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VS-8ETL06S2LHM3
Fast / Ultrafast Diode, 600 V, 8 A, Single, 1.05 V, 170 ns, 175 A
⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.
- Manufacturer: VISHAY
- Product type: Fast & Ultrafast Recovery Rectifier Diodes
- SVHC: Lead (04-Feb-2026)
- No. of Pins: 2 Pin
- Product Range: FRED Pt Series
- Qualification: AEC-Q101
- Diode Case Style: TO-263AB (D2PAK)
- Diode Configuration: Single
- Forward Voltage Max: 1.05V
- Forward Surge Current: 175A
- Reverse Recovery Time: 170ns
- Average Forward Current: 8A
- Operating Temperature Max: 175°C
- Repetitive Peak Reverse Voltage: 600V
| Delivery and price | |
|---|---|
| Units per pack | 500 |
| Price | 0.66 € |
| Current stock | 500+ |
| Lead time | 30 days |
Datasheet
**VS-8ETL06S2LHM3** www.vishay.com Vishay Semiconductors ## **Ultralow VF Hyperfast Rectifier for Discontinuous Mode PFC, 8 A FRED Pt[®]** ## **FEATURES** **==> picture [95 x 10] intentionally omitted <==** **----- Start of picture text -----**<br> D [2] PAK 2L (TO-263AB 2L)<br>**----- End of picture text -----**<br> **==> picture [60 x 88] intentionally omitted <==** **----- Start of picture text -----**<br> Base<br>cathode<br>4<br>1 3<br>N/C Anode<br>**----- End of picture text -----**<br> - Benchmark ultralow forward voltage drop - Hyperfast recovery time - Low leakage current - 175 °C operating junction temperature - Meets MSL level 1, per J-STD-020, LF maximum peak of 245 °C - Meets JESD 201 class 2 whisker test - AEC-Q101 qualified - Material categorization: for definitions of compliance please see www.vishay.com/doc?99912 ## **DESCRIPTION** |**PRIMARY CHARACTERISTICS**|**PRIMARY CHARACTERISTICS**| |---|---| |IF(AV)|8 A| |VR|600 V| |VFat IF|0.81 V| |trrtyp.|60 ns| |TJmax.|175 °C| |Package|D2PAK 2L (TO-263AB 2L)| |Circuit configuration|Single| State of the art, ultralow VF, soft-switching hyperfast rectifiers optimized for discontinuous (critical) mode (DCM) power factor correction (PFC). The minimized conduction loss, optimized stored charge and low recovery current minimize the switching losses and reduce over dissipation in the switching element and snubbers. The device is also intended for use as a freewheeling diode in power supplies and other power switching applications. ## **APPLICATIONS** AC/DC SMPS 70 W to 400 W e.g. laptop and printer AC adaptors, desktop PC, TV and monitor, games units and DVD AC/DC power supplies. ## **MECHANICAL DATA** **Case:** D[2] PAK 2L (TO-263AB 2L) Molding compound meets UL 94 V-0 flammability rating **Terminals:** matte tin plated leads, solderable per J-STD-002 |**ABSOLUTE MAXIMUM RATINGS**|**ABSOLUTE MAXIMUM RATINGS**|**ABSOLUTE MAXIMUM RATINGS**|**ABSOLUTE MAXIMUM RATINGS**|**ABSOLUTE MAXIMUM RATINGS**| |---|---|---|---|---| |**PARAMETER**|**SYMBOL**|**TEST CONDITIONS**|**MAX.**|**UNITS**| |Peak repetitive reverse voltage|VRRM||600|V| |Average rectified forward current|IF(AV)|TC= 160 °C|8|A| |Non-repetitive peak surge current|IFSM|TJ= 25 °C|175|| |Peak repetitive forward current|IFM||16|| |Operatingjunction and storage temperatures|TJ, TStg||-55 to +175|°C| |**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~|**ELECTRICAL SPECIFICATIONS**(TJ= 25 °C unless otherwise specified)<br>~~Ce~~| |---|---|---|---|---|---|---| |**PARAMETER**<br>~~a~~<br>~~GGG~~|**SYMBOL**<br>~~GGG~~|**TEST CONDITIONS**<br>~~GGG~~|**MIN.