TRS1-90BPR001

Thermal Sensors TRS Thermal Reed Switch, Screw Type Overview Applications The TRS Thermal Reed Switch is a highly reliable, precise temperature-sensitive switch ideal for energy conservation. The screw mounting package of TRS-P makes it easy to set up in the application, by just screwing it in the device that needs temperature detection or overheat monitoring. Typical applications include radiator water detection and overheat detection for industrial and agricultural engines. Its unique proprietary design features a magnet and a temperature-sensing soft ferromagnetic substance called Thermorite®. The material’s magnetic flux density decreases as the temperature increases turning it into a paramagnetic substance at the Curie temperature. These products have also been attested by the International Relay Association. Benefits • High reliability for on/off operations • High-speed response • Long operational life • Excellent environmental durability • Extremely simple circuit design with the screw mounting • Compact, light, and easy to handle TRS-P1 Type • Dust, explosion and corrosion-proof • Wide range of operating temperatures available from 80°C to +120°C • Excellent temperature accuracy of ±3°C • RoHS/REACH compliant TRS-P2 Type Built Into Tomorrow © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com SE0219_TRS-P • 11/5/2021 1 Thermal Sensors – TRS Thermal Reed Switch, Screw Type Ordering Information TRS 1- 80 M PR 001 Series Maximum Opening/Closing Power (W) Operating Temperature (°C) Contact Type Shape Classification Lead Type TRS 1 = 10 W 80 = 80°C 85 = 85°C 90 = 90°C 95 = 95°C 100 = 100°C 105 = 105°C 110 = 110°C 115 = 115°C 120 = 120°C B = Break M = Make PR = P shape PT screw 001 = PT1/8 002 = PT3/8 Structures and Principles of Operation Thermal Reed Switches (TRSTM) are temperature-sensing switches composed of a magnet and a temperaturesensing soft ferromagnetic substance called ThermoriteTM. This material's saturation magnetic flux density decreases as the temperature increases, and itof turns into a paramagnetic substance at the Curie temperature. Structures and Principles Operation Thermal Reed Switches (TRS) are temperature-sensing switches composed of a magnet and a temperature-sensing soft ferromagnetic substance called Thermorite. This material’s saturation magnetic flux density decreases as the temperature Temperature sensing ferrite（Thermorite Ⓡ） increases, and it turns into a paramagnetic substance at its Curie temperature. ◆ Our self-developed Themorite is temperature sensing ferrite utilizing Curie-temperature, where ferrites lose its magnetic property. Thermorite properties Thermorite changes its magnetic property rapidly at Curie-temperature. of Thermorite as temperature sensing material.rapidly at its Curie temperature, providing quick response times. ◆ Features • Thermorite changes its magnetic property (1) Curie-temperature do not vary as time advances, because it depends on compounding ratio. • The Curie temperature of Thermorite does not vary with time, as it is based on a compounding ratio. (2) Arbitrary shape available as ceramics. Thermorite is stable againstgas. moisture and hazardous gas. (3) • Stable against moist or hazardous Thermal property of Thermorite Permeability - temperature TC＝60 TC＝90 Permeability TC＝120 4000 3000 TC＝150 2000 1000 0 20 40 60 80 100 120 140 160 3500 Saturation magnetic flux density TC＝30 5000 0 Saturation magnetic flux density ‒ temperature （1kHz-0.01Oe） 6000 3000 2500 2000 TC＝150 TC＝90 1500 TC＝60 1000 TC＝120 TC＝30 500 0 0 20 40 Temperature （℃） 60 80 100 120 140 160 Temperature（℃） TC=Curie temperature Encasing Structure of reed switch ◆ Reed switch is contact switch comprised of a pair of Fe-Ni alloy reeds encased in glass tube with inactive gas. The reeds are switched on or off Inactive gas by magnetic field of permanent magnet or magnet coil. ◆ Long lifetime, High environmental resistance because of protected contact by glass encasing. N ◆ Reeds in glass tube become magnetized with S magnetic field, and then two reeds contact and connect each other (switch on). And then magnetic field© disappears, the reeds separate and disconnect KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard (switch off). Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com Glass tube Contact Fe-Ni alloy reed S N N S SE0219_TRS-P • 11/5/2021 2 TC＝150 2000 1000 Thermal Sensors – TRS Thermal Reed Switch, 0Screw Type 0 20 40 60 80 100 120 140 160 Saturation magneti Permeabi 3000 2000 TC＝60 1000 TC＝120 TC＝30 500 0 0 20 40 Temperature（℃） 60 80 100 120 140 160 Temperature（℃） Structures and PrinciplesTC=Curie of Operation cont. temperature Reed switch structure • The reed switch is a contact switch comprised Structure of reed switch of a pair of Fe-Ni alloy reeds encased in a glass tube switch with inactive Thecomprised reeds areofswitched is contactgas. switch a pair of ◆ Reed reeds encasedmagnet in glass or tube on or off by the magneticFe-Ni field alloy of a permanent magnet coil. with inactive gas. The reeds are switched on or off • The reeds in the glass tube become magnetized from the magnetic by magnetic field of permanent magnet or magnet field, allowing the two reeds coil.to make contact and connect (switch on). Long lifetime, resistance When the magnetic field the High reedsenvironmental separate and disconnect ◆disappears, because of protected contact by glass encasing. (switch off). ◆ Reeds in glass tube become magnetized with • The glass encasement ofmagnetic the reedsfield, ensures high environmental and then two reeds contact and resistance and a long operational life. connect each other (switch on). And then magnetic TC＝150 TC＝90 1500 Encasing Glass tube Inactive gas Contact S N S Fe-Ni alloy reed N N S field disappears, the reeds separate and disconnect (switch off). TRS principle: Break (B) type TRS principle : Break (B) type TRS principle : Break (B) type （ ■：Permanent magnet　■：Thermorite®　■：Reed switch contact area ） （ ■：Permanent magnet　■：Thermorite®　■：Reed switch contact area ） Reset temperature Action temperature Reset temperature Action temperature Low temperature Low temperature Thermal magnet = paramagnet Thermal magnet = paramagnet N N S S S S N N S S N N S S N N S S N N S S N N S S N N NEC TOKIN Sensors Vol.14　5 S S N N S N specifications ●All in this catalog and production products S N S status of N S are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data. S N Srequest for a specification sheet N S N data S prior to the purchase. ●Please for detailed product ●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog. N N ＜Magnetic Field of Contact Part＞ ＜Magnetic Field of Contact Part＞ Magnetic Flux Forming => Reed switch ON Magnetic Flux Forming => Reed switch ON S S High temperature High temperature Thermal magnet = NO magnetic Thermal magnet = NO magnetic N N S S ＜Magnetic Field of Contact Part＞ ＜Magnetic Field of Contact Part＞ Magnetic Flux ≒0 => Reed switch OFF Magnetic Flux ≒0 => Reed switch OFF 2015.3.31　0000SENVOL14E1503H1 N N Switch ON Switch ON Switch OFF Switch OFF TRS principle: Make (M) type TRS principle : Make (M) type TRS principle : Make (M) type （ ■：Permanent magnet　■：Thermorite®　■：Gapspacer（SP）　■：Reed switch contact area ） （ ■：Permanent magnet　■：Thermorite®　■：Gapspacer（SP）　■：Reed switch contact area ） Reset temperature Action temperature Reset temperature Action temperature Low temperature Low temperature High temperature High temperature Thermal magnet = paramagnet Thermal magnet = paramagnet Thermal magnet = NO magnetic Thermal magnet = NO magnetic N N S S N N S S S S S S N N N N S S N N S S S S N N N N S SP N S SP N S SP N S SP N S S S S N N N N ＜Magnetic Field of Contact Part＞ ＜Magnetic Field of Contact Part＞ Magnetic Flux ≒0 => Reed switch OFF Magnetic Flux ≒0 => Reed switch OFF S S N N S S S S N N N N S S ＜Magnetic Field of Contact Part＞ ＜Magnetic Field of Contact Part＞ N N S S N N Switch OFF Switch OFF N N S S Switch ON Switch ON 6　NEC TOKIN Sensors Vol.14 6　NEC TOKIN Sensors Vol.14 © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com ●All specifications in this catalog and production status of products are subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data. ●All specifications catalog and production status of products are to subject to change without notice. Prior to the purchase, please contact NEC TOKIN for updated product data. ●Please request forinathis specification sheet for detailed product data prior the purchase. ●Please request a specification sheet for detailed data prior the purchase. ●Before using theforproduct in this catalog, please readproduct "Precautions" andtoother safety precautions listed in the printed version catalog. ●Before using the product in this catalog, please read "Precautions" and other safety precautions listed in the printed version catalog. 