5SMC series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features 1.5SMC Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 15 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 6.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 2 A Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5/5. V only (Note 4) Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 15 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 1μA above 13V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.31x.31 (8. x 8.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 4. V F <3.5V for V BR _< 2V and V F <5.V for V BR _> 21V SMC Series

52 Surface Mount 15W > 1.5SMC series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R Breakdown Voltage V BR I T UNI BI (Volts) MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) 1.5SMC6.8A 1.5SMC6.8CA 6V8A 6V8C X 1.5SMC7.5A 1.5SMC7.5CA 7V5A 7V5C X 1.5SMC8.2A 1.5SMC8.2CA 8V2A 8V2C X 1.5SMC9.1A 1.5SMC9.1CA 9V1A 9V1C X 1.5SMC1A 1.5SMC1CA 1A 1C X 1.5SMC11A 1.5SMC11CA 11A 11C X 1.5SMC12A 1.5SMC12CA 12A 12C X 1.5SMC13A 1.5SMC13CA 13A 13C X 1.5SMC15A 1.5SMC15CA 15A 15C X 1.5SMC16A 1.5SMC16CA 16A 16C X 1.5SMC18A 1.5SMC18CA 18A 18C X 1.5SMC2A 1.5SMC2CA 2A 2C X 1.5SMC22A 1.5SMC22CA 22A 22C X 1.5SMC24A 1.5SMC24CA 24A 24C X 1.5SMC27A 1.5SMC27CA 27A 27C X 1.5SMC3A 1.5SMC3CA 3A 3C X 1.5SMC33A 1.5SMC33CA 33A 33C X 1.5SMC36A 1.5SMC36CA 36A 36C X 1.5SMC39A 1.5SMC39CA 39A 39C X 1.5SMC43A 1.5SMC43CA 43A 43C X 1.5SMC47A 1.5SMC47CA 47A 47C X 1.5SMC51A 1.5SMC51CA 51A 51C X 1.5SMC56A 1.5SMC56CA 56A 56C X 1.5SMC62A 1.5SMC62CA 62A 62C X 1.5SMC68A 1.5SMC68CA 68A 68C X 1.5SMC75A 1.5SMC75CA 75A 75C X 1.5SMC82A 1.5SMC82CA 82A 82C X 1.5SMC91A 1.5SMC91CA 91A 91C X 1.5SMC1A 1.5SMC1CA 68A 1C X 1.5SMC11A 1.5SMC11CA 75A 11C X 1.5SMC12A 1.5SMC12CA 12A 12C X 1.5SMC13A 1.5SMC13CA 13A 13C X 1.5SMC15A 1.5SMC15CA 15A 15C X 1.5SMC16A 1.5SMC16CA 16A 16C X 1.5SMC17A 1.5SMC17CA 17A 17C X 1.5SMC18A 1.5SMC18CA 18A 18C X 1.5SMC2A 1.5SMC2CA 2A 2C X 1.5SMC22A 1.5SMC22CA 22A 22C X 1.5SMC25A 1.5SMC25CA 25A 25C X 1.5SMC3A 1.5SMC3CA 3A 3C X 1.5SMC35A 1.5SMC35CA 35A 35C X 1.5SMC4A 1.5SMC4CA 4A 4C X 1.5SMC44A 1.5SMC44CA 44A 44C X 1.5SMC48A 1.5SMC48CA 48A 48C X 1.5SMC51A 1.5SMC51CA 51A 51C X 1.5SMC53A 1.5SMC53CA 53A 53C X 1.5SMC54A 1.5SMC54CA 54A 54C X 1.5SMC55A 1.5SMC55CA 55A 55C X For bidirectional type having V R of 1 volts and less, the I R limit is double. The avaliable parts are A type only, the parts without A (V BR is ± 1%) is not avaliable. Agency Approval 1.5SMC Series 48

53 Surface Mount 15W > 1.5SMC series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) x.31" (8.x8.mm) Copper Pad Area Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % t d -Pulse Width (sec.) T A - Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) R Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V=V R Uni-directional V=V V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Dissipation Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only P M(AV), Steady Sate Power Dissipation (W) I FSM - Peak Forward Surge Current (A) T A - Ambient Temperature (ºC) Number of Cycles at 6 Hz SMC Series

54 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 15W > 1.5SMC series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) T P T L T s(max) Ramp-up t L Critical Zone T L to T P Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max - Temperature (T Reflow L ) (Liquidus) 217 C - Time (min to max) (t s ) Peak Temperature (T P ) 26 +/-5 C T s(min) 25 C t s Preheat t 25 C to Peak Time (t) Ramp-down Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.7 ounce,.21 grams Temperature Cycle JESD22-A14 Case JEDEC DO214AB. Molded plastic body over glass passivated junction Pressure Cooker JESD 22-A12 Polarity Color band denotes positive end (cathode) except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AB (SMC J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B C B D D H E F G E G F H I J K L J K I L SMC Series 5

55 Surface Mount 15W > 1.5SMC series Part Numbering System 1.5SMC XXX C A Part Marking System Cathode Band 5% VOLTAGE TOLERANCE BI-DIRECTIONAL XXX F SERIES VOLTAGE Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification 1.5SMCxxxXX DO-214AB 3 EIA STD RS SMC Series

56 52

57 Surface Mount 3W > SMDJ series RoHS SMDJ Series Description The SMDJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features SMDJ Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25ºC by 1x1μs waveform P PPM 3 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 6.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 3 A Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5 V only Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 15 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W applications in order to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 2μA above 12V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.31x.31 (8. x 8.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 53 SMDJ Series

58 Surface Mount 3W > SMDJ series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R Breakdown Voltage V BR I T UNI BI (Volts) MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) SMDJ5.A SMDJ5.CA RDE DDE X SMDJ6.A SMDJ6.CA RDG DDG X SMDJ6.5A SMDJ6.5CA RDK DDK X SMDJ7.A SMDJ7.CA PDM DDM X SMDJ7.5A SMDJ7.5CA PDP DDP X SMDJ8.A SMDJ8.CA PDR DDR X SMDJ8.5A SMDJ8.5CA PDT DDT X SMDJ9.A SMDJ9.CA PDV DDV X SMDJ1A SMDJ1CA PDX DDX X SMDJ11A SMDJ11CA PDZ DDZ X SMDJ12A SMDJ12CA PEE DEE X SMDJ13A SMDJ13CA PEG DEG X SMDJ14A SMDJ14CA PEK DEK X SMDJ15A SMDJ15CA PEM DEM X SMDJ16A SMDJ16CA PEP DEP X SMDJ17A SMDJ17CA PER DER X SMDJ18A SMDJ18CA PET DET X SMDJ2A SMDJ2CA PEV DEV X SMDJ22A SMDJ22CA PEX DEX X SMDJ24A SMDJ24CA PEZ DEZ X SMDJ26A SMDJ26CA PFE DFE X SMDJ28A SMDJ28CA PFG DFG X SMDJ3A SMDJ3CA PFK DFK X SMDJ33A SMDJ33CA PFM DFM X SMDJ36A SMDJ36CA PFP DFP X SMDJ4A SMDJ4CA PFR DFR X SMDJ43A SMDJ43CA PFT DFT X SMDJ45A SMDJ45CA PFV DFV X SMDJ48A SMDJ48CA PFX DFX X SMDJ51A SMDJ51CA PFZ DFZ X SMDJ54A SMDJ54CA RGE DGE X SMDJ58A SMDJ58CA PGG DGG X SMDJ6A SMDJ6CA PGK DGK X SMDJ64A SMDJ64CA PGM DGM X SMDJ7A SMDJ7CA PGP DGP X SMDJ75A SMDJ75CA PGR DGR X SMDJ78A SMDJ78CA PGT DGT X SMDJ85A SMDJ85CA PGV DGV X SMDJ9A SMDJ9CA PGX DGX X SMDJ1A SMDJ1CA PGZ DGZ X SMDJ11A SMDJ11CA PHE DHE X SMDJ12A SMDJ12CA PHG DHG X SMDJ13A SMDJ13CA PHK DHK X SMDJ15A SMDJ15CA PHM DHM X SMDJ16A SMDJ16CA PHP DHP X SMDJ17A SMDJ17CA PHR DHR X For parts without A, the V BR is ± 1%, and V C is 5% higher than A parts. For bidirectional type having V R of 1 volts and less, the I R limit is double. Agency Approval SMDJ Series 54