**<br>~~GGG~~|**TYP.**<br>~~GGG~~|**MAX.**<br>~~GGG~~|**UNITS**<br>~~GGG~~| |Breakdown voltage, blockingvoltage<br>~~ee~~|VBR, VR<br>~~ee~~|IR= 100 μA|600|-|-|V<br>~~e~~| |Forward voltage<br>~~|~~<br>~~**e**e~~<br>~~G~~|VF<br>~~es~~<br>~~G~~|IF= 8 A|-|0.96|1.05|| |||IF= 8 A, TJ= 150 °C<br>~~es e~~<br>|-<br>~~ee~~<br>~~e~~<br>|0.81<br>~~**e**e~~<br>~~e~~<br>|0.86<br>~~e~~|| |Reverse leakage current<br>~~**e**e~~<br>~~G~~|IR<br>~~es~~<br>~~G~~|VR= VRrated<br>~~ee~~<br>~~es e~~<br>|-<br>~~ee~~<br>~~ee~~<br>~~e~~<br>|0.05<br>~~ee~~<br>~~**e**e~~<br>~~e~~<br>|5<br>~~ee~~<br>~~e~~|μA<br>~~e~~| |||TJ= 150 °C, VR= VRrated<br>~~es e~~<br>|-<br>~~ee~~<br>~~e~~<br>|20<br>~~**e**e~~<br>~~e~~<br>|100<br>~~e~~|| |Junction capacitance<br>~~**e**e ~~<br>~~G~~<br>~~ee~~|CT<br> ~~es~~<br>~~G ~~<br>~~ee ee~~|VR= 600 V<br>~~es e~~<br> ~~GO~~<br>~~ee~~|-<br>~~ee ~~<br>~~e~~<br>~~GO~~|17<br> ~~**e**e~~<br>~~e ~~<br>~~GO~~|-<br> ~~e~~|pF<br>~~e~~| |Series inductance<br>~~ee~~|LS<br>~~ee ee~~|Measured lead to lead 5 mm from<br>package body<br>~~ee~~|-|8.0|-|nH| Revision: 25-Feb-2021 **1** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 Document Number: 96852 **VS-8ETL06S2LHM3** www.vishay.com ## Vishay Semiconductors ## **DYNAMIC RECOVERY CHARACTERISTICS** (TC = 25 °C unless otherwise specified) |**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)|**DYNAMIC RECOVERY CHARACTERISTICS**(TC= 25 °C unless otherwise specified)| |---|---|---|---|---|---|---|---| |**PARAMETER**|**SYMBOL**|**TEST CONDITIONS**||**MIN.**|**TYP.**|**MAX.**|**UNITS**| |Reverse recovery time|trr|IF= 1 A, dIF/dt = 100 A/μs, VR= 30 V||-|60|-|ns| |||TJ= 25 °C|IF= 8 A<br>dIF/dt = 200 A/μs<br>VR= 390 V|-|170|-|| |||TJ= 125 °C||-|250|-|| |Peak recovery current|IRRM|TJ= 25 °C||-|15|-|A| |||TJ= 125 °C||-|20|-|| |Reverse recovery charge|Qrr|TJ= 25 °C||-|1.3|-|μC| |||TJ= 125 °C||-|2.6|-|| |**THERMAL - MECHANICAL SPECIFICATIONS**|**THERMAL - MECHANICAL SPECIFICATIONS**|**THERMAL - MECHANICAL SPECIFICATIONS**||||| |---|---|---|---|---|---|---| |**PARAMETER**|**SYMBOL**|**TEST CONDITIONS**|**MIN.**|**TYP.**|**MAX.**|**UNITS**| |Maximum junction and storage temperature range|TJ, TStg||-55|-|175|°C| |Thermal resistance, junction to case per leg|RthJC||-|1.4|2|°C/W| |Thermal resistance, junction to ambient per leg|RthJA|Typical socket mount|-|-|70|| |Thermal resistance, case to heatsink|RthCS|Mounting surface, flat, smooth and<br>greased|-|0.5|-|| |Weight|||-|2.0|-|g| ||||-|0.07|-|oz.| |Mounting torque|||6.0<br>(5.0)|-|12<br>(10)|kgf · cm<br>(lbf · in)| |Markingdevice||Case style D2PAK 2L (TO-263AB 2L)|8ETL06SH|||| **==> picture [202 x 165] intentionally omitted <==** **----- Start of picture text -----**<br> TJ = 175 °C<br>T J = 150 °C<br>TJ = 25 ° C<br>0.4 0.8 1.2 1.6 2.0<br>VF - Forward Voltage Drop (V)<br>100<br>10<br>1<br>0.1<br>Current (A)<br>- Instantaneous Forward<br>IF<br>**----- End of picture text -----**<br> Fig. 1 - Typical Forward Voltage Drop Characteristics **==> picture [202 x 164] intentionally omitted <==** **----- Start of picture text -----**<br> 100<br>TJ = 175 °C<br>10 TJ = 150 °C<br>T J = 125 °C<br>1 TJ = 100 °C<br>T J = 75 °C<br>0.1<br>TJ = 50 °C<br>0.01 TJ = 25 °C<br>0.001<br>100 200 300 400 500 600<br>VR - Reverse Voltage (V)<br> - Reverse Current (µA)<br>IR<br>**----- End of picture text -----**<br> Fig. 2 - Typical Values of Reverse Current vs. Reverse Voltage Revision: 25-Feb-2021 Document Number: 96852 **2** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 **VS-8ETL06S2LHM3** www.vishay.com ## Vishay Semiconductors **==> picture [192 x 164] intentionally omitted <==** **----- Start of picture text -----**<br> 100<br>TJ = 25 °C<br>10<br>0 100 200 300 400 500 600<br>VR - Reverse Voltage (V)<br>(pF)<br>Junction Capacitance<br>-<br>T<br> C<br>**----- End of picture text -----**<br> Fig. 3 - Typical Junction Capacitance vs. Reverse Voltage **==> picture [467 x 387] intentionally omitted <==** **----- Start of picture text -----**<br> 10<br> 1<br>PDM<br>D = 0.50 t 1<br>0.1 D = 0.20 D = 0.10 t2<br>D = 0.05 Notes:<br>(thermal resistance) Single pulse D = 0.02D = 0.01 1. Duty factor D = t2. Peak T J = P DM x Z 1 /t thJC2 + T C<br>0.01<br>0.00001 0.0001 0.001 0.01 0.1 1<br>t1 - Rectangular Pulse Duration (s)<br>Fig. 4 - Maximum Thermal Impedance ZthJC Characteristics<br>180 12<br>RMS limit<br>175 10<br>170 8<br>D = 0.01<br>165 6<br>D = 0.02<br>DC<br>D = 0.05<br>160 Square wave (D = 0.50) 4 D = 0.10<br>Rated VR applied D = 0.20<br>155 2 DC D = 0.50<br>See note (1)<br>150 0<br>0 2 4 6 8 10 12 14 0 2 4 6 8 10 12<br>IF(AV) - Average Forward Current (A) IF(AV) - Average Forward Current (A)<br>Fig. 5 - Maximum Allowable Case Temperature vs. Fig. 6 - Forward Power Loss Characteristics<br>Average Forward Current<br> - Thermal Impedance (°C/W)<br>thJC<br>Z<br>Average Power Loss (W)<br>Allowable Case Temperature (°C)<br>**----- End of picture text -----**<br> ## **Note** > (1) Formula used: TC = TJ - (Pd + PdREV) x RthJC; Pd = forward power loss = IF(AV) x VFM at (IF(AV)/D) (see fig. 6); PdREV = inverse power loss = VR1 x IR (1 - D); IR at VR1 = rated VR Revision: 25-Feb-2021 Document Number: 96852 **3** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 **VS-8ETL06S2LHM3** www.vishay.com ## Vishay Semiconductors **==> picture [471 x 164] intentionally omitted <==** **----- Start of picture text -----**<br> 450 5000<br>400 V TJR = 125 °C = 390 V 4500 IIFF = 16 A = 8 A<br>350 T J = 25 °C 4000<br>300 3500<br>250 3000<br>200 2500<br>150 2000<br>100 1500<br>500 I I FF = 16 A = 8 A 1000500 V T TJJR = 125 °C = 25 °C = 390 V<br>100 1000 100 1000<br>dIF/dt (A/µs) dIF/dt (A/µs)<br> (ns) (nC)<br>trr Qrr<br>**----- End of picture text -----**<br> Fig. 7 - Typical Reverse Recovery Time vs. dIF/dt Fig. 8 - Typical Stored Charge vs. dIF/dt **==> picture [272 x 220] intentionally omitted <==** **----- Start of picture text -----**<br> (3)<br>IF trr<br>ta tb<br>0<br>(4)<br>Qrr<br>(2)<br>IRRM 0.5 IRRM<br>di(rec)M/dt (5)<br>0.75 IRRM<br>(1) diF/dt<br>(1) diF/dt - rate of change of current (4) Qrr - area under curve defined by trr<br> through zero crossing and IRRM<br>(2) IRRM - peak reverse recovery current Qrr = t 2rr x IRRM<br>(3) t from zero crossing point of negative rr - reverse recovery time measured (5) di(rec)M/dt - peak rate of change of<br> going IF to point where a line passing current during tb portion of trr<br> through 0.75 IRRM and 0.50 IRRM<br> extrapolated to zero current.