2015.3.31　0000SENVOL14E1503H1 2015.3.31　0000SENVOL14E1503H1 SE0219_TRS-P • 11/5/2021 3 External magnetic field Thermal Sensors – TRS Thermal Reed Switch, Screw Type TRS/OHD installation direction in external magnetic field External Magnetic Field Magnetic field emitting equipment such as motors, coils External magnetic fieldequipment Magnetic field from TRS/OHD installation in direction in external magnetic TRS Installation External Magnetic Fieldfield Magnetic field emitting equipment such as motors, coils Magnetic field from equipment Wrong direction Correct direction N N S S Wrong direction Correct direction N N S S S N N S S S N Magnet inside TRS is perpendicular to the external field → Less influence N Magnet inside TRS is parallel to the external field → Greater Influence Magnet inside TRS is parallel to the external field → Greater Influence Magnet inside TRS is perpendicular to the external field → Less influence Ferromagnetic material influence Operation temperature variation (°C) Ferromagnetic Material Influence 3 2 Ferromagnetic material influence 1 －2 －3 －4 －5 Operation temperature variation (°C) 0 －1 3 BType 2 MType 1 TRS 0 －1 －2 0 BType 2 4 －3 6 8 10 12 Gap distance_d（mm） －4 －5 14 d MType Soft iron (thickness 3.3mm) 16 TRS Note; Above figures are for reference only and are not guarantee d values.d 0 2 4 6 8 10 12 Gap distance_d（mm） 14 16 Soft iron (thickness 3.3mm) TM Before Using Thermal Reed Switch (TRS ) Note; Above figures are for reference only and are not guarantee d values. • Please ask for a copy of specification and check the contents thoroughly before the actual use. • Please contact us before deciding your specifications. • Do not use in close proximity to strongly magnetized parts. TM Before Thermal Reed Switch (TRS ) • Do not useUsing if dropped or strongly shocked. • Please forgreater a copyload of specifi • Do NOT useask with thancation specifiand ed. check the contents thoroughly before the actual use. W h•ePlease n i nstalcontact l i ng thesus e sbefore wi tchedeciding s i n ci rcuiyour ts prospecifi ne to cations. produci ng surge vol tage ( i nducti ve l oad) or rush current • Do not usemotors), in closean proximity to strongly magnetized parts. (in lamps and appropriate switch type should be used, or a contact point protection circuit added. • A vo•iDo d stnot ress use ( espifecdropped i al l y torsor i onstrongly ) i n case shocked. of addi ti onal processi ng. NOT use with than specifi ed. • Each• Do reed switch has agreater specificload resonance frequency. Please contact us when an oscillation is added. W hen i nstal l i ng these swi tches i n ci rcui ts prone to produci ng surge vol tage ( i nducti ve l oad) or rush current (in lamps and motors), an appropriate switch type should be used, or a contact point protection circuit added. • A voi d stress ( especi al l y torsi on) i n case of addi ti onal processi ng. NEC TOKIN Sensors Vol.14 　7 • Each reed switch has a specific resonance frequency. Please contact us when an oscillation is added. cifications in this catalog and production status ofopr request for a specification sheet for detailed product d using the product in this catalog, please read "Precau t ducts are subject to change without notice. Prior to the purch a ata prior to the purchase . ions" and other safety precautions listed in the printed versi o © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard NECNEC TOKIN Vol.14 　7 .data se, please contact TOKINSensors for updated product n catalog. All specifications in this catalog and production status ofopr ducts are subject to change without notice. Prior to the purch a Fort FL 33301 USAproduct • 954-766-2800 Please request for aLauderdale, specification sheet for detailed d ata prior •towww.kemet.com the purchase . Before using the product in this catalog, please read "Precau t ions" and other safety precautions listed in the printed versi o 2015.3.31　0000SENVOL14E1503H 1 SE0219_TRS-P • 11/5/2021 se, please contact NEC TOKIN for updated product .data n catalog. 4 Thermal Sensors – TRS Thermal Reed Switch, Screw Type Dimensions – Millimeters Part Type Dimensions - Millimeters 2 1. 