59 Surface Mount 3W > SMDJ series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (KW) x.31" (8.x8.mm) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % Copper Pad Area t d -Pulse Width (Sec.) T A - Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A Cj (pf) Bi-directional V= OV Uni-directional V= OV VR VR td t-time (ms) V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional only P M(AV), Steady Sate Power Dissipation (W) T A - Ambient Temperature(ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 55 SMDJ Series

60 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 3W > SMDJ series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.7 ounce,.21 grams Temperature Cycle JESD22-A14 Case JEDEC DO214AB. Molded plastic body over glass passivated junction Pressure Cooker JESD 22-A12 Polarity Color band denotes positive end (cathode) except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AB (SMC J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B B C D D E F G H E F G H I J K L J K I L SMDJ Series 56

61 Surface Mount 3W > SMDJ series Part Numbering System SMDJ XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL VOLTAGE SERIES Part Marking System Cathode Band XXX F Littelfuse Logo Product Type Packaging Part number Component Package Quantity Packaging Option Packaging Specification SMDJxxxXX DO-214AB 3 EIA STD RS SMDJ Series

62 58

63 Surface Mount 5W > 5.SMDJ series RoHS 5.SMDJ Series Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation at T A =25 O C by 1x1μs waveform P PPM 5 W (Fig.1)(Note 1), (Note 2) Power Dissipation on infinite heat sink at T A =5 O C P M(AV) 6.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 3 A Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 5. V only Operating Junction and Storage Temperature Range T J, T STG -65 to 15 C Typical Thermal Resistance Junction to Lead R ujl 15 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Mounted on copper pad area of.31x.31 (8. x 8.mm) to each terminal. 3. Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only,duty cycle=4 per minute maximum. Description The 5.SMDJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features applications to optimize board space temperature coefficient Δ V BR =.1% V C junction capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from V to BV min Applications capability resistance R less than 5μA above 22V soldering guaranteed: 26 C/4 seconds at terminals Underwriters Laboratory Flammability 94V-O Plated TVS devices are ideal for the protection of I/O Interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. 5.SMDJ Series 59 5.SMDJ Series

64 Surface Mount 5W > 5.SMDJ series Electrical Characteristics Part Number (Uni) Part Number (Bi) Marking Reverse Stand off Voltage V R Breakdown Voltage V BR I T UNI BI (Volts) MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) 5.SMDJ12A 5.SMDJ12CA 5PEP 5BEP SMDJ13A 5.SMDJ13CA 5PEQ 5BEQ SMDJ14A 5.SMDJ14CA 5PER 5BER SMDJ15A 5.SMDJ15CA 5PES 5BES SMDJ16A 5.SMDJ16CA 5PET 5BET SMDJ17A 5.SMDJ17CA 5PEU 5BEU SMDJ18A 5.SMDJ18CA 5PEV 5BEV SMDJ2A 5.SMDJ2CA 5PEW 5BEW X 5.SMDJ22A 5.SMDJ22CA 5PEX 5BEX X 5.SMDJ24A 5.SMDJ24CA 5PEZ 5BEZ X 5.SMDJ26A 5.SMDJ26CA 5PFE 5BFE X 5.SMDJ28A 5.SMDJ28CA 5PFG 5BFG X 5.SMDJ3A 5.SMDJ3CA 5PFK 5BFK X 5.SMDJ33A 5.SMDJ33CA 5PFM 5BFM X 5.SMDJ36A 5.SMDJ36CA 5PFP 5BFP X 5.SMDJ4A 5.SMDJ4CA 5PFR 5BFR X 5.SMDJ43A 5.SMDJ43CA 5PFT 5BFT X 5.SMDJ45A 5.SMDJ45CA 5PFV 5BFV X 5.SMDJ48A - 5PFX X 5.SMDJ51A - 5PFZ X 5.SMDJ54A - 5RGE X 5.SMDJ58A - 5PGG X 5.SMDJ6A - 5PGK X 5.SMDJ64A - 5PGM X 5.SMDJ7A - 5PGP X 5.SMDJ75A - 5PGR X 5.SMDJ78A - 5PGT X 5.SMDJ85A - 5PGV X 5.SMDJ9A - 5PGX X 5.SMDJ1A - 5PGZ X 5.SMDJ11A - 5PHE X 5.SMDJ12A - 5PHG X 5.SMDJ13A - 5PHK X 5.SMDJ15A - 5PHM X 5.SMDJ16A - 5PHP X 5.SMDJ17A - 5PHR X For Bidirectional type having V R of 2 volts and less,the I R limit is double. Agency Approval 5.SMDJ Series 6

65 Surface Mount 5W > 5.SMDJ series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (KW) x.31" (8.x8.mm) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % Copper Pad Area t d -Pulse Width (Sec.) T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A Cj (pf) Bi-directional V= OV Uni-directional V= OV VR VR td t-time (ms) V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only P M(AV), Steady State Power Dissipation (W) T A -Ambient Temperature (ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 61 5.SMDJ Series

66 Temperature (T) Transient Voltage Suppression Diodes Surface Mount 5W > 5.SMDJ series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Physical Specifications Environmental Specifications Weight.7 ounce,.21 grams Temperature Cycle JESD22-A14 Case JEDEC DO214AB. Molded plastic body over glass passivated junction Pressure Cooker JESD 22-A12 Polarity Color band denotes positive end (cathode) except Bidirectional. High Temp. Storage JESD22-A13 Terminal Matte Tin-plated leads, Solderable per JESD22-B12D HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions DO-214AB (SMC J-Bend) Cathode Band Dimensions Inches Millimeters Min Max Min Max A C A B C D B H D E F G E G F H I J K L J K I L SMDJ Series 62

67 Surface Mount 5W > 5.SMDJ series Part Numbering System 5.SMDJ XXX C A 5% VOLTAGE TOLERANCE BI-DIRECTIONAL VOLTAGE SERIES Part Marking System Cathode Band XXXX F Littelfuse Logo Marking Code Packaging Part number Component Package Quantity Packaging Option Packaging Specification 5.SMDJxxxXX DO-214AB 3 EIA STD RS SMDJ Series

68 64

69 Axial Leaded 4W > P4KE series RoHS P4KE Series Description The P4KE Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 4 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 1.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 4 A only (Note 2) Maximum Instantaneous Forward Voltage at 25A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 6 C/W Typical Thermal Resistance Junction to Ambient R uja 1 C/W temperature coefficient Δ V BR =.1% V C junction in DO-41 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 1μA above 13V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. P4KE Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F <5.V for devices of V BR _> 21V. 65 P4KE Series

70 Axial Leaded 4W > P4KE series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) MIN Breakdown Voltage V I T (V) MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) Agency Approval P4KE6.8A P4KE6.8CA X P4KE7.5A P4KE7.5CA X P4KE8.2A P4KE8.2CA X P4KE9.1A P4KE9.1CA X P4KE1A P4KE1CA X P4KE11A P4KE11CA X P4KE12A P4KE12CA X P4KE13A P4KE13CA X P4KE15A P4KE15CA X P4KE16A P4KE16CA X P4KE18A P4KE18CA X P4KE2A P4KE2CA X P4KE22A P4KE22CA X P4KE24A P4KE24CA X P4KE27A P4KE27CA X P4KE3A P4KE3CA X P4KE33A P4KE33CA X P4KE36A P4KE36CA X P4KE39A P4KE39CA X P4KE43A P4KE43CA X P4KE47A P4KE47CA X P4KE51A P4KE51CA X P4KE56A P4KE56CA X P4KE62A P4KE62CA X P4KE68A P4KE68CA X P4KE75A P4KE75CA X P4KE82A P4KE82CA X P4KE91A P4KE91CA X P4KE1A P4KE1CA X P4KE11A P4KE11CA X P4KE12A P4KE12CA X P4KE13A P4KE13CA X P4KE15A P4KE15CA X P4KE16A P4KE16CA X P4KE17A P4KE17CA X P4KE18A P4KE18CA X P4KE2A P4KE2CA X P4KE22A P4KE22CA X P4KE25A P4KE25CA X P4KE3A P4KE3CA X P4KE35A P4KE35CA X P4KE4A P4KE4CA X P4KE44A P4KE44CA X P4KE48A P4KE48CA P4KE51A P4KE51CA P4KE53A P4KE53CA P4KE54A P4KE54CA P4KE55A P4KE55CA For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts P4KE Series 66