<br>**----- End of picture text -----**<br> Fig. 9 - Reverse Recovery Waveform and Definitions Revision: 25-Feb-2021 Document Number: 96852 **4** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 **VS-8ETL06S2LHM3** Vishay Semiconductors www.vishay.com ## **ORDERING INFORMATION TABLE** **==> picture [375 x 194] intentionally omitted <==** **----- Start of picture text -----**<br> Device code VS- 8 E T L 06 S2 L H M3<br>1 2 3 4 5 6 7 8 9 10<br>1 - Vishay Semiconductors product<br>2 - Current rating (8 A)<br>3 - E = single diode<br>4 - T = D [2] PAK (TO-262) package<br>5 - L = ultralow VF hyperfast recovery<br>6 - Voltage rating (06 = 600 V)<br>7 - S2 = = true 2 pin D [2] PAK<br>8 - None = tube (50 pieces)<br>**----- End of picture text -----**<br> - • L = tape and reel (left oriented, for D[2] PAK package) - If needed different orientation/packaging, please contact factory - **9** - H = lead (Pb)-free - **10** - M3 = halogen-free, RoHS-compliant, and terminations lead (Pb)-free |**ORDERING INFORMATION**|**ORDERING INFORMATION**|**ORDERING INFORMATION**|**ORDERING INFORMATION**|**ORDERING INFORMATION**| |---|---|---|---|---| |**PREFERRED P/N**|**QUANTITY PER TUBE**|**MINIMUM ORDER QUANTITY**||**PACKAGING DESCRIPTION**| |VS-8ETL06S2LHM3|800|800||13" diameter reel| |||||| |**LINKS TO RELATED DOCUMENTS**||||| |Dimensions|||www.vishay.com/doc?96683|| |Part markinginformation|||www.vishay.com/doc?96693|| |Packaginginformation|||www.vishay.com/doc?95032|| |SPICE model|||www.vishay.com/doc?96055|| Revision: 25-Feb-2021 Document Number: 96852 **5** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 **Outline Dimensions** www.vishay.com ## Vishay Semiconductors ## **2L-D[2] PAK** ## **DIMENSIONS** in millimeters and inches **==> picture [496 x 319] intentionally omitted <==** **----- Start of picture text -----**<br> Conforms to JEDEC [®] outline D [2] PAK (SMD-220) B<br>A Pad layout<br>(2)(3) A c2 (E) 11.00<br>E MIN.<br>(0.43)<br>A<br>(3) L1 4<br>9.65<br>MIN.<br>(0.38)<br>(D1) (3)<br>Detail A<br>D 17.90 (0.70)<br>H 15.00 (0.625)<br>(2)<br>1 3<br>3.81<br>MIN.<br>(0.15)<br>B B 2.32<br>MIN.<br>(0.08)<br>A<br>E1 (3) 2.64 (0.103)<br>2 x b2 C 2.41 (0.096)<br>c<br>View A - A<br>2 x b<br>0.010 M A M B ± 0.004 M B Plating (4) BaseMetal<br>2 x e H b1, b3<br>Gauge<br>plane<br>(c) c1 (4)<br>0° to 8° B<br>Seating<br>plane<br>Lead tip L3 L A1 (b, b2)<br>L4 Section B - B and C - C<br>Detail “A” Scale: None<br>Rotated 90 °CW<br>Scale: 8:1<br>**----- End of picture text -----**<br> |**SYMBOL**|**MILLIMETERS**|**MILLIMETERS**|**INCHES**<br>**MIN.**<br>**MAX.**|**INCHES**<br>**MIN.**<br>**MAX.**|**NOTES**||**SYMBOL**|**MILLIMETERS**|**MILLIMETERS**|**INCHES**|**INCHES**|**NOTES**| |---|---|---|---|---|---|---|---|---|---|---|---|---| ||**MIN.**|**MAX.**|**MIN.**|||||**MIN.**|**MAX.**|**MIN.**|**MAX.