5 31 14 14 7 Epoxy Resin"Yellow" Seal Processing 9 Minimum 1.5 8 5.5 3 Maximum 4 1~2.5 0.8 3 21.5 7 Epoxy Resin"Red" PT1/8 34.5 14 14 φ7.7 φ6 φ10 5.5 Soldering Lead Free φ2 8 6.3 TRS1-***BPR001 8 9 3 Maximum Seal Processing 9 Minimum 1.5 4 1~2.5 φ 0.8 3 22 17 PT1/8 φ7.7 φ6 φ10 5.5 Soldering Lead Free 2 8 6.3 TRS1-***MPR001 37 7 Epoxy Resin"Green" 8 14 9 Minimum 9 Seal Processing 1~2.5 1.5 φ13 φ6 φ9.8 φ17.2 5.5 φ2 6. 3 8 TRS1-***BPR002 PT3/8 4 Soldering Lead Free 0.8 3.5 22 17 37 7 Epoxy Resin"Blue" 11 Seal Processing 1~2.5 1.5 8 14 9 Minimum φ13 φ6 φ9.8 φ17.2 5.5 φ 2 6. 3 8 TRS1-***MPR002 PT3/8 4 0.8 3.5 © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com Soldering Lead Free SE0219_TRS-P • 11/5/2021 5 Thermal Sensors – TRS Thermal Reed Switch, Screw Type Environmental Compliance All KEMET Thermal Sensors are RoHS compliant. Performance Characteristics Item Operations Performance Characteristics All types 100,000 times Condition All types 1) Power supply voltage: 13.5 VDC Connection load: lamp Drive: On = 1 second, Off = 29 seconds 2) 14 VDC – 28 Ω (purely resistive load) Judgement All types 1) No stick 2) Contact resistance be within 500 mΩ TRS-P1 type 7.35 N•m maximum (75 kgf•cm maximum) Use a torque wrench or nut runner as a tightening tool TRS-P2 type 34.3 N•m maximum (350 kgf•cm maximum) Use a torque wrench or nut runner as a tightening tool Screw Torque Recommendation Insulation & Temperature Characteristics 1 2 Shape Type Operating Temperature Range Switching Temperature Range Switching Temperature Precision1 Differential Temperature2 P shape PT screw −20°C to +130°C 80°C to +120°C ±3.0°C 10°C Maximum Switching temperature precision does not include measurement error. The differential temperature is also referred to as the hysteresis temperature on thermal sensors. © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com SE0219_TRS-P • 11/5/2021 6 Thermal Sensors – TRS Thermal Reed Switch, Screw Type Table 1 – Ratings & Part Number Reference Part Number 1 Switching Temperature (°C) Maximum Differential Temperature (°C) Contact Type Maximum Opening/ Closing Voltage (V) Maximum Opening/ Closing Current1 (A) Maximum Opening/ Closing Power1 (W) Minimum Opening/ Closing Current Maximum Contact Resistance (mΩ) Weight (g) TRS1-80BPR001 80°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-85BPR001 85°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-90BPR001 90°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 15.0 TRS1-95BPR001 95°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 TRS1-100BPR001 100°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-105BPR001 105°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-110BPR001 110°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-115BPR001 115°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-120BPR001 120°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 15.0 TRS1-80MPR001 80°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-85MPR001 85°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-90MPR001 90°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-95MPR001 95°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-100MPR001 100°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-105MPR001 105°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-110MPR001 110°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-115MPR001 115°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-120MPR001 120°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 16.2 TRS1-80BPR002 80°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-85BPR002 85°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-90BPR002 90°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-95BPR002 95°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-100BPR002 100°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-105BPR002 105°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-110BPR002 110°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-115BPR002 115°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-120BPR002 120°C ±3°C 10°C Break 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 34.0 TRS1-80MPR002 80°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-85MPR002 85°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-90MPR002 90°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-95MPR002 95°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-100MPR002 100°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-105MPR002 105°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-110MPR002 