71 Axial Leaded 4W > P4KE series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve P PPM - Peak Pulse Power (KW) μs 1.μs 1μs 1μs 1.ms 1ms Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage, % t d - Pulse Width (sec.) T A - Ambient Temperature ( C) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance Uni-Directional I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) V R Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional VR=V R Uni-directional VR=V V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady Pulse Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only Steady Sate Power Dissipation (W) L =.375" (9.5mm) Lead Lengths T L -Lead Temperature(ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 67 P4KE Series

72 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 4W > P4KE series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C T L t L - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T s(max) T s(min) t s Preheat Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate Time 25 C to peak Temperature (T P ) 6 C/second max 8 minutes Max. Peak Temperature : Dipping Time : 26 O C 5 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.12oz.,.3g Temperature Cycle JESD22-A14 Case JEDEC DO-24AL (DO-41) molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions A D B DO-24AL (DO-41) A C Dimensions Inches Millimeters Min Max Min Max A B C D P4KE Series 68

73 Axial Leaded 4W > P4KE series Part Numbering System P4KE xxxxxx Part Marking System Cathode Band OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional P4KEXXX F VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification P4KExxxXX DO-24AL 5 Tape & Reel EIA STD RS-296E P4KExxxXX-B DO-24AL 5 BOX Littelfuse Concord Packing Spec. DM P4KE Series

74 7

75 Axial Leaded 5W > SA series RoHS SA Series Description The SA Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 5 W (Note 1) Steady State Power Dissipation on infinite heat sink at T L =75ºC (Fig. 5) P D 3. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 7 A only (Note 2) Maximum Instantaneous Forward Voltage at 35A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 2 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W temperature coefficient Δ V BR =.1% V C junction in DO-15 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 1μA above 13V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. SA Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F <5.V for devices of V BR _> 21V. 71 SA Series

76 Axial Leaded 5W > SA series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (V) Breakdown Voltage V BR I T MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I PP (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) SA5.A SA5.CA X SA6.A SA6.CA X SA6.5A SA6.5CA X SA7.A SA7.CA X SA7.5A SA7.5CA X SA8.A SA8.CA X SA8.5A SA8.5CA X SA9.A SA9.CA X SA1A SA1CA X SA11A SA11CA X SA12A SA12CA X SA13A SA13CA X SA14A SA14CA X SA15A SA15CA X SA16A SA16CA X SA17A SA17CA X SA18A SA18CA X SA2A SA2CA X SA22A SA22CA X SA24A SA24CA X SA26A SA26CA X SA28A SA28CA X SA3A SA3CA X SA33A SA33CA X SA36A SA36CA X SA4A SA4CA X SA43A SA43CA X SA45A SA45CA X SA48A SA48CA X SA51A SA51CA X SA54A SA54CA X SA58A SA58CA X SA6A SA6CA X SA64A SA64CA X SA7A SA7CA X SA75A SA75CA X SA78A SA78CA X SA85A SA85CA X SA9A SA9CA X SA1A SA1CA X SA11A SA11CA X SA12A SA12CA X SA13A SA13CA X SA15A SA15CA X SA16A SA16CA X SA17A SA17CA X SA18A SA18CA X For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1%. Agency Approval SA Series 72

77 Axial Leaded 5W > SA series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve P PPM - Peak Pulse Power (KW) P P Exponential T d T d Half SINE Non-repetitive Pulse Waveform Shown in Fig. 3 T A =25ûC P T d Square.1 1.μs 1.μs 1μs 1μs 1.ms 1ms t d - Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage, % T A - Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) V R Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V=V V R Uni-directional V=V V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Forward Surge Current Uni-Directional Only Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature(ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz 73 SA Series

78 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 5W > SA series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C T L t L - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T s(min) t s Preheat Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.15oz.,.4g Temperature Cycle JESD22-A14 Case JEDEC DO-24AC (DO-15) molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions A D B A DO-24AC (DO-15) C Dimensions Inches Millimeters Min Max Min Max A B C D SA Series 74

79 Axial Leaded 5W > SA series Part Numbering System SAxxx XXX Part Marking System Cathode Band OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional SAXXX F VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification SAxxxXX DO-24AC 4 Tape & Reel EIA STD RS-296E SAxxxXX-B DO-24AC 1 Bulk Littelfuse Concord Packing Spec. DM SA Series

80 76

81 Axial Leaded 5W > SAC series RoHS SAC Series Description The SAC Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 5 W (Note 1) Steady State Power Dissipation on infinite heat sink at T L =75ºC (Fig. 5) P D 3. W Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C junction in DO-15 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability resistance Applications soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated applications TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. SAC Series Note: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig. 2. Electrical Characteristics Part Number Reverse Stand off Voltage V R (V) Breakdown Voltage V BR (V) MIN Maximum Reverse Leakage I V R (μa) Maximum Clamping Voltage at I pp =5.A V C (V) Maximum Peak Pulse Current (Fig.3) I PP (A) Maximum Junction Volts (pf) Working Inverse Blocking Voltage V WIB (V) Inverse Blocking Leakage Current at I V WIB (ma) Peak Inverse Blocking Voltage V PIB (V) SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X SAC X Agency Approval 77 SAC Series

82 Axial Leaded 5W > SAC series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (kw) Percentage of Rated Power (%) Peak Power (Single Pulse) Average Power t d -Pulse Width (Sec.) T L Lead Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - AC Line Protection Application I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A Low Capacitance td t-time (ms) Application Note: Device must be used with two units in parallel, opposite in polarity as shown in circuit for AC signal line protection. Figure 5 - Steady State Power Derating Curve 3.5 Steady State Power dissipation (W) T L -Lead Temperature (ºC) SAC Series 78

83 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 5W > SAC series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.15oz.,.4g Temperature Cycle JESD22-A14 Case JEDEC DO-24AC (DO-15) molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D DO-24AC (DO-15) 79 SAC Series

84 Axial Leaded 5W > SAC series Part Numbering System Part Marking System SAC xxx X OPTION CODE: BLANK Reel Tape -B Bulk Packaging VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Cathode Band SACXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification SACxxxXX DO-24AC 4 Tape & Reel EIA STD RS-296E SACxxxXX-B DO-24AC 1 BULK Littelfuse Concord Packing Spec. DM-16 Schematic SAC Series 8

85 Axial Leaded 6W > P6KE series RoHS P6KE Series Description The P6KE Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 6 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 5. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 1 A only (Note 2) Maximum Instantaneous Forward Voltage at 5A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 2 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W temperature coefficient Δ V BR =.1% V C junction in DO-15 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 1μA above 13V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. P6KE Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F < 5.V for devices of V BR _> 21V. 81 P6KE Series