**|| |A|4.06|4.83|0.160|0.190|||D1|6.86|8.00|0.270|0.315|3| |A1|0.00|0.254|0.000|0.010|||E|9.65|10.67|0.380|0.420|2, 3| |b|0.51|0.99|0.020|0.039|||E1|7.90|8.80|0.311|0.346|3| |b1|0.51|0.89|0.020|0.035|4||e|2.54 BSC||0.100 BSC||| |b2|1.14|1.78|0.045|0.070|||H|14.61|15.88|0.575|0.625|| |b3|1.14|1.73|0.045|0.068|4||L|1.78|2.79|0.070|0.110|| |c|0.38|0.74|0.015|0.029|||L1|-|1.65|-|0.066|3| |c1|0.38|0.58|0.015|0.023|4||L3|0.25 BSC||0.010 BSC||| |c2|1.14|1.65|0.045|0.065|||L4|4.78|5.28|0.188|0.208|| |D|8.51|9.65|0.335|0.380|2|||||||| ## **Notes** > (1) Dimensioning and tolerancing per ASME Y14.5 M-1994 > (2) Dimension D and E do not include mold flash. Mold flash shall not exceed 0.127 mm (0.005") per side. These dimensions are measured at the outmost extremes of the plastic body > (3) Thermal pad contour optional within dimension E, L1, D1 and E1 > (4) Dimension b1 and c1 apply to base metal only > (5) Datum A and B to be determined at datum plane H - (6) Controlling dimension: inch - (7) Outline conforms to JEDEC® outline TO-263AB Revision: 30-Nov-2020 Document Number: 96683 **1** For technical questions within your region: DiodesAmericas@vishay.com, DiodesAsia@vishay.com, DiodesEurope@vishay.com THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000 **Legal Disclaimer Notice** Vishay www.vishay.com ## **Disclaimer** ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE. Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively, “Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product. Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability. Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein. Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners. _**© 2021 VISHAY INTERTECHNOLOGY, INC. ALL RIGHTS RESERVED**_ Revision: 01-Jan-2021 Document Number: 91000 **1**
Updated at June 7, 2026
Vishay is a global leader in the manufacturing of discrete semiconductors and passive electronic components. Renowned for its exceptional quality and engineering expertise, the company produces highly reliable solutions that drive innovation across the industrial, automotive, telecommunications, and consumer electronics markets. From advanced factory automation to vehicle electrification, Vishay components provide the foundational building blocks for modern electronic design. The company's expansive portfolio is heavily focused on efficient power management, signal routing, and energy storage. Within its passive component lineup, Vishay is recognized for its extensive array of high-performance capacitors, including robust aluminium electrolytic, film, and polymer variants, alongside highly efficient power inductors. In the realm of discrete semiconductors, Vishay is a premier manufacturer of single and dual MOSFETs, as well as a vast selection of Schottky, Zener, and fast-recovery rectifier diodes designed for demanding power applications. Furthermore, Vishay delivers industry-leading circuit protection and thermal management solutions. With a broad offering of transient voltage suppressors (TVS diodes) and temperature-sensing NTC thermistors, these components are engineered to safeguard sensitive circuitry against both electrical and thermal overstress. By combining this vital mix of advanced discretes and passives, Vishay enables engineers to develop robust, space-saving, and highly resilient electronic systems.
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