110°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-115MPR002 115°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 TRS1-120MPR002 120°C ±3°C 10°C Make 100 DC 0.500 DC 10.0 DC 5 mA/1 VDC 500 35.0 Part Number Switching Temperature (°C) Maximum Differential Temperature (°C) Contact Type Maximum Minimum Maximum Maximum Maximum Contact Opening/Closing Opening/Closing Opening/Closing Opening/Closing Power1 (W) Current Resistance (mΩ) Voltage (V) Current1 (A) Weight (g) Lamp load (13.5 V – 3.4 W lamp), 50 VA, 0.5 A in rush 3 A. © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com SE0219_TRS-P • 11/5/2021 7 Thermal Sensors – TRS Thermal Reed Switch, Screw Type Marking Lot Code 1112 445 Operating Temperature Contact Type (1) 2-3 digits 80 = 80°C 95 = 95°C 110 = 110°C (2) 1 digit B = Break M = Make (4) 2 digits 01 = January 09 = September 10 = October 11 = November 12 = December (5) 1 digit A = 2017 B = 2018 C = 2019 D = 2020 Except I and O LOT CODE Month of the Year Year Packaging Series Packaging Type Pieces per Package Pieces per Box TRS-P Tray 100 100 Handling Precautions Precautions to be taken when using Thermal Reed Switches (Please read these precautions before using our products) • Do NOT use in close proximity to strong magnetic parts. • Do NOT use product under mechanical weight load. • Do NOT use if dropped or severely shocked. • Do NOT use with a greater load than specified. • Avoid stress (especially torsion) in case of additional processing. • Thermal Reed Switches have a specific resonance frequency. Please contact a KEMET representative if an oscillation is added. © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com SE0219_TRS-P • 11/5/2021 8 Thermal Sensors – TRS Thermal Reed Switch, Screw Type KEMET Electronics Corporation Sales Offices For a complete list of our global sales offices, please visit www.kemet.com/sales. Disclaimer All product specifications, statements, information and data (collectively, the “Information”) in this datasheet are subject to change. The customer is responsible for checking and verifying the extent to which the Information contained in this publication is applicable to an order at the time the order is placed. All Information given herein is believed to be accurate and reliable, but it is presented without guarantee, warranty, or responsibility of any kind, expressed or implied. Statements of suitability for certain applications are based on KEMET Electronics Corporation’s (“KEMET”) knowledge of typical operating conditions for such applications, but are not intended to constitute – and KEMET specifically disclaims – any warranty concerning suitability for a specific customer application or use. The Information is intended for use only by customers who have the requisite experience and capability to determine the correct products for their application. Any technical advice inferred from this Information or otherwise provided by KEMET with reference to the use of KEMET’s products is given gratis, and KEMET assumes no obligation or liability for the advice given or results obtained. Although KEMET designs and manufactures its products to the most stringent quality and safety standards, given the current state of the art, isolated component failures may still occur. Accordingly, customer applications which require a high degree of reliability or safety should employ suitable designs or other safeguards (such as installation of protective circuitry or redundancies) in order to ensure that the failure of an electrical component does not result in a risk of personal injury or property damage. Although all product–related warnings, cautions and notes must be observed, the customer should not assume that all safety measures are indicted or that other measures may not be required. When providing KEMET products and technologies contained herein to other countries, the customer must abide by the procedures and provisions stipulated in all applicable export laws and regulations, including without limitation the International Traffic in Arms Regulations (ITAR), the US Export Administration Regulations (EAR) and the Japan Foreign Exchange and Foreign Trade Act. KEMET is a registered trademark of KEMET Electronics Corporation. © KEMET Electronics Corporation • KEMET Tower • One East Broward Boulevard Fort Lauderdale, FL 33301 USA • 954-766-2800 • www.kemet.com SE0219_TRS-P • 11/5/2021 9