86 Axial Leaded 6W > P6KE series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (V) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) Agency Approval P6KE6.8A P6KE6.8CA X P6KE7.5A P6KE7.5CA X P6KE8.2A P6KE8.2CA X P6KE9.1A P6KE9.1CA X P6KE1A P6KE1CA X P6KE11A P6KE11CA X P6KE12A P6KE12CA X P6KE13A P6KE13CA X P6KE15A P6KE15CA X P6KE16A P6KE16CA X P6KE18A P6KE18CA X P6KE2A P6KE2CA X P6KE22A P6KE22CA X P6KE24A P6KE24CA X P6KE27A P6KE27CA X P6KE3A P6KE3CA X P6KE33A P6KE33CA X P6KE36A P6KE36CA X P6KE39A P6KE39CA X P6KE43A P6KE43CA X P6KE47A P6KE47CA X P6KE51A P6KE51CA X P6KE56A P6KE56CA X P6KE62A P6KE62CA X P6KE68A P6KE68CA X P6KE75A P6KE75CA X P6KE82A P6KE82CA X P6KE91A P6KE91CA X P6KE1A P6KE1CA X P6KE11A P6KE11CA X P6KE12A P6KE12CA X P6KE13A P6KE13CA X P6KE15A P6KE15CA X P6KE16A P6KE16CA X P6KE17A P6KE17CA X P6KE18A P6KE18CA X P6KE2A P6KE2CA X P6KE22A P6KE22CA X P6KE25A P6KE25CA X P6KE3A P6KE3CA X P6KE35A P6KE35CA X P6KE4A P6KE4CA X P6KE44A P6KE44CA X P6KE48A P6KE48CA P6KE51A P6KE51CA P6KE53A P6KE53CA P6KE54A P6KE54CA P6KE55A P6KE55CA P6KE6A P6KE6CA For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts P6KE Series 82

87 Axial Leaded 6W > P6KE series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Pulse Derating Curve P PPM - Peak Pulse Power (kw) Non-repetitive Pulse Waveform shown in Fig 3. T A =25ûC.1.1μs 1.μs 1μs 1μs 1.ms 1ms Peak Pulse Power (P PP ) or Current (I PPM ) Derating in Percentage, % t d - Pulse Width (sec.) T A - Ambient Temperature ( o C) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance Uni-Directional I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V=V Uni-directional V=V V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Forward Surge Current 6 12 Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths I FSM - Peak Forward Surge Current (A) T L -Lead Temperature(ºC) Number of Cycles at 6 Hz 83 P6KE Series

88 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 6W > P6KE series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.15oz.,.4g Temperature Cycle JESD22-A14 Case JEDEC DO-24AC (DO-15) molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions A D B DO-24AC (DO-15) A C Dimensions Inches Millimeters Min Max Min Max A B C D P6KE Series 84

89 Axial Leaded 6W > P6KE series Part Numbering System P6KE xxxxxx Part Marking System Cathode Band OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE P6KEXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification P6KExxxXX DO-24AC 4 Tape & Reel EIA STD RS-296E P6KExxxXX-B DO-24AC 1 BULK Littelfuse Concord Packing Spec. DM P6KE Series

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91 Axial Leaded 15W > 1.5KE series RoHS 1.5KE Series Description The 1.5KE Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 15 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 6.5 W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 2 A only (Note 2) Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 15 C/W Typical Thermal Resistance Junction to Ambient R uja 75 C/W temperature coefficient Δ V BR =.1% V C junction in DO-21 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 1μA above 13V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 1.5KE Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F <5.V for devices of V BR _> 21V. Please refer to for current information. for the most current information KE Series

92 Axial Leaded 15W > 1.5KE series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I pp (Volts) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μa) 1.5KE6.8A 1.5KE6.8CA X 1.5KE7.5A 1.5KE7.5CA X 1.5KE8.2A 1.5KE8.2CA X 1.5KE9.1A 1.5KE9.1CA X 1.5KE1A 1.5KE1CA X 1.5KE11A 1.5KE11CA X 1.5KE12A 1.5KE12CA X 1.5KE13A 1.5KE13CA X 1.5KE15A 1.5KE15CA X 1.5KE16A 1.5KE16CA X 1.5KE18A 1.5KE18CA X 1.5KE2A 1.5KE2CA X 1.5KE22A 1.5KE22CA X 1.5KE24A 1.5KE24CA X 1.5KE27A 1.5KE27CA X 1.5KE3A 1.5KE3CA X 1.5KE33A 1.5KE33CA X 1.5KE36A 1.5KE36CA X 1.5KE39A 1.5KE39CA X 1.5KE43A 1.5KE43CA X 1.5KE47A 1.5KE47CA X 1.5KE51A 1.5KE51CA X 1.5KE56A 1.5KE56CA X 1.5KE62A 1.5KE62CA X 1.5KE68A 1.5KE68CA X 1.5KE75A 1.5KE75CA X 1.5KE82A 1.5KE82CA X 1.5KE91A 1.5KE91CA X 1.5KE1A 1.5KE1CA X 1.5KE11A 1.5KE11CA X 1.5KE12A 1.5KE12CA X 1.5KE13A 1.5KE13CA X 1.5KE15A 1.5KE15CA X 1.5KE16A 1.5KE16CA X 1.5KE17A 1.5KE17CA X 1.5KE18A 1.5KE18CA X 1.5KE2A 1.5KE2CA X 1.5KE22A 1.5KE22CA X 1.5KE25A 1.5KE25CA X 1.5KE3A 1.5KE3CA X 1.5KE35A 1.5KE35CA X 1.5KE4A 1.5KE4CA X 1.5KE44A 1.5KE44CA X 1.5KE48A 1.5KE48CA X 1.5KE51A 1.5KE51CA X 1.5KE53A 1.5KE53CA X 1.5KE54A 1.5KE54CA X 1.5KE55A 1.5KE55CA X For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is +1% and V C is 5% higher than with A parts. Agency Approval 1.5KE Series 88 Please refer Please to refer to for current /series/1.5ke.html information. for the most current information

93 Axial Leaded 15W > 1.5KE series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) t d -Pulse Width (Sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) V R Bi-directional V=V V R Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Uni-Directional Only Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature(ºC) I FSM - Peak Forward Surge Current (A) Number of Cycles at 6 Hz Please refer to for current information. for the most current information KE Series

94 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 15W > 1.5KE series Soldering Parameters Reflow Condition t p Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T P T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.45oz., 1.2g Temperature Cycle JESD22-A14 Case JEDEC DO-21 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions A D B DO-21 A C Dimensions Inches Millimeters Min Max Min Max A B C D KE Series 9 Please refer Please to refer to for current /series/1.5ke.html information. for the most current information

95 Axial Leaded 15W > 1.5KE series Part Numbering System 1.5KE xxxxxx OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Part Marking System Cathode Band 1.5KEXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 1.5KExxxXX DO Tape & Reel EIA STD RS-296E 1.5KExxxXX-B DO-21 5 BULK Littelfuse Concord Packing Spec. DM-16 Please refer to for current information. for the most current information KE Series

96 92

97 Axial Leaded 15W > LCE series RoHS LCE Series Description The LCE Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 15 W (Note 1) Steady State Power Dissipation on infinite heat sink at T L =75ºC (Fig. 5) P D 6.5 W Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C junction in DO-21 Package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability resistance Applications soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated applications TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. LCE Series Note: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig LCE Series

98 Axial Leaded 15W > LCE series Electrical Characteristics Part Number Reverse Stand off Voltage V R (V) Breakdown Voltage V BR (V) MIN MAX Test Current I T (ma) Maximum Reverse Leakage I V R (μa) Maximum Clamping Voltage at I pp V C (V) Maximum Peak Pulse Current (Fig.3) I PPM (A) Maximum Junction Volts (pf) Working Inverse Blocking Voltage V WIB (V) Inverse Blocking Leakage Current at I V WIB (ma) Peak Inverse Blocking Voltage V PIB (V) Agency Approval LCE6.5A X LCE7.A X LCE7.5A X LCE8.A X LCE8.5A X LCE9.A X LCE1A X LCE11A X LCE12A X LCE13A X LCE14A X LCE15A X LCE16A X LCE17A X LCE18A X LCE2A X LCE22A X LCE24A X LCE26A X LCE28A X LCE3A LCE33A LCE36A LCE4A LCE43A LCE45A LCE48A LCE51A LCE54A LCE58A LCE6A LCE64A LCE7A LCE75A LCE85A LCE9A Note: For parts without A, the V BR is ± 1%. LCE Series 94

99 Axial Leaded 15W > LCE series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Figure 2 - Power Derating Curve 1 1 P PPM - Peak Pulse Power (kw) Percentage of Rated Power (%) Peak Power (Single Pulse) Average Power t d -Pluse Width (Sec.) T L -Lead Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - AC Line Protection Application I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A + + Low Capacitance TVC td t-time (ms) Application Note: Device must be used with two units in parrellel, opposite in polarity as shown on circuit for AC signal lin protection. Figure 5 - Steady State Power Derating Curve Steady State Power Dissipation (W) T L -Lead Temperature (ºC) 95 LCE Series

100 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 15W > LCE series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T s(min) t s Preheat Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.45oz., 1.2g Temperature Cycle JESD22-A14 Case JEDEC DO-21 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D DO-21 LCE Series 96

101 Axial Leaded 15W > LCE series Part Numbering System Part Marking System LCE xxx A X OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Cathode Band XXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification LCExxxXX DO Tape & Reel EIA STD RS-296E LCExxxXX-B DO-21 5 BULK Littelfuse Concord Packing Spec. DM-16 Schematic 97 LCE Series

102 98

103 Axial Leaded 3W > 3KP series RoHS 3KP Series Description The 3KP Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 3 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 7. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 3 A only (Note 2) Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W temperature coefficient Δ V BR =.1% V C junction in P6 package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 2μA above 12V soldering guaranteed: 26 C/4 seconds /.375, (9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 3KP Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F <5.V for devices of V BR _> 21V. 99 3KP Series

104 Axial Leaded 3W > 3KP series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I PP (V) Maximum Peak Pulse Current I PP (A) Maximum Reverse Leakage I V R (μ A) Agency Approval 3KP5.A 3KP5.CA X 3KP6.A 3KP6.CA X 3KP6.5A 3KP6.5CA X 3KP7.A 3KP7.CA X 3KP7.5A 3KP7.5CA X 3KP8.A 3KP8.CA X 3KP8.5A 3KP8.5CA X 3KP9.A 3KP9.CA X 3KP1A 3KP1CA X 3KP11A 3KP11CA X 3KP12A 3KP12CA X 3KP13A 3KP13CA X 3KP14A 3KP14CA X 3KP15A 3KP15CA X 3KP16A 3KP16CA X 3KP17A 3KP17CA X 3KP18A 3KP18CA X 3KP2A 3KP2CA X 3KP22A 3KP22CA X 3KP24A 3KP24CA X 3KP26A 3KP26CA X 3KP28A 3KP28CA X 3KP3A 3KP3CA X 3KP33A 3KP33CA X 3KP36A 3KP36CA X 3KP4A 3KP4CA X 3KP43A 3KP43CA X 3KP45A 3KP45CA X 3KP48A 3KP48CA X 3KP51A 3KP51CA X 3KP54A 3KP54CA X 3KP58A 3KP58CA X 3KP6A 3KP6CA X 3KP64A 3KP64CA X 3KP7A 3KP7CA X 3KP75A 3KP75CA X 3KP78A 3KP78CA X 3KP85A 3KP85CA X 3KP9A 3KP9CA X 3KP1A 3KP1CA X 3KP11A 3KP11CA X 3KP12A 3KP12CA X 3KP13A 3KP13CA X 3KP15A 3KP15CA X 3KP16A 3KP16CA X 3KP17A 3KP17CA X 3KP18A 3KP18CA X 3KP19A 3KP19CA X 3KP2A 3KP2CA X 3KP21A 3KP21CA X 3KP22A 3KP22CA X For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts For bidirectional type having V R of 1 volts and less, the I R limit is double. 3KP Series 1

105 Axial Leaded 3W > 3KP series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (KW) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % t d -Pulse Width (Sec.) T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A Cj (Pf) Bi-directional V= OV Uni-directional V= OV V R V R td t-time (ms) V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L -Lead Temperature (ºC) I FSM Peak Forward Surge Current (A) Number of Cycles at 6 Hz 11 3KP Series

106 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 3W > 3KP series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak T S(max) to T L - Ramp-up Rate 3 C/second max 3 C/second max T s(min) t s Preheat Ramp-down Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate Time 25 C to peak Temperature (T P ) 6 C/second max 8 minutes Max. Peak Temperature : Dipping Time : 265 O C 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.1g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 3KP Series 12

107 Axial Leaded 3W > 3KP series Part Numbering System Part Marking System 3KPxxx XXX OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Cathode Band 3KPXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 3KPxxxXX P6 8 Tape & Reel EIA STD RS-296E 3KPxxxXX-B P6 5 BULK Littelfuse Concord Packing Spec. DM KP Series

108 14

109 Axial Leaded 5W > 5KP series RoHS 5KP Series Description The 5KP Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 5 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 8. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 4 A only (Note 2) Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5/5. V only (Note 3) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W temperature coefficient Δ V BR =.1% V C junction in P6 package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability resistance Applications R less than 2μA above 12V soldering guaranteed: 26 C/4 seconds /.375, (9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 5KP Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. 3. V F <3.5V for devices of V BR _< 2V and V F <5.V for devices of V BR _> 21V. 15 5KP Series

110 Axial Leaded 5W > 5KP series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN MAX Test Current I T (ma) Maximum Clamping Voltage V I PP (V) Maximum Peak Pulse Current I PP (A) Maximum Reverse Leakage I V R (μ A) Agency Approval 5KP5.A 5KP5.CA X 5KP6.A 5KP6.CA X 5KP6.5A 5KP6.5CA X 5KP7.A 5KP7.CA X 5KP7.5A 5KP7.5CA X 5KP8.A 5KP8.CA X 5KP8.5A 5KP8.5CA X 5KP9.A 5KP9.CA X 5KP1A 5KP1CA X 5KP11A 5KP11CA X 5KP12A 5KP12CA X 5KP13A 5KP13CA X 5KP14A 5KP14CA X 5KP15A 5KP15CA X 5KP16A 5KP16CA X 5KP17A 5KP17CA X 5KP18A 5KP18CA X 5KP2A 5KP2CA X 5KP22A 5KP22CA X 5KP24A 5KP24CA X 5KP26A 5KP26CA X 5KP28A 5KP28CA X 5KP3A 5KP3CA X 5KP33A 5KP33CA X 5KP36A 5KP36CA X 5KP4A 5KP4CA X 5KP43A 5KP43CA X 5KP45A 5KP45CA X 5KP48A 5KP48CA X 5KP51A 5KP51CA X 5KP54A 5KP54CA X 5KP58A 5KP58CA X 5KP6A 5KP6CA X 5KP64A 5KP64CA X 5KP7A 5KP7CA X 5KP75A 5KP75CA X 5KP78A 5KP78CA X 5KP85A 5KP85CA X 5KP9A 5KP9CA X 5KP1A 5KP1CA X 5KP11A 5KP11CA X 5KP12A 5KP12CA X 5KP13A 5KP13CA X 5KP15A 5KP15CA X 5KP16A 5KP16CA X 5KP17A 5KP17CA X 5KP18A 5KP18CA X 5KP19A 5KP19CA X 5KP2A 5KP2CA X 5KP21A 5KP21CA X 5KP22A 5KP22CA X 5KP25A 5KP25CA X For bidirectional type having V R of 1 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts 5KP Series 16

111 Axial Leaded 5W > 5KP series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve P PPM - Peak Pulse Power (kw) Non-repetitive pulse waveform shown in Fig.3 T A =25ºC Peak Pulse Power (kw) μs 1.μs 1μs 1μs 1.ms 1ms t d - Pulse Width (sec.) T A - Ambient Temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) V R Bi-directional V=V V R Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature(ºC) I FSM, Peak Forward Surge Current (A) Number of Cycles at 6 Hz 17 5KP Series

112 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 5W > 5KP series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C T L t L - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T s(min) t s Preheat Ramp-down T S(max) to T L - Ramp-up Rate 3 C/second max Reflow - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.1g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 5KP Series 18

113 Axial Leaded 5W > 5KP series Part Numbering System Part Marking System 5KPxxx XXX OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Cathode Band 5KPXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 5KPxxxXX P6 8 Tape & Reel EIA STD RS-296E 5KPxxxXX-B P6 5 BULK Littelfuse Concord Packing Spec. DM KP Series

114 11

115 Axial Leaded 15W > 15KPA series RoHS 15KPA Series Description The 15KPA Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Agency Approvals AGENCY AGENCY FILE NUMBER E128662/E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 15 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 8. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 4 A only (Note 2) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum. Features temperature coefficient Δ V BR =.1% V C junction in P6 package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 2μA above 36V soldering guaranteed: 26 C/4 seconds /.375, (9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 15KPA Series KPA Series

116 Axial Leaded 15W > 15KPA series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN Test Current I T (ma) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μ A) Maximum Clamping Voltage V I PP (V) 15KPA17A 15KPA17CA X 15KPA18A 15KPA18CA X 15KPA2A 15KPA2CA X 15KPA22A 15KPA22CA X 15KPA24A 15KPA24CA X 15KPA26A 15KPA26CA X 15KPA28A 15KPA28CA X 15KPA3A 15KPA3CA X 15KPA33A 15KPA33CA X 15KPA36A 15KPA36CA X 15KPA4A 15KPA4CA X 15KPA43A 15KPA43CA X 15KPA45A 15KPA45CA X 15KPA48A 15KPA48CA X 15KPA51A 15KPA51CA X 15KPA54A 15KPA54CA X 15KPA58A 15KPA58CA X 15KPA6A 15KPA6CA X 15KPA64A 15KPA64CA X 15KPA7A 15KPA7CA X 15KPA75A 15KPA75CA X 15KPA78A 15KPA78CA X 15KPA85A 15KPA85CA X 15KPA9A 15KPA9CA X 15KPA1A 15KPA1CA X 15KPA11A 15KPA11CA X 15KPA12A 15KPA12CA X 15KPA13A 15KPA13CA X 15KPA15A 15KPA15CA X 15KPA16A 15KPA16CA X 15KPA17A 15KPA17CA X 15KPA18A 15KPA18CA X 15KPA2A 15KPA2CA X 15KPA22A 15KPA22CA X 15KPA24A 15KPA24CA X 15KPA26A 15KPA26CA X 15KPA28A 15KPA28CA X For bidirectional type having V R of 3 volts and less, the I R limit is double. For parts without A, the V BR is +1% and Vc is 5% higher than with A parts Agency Approval 15KPA Series 112

117 Axial Leaded 15W > 15KPA series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve P PPM -Peak Pulse Power (kw) t d -Pulse Width (sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Test Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj (pf) 1 1 V R Bi-directional V=V V R Uni-directional V=V Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature(ºC) I FSM, Peak Forward Surge Current (A) Number of Cycles at 6 Hz KPA Series

118 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 15W > 15KPA series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T L T s(max) T s(min) t s Preheat t L Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.5g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 15KPA Series 114

119 Axial Leaded 15W > 15KPA series Part Numbering System 15KPA xxxxxx OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Part Marking System Cathode Band 15KPAXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 15KPAxxxXX P6 8 Tape & Reel EIA STD RS-296E 15KPAxxxXX-B P6 5 BULK Littelfuse Concord Packing Spec. DM KPA Series

120 116

121 Axial Leaded 2W > 2KPA series RoHS 2KPA Series Description The 2KPA Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 2 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 8. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 4 A only (Note 2) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W temperature coefficient Δ V. =.1% V C junction in P6 package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 2μA above 49V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 2KPA Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum KPA Series

122 Axial Leaded 2W > 2KPA series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN Test Current I T (ma) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I V R (μ A) Maximum Clamping Voltage V I PP (V) Agency Approval 2KPA2A 2KPA2CA X 2KPA24A 2KPA24CA X 2KPA26A 2KPA26CA X 2KPA28A 2KPA28CA X 2KPA3A 2KPA3CA X 2KPA32A 2KPA32CA X 2KPA34A 2KPA34CA X 2KPA36A 2KPA36CA X 2KPA4A 2KPA4CA X 2KPA44A 2KPA44CA X 2KPA48A 2KPA48CA X 2KPA52A 2KPA52CA X 2KPA56A 2KPA56CA X 2KPA6A 2KPA6CA X 2KPA64A 2KPA64CA X 2KPA68A 2KPA68CA X 2KPA72A 2KPA72CA X 2KPA8A 2KPA8CA X 2KPA88A 2KPA88CA X 2KPA96A 2KPA96CA X 2KPA14A 2KPA14CA X 2KPA112A 2KPA112CA X 2KPA12A 2KPA12CA X 2KPA132A 2KPA132CA X 2KPA144A 2KPA144CA X 2KPA16A 2KPA16CA X 2KPA172A 2KPA172CA X 2KPA18A 2KPA18CA X 2KPA192A 2KPA192CA X 2KPA24A 2KPA24CA X 2KPA216A 2KPA216CA X 2KPA232A 2KPA232CA X 2KPA24A 2KPA24CA X 2KPA256A 2KPA256CA X 2KPA28A 2KPA28CA X 2KPA3A 2KPA3CA X For bidirectional type having V RWM of 4 volts and less, the I R limit is double. For parts without A, the V BR is ± 1% and V C is 5% higher than with A parts. 2KPA Series 118

123 Axial Leaded 2W > 2KPA series Ratings and Characteristic Curves (T A =25 C unless otherwise notedfigure 1 - Peak Pulse Power Rating Curve Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM - Peak Pulse Power (KW) t d - Pulse Width (Sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj, Junction Capacitance (pf) VR Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V= OV VR Uni-directional V= OV V BR - Reverse Breakdwon Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature (ºC) I FSM, Peak Forward Surge Current (A) Number of Cycles at 6 Hz 119 2KPA Series

124 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 2W > 2KPA series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T L T s(max) T s(min) t s Preheat t L Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate Time 25 C to peak Temperature (T P ) 6 C/second max 8 minutes Max. Peak Temperature : Dipping Time : 265 O C 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.5g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 2KPA Series 12

125 Axial Leaded 2W > 2KPA series Part Numbering System 2KPA xxxxxx OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Part Marking System Cathode Band 2KPAXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 2KPAxxxXX P6 8 Tape & Reel EIA STD RS-296E 2KPAxxxXX-B P6 5 BULK Littelfuse Concord Packing Spec. DM KPA Series

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127 Axial Leaded 3W > 3KPA series RoHS 3KPA Series Description The 3KPA Series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. Features Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation by 1x1μs test waveform (Fig.1) P PPM 3 W (Note 1) Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P D 8. W Peak Forward Surge Current, 8.3ms Single Half Sine Wave Unidirectional I FSM 4 A only (Note 2) Operating Junction and Storage Temperature Range T J, T STG -55 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W temperature coefficient Δ V BR =.1% V C junction in P6 package capability at 1 1μs waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications resistance R less than 2μA above 73V soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in telecom, computer, industrial and consumer electronic applications. 3KPA Series Notes: 1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25 O C per Fig Measured on 8.3ms single half sine wave or equivalent square wave, duty cycle=4 per minute maximum KPA Series

128 Axial Leaded 3W > 3KPA series Electrical Characteristics Part Number (Uni) Part Number (Bi) Reverse Stand off Voltage V R (Volts) Breakdown Voltage V BR I T MIN Test Current I T (ma) Maximum Peak Pulse Current I pp (A) Maximum Reverse Leakage I R (μ A) Maximum Clamping Voltage V I PP (V) Agency Approval 3KPA28A 3KPA28CA X 3KPA3A 3KPA3CA X 3KPA33A 3KPA33CA X 3KPA36A 3KPA36CA X 3KPA39A 3KPA39CA X 3KPA42A 3KPA42CA X 3KPA43A 3KPA43CA X 3KPA45A 3KPA45CA X 3KPA48A 3KPA48CA X 3KPA51A 3KPA51CA X 3KPA54A 3KPA54CA X 3KPA58A 3KPA58CA X 3KPA6A 3KPA6CA X 3KPA64A 3KPA64CA X 3KPA66A 3KPA66CA X 3KPA7A 3KPA7CA X 3KPA71A 3KPA71CA X 3KPA72A 3KPA72CA X 3KPA75A 3KPA75CA X 3KPA78A 3KPA78CA X 3KPA84A 3KPA84CA X 3KPA9A 3KPA9CA X 3KPA96A 3KPA96CA X 3KPA12A 3KPA12CA X 3KPA18A 3KPA18CA X 3KPA12A 3KPA12CA X 3KPA132A 3KPA132CA X 3KPA144A 3KPA144CA X 3KPA15A 3KPA15CA X 3KPA156A 3KPA156CA X 3KPA16A 3KPA16CA X 3KPA168A 3KPA168CA X 3KPA17A 3KPA17CA X 3KPA18A 3KPA18CA X 3KPA198A 3KPA198CA X 3KPA216A 3KPA216CA X 3KPA24A 3KPA24CA X 3KPA258A 3KPA258CA X 3KPA26A 3KPA26CA X 3KPA27A 3KPA27CA X 3KPA28A 3KPA28CA X 3KPA288A 3KPA288CA X For bidirectional type having V RWM of 6 volts and less, the I R limit is double. For parts without A, the V BR is ± 1%. 3KPA Series 124

129 Axial Leaded 3W > 3KPA series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 Pppm-Peak Pulse Power (KW) td-pulse Width (Sec.) Peak Pulse Power (P PP ) or Current (I PP ) Derating in Percentage % T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM td tr=1μsec Peak Value IPPM Half Value IPPM 2 IPPM ( ) TJ=25 C Pulse Width(td) is defined as the point where the peak current decays to 5% of IPPM 1/1μsec. Waveform as defined by R.E.A t-time (ms) Cj, Junction Capacitance (pf) VR Tj=25C f=1.mhz Vsig=5mVp-p Bi-directional V= OV VR Uni-directional V= OV V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature (ºC) I FSM, Peak Forward Surge Current (A) Number of Cycles at 6 Hz 125 3KPA Series

130 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 3W > 3KPA series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T L T s(max) T s(min) t s Preheat t L Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.5g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 3KPA Series 126

131 Axial Leaded 3W > 3KPA series Part Numbering System 3KPA xxxxxx OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: A Uni-Directional (5% Voltage Tolerance) CA Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Part Marking System Cathode Band 3KPAXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification 3KPAxxxXX P6 8 Tape & Reel EIA STD RS-296E 3KPAxxxXX-B P6 5 BULK Littelfuse Concord Packing Spec. DM KPA Series

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133 Axial Leaded 6kA > AK6 series RoHS AK6 Series Description Agency Approvals The new AK6 series of high current transient suppressors have been specially designed for use in A.C. line protection and any demanding applications (AC or DC). They offer superior clamping characteristics over standard S.A.D. technologies by virtue of the Littelfuse Foldbak technology, which provides a clamping voltage lower than the avalanche voltage (but above the rated working voltage). Therefore, any voltage rise due to increased current conduction is contained to a minimum, providing the best possible protection level. They can also be connected in series and/or parallel to create very high capacity protection solutions. AGENCY AGENCY FILE NUMBER E Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Operating Junction and Storage Temperature Range T J, T STG (-)55 to 15 C Features technology for superior clamping factor for reliabilty times less volume than traditional discrete solutions Voltage Current Rating 1 I PP 6 ka Note: 1. Rated I PP measured with 8 x 2μS pulse. Electrical Characteristics AK6 Series Max. Test Max. Clamping Voltage Max. Temp Max. Standoff Reserve Reverse Breakdown Agency Part Current V Voltage Leakage Voltage (V BR I I pp Peak Pulse Coefficient Capacitance Approval T Numbers I T Current (I PP ) (Note 1) OF V BR Bias 1kHz (V SO ) Volts (I R SO μa Min Volts Max Volts (ma) V CL Volts I PP Amps (%/ O C) (nf) AK6-58C ,.1 8 X AK6-76C , X AK6-17C , X AK6-19C , X AK6-24C Note: Using 8 x 2μS wave shape as defined in IEC ,.1 2. X AK6-38C , X AK6-43C ,.1 1. X Specifications All specifications are are subject subject to change to change without without notice. notice. Please refer to for current information. current information. 129 AK6 Series

134 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 6kA > AK6 series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T L T s(max) T s(min) t s Preheat t L Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Flow/Wave Soldering (Solder Dipping) Peak Temperature : Dipping Time : Soldering : 265 O C 1 seconds 1 time Physical Specifications Weight Contact manufacturer Case Terminal Epoxy encapsulated Silver plated leads, solderable per MIL-STD-22 Method 28 Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Peak Power Derating 12 Percent of Rated Value AMBIENT TEMPERATURE ( C) AK6 Series 13 All Specifications specifications are subject to change without notice. Please refer to Please refer to for current information.

135 Axial Leaded 6kA > AK6 series Dimensions L2 L1 B A G C D F E Dimensions Inches Millimeters A B C - 58C/76C C D.57 max max. E F.5 max max. G - 58C/76C G - 17C/19C G - 24C G - 38C/43C L L1-38C/43C L2= A - (G+L1) tolerance +/-.4 inch (1. mm) Part Marking System Part Numbering System Date Code Littelfuse Logo AK6 XXXX XX AK6-xxxx LF Series Type Stand Off Voltage (Please Refer to Electrical Characteristics Chart) Note: UL mark does not appear on -58C & -76C. Product Type Specifications All specifications are are subject subject to change to change without without notice. notice. Please refer to for current information. current information. 131 AK6 Series

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137 Axial Leaded 1kA > AK1 series RoHS AK1 Series Description Agency Approvals AGENCY AGENCY FILE NUMBER The new AK1 series of high current transient suppressors have been specially designed for use in A.C. line protection and any demanding applications (AC or DC). They offer superior clamping characteristics over standard S.A.D. technologies by virtue of the Littelfuse Foldbak technology, which provides a clamping voltage lower than the avalanche voltage (but above the rated working voltage). Therefore, any voltage rise due to increased current conduction is contained to a minimum, providing the best possible protection level. They can also be connected in series and/or parallel to create very high capacity protection solutions. Features E Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Operating Junction and Storage Temperature Range T J, T STG (-)55 to 15 C technology for superior clamping factor times less volume than traditional discrete solutions Voltage Current Rating 1 I PP 1 ka Note: 1. Rated I PP measured with 8 x 2μs pulse. Electrical Characteristics Part Numbers Standoff Voltage (V SO ) Volts Max. Reserve Leakage (I R SO μa Note: Using 8 x 2μS wave shaped defined in IEC Reverse Breakdown Voltage (V BR I T Test Current I T Max. Clamping Voltage V Peak Pulse Current (I PP ) (Note 1) Max. Temp Coefficient of V BR Max. Capacitance Bias 1kHz Min Volts Max Volts (ma) V CL Volts I PP Amps (%/ O C) (nf) AK1-58C , X AK1-76C , X AK1-17C , X AK1-19C , X AK1-24C , X AK1-38C ,.1 2. X AK1-43C , X Agency Approval AK1 Series Specifications All specifications are are subject subject to change to change without without notice. notice. Please refer to for current information. current information. 133 AK1 Series

138 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 1kA > AK1 series Soldering Parameters Reflow Condition T P t p - Temperature Min (T s(min) ) 15 C Ramp-up Critical Zone T L to T P Pre Heat - Temperature Max (T s(max) ) 2 C - Time (min to max) (t s ) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T L T s(max) T s(min) t s Preheat t L Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Time 25 C to peak Temperature (T P ) 8 minutes Max. Do not exceed 28 C Peak Temperature : Dipping Time : Soldering : 265 O C 1 seconds 1 time Physical Specifications Weight Contact manufacturer Case Terminal Epoxy encapsulated Silver plated leads, solderable per MIL-STD-22 Method 28 Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Peak Power Derating 12 Percent of Rated Value AMBIENT TEMPERATURE ( C) AK1 Series 134 All Specifications specifications are subject to change without notice. Please refer to Please refer to for current information.

139 Axial Leaded 1kA > AK1 series Dimensions L2 L1 B A G C D F E Dimensions Inches Millimeters A B C - 58C/76C C D.57 max max. E F.5 max max. G - 58C/76C G - 17C/19C G - 24C G - 38C/43C L L1-38C/43C L2= A - (G+L1) tolerance +/-.4 inch (1. mm) Part Marking System Part Numbering System Date Code Littelfuse Logo AK1 XXXX XX AK1-xxxx LF Series Type Stand Off Voltage (Please Refer to Electrical Characteristics Chart) Product Type Note: UL mark does not appear on -58C and -76C. Specifications All specifications are are subject subject to change to change without without notice. notice. Please refer to for current information. current information. 135 AK1 Series

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141 Axial Leaded 22W > SLD series RoHS SLD Series Description The SLD Series is packaged in a highly reliable industry standard P6 axial leaded package and is designed to provide percision overvoltage protection for sensitive electronics. Agency Approvals AGENCY AGENCY FILE NUMBER E23531 Maximum Ratings and Thermal Characteristics (T A =25 O C unless otherwise noted) Parameter Symbol Value Unit Peak Pulse Power Dissipation 1. 1μs x 15ms test waveform P PPM 22 W 2. 8 x 2μs test waveform 5 W Steady State Power Dissipation on inifinite heat sink at T L =75ºC (Fig. 5) P M(AV) 8. W Maximum Instantaneous Forward Voltage at 1A for Unidirectional V F 3.5 V only Operating Junction and Storage Temperature Range T J, T STG -65 to 175 C Typical Thermal Resistance Junction to Lead R ujl 8. C/W Typical Thermal Resistance Junction to Ambient R uja 4 C/W Electrical Characteristics (T A =25 C unless otherwise noted) Part Number (Uni) Part Number (Bi) Breakdown Voltage V I T (V) MIN MAX Test Current I T (ma) Reverse Stand off Voltage V R (Volts) Notes: 1. V BR measured after I T applied for 3μs, I T = square wave pulse or equivalent. 2. Surge current waveform per 1μS x 15mS exponential wave and derated per Fig All terms and symbols are consistent with ANSI/IEEE C Features temperature coefficient Δ V BR =.1% V C junction in P6 package capability at 1μs 15ms waveform, repetition rate (duty cycles):.1% typically less than 1.ps from Volts to BV min capability Applications Designed to protect sensitive electronics from: - Inductive Load Switching - Alternator Load Dump Maximum Reverse V R I R (μa) Maximum Peak Pulse Current I pp (A) Maximum Clamping I PP V C (V) resistance soldering guaranteed: 26 C/4 seconds /.375,(9.5mm) lead length, 5 lbs., (2.3kg) tension Underwriters Laboratory Flammability classification 94V-O plated Agency Approval SLD1U-17 SLD x SLD16U-17 SLD x SLD24U-17 SLD x SLD Series 135 SLD Series

142 Axial Leaded 22W > SLD series Ratings and Characteristic Curves (T A =25 C unless otherwise noted) Figure 1 - Peak Pulse Power Rating Curve Figure 2 - Pulse Derating Curve 1 1 P PPM -Peak Pulse Power (kw) Peak Pulse Power (P PP ) or Current (I PP ) Derating In Percentage% t d -Pulse Width (sec.) T A -Ambient temperature (ºC) Figure 3 - Pulse Waveform Figure 4 - Typical Junction Capacitance I PPM - Peak Pulse Current, % I RSM t d ( ) t - Time (ms) T j =25ºC Pulse Width (td) is defined as the point where the peak current decays to 5% of I PPM Cj (pf) V R Bi-directional V=V V R Uni-directional V=V 1 Tj=25C f=1.mhz Vsig=5mVp-p V BR - Reverse Breakdown Voltage (V) Figure 5 - Steady State Power Derating Curve Figure 6 - Maximum Non-Repetitive Peak Forward Surge Current Steady State Power Dissipation (W) L =.375 (9.5mm) Lead Lengths T L - Lead Temperature(ºC) I FSM, Peak Forward Surge Current (A) Number of Cycles at 6 Hz SLD Series 136

143 Temperature (T) Transient Voltage Suppression Diodes Axial Leaded 22W > SLD series Soldering Parameters Reflow Condition t p T P Pre Heat - Temperature Min (T s(min) ) 15 C - Temperature Max (T s(max) ) 2 C T L Ramp-up t L Critical Zone T L to T P - Time (min to max) (t s ) T s(max) Average ramp up rate (Liquidus Temp (T L ) to peak 3 C/second max T s(min) t s Preheat Ramp-down T S(max) to T L - Ramp-up Rate Reflow 3 C/second max - Temperature (T L ) (Liquidus) 217 C - Time (min to max) (t s ) 25 C t 25 C to Peak Time (t) Peak Temperature (T P ) 26 +/-5 C Time within 5 C of actual peak Temperature (t p ) Flow/Wave Soldering (Solder Dipping) Ramp-down Rate 6 C/second max Peak Temperature : 265 O C Time 25 C to peak Temperature (T P ) 8 minutes Max. Dipping Time : 1 seconds Do not exceed 28 C Soldering : 1 time Physical Specifications Environmental Specifications Weight.7oz., 2.1g Temperature Cycle JESD22-A14 Case P6 molded plastic body over passivated junction. Pressure Cooker JESD 22-A12 Polarity Color band denotes the cathode except Bipolar. High Temp. Storage JESD22-A13 Terminal Matte Tin axial leads, solderable per JESD22-B12D. HTRB JESD22-A18 Thermal Shock JESD22-A16 Dimensions D C Inches Millimeters Dimensions Min Max Min Max A B A B A C D P6 137 SLD Series

144 Axial Leaded 22W > SLD series Part Numbering System Part Marking System SLD XX U-17 X OPTION CODE: BLANK Reel Tape -B Bulk Packaging TYPE CODE: U-17 Uni-Directional -18 Bi-Directional VOLTAGE CODE (Refer to the Electrical Characteristics table) SERIES CODE Cathode Band SLDXXX F Littelfuse Logo Product Type Packaging Part Number Component Package Quantity Packaging Option Packaging Specification SLDxxXXX P6 8 Tape & Reel EIA STD RS-296E SLDxxXX-B P6 5 BOX Littelfuse Concord Packing Spec. DM-16 SLD Series 138

145 To assist you with your electronics design and selection processes, Littelfuse also offers: Comprehensive Online Product Specs on Littelfuse.com Featuring easy-to-use navigation, search and selection tools, as well as additional product details. You can rely on Littelfuse.com for instant answers and continuously up-to-date information.. Printed Product Catalogs For offline and off-the-shelf convenience, our printed product catalogs include data sheets, selection tables and tutorials covering all of our core technologies. Contact your Littelfuse product representative or visit to check availability. Circuit Protection Design Guides Our application design center website, offers a wealth of circuit protection guidance to help you select and apply the best circuit protection solution for your application.

146 As the world's #1 brand in circuit protection, Littelfuse offers a complete portfolio of circuit protection products. To request catalogs for the Littelfuse portfolio of circuit protection technologies, please contact your authorized Littelfuse product representative or visit our website at Littelfuse offers several technologies to protect sensitive electronic circuits from excess current resulting from overloads, short circuits, power cross or ground faults. Our overcurrent protection product line includes: Fuses Littelfuse offers the world s broadest range of fuse types and ratings, including cartridge, leaded, surface mount and thin film designs PTC Protectors Positive Temperature Coefficient thermistor technology provides resettable current-limiting protection Littelfuse offers multiple technologies for overvoltage suppression and switching to protect sensitive electronic circuits from excessive voltage resulting from electrostatic discharge (ESD), load switching or lightning strikes. Our overvoltage protection product line includes: Varistors Littelfuse offers surface mount Multi-Layer Varistors (MLVs) and industrial Metal Oxide Varistors (MOVs) to protect against transients GDTs Gas Discharge Tubes (GDTs) to dissipate voltage through a contained plasma gas Thyristors Littelfuse's solid state switches control the flow of current in a wide range of appliances, tools and equipment SIDACtor Devices Overvoltage protection specifically designed for telecom and datacom requirements TVS Diodes Silicon transient voltage suppression (TVS) devices SPAs Silicon Protection Arrays designed for analog and digital signal line protection PulseGuard ESD Suppressors Small, fast-acting Electrostatic Discharge (ESD) suppressors Printed in USA Specifications descriptions and illustrative material in this literature are as accurate as known at the time of publication, but are subject to changes without notice. Visit for the most up-to-date technical information. FORM NO. EC111 Revision Code: EC2111v1E84